Stacking and wrapping device

FIELD: packaging industry.

SUBSTANCE: device comprises a stacking device (64a, 64b) with a predetermined number of sheets of paper on the stacking unit, the wrapping device (68) made with the ability to wrap a tape on the pack of stacked sheets of paper, and a transport carriage (80, 82) made with the ability of receiving and transporting the pack of sheets of paper to the wrapping device which comprises a gripping assembly, a driving mechanism of grippers made with the ability to open and close the gripping assembly in the position of stacking the pack of sheets of paper, as well as the reciprocating motion of the gripping assembly at right angles to the direction of stacking, and a taping device made with the ability of winding the wrapping tape around the pack of sheets of paper, retracted in the position roping.

EFFECT: increase in speed of operation of the device.

13 cl, 56 dwg

 

The technical field to which the invention relates.

Embodiments of described herein generally relate to stacking foot and wrapping device, able to lay foot and wrapping paper sheets, such as banknotes, securities, etc.

Background of invention

In recent years in banking, large-scale retail trade, etc. every day was processing a large number of banknotes. There is a service on the classification and arrangement of notes in a certain order in accordance with their dignity and usefulness (the degree of damage). When processing a large number of banknotes every 100 banknotes are usually wrapped or tied for storage in safes. As a system for the automation of such services by location of notes in a certain order, an apparatus for the arrangement of notes in a certain order. This device for the location of notes in a certain order contains a hopper unit, the transport mechanism control unit, store the blocks, stacking foot and wrapping device, etc. Unclassified banknote stack a foot in bundles and placed in the hopper unit. The transport mechanism selects the banknotes one by one from the hopper unit. The control unit controls the transport is e banknotes according to levels of dignity and usefulness. Controlled banknote is classified according to the dignity, etc. and stack in stack in stack blocks. Stacking foot and wrapping device wraps or ties banknotes laid foot in packs, for example, of 100 pieces.

Stacking foot and wrapping device usually contains two stacking foot device, in which the stacking foot in packs of 100 banknotes, and located beneath the enveloping module. These two stacking foot facility located side by side. In addition, stacking foot and wrapping device includes a transport mechanism configured to transport laid foot packs of banknotes in wrapping module. The transport mechanism includes first and second carriage located with the possibility of moving up and down in each stacking foot devices. The first carriage vertically transports laid foot of the banknote. The second carriage is made with the possibility of lateral movement. The second carriage takes the stack of sheets on each of the first carriage and transports and delivers them in a wrapping module.

In stacking foot and wrapping device made in this way, both stacking foot facility located side by side and they are both the second carriage. Therefore, required is alsoe space for installation consequently, all the device must be large. In addition, since both the first and both second carriage are driven independently, the operation of the device as a whole is complicated and can be a hindrance to performance.

Brief description of drawings

Figure 1 shows the cross-section, illustrating a device for handling banknotes in accordance with the first embodiment;

figure 2 presents the block diagram, conventionally illustrating a device for handling banknotes;

figure 3 presents the cross-section, illustrating the stacking foot and a relay module device for handling banknotes;

figure 4 shows in plan, illustrating the first and second stacking foot device, respectively;

figure 5 presents a perspective representation illustrating the transport mechanism stacking foot and wrapping module;

figure 6 presents a view schematically illustrating a first operational state of the transport mechanism;

figure 7 presents a view schematically illustrating a second operational state of the transport mechanism;

on Fig presents a view schematically illustrating a third operational state of the transport mechanism;

figure 9 presents a view schematically illustrating a fourth operating state is the transport mechanism;

figure 10 presents a view schematically illustrating a fifth operational state of the transport mechanism;

figure 11 presents a view schematically illustrating a sixth operating state of the transport mechanism;

on Fig presents a promising picture, schematically illustrating in General a relay device stacking foot and a relay module;

on Fig presents perspective representation illustrating the release block and Leontopodium device enveloping device;

on Fig shows a front view illustrating in General letoalmonace device with a disconnected node Shatov enveloping device and with a raised upper clamp;

on Fig shows a front view illustrating in General letoalmonace device with a closed node Shatov enveloping device and the second fixing unit and heat tape in the locked position and the sealing position, respectively;

on Fig presents perspective representation illustrating the node Shatov and the drive mechanism Shatov;

on Fig presents perspective representation illustrating the node Shatov and the drive mechanism Shatov;

on Fig shows a front view illustrating the node Shatov and the drive mechanism Shatov in open position;

on Fig represent the MS front view, illustrating the node Shatov and the drive mechanism Shatov in close position;

on Fig shows a front view illustrating the node Shatov and the drive mechanism Shatov in its extended position;

on Fig shows a front view illustrating the node Shatov and the drive mechanism Shatov in retracted;

on Fig presents perspective representation illustrating a gear wheel with internal teeth, car safety belt, as well as breaking and contiguous mechanism dentoalveolar device;

on Fig shows a front view illustrating a gear wheel with internal teeth, car safety belt, disconnect and contiguous mechanism and Leontopodium mechanism dentoalveolar device;

on Fig presents perspective representation illustrating the safety device of the tape in its open position;

on Fig shows a front view, partly in section, illustrating a gear wheel with internal teeth, a car safety belt and Leontopodium device;

on Fig shows a front view illustrating a gear wheel with internal teeth, a car safety belt and Leontopodium device;

on Fig shows a front view illustrating a gear wheel with internal teeth, a car safety belt in a horizontal position and Leontopodium eliminate the STV;

on Fig presents perspective representation illustrating the first latch tape dentoalveolar device;

on Fig presents a side view illustrating the first release of the tape and the first drive mechanism of the clamp;

on Fig shows a front view illustrating the upper clamp and the first drive mechanism of the clamping dentoalveolar device;

on Fig presents perspective representation illustrating the upper clamp and the first drive mechanism of the clamp;

on Fig presents perspective representation illustrating a second latch belt, a heater, and a second drive mechanism clamp dentoalveolar device;

on Fig presents perspective representation illustrating a second latch belt, a heater, and a second drive mechanism of the clip in their respective positions waiting;

on Fig presents a side view illustrating the second release of the tapes in a locked position, the heater is in the sealing position and the drive mechanism of the second clamp;

on Fig shows a front view illustrating the upper clamp, the second clamp tape in a locked position, the heater is in the sealing position and the stack of banknotes;

on figa, 36B and 36C are on the side of the node Shatov releasing unit and releasing mechanism;

on Fig presents a side view of the structures is non-stop and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents perspective representation illustrating how the reception of the bundle of bills node Shatov;

on Fig presents perspective representation illustrating how the translation of the bundle of bills node Shatov position wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig represent the MS side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig shows a front view illustrating how the fixing of the bundle of bills and wrapping tape the top clip and the first latch ribbon;

on Fig presented in an enlarged scale a front view illustrating how the first drive mechanism of the clamp rests on the support plate;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of the stacking foot and about what stevania;

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps; and

on Fig presents a side view of the stacking foot and wrapping device, schematically illustrating the operation of placing the foot and wraps.

Detailed description

Below, with reference to the accompanying drawings, will be described different ways of implementation. In General, in accordance with one embodiment, stacking foot and wrapping device includes: placing a device configuration that provides a stacking foot predefined number of sheets of paper laying on the block; the enveloping device configuration that provides wrap packs stacked pile of sheets of paper by wrapping tape on the pack; the transport carriage configuration which provides reception of a pack of sheets of paper placed foot stacking foot device, and transporting the stack of sheets of paper to the wrapping device. Wrapping the device contains a node Shatov made with the possibility of crushing end sections of the bundle of sheets of paper, which is transported by a transport carriage, and retracting this bundle of sheets of paper at a predetermined position of the tying,the drive mechanism Shatov, the configuration which provides the opening and closing of the node Shatov in position placing the foot stack of paper sheets and the reciprocating movement of the node Shatov in the direction crosswise to the direction of stacking foot, and letoalmonace device configuration that provides for winding a wrapping tape around the bundle of sheets of paper, drawn in position crocheting. The configuration of the transport carriage moves in the receiving position, in which it addressed to the insertion of the stop device, and receive another pack of paper sheets from the stacking foot device with simultaneous wrapping of the tape around the bundle of sheets of paper by wrapping the device after setting the stack of sheets of paper through the site Shatov.

Figure 1 shows the cross-section, schematically illustrating a device for handling banknotes in accordance with the embodiment.

As shown in figure 1, a device for handling banknotes, designed for processing banknotes as sheets of paper, contains the main module 10, the sorting module 30, stacking foot and wrapping module 60 for use as a stacking foot and wrapping devices and stacking foot module 174 large capacity. These modules are located in a line and electrically and m is mechanical connected to each other. The main module 10 includes a main unit 12 of the control configuration that provides control over the operations of the main unit and the whole device.

As shown in figures 1 and 2, the main unit 12 is located on the control Board of the main unit 10. The main unit control 12 has a Central processing unit (CPU) 12a and a storage device 12b. The CPU 12 controls the operations of the individual modules and calculates the efficiency of the operating status, etc. Storage device 12b stores various data, programs, management, administrative information, etc. Various data includes printed information printed on wrapping the ribbon, such as operator ID, date/time, sequence number, information about the allocation, the logo, the image of the signature of the administrator, the font of the characters and so on, lots of speed of processing sheets of paper, etc. that are stored in the storage device 12b.

