Modular document processing device

FIELD: transport.

SUBSTANCE: invention relates to document processing device being actuated by modular drive gear which can actuate multiple various modular actuators connected with possibility to be actuated and disconnected from drive gear. The modular device contains validator with conveyor to move document along passage, and housing to accommodate conveyor; packer containing carrier device; drive gear with driving unit consisting of drive, power transfer and displacement devices, intermediate channel, front and rear gear wheel, support frame and a pair of articulated joints, and housing to accommodate the driving unit.

EFFECT: simplification of driving and actuating devices assembling, dismantling, servicing, checking and replacing; continuous feed of documents from validator using driving device to packer due to the fact that validator and packer are connected with possibility to be actuated and disconnected from driving device.

13 cl, 33 dwg

 

The technical field to which the invention relates

This invention relates to a device processing, driven modular drive mechanism, which can result in the movement of many different modular actuators connected with driving to and disconnected from the drive unit.

The level of technology

The US patent No. 5836435 discloses a device for handling banknotes, which contains a validator is designed to validate bills introduced in the device, the styling tool for storing notes in response to the output signal from the validator when the bill is considered by the checker as genuine, frame for maintaining the means of laying, clutch means provided between the checker and the frame, to maintain with removable checker on the frame in the overlapping pass validation with the passage means laying, connection tool, which contains the plug and the socket, one of which is attached to the rear end of the checker for electrical connection with the sensor test, and the other attached to the front end of the frame, and a means of power transmission, which contains a pinion gear supported rotatably on the frame, and the driven gear, the mouth of blennow rotatably on the checker and placed in the same plane, as a leading gear.

The checker includes conveyor means for moving the bill along the passage and the detection means placed adjacent the aisle. When the validator is attached to the frame using the connection, the slave gear validation automatically comes into engagement with the pinion frame, while the plug and socket connectors are simultaneously and automatically engage with each other for driving the conveyor means in the checker motor provided outside of the scan tool and in the frame. The detection tool in the scanner may send an output signal to the vehicle control, which is provided outside of the scan tool and in the frame using the connection. However, this device processing bills has drawbacks, since the driving means and the plunger in the device processing bills do not have a modular design for Assembly and disassembly.

The US patent No. 5372361 illustrates the banknote processing device, which contains a device for inspection of the banknote fed to the device regardless of whether or not the banknote is genuine, stacker, installed with the possibility of disconnecting this device, and with the housing to define a storage area of the stacked BGC is R, and a conveyor to move the bill along the passageway from the device checks in the stacker, the chamber formed by the housing of the stacker pusher, posted with the possibility of removal inside the stacker and coupled with the possibility of driving with the conveyor for pushing bills in the specified area of the hole formed in the housing near the camera for the passage of the pusher, and a slit inlet formed in the main plate of the pusher for receiving banknotes inside of the pusher from the output passage of the conveyor. However, this device is unsuitable as a screening device cannot be removed from the device.

The US patent No. 6619461 is a device for checking banknotes, which contains a number of removable components, fixed in the housing frame, and electrical means for connecting the device checks with the associated device, providing a link between them. Removable components include relying head for receiving and determining the authenticity of the banknote storage medium for receiving banknotes banknotes made by the screening device, and the interface module power supply for receiving power from the electrical means for providing transmission of any energy required to power the validating head. This device checks banknotes contains several removable components, however, does not have the such any removable device transmit power.

The invention

Technical problem

Accordingly, the present invention is the provision of a modular processing device of documents, which contains the modular drive unit and many modular actuators connected with driving to and disconnected from the drive unit to actuate the actuator drive unit. Another objective of the present invention is the provision of a modular processing device of documents that contains the drive unit, the validator and stacker, each formed in a block that can be consistently and with branches connected to each other for joint actuation of the validator and stacker drive unit. Another object of the present invention is the provision of a modular processing device of documents that contains the drive unit, the validator and stacker, consistently and with the possibility of separation combined with each other for a consistent and continuous movement of the document inserted into the validator via the drive device, in the stacker.