The main unit control 12 is connected with a control element 17, the configuration of which provides input various information into the device, and a monitor 15 for use as a display to display the input data, the operating status of the device status processing, etc. Sorting module 30 and stacking foot and wrapping module 60 contains subunits 31a is 61a management accordingly designed to control the operations of the modules. These subunits management are a means local area network (LAN)connected to the main module control 12 through an interface and cable, none of which are shown. The main unit control 12 is connected to the main computer (not shown) so that information is transmitted and distributed between them.

Different settings of device operations for processing achieved by the operator through the control element 17 connected to the main module control 12. These settings include the settings of ways to perform transactions, such as receiving money, organizational maintenance, etc., loaded into the loading chamber, the control of banknotes in the loading chamber, the installation parameters of laying the cameras that contain processed banknotes P, the installation process parameters stacking foot and wraps, setting levels of fitness or levels of discernment banknotes, etc.

In addition, based on the processing information from the controlling unit 18 (described below) main unit 12 calculates data management, including the processing efficiency per unit of time, the effectiveness of treatment for many is estvo days for each operator ID and the total number of processed banknotes, loads the data in the storage device 12b and displays them on the monitor 15.

As shown in figure 1, the main module 10 includes the input unit 11, a searching mechanism 14 and the tract 16 transportation. A large number of banknotes P stacked foot in a feed block 11. Searching mechanism 14 selects the banknote P one by one from the feeding unit 11. Banknotes P, selected searching mechanism 14, is transported by highway 16 transportation. Many sets of endless belts (not shown) extends so that the tract 16 transportation passes between them. Selected banknotes P conveyed between the conveyor belts.

The input unit 11 includes a support surface 11a, passing tilted at an arbitrary angle to the vertical direction, the mounting surface 11b passing essentially perpendicular to the support surface 11a, and a pair of guide walls 11c installed along the opposite sides of the mounting surface 11b. On the border between the reference surface 11a and the installation surface 11b made the hole through which the banknotes P are introduced into the device. The input unit 11 is located in the main module 10 on one end side of the device, while its lower part, i.e. the installation surface 11b, is located near the lower end of corpuscula.

In the input unit 11 can be laid foot set (for example, 2000 or more) of the banknotes P. the Bottom of the stacked foot banknotes P placed on the installation surface 11b, and the banknote P is gradually tilted installed on the installation surface 11b so that, for example, their edges on the longer sides along the supporting surface. Through searching mechanism 14 is laid foot banknotes P are introduced one after another into the device through the hole 11e, the first is the lower bill.

The angle of the reference surface 11a is set within the range from 25° to 75°, for example from 30° to 40°. The reference surface 11a may have a configuration that enables rotation relative to the housing of the device so that its angle can be adjusted.

The input unit 11 includes a lining 21, the configuration of which provides movement laid the foot of the banknotes P to the side, where there is a selection, or the mounting surface 11b. The lining 21 is arranged to move along the support surface 11a so that it can be enclosed in this supporting surface. The lining 21 is supported to rotate on the support surface 11a. Usually when in a feed block 11 is placed about 2000 banknotes, lining 21 is in this position, what is and is essentially flush with the supporting surface 11a and is retained in this position by a torsional spring or a similar tool. As the selection of banknotes P in such a way that the number of banknotes is reduced, say, to about 300, lining 21 is rotated into a position where she is standing on the support surface 11a perpendicular to it. After that, the lining 21 rests on the top of the banknotes P and moves together with the banknotes P to the side, where there is a selection. Thus, the lining 21 may move laid the foot of the banknote P to the side, where there is a selection. Even when the number of remaining laid foot banknotes P is small, you can prevent them falling down and safely move them to the position of the selection.

Searching mechanism 14, which selects the banknotes P one by one from the feeding unit 11 contains a lot of searching rollers 24, the separating roller 25 and the motor 26 to drive. Searching rollers 24 are located so that they can abut the banknotes P on the mounting surface 11b, and separating rollers 25 are in rolling contact with the pick roller 24 on the side of the hole for the selection. The motor 26 of the actuator rotates searching rollers 24 with a predetermined speed.

As the rotation of the pick roller 24 they pick up the lower banknote P and feed it through the tract 16 transportation through the hole 11e. When this is done, the second and subsequent banknotes P are separated from the selected b nceta separating rollers 25. Thus, the banknotes P are selected one by one from the feeding unit 11 and served in the path 16 of the transport.

As shown in figure 1, along the path 16 transportation are block 13 of the correction step, the configuration of which provides a correction step of transporting the banknotes P to be transported via highway 16 transportation, the control device 18, the configuration of which provides control of banknotes P one after another with adjusted pitch of transportation, and the device 19 bar-code reading. With respect to the vertical direction of the control device 18 is located over the outlet of the feeding unit 11. The control device 18 detects the denomination (face value), shape, thickness, side (front or back), the authenticity, suitability, double selection, etc. supplied banknotes P. Detection of suitability is based on the distinction between banknotes fit to return into circulation, and unfit banknotes that are stained or damaged and unfit to return into circulation. In the case of use of a card payment transaction set, for example, the device 19 bar-code reading reads the bar codes assigned to the card payment transaction set or ticket casino, passed through the control device 18, and outputs the read information to the main unit 12 of the control.

Tract 16 transportation first passes down from the searching mechanism 14 and the outlet, and then goes up to the monitoring device 18 at an angle to the vertical direction. Tract 16 transportation associated with sorting module 30, which will be described below. In accordance with this embodiment tract 16 transport takes place essentially along the support surface 11a of the feed unit 11, that is, under the same angle as the reference surface 11a. Alternatively tract 16 transportation can be tilted upwards relative to the outlet and directly from it, without passing first down on him. The control device 18 is also inclined along the path 16 transportation. In the lower part of tract 16 transportation logged out, and this output is a collection of 27 foreign substances. A foreign substance that falls along the path 16 transportation, is ejected through the outlet and is collected in the collector 27.

As shown in figure 1, the main unit 10 along path 16 transportation are two wypracowywa block 20a and 20b, and a lot of laying the cameras 22a, 22b, 22c and 22d, in which banknotes are stacked foot, are located side by side. Banknotes P, passed through the control device 18, are classified with the receipt of two groups - wybrac the bathrooms banknotes and banknotes easy to handle, through the valve (not shown). Rejected banknotes are those in respect of which, by means of the controlling device 18 is determined that they are fake or unidentifiable due to bend, break, warp, double selection, etc. Skew is the situation in which the banknote P is inclined relative to the direction perpendicular to the conveying direction. Rejected banknotes are distributed and placed a foot in vybrakovyvat unit 20a or 20b. All rejected banknotes laid foot in vybrakovyvat unit 20a or 20b, except tampered with, re-fit and re-entered in the input unit 11 or included in the census data by manual input. The results of the control of the amount of money involved in the transaction, notes, etc. by means of the controller 18 are given in the main unit 12 of the control are stored in and displayed on the monitor 15.

Banknotes, easy to handle, are those in respect of which, by means of the controlling device 18 is determined their suitability or unsuitability as a genuine banknote. Banknotes, easy to handle, served in the laying chamber 22a-22d and stack them in the foot. For example, banknotes, easy to process, distribute in one of the laying of the cameras 22a-22d and structures shall indicate it by the foot in accordance with each denomination (face value), and unfit banknotes put together a stop in one of the laying of the cameras.

When using the card payment transaction set, it is placed in the foot in vybrakovyvat unit 20a or 20b after passing through the control device 18 and the device 19 bar-code reading.

The main module 10 includes various sensors, as well as the drive mechanism and power source (not shown) to drive the searching mechanism 14, the controller 18, a transport mechanism, etc.

As shown in figure 1, the sorting module 30 contains a tract 31 transport, sorting mechanism 32, the turning device 34 and laying chambers 36a, 36b, 36c and 36d. Tract 31 transportation used to transport the banknotes P, supplied from the main module 10. Sorting mechanism 32 is located in the processing chain before the tract 31 transportation. Turning device 34 is located in the processing chain after sorting mechanism 32 along path 31 of transportation. Laying chambers 36a-36d are arranged side by side along the path 31 of transportation.

Sorting mechanism 32 aligns the centers of the banknotes P is supplied through path 31 of transportation, with the center of tract 31 transportation and corrects skewed bill so that it becomes oriented to perpendicu the Jarno conveying direction. Turning device 34 changes the orientation of each banknote P is supplied through path 31 of transportation, on the opposite, resulting in the filing of this banknote is fed so that its front and back are exhibited in freely definable direction.

Banknotes P fed from the sorting mechanism 32, or banknotes issued properly and supplied from perevorachivayetsa device 34, served in the stacking foot and wrapping module 60 on highway 31 transportation or served in one of the laying chambers 36a-36d and placed in her foot. Laying chambers 36a-36d sorting module 30 can be used as a camera, in which is put a stop banknotes of each denomination of face value). Alternatively laying the camera 36a-36d can be used as camera culled or unfit banknotes, in which is placed a foot culled or unfit banknotes extracted from the main module 10.

On the other hand, in the case when the prescribed process wraps, fit or unfit banknotes extracted from the main module 10 or sorting module 30, served in the stacking foot and wrapping module 60 on highway 31 transportation sorting module 30, a specified number of them are placed on the foot and wrap at a time. When this is done, the toilet is the overall module 30 aligns the centers of banknotes, supplied through the path 31 of transportation, with the centre of this tract of transportation and corrects skewed bill so that one side is oriented perpendicular to the conveying direction. Since the positional relationship between the notes is set sorting module 30, these banknotes are neatly stacked to stop and turn by stacking foot and wrapping module 60.

Figure 3 and 4 are front and plan accordingly stacking foot and wrapping module 60 intended for use as a stacking foot and wrapping device. As shown in figures 1, 3 and 4 stacking foot and wrapping module 60 contains the path 62 of transportation, the first and second stacking foot devices 64a and 64b wrapping device 68, and a transport mechanism 70. Tract 62 transportation communicates with the duct 31 transportation sorting module 30. The specified number of bills submitted by highway 62 transportation, stack a foot in each of the first and second stacking foot devices 64a and 64b. Wrapping device 68 wraps wrapping tape a predetermined number (for example, 100) of banknotes in the stack, stacked foot through each stacking foot of the device. Transport mechanism the sm 70 transports the bundle of banknotes, laid footsteps through the first and second stacking foot devices 64a and 64b, in the wrapping device 68. In addition, under the wrapping device is issuing unit 73, which receives and stacks the foot of the bundle of bills wrapped by a wrapping device 68.

The first and second wrapping device 64a and 64b vertically and horizontally offset from each other. The second stacking device 64b is shifted relative to the first stacking foot device with a slope down at an angle Θ comprising from about 10° to 80°, and partially overlaps with the first stacking foot device 64a in the vertical direction. Wrapping device 68 is located under the second stacking foot device 64b.

Each of the first and second wrapping devices 64a and 64b contains the block 65 for temporarily storing the foot and blade unit 66 for storing the foot, the configuration of which provides stacking foot given the amount of banknotes P one by one in block 65 for temporarily storing the foot. Vane impeller blade 66a device 66 for storing the foot contains many blades inserted around an axis of rotation, and rotates synchronously with the transport of banknotes P, so that the banknotes P can be taken between the blades is. By blade of the impeller 66a is absorbed kinetic energy is rapidly transported banknotes P, when these banknotes are aligned and stacked to stop in block 65 temporary stacking foot.

Block 65 temporary stacking foot of the first stacking foot device 64a contains the first gate 67 which has a capability of opening and closing, for example, horizontally. Banknotes P placed on the foot on the first gate 67 in the closed position. Block 65 temporary stacking foot has a horizontal support unit 72a on which the banknotes P placed on the foot, and the second gate 72b configuration that provides emphasis in long hand laid foot banknotes, thereby aligning the transverse position of the banknotes. The second gate 72b is configured to rotate between a position of alignment, in which he aligns the banknote P, and an open position in which it provides transmission tutu laid foot notes.

In addition, each of the first and second wrapping devices 64a and 64b contains the indicator 71, such as a light emitting diode (LED)configuration that provides a display state of the processing device, such as errors, coefficients, etc. stacking foot devices. These indicators 71 are in positions where their is you can easily be viewed from the outside, for example, when the external cover stacking foot and wrapping module 60 is open. Indicators 71 will inform the operator of various conditions treatment in stacking foot devices, such as the need replenishment notes on errors and on identification of banknotes, by flashing, ignition, quenching or different colors.

As shown in figure 3 and 5, the transport mechanism 70, which transports the bundle of banknotes between the wrapping device 68 and the first and second stacking foot in devices 64a and 64b, comprises a pair of guide rods 74, the pulley 75a and 75b, drive belts 76, coupling shaft 77, the motor 78, the main carriage 80 and the carriage 82 to the sheet transport tray). Guide rods 74 are installed vertically. The pulley 75a and 75b are respectively on the upper and lower ends of the guide rods. Drive belts 76 skipped around their respective pulleys 75a and 75b and pass vertically between them. Coupling shaft 77 connects the two upper pulley 75a. The motor 78 drives the upper pulley 75a, to ensure vertical movement of the drive belts 76. Main carriage 80 can ascend and descend along the guide rods 74. The carriage 82 for sheets is with the possibility of reciprocating movement of the main carriage 80. OS is ESD carriage 80 and the carriage 82 for sheets made of the transport carriage.

Main carriage 80 is made in the form of an essentially rectangular tray, one end portion of which is supported by the guide rods 74 and is directed with the ability to move up and down along the guide rods. Main carriage 80 runs essentially horizontally. In addition, the main carriage 80 is connected with a drive belt 76 by a pair of brackets 83. When the motor 78 is driven in the forward or reverse direction, the drive belt 76 move vertically, thereby causing the main carriage 80 to ascend and descend. Main carriage 80 moves up and down between a first position in which it is located next to the first gate 67 of the first stacking foot device 64a bottom, a second position in which it is in the transverse direction reversed to the control unit 72a of the second stacking foot device 64b, and a third position in which it is in the transverse direction facing toward liberating the block 84 (described below) wrapping device 68. These provisions are separately sensors 85a, 85b and 85c provisions, such as photointerrupters. When the carriage 80 is detected by these sensors position, it can be moved and placed in one of these provisions.

On the other hand, the carriage 82 sheet made, for example, in the form of direct the coal plate, greater than each banknote P, and has a configuration that enables transfer it laid foot notes. The carriage 82 for sheets is with the possibility of horizontal reciprocating movement of the main carriage 80. In particular, the carriage 82 sheet is located on the main carriage 80 so that she can make reciprocating movement between a standby position shown in figure 5, and the extended position across the direction of movement of the main carriage 80, that is, horizontally. In the stand by position the carriage 82 sheet superimposed on the main carriage 80. In the retracted position, the carriage 82 sheet is essentially horizontally from the front end of the main carriage. Main carriage 80 carries therein a source of motive power such as an electric motor or a plunger configuration that provides horizontal movement of the carriage 82 for sheets.

The carriage 82 sheet equipped with a variety of clamps 88 banknotes, which configuration provides hold each bundle of bills on the carriage of the sheet. These clamps 88 banknotes installed on the rotating shaft 89 supported by the carriage 82 for sheets. When the rotating shaft 89 is rotated by an electric motor 79 of the actuator on the carriage 82 for sheets, clamps 88 banknotes are rotated between the open position in which vietdelta from the reference surface of the carriage 82 for sheets, as shown in figure 5, and the position of the clip, in which they pressed a wad of banknotes to the carriage 82 for leaves at the top, thereby holding the bundle of banknotes, as in a layered structure.

Stacking banknotes foot through the first and second stacking foot devices 64a and 64b and the transportation of bundles of banknotes through the transport mechanism 70 is performed as follows. As shown, for example, in Fig.6, the specified number (for example, 100) of banknotes of the same denomination (face value) stack a foot on the first gate 67 through the first stacking foot device 64a. When this is done, the main carriage 80 pending support in the first position, so that the carriage 82 sheet is located next to the first gate 67 from the bottom front of him. If 100 banknotes P stacked on the foot on the first gate 67, the first shutter moves into its open position, and then laid foot banknotes placed on the carriage 82 for sheets. After the stack is laid foot banknotes then pressed against the carrier sheet and hold it by means of clamps 88 banknotes, the main carriage 80 is lowered into the third position. Then the first shutter 67 returns to its original position, placing his foot.

After that, as shown in Fig.7, the carriage 82 for leaves push out expectations will nominate the second position, then the stack is laid foot banknotes move into the area above the liberating unit 84 enveloping device. Then one longitudinal end section of each bundle stacked on the foot of banknotes held by node Shatov grasping and pulling mechanism (described below) wrapping device 68 and clamps 88 banknotes unlock to stop the hold. Then the carriage 82 sheet is moved from the extended position to the standby position. So is filing packs laid on the foot of the banknotes P in the wrapping device 68.

On the other hand, after placing the stop 100 banknote by the first stacking foot devices 64a to the second stacking device 64b serves 101st and subsequent banknotes and is putting a stop a specified number (e.g. 100) notes on the abutment block 72a through the second stacking foot device 64b, as shown in Fig. When this is done, the second gate 72b is in the illustrated position of alignment, in which he aligns the transverse position laid foot notes. In addition, the carriage 80 is supported in the expectation in the second position, where the carriage in the transverse direction facing to the support block 72a. If 100 banknotes P stacked on the foot on the supporting unit 72a, the carriage 82 for sheets bring up more and is raised from the position of waiting in extended position, then it is inserted into the support block 72a and is laid under foot the bills of P. Then, the second gate 72b rotate to the open position where it permits the passage of the bundle P stacked on the foot of banknotes, as shown in Fig.9.

Once laid foot banknotes P are pressed against the carriage 82 for sheets and held therein by means of clamps 88 banknotes in this state, the carriage 82 for sheets are returned to the standby position, as shown in figure 10, and moves the carriage 82 for sheets and laid on the foot of the banknote on the main carriage 80. Then the carriage 82 for sheets and the main carriage 80 is lowered into the third position. The second gate 72b return to its original position alignment.

Then, as shown in figure 11, the carriage 82 for leaves that are in the third position, push out expectations in the extended position, whereupon the bundle stacked foot banknotes moved into the area above the liberating unit 84 enveloping device. Then one longitudinal end of the bundle P stacked on the foot of banknotes held by node Shatov grasping and pulling mechanism of the wrapping device 68 and clamps 88 banknotes unlock to stop the hold. After that, the carriage 82 sheet is moved from the extended position to the standby position. So is filing the Pacha and laid foot banknotes P in the wrapping device 68.

Below is a description of the wrapping device 68. On Fig presents a promising picture, schematically illustrating in General a relay device 68. On Fig presents perspective representation illustrating Leontopodium device and releasing the block wrapping device. On Fig and 15 shows the front views illustrating the strapping mechanism enveloping device.