Solution

The modular device of the document processing according to the present invention contains the validator (2) the La test document (35), stacker (3) for placement of the document (35), sent from the validator (2)and drive unit (1) to move the document (35) from the validator (2) in the stacker (3). Drive unit (1) includes an actuator (17), the device (8) transmission power driven actuator (17), the front and rear gears (11, 12), both driven by a supply of power from the drive (17) using a device (8) transmission power. The validator (2) and stacker (3) connected with driving and detach from the front and rear gears (11, 12), respectively, for actuation of the validator (2) and stacker (3) the supply of power from the drive (17) for the coordinated movement of the document (35) of the passage (10)formed in the validator (2), through an intermediate channel (48)formed in the drive device (1), stacker (3). The specified device, document processing is preferred, because the validator (2) and stacker (3) can be detached from the front and rear gears (11, 12), respectively, for ease of Assembly, disassembly, repair, maintenance, test, inspection or replacement or the like

Another modular unit of the document processing according to the present invention includes an actuator (17), the device (8) transmission power, the base frame (22)formed with a pair of hinges (160) to maintain the actuator (17) and a device (8) precachemodel in the form of one of a drive unit (13), and the housing (15) to accommodate the drive unit (13). The housing (15) is formed with a pair of bearings (161), are able to take with ocalenia and rotation joints (160) base frame (22). Drive unit (13) is easily installed in the desired position inside the housing (15) mount with ocalenia hinges (160) in the paired bearings (161), and further rotation of the drive unit (13) inward of the housing (15). Drive unit (1), validator (2) and stacker (3) independently collected in the form of discrete and different modules or blocks that can be consistently and with branches connected to a common driving validator (2) and stacker (3) drive unit (1) with agreed travel document (35) from the validator (2) by means of a drive device (1) in the stacker (3). This device processing documents is preferred, since the drive unit (1), validator (2) and stacker (3) can be when separated from each other to perform a simple Assembly, disassembly, repair, maintenance, inspection or replacement or the like

Additional modular unit of the document processing according to the present invention contains a drive unit (1) and the validator (2), United with the possibility of driving and detach with a drive device 1). Drive unit (1) includes an actuator (17) and a device (8) transmission power driven actuator (17), the front gear (11), driven by a drive (17) using a device (8) transmission power, the base frame (22) to maintain the combined drive unit (13), composed of the actuator (17), the device (8) power transmission and front gear (11)and the housing (15) to accommodate the combined drive unit (13). The validator (2) contains a passage (10) and a conveying device (5) to move the document (35) along the passage (10). Conveying device (5) has an input gear (21), connected with driving and detach the front gear (11) of a drive device (1).

According to the present invention, the drive unit can be connected with driving to and disconnecting from devices, such as the validator and stacker for synchronized power driven devices and actuators actuator provided at the drive device is coordinated by the United way, without requiring any additional actuator or actuators in the Executive devices. Also driving and actuating devices may consist of separate discrete or independent modules or blocks that can be Conn who are satisfied with driving and separating with each other to provide a more simple Assembly, disassembly, maintenance, inspection, replacement of the drive and actuating devices, and this design effectively confirms the feasibility of reducing the number of assembled parts, the weight of the device and the manufacturing cost. Moreover, when the validator and stacker connected with driving to and disconnected from the drive unit coordinated the United way relative to each other, the document can be continuously fed from the validator using the drive device in the stacker.