As shown in Fig and 13 of the wrapping device 68 contains essentially rectangular liberating block 84 which is inclined relative to the horizontal plane, and Leontopodium device 90, the configuration of which provides a supply of wrapping tape. The bundle P stacked on the foot of banknotes is introduced into the area above the liberating unit 84. Leontopodium device 90 includes a drum 92 tape wound wrapping tape 91 to wrap packs laid on the foot of banknotes and Leontopodium mechanism 94, the configuration which provides the pulling wrapping tape 91 of the drum 92 tape and feed it into the form of a loop. Leontopodium mechanism 94 will be described in detail below.

As shown in Fig, 14 and 15, strapping mechanism 95 wrapping device 68 includes a mobile node 96 Shatov, mechanism 98 drive Shatov and letoalmonace device 100. The node 96 Shatov jams the center of one continue the nogo end portion of the bundle P stacked on the foot of banknotes, transported to the area above the liberating unit 84 through the carriage 82 to the sheet transport carriage), and pulls out a roll of bills in a predetermined position of the binding. Mechanism 98 drive Shatov opens and closes the node 96 Shatov in the direction of stacking foot of the bundle of bills and carries out a reciprocating movement of the bundle of bills at right angles to the direction of insertion of the foot. Letoalmonace device 100 winds wrapping the tape around the bundle P stacked on the foot of banknotes, is drawn into position crocheting.

When wrapping the tape 91 is wound around the bundle P stacked on the foot of banknotes by wrapping device 68 after capturing it through node Shatov 96, the carriage 82 sheet moves in the receiving position, in which it is converted to the first or second stacking foot device 64a or 64b, adopts the following bundle stacked on the foot of banknotes of the stacking foot of the device.

As shown in Fig and 17, the node 96 Shatov contains the upper and lower tongs 96a and 96b, which are opposite and essentially parallel to each other, and between them is a gap, and they are supported separately with the possibility of moving up and down through the support frame 102. These upper and lower tongs 96a and 96b are made essentially in the form of plates, passing through, there is the horizontal. On the lower surface of the upper gripper mounted concave upward pressure cushion 97a. On the upper surface of the lower grip set is convex upward pressure cushion 97b. In addition, on the side of the bottom surface is a support plate 103, which serves as the "Ironing Board" (and described below), speaking essentially horizontally from the bottom of the grip. The support plate 103 is made of, for example, stainless steel.

Mechanism 98 drive Shatov contains the first motor 104 mounted on the base frame 102, large and small coaxial gears 106a and 106b, and the first and second rails 108a and 108b. Small gear 106b smaller in diameter than the large gear 106a. Gears 106a and 106b revolve around the same axis, that is, the horizontal axis in this case, the first motor. The first rail 108a is connected to the upper Tong 96a and brought into engagement with the large gear wheel 106a. The second rail 108b is connected to the lower Tong 96b and brought into engagement with the small gear 106b. Slats 108a and 108b are tested separately vertically and are parallel to each other, and between them the respective rotating shafts of the gears 106a and 106b.

When the large and small gears 106a and 106b are rotated in the same direction (or clockwise direction to the ke) by the first motor 104, as shown in Fig, the upper and lower tongs 96a and 96b, respectively, up and down and moving away from each other in their respective open positions. When the large and small gears 106a and 106b are rotated in the other direction (or clockwise direction) by the first motor 104, as shown in Fig, the upper and lower tongs 96a and 96b, respectively, fall and rise and move towards each other in their respective closed positions.

Since, as described above, the upper and lower tongs 96a and 96b are moving up and down through large and small gears 106a and 106b, respectively, the amount of movement when the movement up and down of the upper Tong 96a more than the amount of movement of the lower Tong 96b. Thus, the movement of the upper gripper is greater than the movement of the lower grip, so you can easily take and reliably capture thick or swollen banknotes.

As shown in Fig and 17, the support frame 102 that supports the node 96 Shatov, supported with the possibility of horizontal reciprocating motion by means of the main frame 110. In addition, the supporting frame 102 is attached horizontally passing the rail 112. Mechanism 98 drive Shatov contains the second motor 114 mounted on the main frame 110,the transmission gear 115, included in engagement with the rack 112 and the shaft of the motor, and the sensor 117, a configuration which provides a detection position during the rotation of the motor.

When the second motor 114 rotates in one direction, as shown in Fig, rod 112 and the support frame 102 are driven by moving the upper and lower tongs 96a and 96b in their extended position, in which they grab the bundle P stacked foot notes. In contrast, when the second motor 114 rotates in the other direction, as shown in Fig, rod 112 and the support frame 102 are driven by moving the upper and lower tongs 96a and 96b in their allotted positions, where they pull seized the bundle P stacked on the foot of banknotes in position crocheting.

On Fig-26 shows letoalmonace device 100, which winds wrapping the tape around the bundle P stacked on the foot of banknotes, embroiled in position crocheting, and Leontopodium mechanism 94 Leontopodium device 90. As shown in Fig, 22 and 23, letoalmonace device 100 comprises a gear wheel 120 with the internal ring gear, the safety device 122 of the tape and the drive mechanism of the tape. A gear wheel 120 with internal teeth supported on the annular support frame 116, and the safety device 122 tape is mounted on a gear wheel with internal teeth. The mechanism of the tape drive gear rotates the m wheel 120 with internal teeth and takes the wrapping tape 91 of Leontopodium device 90, while the front end of the wrapping tape captured by the car safety belt, resulting along the gear wheel with internal teeth in the position of the tying tape is formed, sakota in the loop.

A gear wheel 120 with the internal ring gear has its own peripheral surface supported by a variety of guide pulleys 124 (e.g., three), which are mounted for rotation on a support frame 116. Thus, a gear wheel 120 with the internal ring gear is supported on a support frame 116 for rotation around a horizontal axis, i.e. an axis parallel to the direction of reciprocating motion of the node 96 Shatov. In addition, a gear wheel 120 with internal teeth arranged so that the outside covers node 96 Shatov, and between them there is a gap. Thus, the node 96 Shatov configured to move inside the toothed wheel 120 with internal teeth.

On the inner peripheral surface of the gear wheel 120 with internal teeth made gear 120a. The mechanism of the tape drive includes a third motor 125 mounted on the support frame 116, and between the ring gear 120A and the rotating shaft of the third motor 125 is entered engages a gear 126. When the third motor 125 is powered, gear to the eco 120 with internal teeth rotates in a predetermined direction, for example, counterclockwise, around a horizontal axis.

The safety device 122 of the tape mounted on the toothed wheel 120 with the internal ring gear in such a way that it can rotate together with the drive gear 120 with the internal teeth around a horizontal axis. As shown in Fig-24, the safety device 122 tape comprises a pair of levers a and 128b car safety. These levers a and 128b of the device protruding from the gear wheel 120 with internal teeth parallel to the horizontal axis. In addition, they supported the toothed wheel 120 with internal teeth with the possibility of movement of rotation around the axis 133 of rotation between the closed position shown in Fig and 23, and the open position shown in Fig. In close position, the arms 128a and 128b are in contact with each other, clamping wrapping tape. In the open position they are assigned from each other, freeing wrapping tape. Levers a and 128b car safety forcibly closed in the close position. From the proximal end portion of the lever a car safety acts, the presser lug 131, and the proximal end section of the arm 128b of the safety device is installed with the possibility of rotation of the guide roller 132.

As shown in Fig and 23, the support frame 116 is equipped with a disconnecting mechanism 135 which opens the safety device 122 of the tape, putting it in the unlock position. NC fur the ISM 135 contains a plunger 134, pushing the lever 136 and the pressure roller 137. Pushing the lever 136 is made to rotate by means of the plunger. Pressure roller 137 is mounted on the distal end of the pushing lever 136 and exerts pressure on the presser lug 131 of the lever 128a car safety. When winding a wrapping tape 91 the safety device 122 of the tape support waiting in the position of the clip (for example, corresponding to the position "5 hours" clockwise)shown in Fig and 23. In addition, when pushing the lever 136 is turned by means of the plunger 134 tripping mechanism 135, the safety device 122 of the tape is kept waiting in the open position, which allows the passage of the wrapping tape 91.

As shown in Fig and 25, Leontopodium mechanism 94 Leontopodium device 90 contains many guides 142 along the path of transportation, many of the transport rollers 140 and the fourth motor 144 to drive the transport rollers. Leontopodium mechanism 94 transports wrapping tape 91 enclosed between the transport rollers 140, pulls her out of the drum 92 tape and takes the wrapping tape in the safety device 122 of the tape supported to a waiting in its original position. In the middle of the transport path is located the printer 146, which prints desired print on wrapping the tape 91. Between the end of a path of transport is irowiki wrapping tape 91 and safety device 122 of the tape is the cutting tool 148. Wrapping tape 91 is served in the safety device 122 of the tape over the edge of the cutting tool 148.

As shown in Fig and 25, dentoalveolar device 100 and Leontopodium mechanism 94 made in this way, wrapping the tape 91 is pulled from the drum 92 tape through Leontopodium mechanism 94, while the safety device 122 of the tape supported the waiting position of the clamp, and the levers a and 128b car safety open through the tripping mechanism 135. Then the front end of the wrapping tape is fed into the space between the arms of the safety device available device 122 of the tape through the cutting tool 148. After that, the clamp through the tripping mechanism 135 eliminated, and the front end of the wrapping tape 91 is clamped by means of the safety device 122 of the tape. Then, as shown in Fig, at least the rotation of gear 120 with the internal teeth counterclockwise by a predefined angle is filing wrapping tape 91 through Leontopodium mechanism 94, causing the safety device 122 tape is moved to the standby position indicated in the drawing in phantom line. Then wrapping the tape 91 pull loop along the gear wheel 120 with internal teeth and placed around the provisions of crocheting. In this state, the banknotes P is caught by the node 96 Shatov and involve in zamknutuyu loop is bertony tape 91. In the stand by position the safety device 122 tape and amkota loop wrapping tape 91 is located outside the path of retracting to bundle P stacked foot notes and could not prevent the operation of retracting.

As transportation bundle P stacked on the foot of banknotes of the stacking foot devices 64a and 64b in the wrapping device 68 by way of the transport carriage letoalmonace device 100 and Leontopodium mechanism 94 pre-form zamknutuyu loop wrapping the tape 91 in position crocheting. Due to progress in advance of such locations wrapping tape 91 is possible to shorten the time required for the operation of the wrapping.

After retracting the bundle P stacked on the foot of banknotes in position crocheting, as shown in Fig, a gear wheel 120 with internal teeth continues to rotate counterclockwise, causing the safety device 122 tape is moved in the vicinity of the position of the clamp. Guide roller 132 of the safety device 122 of the tape abuts against the guide plate 150 on the base frame 116, causing the safety device 122 of the tape is rotated essentially in a horizontal position. Thus, the front end of the wrapping tape 91, while holding the safety device 122 of the tape is under a bundle of banknotes P and held there. Sakota loop wrapping tape 91 is located around position for tying bundles R ulog is the R foot notes and in position, where it covers the support plate 103 at node 96 Shatov. Thus, the position of the safety device 122 of the tape can be adjusted simply by turning the toothed wheel 120 with internal teeth.

In this state, the wrapping tape 91 is drawn at a certain distance through Leontopodium mechanism 94 so that the size of the loop decreases, and therefore wrapping the tape tightly wrapped around the bundle of banknotes P and the base plate 103.

As shown in Fig and 15, letoalmonace device 100 includes a first latch 152 of the tape, the upper clamp 160, the first mechanism 162 of actuator clamp, the second clamp 170 belt, the heater 180 and the second mechanism 190 of the actuator clamp. The first latch 152 belt presses wrapping tape 91 to the base plate 103 of the node 96 Shatov, thereby preventing displacement of the tape. The upper clamp 160 presses the wrapping tape 91 and the bundle P stacked on the foot of the banknotes from top position crocheting and presses the opposite longitudinal side sections of the bundle of bills to the base plate 103, thereby flexing the whole bundle of banknotes. The first mechanism 162 of the actuator clamping forces of the upper clamp 160 up and down synchronously with the first latch 152 of the tape. The second retainer 170 belt presses and holds tensioned wrapping tape 91 to bundle P stacked foot notes. The heater 180 heats and making the seam PR is pressed wrapping tape 91. The second mechanism 190 of actuator clamp moves the second latch 170 tape and the heater 180 in communication with each other in the position where they rest in wrapping the tape 91.

On Fig and 29 shows the first latch 152 of the tape and the first mechanism 162 of the actuator clamp. As can be seen from these drawings, the first latch 152 tape is a plate-like lever with a curved distal end section, a proximal end portion of which is supported by a supporting frame 154 with the possibility of movement of rotation around the horizontal axis 153 of the rotation. On a support frame 154 mounted for movement up and down the lead plate 155, and it is connected with the axis 153 of rotation of the first latch 152 of the tape through the swinging of the lever 156. When the first mechanism 162 of actuator clamp raises or lowers the lead plate 155, the first latch 152 of the tape is rotated between a standby position in which it is out tracts transportation for wrapping tape 91 and bundle P stacked foot notes, and a locked position in which it abuts against the lower surface of the base plate 103 of the node 96 Shatov and presses the wrapping tape 91 to the base plate ("Ironing Board") 103.

Surface of the first latch 152 of the tape is, for example, is mainly made of tempered cast iron. Thus, the first latch 152 tape has a hardness of the surface and, which is higher than the hardness of the surface of the support plate 103, in which it rests. The first latch 152 tape its edge, made of sheet metal, holds the wrapping tape. Since the surface hardness of the receiving support plate 103 is made smaller than the surface hardness of the sheet metal of the clamping region, you may create a friction force due to scratching the bottom surface of the base plate 103, so that you can capture wrapping tape 91 without slipping.

As described above, the first mechanism 162 of actuator clamp includes a motor 163 of the actuator on a support frame, a pulley 164 of the actuator, rotated by the drive motor through a helical gear, and the lever 165 actuator is configured to rotate via the drive pulley. The lever 165 actuator associated with the lead plate 155 by means of rollers. Thus, when the motor 163 of the actuator is actuated, the leading plate 155 is raised and lowered by means of the lever 165 actuator, and the first latch 152 of the tape is rotated through a lead plate 155.

On Fig and 31 shows the top clamp 160 and the first mechanism 162 of the actuator clamp. As can be seen from these drawings, the upper clamp 160 is an elongated lever containing pressure sections 160a, which configuration provides the clamping side of the top is it the surface of the bundle P stacked foot notes. Pressure areas 160a in the transverse direction is inclined so that the entire bundle P stacked on the foot of banknotes, presses them on top, bent, resulting in its Central area is higher than its opposite side areas.

The proximal end portion of the upper clamp 160 supported to rotate on a support frame 166 by means of axis 167 of rotation. The swinging lever 156 is mounted on one end of the axis 167 of rotation. The first mechanism 162 of actuator clamp includes a driven pulley 157a, the drive sprocket 157b, the drive belt 158, the slave gear 159 and the rotating plate 168. Driven pulley 157a supported for rotation, and drive sprocket 157b made as a unit with the driven pulley. The drive belt 158 extends between the master and the slave pulley. Slave gear 159 supported rotatably on the side of the support frame 166 and brought into engagement with the leading toothed wheel 157b. Rotating plate 168 is attached to the follower gear wheel and brought into engagement with the guide slot of the swing arm 156 by means of a roller.

When the drive pulley 164 is rotated by the motor 163 drive, the drive belt 158, driven pulley 157a, the drive sprocket 157b and a follower gear wheel 159 rotate. Rotating plate 168 rotates as a unit with the slave gear is the Olsen 159, turning the swinging lever 156 by means of the roller while turning the upper clamp 160 through the axis 167 of rotation. Thus, as shown in Fig and 31, the upper clamp 160 is rotated between a raised position in which it is out tracts transportation to bundle P stacked foot notes and wrapping tape 91, and the lowered position of the clamp, in which he presses the bundle P stacked foot banknotes seized by the node 96 Shatov, and wrapping the tape 91 above. On the side of the inner surface of the upper clamp 160 is located a clamping element 161, such as a roller or curved element. The presser element 161 is used to prevent sagging in the position of pressing down, pressing wrapping the tape 91 is wrapped around the bundle P stacked on the foot of banknotes, the banknotes.

In addition, when the motor 163 of the first drive mechanism 162 of the actuator clamp is rotated as described above, the first latch 152 of the tape and the upper clamp 160 are driven synchronously. For example, when winding a wrapping tape 91 first latch 152 of the tape is turned from the standby position is fixed by the first mechanism 162 of the actuator clamp. Synchronously with this, the upper clamp 160 is rotated from the raised position to the lowered position of the clamp.

The first latch 152 belt presses about Rechnoy tape 91 to the base plate 103, and the upper clamp 160 top presses the bundle P stacked foot notes and wrapping the tape 160 so that the opposite side areas of the bundles of banknotes P are bent downwards. In this state, as described below, wrapping the tape 91 is additionally drawn at a certain distance through Leontopodium mechanism 94 for tensioning the wrapping tape wrapped around bundles of banknotes P.

On Fig, 33, and 34 shows a second retainer 170 belt, the heater 180, the second mechanism 190 of the actuator clamp. As can be seen from these drawings, the second retainer 170 ribbons is an essentially flat plate arm, the proximal end portion of which is supported by the support frame 166 with the possibility of movement of rotation around the horizontal axis 171 of rotation. At the proximal end section of the second retainer 170 tape in position with the eccentricity relative to the axis 171 of rotation, is mounted for rotation guide roller 172. The second retainer 170 tape is rotated by means of the second mechanism 190 of actuator clamp between a standby position in which it is out tracts transportation for wrapping tape 91 and bundle P stacked on the foot of banknotes, as shown in Fig and 33, and a locked position in which it rests in a corner area of the lower surface of the bundle P stacked on the foot of the Bank is from, and presses the wrapping tape 91 to the bundle of banknotes P and, as shown in Fig and 43, and holds her in such a state.

As shown in Fig-34, the heater 180 is an elongated bar, the distal end part of which is the heating section 180a. The heater 180 supported with the possibility of a linear reciprocating movement on the support frame 166. Guide rollers 182, the number of which is, for example, two, mounted for rotation on each side of the heater 180, and they supported slidable in the guide slot 183 made in the support frame 166. Thus, the heater 180 may perform a reciprocating movement between a standby position in which it is out tracts transportation for wrapping tape 91 and bundle P stacked on the foot of banknotes, as shown in Fig and 33, and a sealing position, in which it presses the wrapping tape 91 to the lower surface of the support plate ("Ironing Board") 103 for sealing a wrapping tape, as shown in Fig.