Brief description of drawings

The above and other objectives and advantages of the present invention will be clear from the following further description in connection with the preferred variants of execution of the unit processing device of the documents used in the processing device of the banknotes shown in the accompanying drawings, and:

Figure 1 is a front view of a drive device for use in a modular device of the document processing according to the present invention;

Figure 2 is a side view of the drive device shown in figure 1;

Figure 3 is a front view from below in perspective of the drive device;

Figure 4 is a rear view from below in perspective of the drive device;

Figure 5 is a view of mastrogiannis rear gears in the drive device;

6 is a disassembled perspective view of the device of the processing of banknotes according to the present invention;

Fig.7 is a view in section of a drive device, which is attached to the validator in the United with driving and the separation position;

Fig is a bottom view in perspective of the drive device from which you removed the drive unit;

Fig.9 is a view in section of a drive device in which the drive unit is mounted on associated with housing bearings;

Figure 10 is a view in section of a drive device with a drive unit, optionally rotate inside the housing, shown in Fig.9;

11 is a bottom view in perspective of the drive device shown in Figure 10;

Fig is a view in section of a drive device with a drive unit, the entire inside of the hull;

Fig is a view in section of the stacker with the embedded device carrier;

Fig is a view in section of the stacker with the embedded device pusher;

Fig is a perspective view of the entire device processing of banknotes according to the present invention;

Fig is a bottom view in perspective of the driving device for use in the project in the device processing bills;

Fig is a top view in perspective of the stacker;

Fig is a view in section of a Cam connector for attaching the drive unit to the frame;

Fig is an enlarged view in section of a Cam connector;

Fig is a view in section of the Cam track in the Cam connector;

Fig is a view in section of the copier in the Cam connector;

Fig is a view in section of a Cam connector with copier inserted into the Cam guide;

Fig is a view in section of the rear gears in the drive device in spaced relation to the drive gear in the stacker;

Fig is a view in section, showing the Cam connector with copier, optionally inserted into the Cam guide;

Fig is a view in section of the rear gears in the drive device in the locked position to the drive gear in the stacker;

Fig is a perspective view snap device for mounting with the possibility of removal of the validator to the frame;

Fig is a view in section of snap device shown in Fig;

Fig is a perspective view snap device is exempt from staples for ocalenia VA is idator from the frame;

Fig is a side view of the snap device shown in Fig;

Fig is a view in section of the rotor antivitiligooil block;

Fig is a perspective view of the roller in antivitiligooil block;

Fig is a detail view in perspective antivitiligo of block edges in the video, which linked retrieves the tape; and

Fig is a partial detail view in front antivitiligo block shown in Fig.

Description of options

Hereinafter will be described in conjunction with Figure 1-33, embodiments of the processing device of notes in the form of high modulus device of the document processing according to the present invention. These options run lead and illustrate the example used in practice and device specific processing of banknotes, which includes a drive unit 1, the validator 2, stacker 3 and frame 4, all of which are modulated in discrete blocks and collected in the processing unit of the notes. Here in the description, the word "block" to the drive device 1, validator 2, stacker 3, and frame 4 has the same meaning as discrete included "module", "unit" or "package", and the word "modulate" has the same meaning as "to unite", "to lay" and "to join together". In addition, the word "usedin is Amy" has the same meaning, as "deleted", "separated", "remove". The word "document" means a bill, bill, coupon, paper, application, card, certificate or other securities. Embodiments of the present invention can include as actuators conveying device, the device carrier, the pusher device, the moving device and antivitiligooil block, however, it is clear that the specialist in the field of engineering will be able to choose the number of necessary actuators, remove the optional control device or devices, or to add another device or other devices that are not disclosed here, to one or more devices driven by the driving device in the present invention.

[1] the Design of the drive device

Figure 1-4 shows the drive unit 13, which in General triangular cross-section, for use in the drive device 1 device processing banknotes in accordance with the present invention. Drive unit 13 includes an actuator 17, the device 8 power transmission driven by a drive 17, and the support frame 22 to maintain the actuator 17 and devices 8 power transmission in the form of a block. As can be seen in Fig.6 and 7, the drive unit 1 has a drive unit 13 and the housing 15 to accommodate the drive unit 13. Not shown, however, in the drawings, the device management the s drive is located inside the housing 15, it is electrically connected with a driving unit 13 to control the operation of the drive unit 13. As shown in Fig.7, the drive unit 1 is connected with the possibility of bringing in movement and separation from the conveyor device 5 in validator 2 as the first actuator to actuate the conveyor device 5 of the driving device 1.