The second mechanism 190 of the drive clamp that provides the drive of the second retainer 170 tape and heater 180 in communication with each other, includes a guide plate 192, the bracket 193 actuator, the fourth motor 194, the rotary lever 196 and the sensor 198. Towards the shining plate 192 is positioned on the top surface of the heater 180 and may come into contact with the guide roller 172 of the second retainer 170 tape. The bracket 193 actuator is essentially vertically from the bottom surface of the heater 180 and includes a guide groove. The fourth motor 194 is mounted on a support frame 166. One end of the pivot arm 196 is connected to a rotating shaft of the drive motor, and at the other end of the lever is mounted for rotation guide roller 195. The configuration of the sensor 198 detects the magnitude of the move when you rotate the pivot arm 196. Guide roller 195 is engaged with the guide groove of the bracket 193 drive.

When the fourth motor 194 is rotated in one direction, the rotary lever 196 is rotated so that the bracket 193 actuator moves as a unit with the heater 180 by turning the lever to the position of heat sealing. In addition, immediately after the start of movement of the heater 180 guide plate 192 pushes up the guide roller 172 of the second retainer 170 tape, thereby turning the second retainer 170 belt out waiting in the locked position.

When the fourth motor 194 is rotated in the other direction, the heater 180 is moved out of sealing position expectations. Consequently, the guide plate 192 leaves the guide roller 172 of the second retainer 170 tape and turns of put what I commit to the stand by position under the action of driving force of a spring or similar means.

As shown in Fig, the second retainer 170 tape, turned to the lock position, presses the wrapping tape 91 to the lower right corner of the bundle P stacked foot notes and holds it in this state, the upper clamp 160 is rotated to the position of the clamp. The presser element 161 on the upper clip 160 is located opposite the second retainer 170 tape, while between them is a pack of banknotes P, and the above-mentioned element presses the wrapping tape 91 to the upper surface of the stack of banknotes P and holds the tape in this state. Thus, it is possible to prevent the sagging of the wrapping tape 91 when it is cutting. The presser element 161 presses the wrapping tape 91 from above so that it does not offer much resistance when pulling wrapping tape, and so that he has more resistance when wrapping the tape cut off and it is slack.

After the cutting tool 148 then cuts toward the front end of the wrapping tape 91, the heater 180 is moved from the standby position of the heat sealing. When this is done, the rear tail section of a wrapping tape 91 is being pushed to position the base plate 103 by means of the heater 180 and press to wound wrapping the ribbon to ensure overlap. In this state, the heater 180 holds the sealing PE Krivosheya parcel wrapping tape 91. After sealing wrapping tape 91 first latch 152 of the tape, the upper clamp 160, the second retainer 170 tape and the heater 180 return to their respective position expectations or upper position and support allocated from the bundle P stacked foot notes.

As shown in figa, 36B and 36C, the enveloping device comprises a releasing mechanism 200, which produces a tied bundle P stacked foot notes, which should be thrown on the release block 84 out of the device. Releasing mechanism 200 includes a selector 202, a sliding plate and a source of motive power, such as the plunger 205. The extractor 202 is located under the liberating unit 84 with the possibility of movement of rotation around the axis 201 of the rotation. Sliding plate 204 is located under the liberating unit with the possibility of essentially horizontal movement. The plunger 205 is used to drive the moving plate. At the lower end of the ejector 202 is mounted for rotation of the guide roller, enter into engagement with the guide groove 206 in the sliding plate 204. The extractor 202 is configured to rotate between a standby position in which it is located below the liberating block 84, as shown in figa, and the position of the clamp, in which he pushes the stack of banknotes P that are on liberating the block 84, forward,as shown in figs. When the moving plate 204 is moved from its extended position into its stenothoe the position of the plunger 205, the selector 202 is turned from the standby position of the clamp by means of the idler.

Upon completion of the wrapping of the bundle P stacked on the foot of banknotes wrapping tape 91 node 96 Shatov devouring a bundle P stacked foot banknotes move forward, that is, for releasing the block 84, of venutolo position with a certain velocity through the mechanism of the 98 drive Shatov, as shown in figa. In addition, when the node 96 Shatov retracted to a predetermined position, as shown in figv, unlock it (or remove the setting), so holding the bundle of banknotes P is terminated. Thereafter, the banknotes P is ejected on the release block 84. The speed of ejection set equal to such a value that never occurs no situation in which the end surface of the bundle of banknotes P remains in the node 96 Shatov, nor the situation in which the bundle is faced with lid stacking foot and wrapping device.

Then, as shown in figs, the selector 202 is turned from the position expectations position of the clamp by releasing mechanism 200, after which the rear end of the bundle P stacked on the foot of banknotes that are on liberating the block 84, exert pressure pic what edstam selector 202. Thus releasing the bundle P stacked on the foot of banknotes, located on releasing the block, out of the device.

Now, with links to pig-56 will be described the operation input to the stop by placing his foot and wrapping module 60, is designed, and the operation of wrapping a wrapping tape. As shown, for example, on Fig by first stacking foot device 64a foot stack a predetermined number (for example, 100) of banknotes of the same denomination (face value). When this is done, the main carriage 80 of the transport carriage support waiting in the first position, so that the carriage 82 sheet is located adjacent to the first gate 67 and opposite to it below.

When the banknote stack a stop, the safety device 122 tape wrapping device 68 is supported by the waiting position of the clip (for example, corresponding to the position "5 hours" - clockwise) and in the open position, allowing passage of the wrapping tape.

When the specified number of banknotes stacked by the foot, as shown in Fig wrapping device 68 is supplying wrapping tape 91 through Leontopodium mechanism 94 tape and file it in the safety device 122 of tape over the cutting tool 148. Then the safety device 122 tape captures the front horse is fed a wrapping tape.

If 100 banknotes P stacked foot in the first stacking device 64a, as shown in Fig and 40 laid on the foot of the banknote P is fed from the first stacking foot device 64a on the carriage 82 for sheets. After the bundle P stacked on the foot of banknotes then pressed against the carriage 82 for sheets and kept in this state by means of clamps 88 banknotes, the main carriage 80 is lowered into the third position.

During the feeding and transport of the bundle P stacked on the foot of banknotes wrapping device 68 rotates the gear wheel 120 with the internal ring gear counter-clockwise by the specified angle to move the safety device 122 of the tape from the position of the clamp to the stand by position that the filing is accompanied by a wrapping of tape 91 through Leontopodium mechanism 94. Consequently, the wrapping tape 91 is extended in the form of a loop along the gear wheel 120 with internal teeth and is set around the position of crocheting. Thus, sakota loop wrapping tape 91 is formed in advance in the position crocheting, when the bundle P stacked on the foot of the banknotes transported from the first stacking foot device 64a in the wrapping device 68 by way of the transport carriage. Placing a wrapping tape 91 in the form of a loop in advance, you can reduce the processing time for all operations of placing the foot and is artisania.

Then, as shown in Fig, the carriage 82 sheet is ejected out of waiting in extended position to move the bundle P stacked on the foot of banknotes in the area above the liberating unit 84 enveloping device. On the other hand, after placing the stop 100 banknote by the first stacking foot device 64a, carried out in parallel stacking foot of the 101st and subsequent notes.

Then, as shown in Fig and 43, one longitudinal end section of the bundle P stacked on the foot of banknotes held by the upper and lower Shatov 96a and 96b node 96 Shatov and take the stack of banknotes P to the transport carriage. After then unlock the clamps 88 banknotes to stop withholding, the carriage 82 sheet is moved from the extended position to the standby position. So is filing bundle P stacked on the foot of banknotes in the wrapping device 68.

After that, as shown in Fig, the node 96 Shatov move from the extended position in stenothoe position, whereupon the stack of banknotes P is passed through zamknutuyu loop wrapping the tape 91 and retracted position crocheting. When the bundle of banknotes P is moved to the position crocheting, sakota loop wrapping tape 91 is located around a predetermined position of the tying bundles of banknotes P. porna plate 103, which protrudes from the lower Tong 96b is overlapping position welding stack of banknotes P. During the operation of retracting the bundle P banknote the safety device 122 tape and amkota loop wrapping tape 91 is located outside the path of the retracting stack P banknotes and could not prevent the operation of retracting.

After retracting the bundle P stacked on the foot of banknotes in position crocheting, as shown in Fig, a gear wheel 120 with the internal ring gear rotates further counterclockwise, to move the safety device 122 of the tape in the vicinity of the position of the clamp. The safety device 122 of the tape turn essentially in a horizontal position by the guide plate 150. Thus, the front end of the wrapping tape 91, squeezed the safety device 122 of the tape is under a bundle of banknotes P and held there. Sakota loop wrapping tape 91 is located around position for tying the bundle P stacked foot notes and in a position where it covers the support plate 103 at node 96 Shatov. Thus, the position of the safety device 122 of the tape can be adjusted simply by turning the toothed wheel 120 with internal teeth. On the other hand, the main carriage 80 of the transport carriage moves, providing waiting and pending support in the second position, in which it is converted to the second modes is non-stop device 64b.

Then, as shown in Fig, wrapping the tape 91 is pulled at a certain distance through Leontopodium mechanism 94 so that the size of the loop decreases, resulting in a wrapping tape is loosely wound around the bundle of banknotes P and the base plate 103.