As shown in Fig.7, the driving device 1 contains a partially-curved intermediate channel 48, and the device 9 to move in as the fourth actuating devices connected with driving actuator 17 through the device 8 transfer power to move notes 35 along the intermediate path 48 in the drive device 1. The inlet 48A intermediate path 48 (Figure 10) is in communication with the passage 10 in validator 2, and the release 48b intermediate path 48 is in communication with the backup camera 78 in stacker 3 (Fig and 14).

In the shown embodiment of the invention, the actuator 17 includes a reversible electric motor 701 move, rotate in forward and reverse directions, and the motor 702 styling. The motor 701 move has a drive shaft to maintain the gear shaft 23 connected with driving device 8 transfer power to bring it into the movement of electrode what motor 701 move. Further, the device 8 power transmission is connected with the possibility of the driving device 9 and move the gear 201 move as one of the rear gear 12. Further, the device 9 move in turn is connected with the possibility of driving with antivitiligooil unit 41 and the front gear 11. The motor 702 styling connected with driving gear 202 styling as the other of the rear gear 12, with additional power transmission, which has the same or similar design as shown pinion shaft 23 and the device 8 power transmission, so that the auxiliary device power transmission is mounted for rotation on the same shaft. Its final drive ratio or the number of teeth of the gears in the accessory power transmission, which is connected with the gear 202 styling may differ from the ratio and number of teeth of the gear device 8 power transmission.

The device 9 moves and rear gear 12 is connected with the possibility of driving parallel to the device 8 power transmission, while antivitiligooil unit 41 and the front gear 11 is connected with the possibility of driving parallel to the device 9 is moved. In this embodiment, the adopted specified is use the order or sequence of the transfer device 8 power transmission, device 9 moves, the rear and front gears 12 and 11, but expert in the field of technology will be able to change the order of transfer if necessary. Front gear 11 is connected with the possibility of driving the input gear (first gear Executive) 21 in the conveying device 5 via the output gear 39 (7), and rear gear 12 is composed of the gear 201 and 202 moving and stacking, which are connected with the possibility of driving with the gear 761 drove in the device 6 took stacker 3 (Fig) and the gear 762 pusher device 7 of the pusher stacker 3 (Fig), respectively. Gear 761 led is used to rotate the device 6 has been leading in the stacker 3 to move the banknotes 35 from the drive device 1 in backup camera 78 in the stacker 3, and the gear 762 pusher is used to actuate the device 7 of the pusher for stacking banknotes 35 in the backup chamber 78 in the memory 79. Gears 761 and 762 carrier and pusher inclusively shown in the form of a drive gear 76.

The device 8 power transmission includes a third gear 63, the gear with the gear shaft 23 of the motor 701 and 702 moving and stacking, the fourth gear 64 mounted on the shaft of the third gear 63, the fifth gear 65, gear and fourth gear 64, the sixth gear 66, the set is built on a shaft fifth gear 65, seventh gear 67, gear sixth gear 66, the eighth gear 68 mounted on the shaft of the seventh gear 67, the ninth gear 69, gear to eighth gear 68, the tenth gear 70 mounted on the shaft of the ninth gear 69, and the eleventh gear 71, the gear with the tenth gear 70, as shown in Figure 5. The eleventh gear 71 engages with the twelfth gear 72, which contains the gear 201 moving and laying in the back of the gear 12. As in the device 8 power transmission, power transmission has a gear similar to the gear pp.63-72 and the gear 202 styling in the rear gears 12.