Then, as shown in Fig and 48, the first latch 152 tapes turn out expectations in the locked position by means of the first mechanism 162 of the actuator clamping and wrapping the tape 91 is pressed against the bottom surface of the base plate 103 and held in this state by the first release of the tape. Since the surface hardness of the first latch 152 of the tape is greater than the hardness of the surface of the support plate 103, it is possible to create a friction force due to scratching (or formation of small depressions in the lower surface of the support plate 103, so that, as shown in Fig and 50, it becomes possible to capture wrapping tape 91 without slipping.

In addition, as shown in Fig-49, the upper clamp 160 rotates in connection with the first latch 152 of the tape from the raised position to the lowered position of the clamp by means of the first mechanism 162 of the actuator clamp. In the raised position of the upper clamp 160 is out tracts transportation to bundle P stacked foot notes and wrapping tape 91. In the lowered position of the clamp upper clamp 60 presses the bundle P stacked on the foot of banknotes, seized by the node 96 Shatov, and wrapping the tape 91 above. The upper clamp 160 presses the bundle P stacked foot notes and wrapping the tape 91 from above so that the opposite side areas of the bundles of banknotes P are bent downwards. When this is done, the presser element 161 in the upper clamp 160 rests on wrapping the tape 91 and pushes it to the stack of banknotes P, thereby preventing sagging. In this state, the wrapping tape 91 is additionally responsible for a certain distance through Leontopodium mechanism 94 to tighten the wrapping tape wrapped around bundles of banknotes P.

Then, as shown in Fig and 52, the second retainer 170 tapes turn out expectations in the locked position by means of the second mechanism 190 of actuator clamp, so that it presses the rear end section of a wrapping tape 91 to the lower right corner of the bundle P banknotes and holds there above section. In this state, the rear end of the wrapping tape 91 is cut by the cutting tool 148.

After that, as shown in Fig and 53, the heater 180 is moved in connection with the second retainer 170 tape from the standby position of the sealing by the second drive mechanism of the clamp. The heater 180 is moved to the sealing position, pushing the rear tail section cut oberton the th tape 91, and presses the rear end section of a wrapping tape to the wound wrapping the tape overlap. In this state, the heater 180 performs the sealing overlapping parcel wrapping tape 91.

After sealing wrapping tape 91, as shown in Fig, the first latch 152 of the tape, the upper clamp 160, the second retainer 170 tape and the heater 180 return to their respective position expectations or upper position and supported in place against the bundle P stacked foot notes. After the termination of the clamp through the upper clamp 160 bundle P banknotes restores its shape, going from a bent state to a flat state. Thus, it is possible stronger stretch wrapping tape 91, and consequently to hold the wrap bundles of banknotes P with greater reliability.

Upon completion of the wrapping of the bundle P stacked on the foot of banknotes wrapping tape 91 node 96 Shatov, grasping the bundle P stacked foot banknotes move forward, i.e. towards liberating the block 84, of venutolo position with a predetermined speed through the mechanism of the 98 drive Shatov, as shown in figa, 36B and 36C. When the node 96 Shatov moves by a predetermined distance, unlock it (no setting), which stops holding the bundle P banknotes. Therefore, the banknotes P SEL is aceveda on releasing the block 84. Then the extractor 202 is turned from the position expectations position of the clamp by releasing mechanism 200, whereupon the rear end of the bundle P stacked on the foot of banknotes that are on liberating the block 84, is pressed by the ejector 202. Thus, it is an issue bundle P stacked on the foot of banknotes, located on releasing the block, out of the device.

In addition, after throwing bundles of banknotes P on the release block 84, as shown in Fig and 56, is filing the following wrapping tape 91 through Leontopodium mechanism 94 tape and capture it the front end of the safety device 122 of the tape. Then turn the gear wheel 120 with internal teeth counterclockwise to move the safety device 122 of the tape from the position of the clip in the standby position, thereby forming zamknutuyu loop wrapping the tape 91. When this is done, the bundle P stacked on the foot of banknotes of the second stacking foot device 64b through the transport carriages 80 and 82, and in addition, transport packs in a position where it is turned to the wrapping device 68.

After that, the stack of banknotes P are served in the wrapping device 68, whereupon the tape 91 is wound around the bundle of banknotes P, wrapping it in the same way as described above.

Thus, stacking foot and Obertauern 60 puts foot and wraps fit and unfit banknotes from the main module 10 and the sorting module 30 in a predetermined number of times in accordance with the dignity and usefulness, and takes the bundle (or bundles) of banknotes. Wrapped bundles of banknotes issued in block 73 release under stacking and wrapping module and sequentially stacked layers in this block.

As shown in figure 1, which places the foot module 174 large capacity, which is located in the processing chain after stacking foot and wrapping module 60 contains a tract 141 transportation and laying the camera 175 large capacity. Banknotes P fed from the stacking foot and wrapping module 60, is conveyed through the searching mechanism 14. In laying the camera 175 you can put a stop fixed number of banknotes individually transported on highway 141 transport.

After all the modules in the processing chain is a protective pocket 176. If there is any banknote that cannot be processed during transport through the modules, releasing it in a protective pocket 176 and removed from device.

In accordance with a device for handling banknotes made in this way, the sheets of paper you can find so stable that it is possible to improve the reliability of this device. In addition, in this device for handling banknotes of the first and second stacking foot device offset angle relative to each other, and the banknotes stacked foot is the exploits of the first and second stacking foot devices transported in a wrapping device via a common transport mechanism. Thus, stacking foot and wrapping device can be made space-saving and miniaturization. In addition, stacking foot and wrapping device operation placing the foot and wraps can be accelerated, and each bundle of banknotes is possible to wrap, for example, 6 seconds or less.

Zamknutuyu loop wrapping the tape can be formed in advance, when the banknotes transported by the transport carriage, so that the wrapping wrapping tape can be started immediately after its submission. Thus, the transport carriage can immediately start receiving the next stack of banknotes, thereby reducing processing time. Because the host Shatov made so that the movement of the lower gripper may be smaller than the movement of the upper gripper, it can be easily and securely clamping thick or bulging of the banknote. In addition, by controlling the rotation of gear wheel with internal crown you can control the position of a car safety belt after it is moved. In addition, wrapping the tape can be pressed and held in proper position by means of the first and second clamps tape and it can be wrapped within a relatively small area. So about the time, in accordance with this embodiment, it is possible to provide miniaturization stacking foot and wrapping device which has a capability of high-speed processing.

Although described certain embodiments of these options for implementation are presented only as examples, and should not be considered as limiting the amount of claims of the invention. In fact, new variants of implementation, described herein, can be implemented in many other forms; furthermore, in the framework of inventions can hold various exceptions, substitutions and changes in the form of embodiments. The accompanying claims and equivalents should be considered to cover such forms or modifications as fall within the scope of the claims and merits of inventions.

For example, sheets of paper to be processed does not need to be banknotes and cards payment transaction set or, alternatively, to be cards casino, securities, etc. in Addition, a device for handling banknotes can - alternatively - to contain multiple stacking and wrapping modules, which are located side by side.

1. Stacking foot and wrapping device, characterized in that it contains:
placing a stop device (6a, 64b), made with the possibility of placing a stop a predetermined number of sheets of paper laying on the block;
wrapping device (68), made with the possibility of wrapping the bundles stacked pile of sheets of paper by wrapping the tape on the package; and
the transport carriage (80, 82), is configured to receive the stack of sheets of paper placed foot stacking foot device, and transporting the stack of sheets of paper to the wrapping device;
moreover, the enveloping device (68) contains a node (96) Shatov made with the possibility of crushing end sections of the bundle of sheets of paper, which is transported by a transport carriage, and the inclusion of this stack of paper sheets to a predetermined position of the tying mechanism (98) drive Shatov made with the possibility of opening and closing the node Shatov in position placing the foot stack of paper sheets and the reciprocating motion of the node Shatov in the direction crosswise to the direction of stacking foot, and letoalmonace device (100)made with the possibility of winding a wrapping tape around the bundle of sheets of paper, drawn in position crocheting;
in this case the transport carriage is arranged to move in the receiving position, in which it addressed to the insertion of the stop device, and receive another pack of foxes is s paper from the stacking foot device with simultaneous wrapping of the tape around the bundle of sheets of paper by wrapping the device after clamping of the stack of sheets of paper through the site Shatov.

2. Stacking foot and the enveloping device according to claim 1, characterized in that the transport carriage (80, 82) is arranged to move up and down and horizontal movement between a receiving position, intended to receive a stack of sheets of paper placed foot in the stacking device (64a, 64b), and a feeding position in which said carriage is turned to the wrapping device (68).

3. Stacking foot and the enveloping device according to claim 1 or 2, characterized in that the node (96) Shatov contains the upper Tong (96a) and the lower Tong (96b), which are opposite and essentially parallel to each other, and between them is a gap, however, they are supported separately with the possibility of moving up and down, and the mechanism (98) drive Shatov includes a motor (104), a large gear wheel (a) and small gear 106b, located coaxially with each other and rotate around the same axis of the said motor and a small gear wheel smaller in diameter than the large gear wheel, the first rail (108a), connected with the upper Tong and brought into engagement with the large gear wheel, and a second rail (108b), connected with the lower grip and brought into engagement with the small gear, the first and second slats are parallel to each other, and who between them are the respective rotating shafts of the large and small gears, moreover, the amount of movement when moving up and down the top of the gripper by means of the above-mentioned electric motor is greater than the amount of movement of the lower grip.