As shown in Figure 5, the device 9 to move contains a twelfth gear 72, the gear with the eleventh gear 71, the first pulley 74 (Figure 1)mounted on the hinge shaft 73 twelfth gear 72, the drive belt 36 wound around the first pulley 74, a lot of the unloaded rollers 38 in contact with the drive belt 36 to hold it in the desired position, the second pulley 75 mounted on the shaft for maintaining the front gear 11 and the drive pulley 32 mounted on the shaft 140 antivitiligo unit 41 for the wrapping of the belt 36 around a drive pulley 32. Front gear 11 is mounted rotatably on the shaft of the second pulley 75 in the drive unit 13 for engagement with the option of ocalenia front gear 11 with the output gear 39 (7), installed rotatably inside the housing 15. Thus, the motor 701 and 702 moving and stacking in the actuator 17 can move through the device 8 power transmission five execution units, which contain the first execution unit: conveying device 5 in validator 2, coupled with the possibility of driving with the front gear 11; the second and third actuating devices: devices 6 and 7 of the carrier and pusher, United with the possibility of driving with gears 201 and 202 move and styling in the rear gear 12; a fourth execution unit: unit 9 move with the first pulley 74, coupled with the possibility of bringing in the movement from the twelfth gear 72; and the fifth control device: antivitiligooil block 41 with the rotor 42, which is connected with the possibility of driving with a drive belt 36.

[2] the First execution unit = conveying device

As illustrated in Fig.7, the input gear 21 in the conveying device 5 of the validator 2 as the first actuator is connected with the possibility of driving and detach from the output gear 39 in the drive device 1 for driving the input gear 21 by the rotation of the actuator 17 via the transfer device 8 mo the activity, the front gear 11 and the output gear 39. The inlet sensor (not shown) provided in the validator 2 to detect the bill insertion 35 into the inlet 14 of the passage 10 and creating a detection signal, which is used to rotate the motor 701 move in a forward direction. Thus, the conveying device 5 rotates in the forward direction to move the banknotes 35 along the passage 10 in the direction of the drive device 1. Detection (not shown) placed in validator 2 with the possibility of photoelectric or electromagnetic detection physical characteristics notes 35 to generate pattern signals. The control device actuator (not shown) in the housing 15 receives the pattern of signals from sensors recognition to authenticate banknotes 35 with regard to the pattern of the signals. When the device drive control takes note 35 for a fake, it rotates the motor 701 moving and conveying device 5 in the reverse direction to return the bill 35 in the inlet 14 in validator 2.

[3] Drive and detachable connection between the moving device and the driving device

As is clear from Fig.6, the sliding connector 16 is provided between the casing 15 in the drive device 1 and the housing 20 in validator 2 to be installed with the possibility of disconnection or separation of the casing 20 in which Aligator 2 on the housing 15 in the drive device 1 with a sliding connector 16. Sliding connector 16 comprises a pair of rails 52 of L-shaped cross-section, fixed to the body 15, and joined sliders (not shown)fixed on the bottom surface of the housing 20. These floaters have a cross-section complementary to the cross section of the rails 52, to attach with removable sliders to rails 52 for sliding movement of the slide on the rails 52 so that the validator 2 can move in the housing 15 along the rails 52. When the validator 2 is moved on the housing 15 in the most remote and proper position, the input gear 21 of the conveyor device 5 automatically and with ocalenia comes into engagement with the output gear 39 in the drive device 1. Here, as shown in Fig.7, the release passage 10 in validator 2 automatically communicates with the inlet 48A intermediate channel 48 in the drive device 1. When the validator 2 is moved on the rails 52 in the opposite direction from the drive device 1, the input gear 21 of the conveyor device 5 automatically down from the output gear 39 of the drive device 1 to remove a validator 2 from the drive device 1, thus stopping the driving position between the conveyor device 5 and the drive device 1. Additional snap device can be provided with the opportunity to prevent accidental Department is of the validator 2 from the drive device 1 as a result of the engagement state of the input gear 21 with the output gear 39, this additional snap device may have a construction similar to the snap device shown in Fig-29.

[4] the Second actuating device = device drove

Devices 6 and 7 were taken and the pusher in the stacker 3, shown in Fig and 14, respectively, are the second and third actuators, which have gears 761 and 762 carrier and pusher (drive gear 76), respectively United with the possibility of driving and detach with gears 201 and 202 move and styling accordingly rear gears 12 in the drive device 1 (Figure 2). Device 6 drove contains gears 761 drove, the intermediate gear 767, meshed with the gear 761 carrier gear 763 pulley, meshed with the intermediate gear 767, pulley 764, rotate as a unit with the gear 763 pulley, and belt 765 wrapped around pulleys 764 and 768, and a freely rotating roller 766. During forward rotation of the reversing motor 701 displacement device 9 move in the drive device 1 operates to move the banknotes 35 through the passage 10 and the intermediate channel 48, and the rotation of the pinion 761 carrier device 6 was taken. The rotation of the gear 201 movement causes the pinion 761 drove, the intermediate gear 767 gear 763 pulley and the pulley 764 rotated so that the re is Yan 765 accepts bill 35, submitted release 48b intermediate channel 48 to move it to the backup camera 78 in the stacker 3. During rotation of the motor 701 move in the opposite side of the device 9 to move in the drive device 1 rotates in the reverse direction to return the bills 35 through the intermediate channel 48 and the passage 10 into the inlet 14.

The device 7 of the pusher includes a series of gear 710-713, gear with the gear 762 of the pusher, and the device 717 links connected to the lever 715 formed with a hole 716 for receiving finger 714 attached to the gear 713. The motor 702 styling causes the rotating gear 762 of the plunger and, consequently, the gear 713, together with your finger 714, for discharge of the device 717 communication back to the original position shown in Fig. When bill 35 is served in the reserve chamber 78, the motor 702 laying operates with the possibility of transfer device 717 communication from an initial position to a stretched position (not shown) for storing the banknotes 35 in the backup chamber 78 in the memory 79. Additional rotation or forward rotation of the back of the motor 702 styling makes the device 717 communication be derived from the extended position and to return the device 7 of the pusher shown in its original position. The US patents No. 5836435 and 5372361 disclose the details of such devices tol is the motor for stacking banknotes in the backup camera in the drive, and for more detailed description of the device 7 of the pusher here omitted.

As shown in Fig, drive device 1 can be attached with the ability to detach the frame 4 device processing bills with the Cam connector 19. In an embodiment shown in Fig, Cam-type connector 19 includes a Cam guides 80 (Fig)formed on a pair of vertically spaced side walls 40 in the frame 4, and copiers 81 formed on a pair of vertically spaced side walls 51 in the drive device 1, so that the copier 81 can be inserted into the associated Cam guides 80 for mounting with the possibility of disconnection of the drive device 1 to the frame 4. The bracket 82 is horizontally at right angles and connected with a vertically-arranged side walls 40 in the frame 4. Cam connector 19 can be formed of the molding resin, the molding forming metal or consolidated material of resin and metal. As shown in Fig, the Cam guide 80 includes a distal channel 83, horizontally formed on the side walls 40 in the frame 4, the inclined channel 84 of access, coupled with the distal channel 83, and a horizontal proximal channel 85 which is connected with the bottom of the channel 84 access.

The distal channel 83 contains the distal surface 86, obrazovan the Yu contrary to the bracket 82, the corrugated surface 87, protruding upwards towards the distal surface 86, and an inlet slope 88 formed in the front corrugated surface 87. The channel 84 of access formed between the distal and proximal channels 83 and 85 with the ability to contain the rear slope 89 connected to the distal surface 86, and the front tilt 90 connected with a corrugated surface 87 and located parallel to the back slope of 89. The proximal channel 85 contains the proximal surface 91, continuing from the front tilt 90 and located parallel to the distal surface 86, the stop surface 92, continuing from the rear slope 89 and located parallel to the distal surface 86, and the remote surface 93 formed between the proximal and shut-off surfaces 91 and 92. The bracket 82 is installed and fixed in the frame 4 in front of the intake slope 88 to determine the inlet 105 of the distal channel 83 in cooperation with the distal surface 86.