4. Stacking foot and the enveloping device according to claim 1 or 2, characterized in that the enveloping device (68) comprises a gear wheel (120) with internal teeth, rotating around an axis parallel to the direction of the reciprocating motion of the node Shatov, Leontopodium device (90)is executed with a possibility of wrapping tape (91) in the neighborhood of gear wheel with internal teeth and pulling of wrapping tape, the safety device (122) tape mounted on the gear wheel with internal teeth to rotate together with the gear wheel with internal teeth and is configured to clamp the front end of the wrapping tape supplied from Leontopodium device, and the drive mechanism of the tape, made with the possibility of rotation of gear wheel with internal teeth and feeding wrapping tape from Leontopodium device, when the front end of the wrapping tape is clamped by car safety belt, thereby forming the bent loop wrapping the tape along the gear wheel with internal teeth in position crocheting, and the node (96) Shatov made with the possibility of retracting the stack of sheets of paper in the bent loop Ober the full tape.

5. Stacking foot and wrapping device according to claim 4, characterized in that the drive mechanism of the tape in advance generates a bent loop wrapping the tape in position crocheting, when a bundle of sheets of paper transported from the stacking foot device (64a, 64b) in a relay device (68) by means of the transport carriage (80, 82).

6. Stacking foot and wrapping device according to claim 5, characterized in that the safety device (122) tape is made with the possibility of moving it to the stand by position outside the path of retraction of the stack of sheets of paper after moving it from a position of the clamp used to clamp the front end of the tape, in the position intended for the formation of the bent loop of a wrapping tape, when the toothed wheel (120) with internal teeth rotates in one direction and can be rotated to a horizontal position and maintaining it, and the car safety belt rests on the guide plate and is under the stack of sheets of paper, when the toothed wheel with internal teeth is rotated further in said one direction.

7. Stacking foot and wrapping device according to claim 6, characterized in that the enveloping device (68) includes a support plate (103), protruding from the lower Tong (96b) and placed between sheets of wrapping paper and ribbon (91), and the first is th latch (152) tape, made with the possibility of rotation between a standby position outside the path of retraction of the stack of sheets of paper and a locked position, designed to clamp wrapping tape backing plate, with Leontopodium device (90) pulls wrapping the tape at a certain distance and winds that wrapping the tape around the bundle of sheets of paper so that the safety device (122) tape attached to the front end of the tape is held in a horizontal position, and wrapping the tape is pressed against the base plate by the first release of the tape.

8. Stacking foot and wrapping apparatus according to claim 7, characterized in that the first latch (152) tape has a surface hardness which is greater than the hardness of the surface of the support plate (103).

9. Stacking foot and wrapping apparatus according to claim 7, characterized in that the enveloping device (68) contains the upper clamp (160)made with the possibility of a clip wrapping tape (91) and a pack of sheets of paper from the top in position crocheting and dewatering the opposite longitudinal side areas of the bundle of sheets of paper backing plate (103), thereby flexing the whole bundle of sheets of paper, and the first mechanism (162) drive clip made with the possibility of raising and lowering the upper clamp synchronously with the first latch (152) of the tape.

10. Insertion stop is St and the enveloping device according to claim 9, characterized in that Leontopodium device (90) pulls wrapping the tape at a certain distance for tensioning the wrapping tape is pressed by the upper clamp, and the enveloping device (68) contains a second latch (170) tapes made with the possibility of the clamp tight wrapping of the tape to the bundle of sheets of paper and hold in this state, the heater (180)made with the possibility of heating and brewing seam pressed wrapping tape, and the second mechanism (190) drive clamp is configured to move the second latch belt and a heater in communication with each other at the position where the second the release tape and the heater run into wrapping tape.

11. Stacking foot and the enveloping device according to claim 10, characterized in that the enveloping device (68) contains a cutting tool (148)made with the possibility of cutting the wrapping tape (91) between the second latch (170) tape and Leontopodium device (90).

12. Stacking foot and the enveloping device according to claim 10, characterized in that the upper clamp (160) includes a clamping element (161), located opposite the second latch (170) of the tape so that between them is a bundle of sheets of paper, and is configured to clamp tissue tape to the bundle of sheets of paper on top and hold in this state.

13. Uklady the abuser foot and the enveloping device according to item 12, characterized in that the enveloping device (68) contains the release unit (84), which ejected sheets of paper, and the extractor (202), located on the releasing unit configured to release the stack of sheets of paper out of the device, the mechanism (98) drive Shatov made with the possibility of expulsion node (96) Shatov and seized them of a pack of sheets of paper to releasing the block and stop setting by host Shatov after tying the bundles of sheets of paper wrapping the tape and eject the wrapped ream of sheets of paper on the release block.



 

Same patents:

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EFFECT: higher capacity of the receiving compartment.

8 cl, 6 dwg

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15 cl, 16 dwg

Protection device // 2523966

FIELD: transport.

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12 cl, 6 dwg

FIELD: transport.

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13 cl, 33 dwg

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14 cl, 10 dwg

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18 cl, 17 dwg

FIELD: information technology.

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11 cl, 5 dwg

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14 cl, 31 dwg

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4 cl, 12 dwg

FIELD: engineering of devices for processing banknotes.

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EFFECT: higher comfort of operation due to visualization of functions, performed by device, and possible change of configuration of working modes, appropriate for different functions of device.

2 cl, 5 dwg

FIELD: engineering of devices for storing and transporting banknotes.

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2 cl, 30 dwg

FIELD: engineering devices for feeding stacks of elements like banknotes, checks, blanks and the like to machine for further handling of aforementioned elements.

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2 cl, 3 dwg

FIELD: automatic teller machines, in particular, banknote cartridges.

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33 cl, 72 dwg

FIELD: technology for calibrating banknote handling machines.

SUBSTANCE: in accordance to invention, during realization of method, at least one usable banknote is selected, at least one unusable banknote is selected, selected banknotes are subjected to processing in banknote handling machine, recording data into memory, which data are received by means of at least one sensor, and on basis of results of processing of data stored in memory, received by means of at least one sensor, at least one threshold value is set for banknote parameter measured by at least one sensor.

EFFECT: automatic setting of threshold values of parameters of banknotes, measured by sensors, without operator participation.

11 cl

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SUBSTANCE: banknote processing machine has a body of machine for transporting banknotes and storing banknotes, differing from unloaded banknotes, and detachable box having an installation section, mounted detachably on supporting section of machine body for storage and unloading of banknotes. Machine body contains a device for determining whether a banknote is unloaded banknote, device for transporting banknotes in normal and reverse direction between determining device and supporting section, and storage section for accumulated banknotes for storing banknotes differing from unloaded banknote, transported by transporting device. Detachable box has section for storing unloaded banknotes.

EFFECT: prevented cases of stuck banknotes, accelerated banknote processing operations.

6 cl, 10 dwg

FIELD: automatic teller machines.

SUBSTANCE: in accordance to the invention, automatic teller machine contains mechanism for receiving objects being deposited. Objects being deposited may be inserted into teller machine in envelopes, which are firstly dispensed to the user from the envelope storage area in teller machine by a transportation device and then dispensed to the user through an aperture. The device for storage and dispensing of envelopes only gives one envelope to a user. Then the user may place deposited objects into dispensed envelope. Deposited objects pass through an aperture and are positioned in container for deposits. Deposited objects may be marked by markings, corresponding to transaction or properties of deposited objects, when an envelope is originally given to the user for placement of deposited object inside it.

EFFECT: creation of automatic teller machine, providing recording of information about properties of objects being deposited, including measurement and recording of thickness thereof.

10 cl, 70 dwg

FIELD: engineering of banknote processing devices.

SUBSTANCE: banknote processing device has transportation system with several transportation sections (9, 11, 24, 99, 100, 107, 109) for moving banknotes. Transportation system has distribution pointer device with transportation section (109) positioned between two branches of transportation sections, driven in two directions for movement of banknotes in it in two mutually opposite directions. Distributing pointer device represents a distributing pointer module (33) with at least four inputs/outputs (34-37), which is a separate unit, made primarily detachable and/or opening.

EFFECT: simple and flexible solution to structural realization of device.

24 cl, 9 dwg

FIELD: polygraphy.

SUBSTANCE: invention relates to the method for sorting documents. The method for sorting banknotes presented in both arrangements with a face sheet upwards and a face sheet downwards, implies the use of a banknote sorting device. The device has three output magazines. The method involves stages whereat banknotes are sorted by arrangement of face sheets and orientation by different magazines. The total number of all banknotes sorted into output magazines is counted and displayed to the user. The method additionally involves stages whereat banknotes sorted into one of the three magazines are extracted, turned over to be placed in the opposite arrangement, and repeatedly loaded into the banknote sorting device for further sorting. The second version features a method for sorting banknotes presented both in a direct and opposite orientations.

EFFECT: improved design of the device for sorting documents.

2 cl, 47 dwg, 4 tbl

FIELD: physics; computer facilities.

SUBSTANCE: invention concerns to electronic system and method of performance of banking transactions. The method of performance of banking transactions through a communication network for the electronic banking transactions, containing the central block of data processing (2) and set of electronic terminals (3) with which help the user can carry out banking transactions and which are related to the central block of data processing through a communication channel (4), includes generation of a unique code which starts procedure of a randomisation during performance of banking operation.

EFFECT: increase of safety and reliability of operations of draw of rates.

5 cl, 3 dwg

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