The copier 81, shown in Fig contains the proximal plate 94, the distal plate 95 formed in parallel and in spaced up against the proximal plate 94, an intermediate slope 96 connected to the proximal plate 94 and located parallel to the front tilt 90, the intermediate plate 97, is United with intermediate inclination 96 and located parallel to and in spaced up against the proximal plate 94, additional slope 98 connected to the intermediate plate 97, the main plate 99 that is connected with the additional inclination 98 and located parallel to and in spaced downward with respect to the intermediate plate 97, stabilizing the slope of the 100 connected to the distal plate 95 and located in parallel to the intermediate slope 96, and the front plate 101, is connected with a stabilizing slope 100 and located parallel to and in spaced upward with respect to the distal plate 95, the rise of 103 formed on the end of the front plate 101 with the ability to come in contact or collision with the edge 102 of the inlet 105 to the distal channel 83, when the copier 81 is inserted into the Cam guide 80 and the arcuate end surface 104 that connects the proximal and distal plates 94 and 95. Arcuate end surface 104 has an arcuate shape complementary to the remote surface 93 of the proximal channel 85.

As can be seen from Fig and 23, when the copier 81 of the drive device 1 is installed in a fixed position in the frame 4, the end surface 104 of the Cam 81 is inserted in the inlet 105 of the distal channel 83 and is provided in contact with the inlet 88 to tilt the direction of the end surface 104 along the intake slope 88 corrugated surface 87. Next, the proximal plate 94 copier 81 prospect who walks into contact with and slides on a corrugated surface 87 with the ability to simultaneously force the distal plate 95 copier 81 to be turned to or come in contact with the distal surface 86 of the distal channel 83, and then the proximal plate 94 is moved inward along and is in sliding contact with the distal channel 83. In other words, the Cam 81 is moved toward the rear of the frame 4 in an exploded up against with stacker 3 the height of the corrugated surface 87 on the bracket 82. Despite the fact that the lower part of the rear gear 12 and the protective ribs 58 of the drive device 1 is located with the opportunity to speak from the bottom surface 15a of the housing 15, it is possible to prevent adverse contact of these lower bracket 82 and the upper surface 62 of stacker 3 when moving the copier 81 ago, as the proximal plate 94 of the Cam 81 is in contact with the corrugated surface 87 of the Cam guide 80 to explode these lower parts of the brackets 82 and the top surface 62, as shown in Fig and 23.

When the copier 81 of the drive device 1 additionally pushed inside the rear distal portion of the channel 83 from the position shown Fig, as illustrated in Fig, the end surface 104 of the copier 81 comes into contact with the rear slope 89 with the ability to bring in a touch of intermediate slope 96 copier 81 and glides on front tilt 90 so that the entire copier 81 and drive unit 1 is moved down toward the stacker 3 along the channel 84 access, ODA is divided rear and front slopes 89 and 90, at the angle shown inclined arrow on Fig. As soon as the copier 81 reaches the proximal channel 85, the proximal plate 94 of the Cam 81 is brought into contact with the proximal surface 91, and at the same time the rear gear 12 and the protective ribs 58 protruding from the bottom surface 15a of the housing 15 come into engagement with gears 761, 762 carrier and follower, respectively, and joined insertion grooves 53.

Further, when the copier 81 additionally pushed toward the rear side of the proximal channel 85, it moves horizontally along the proximal channel 85 of the Cam guide 80 for a short distance, and, finally, the end surface 104 of the copier 81 comes in contact with the outermost surface 93 of the proximal channel 85 to position the housing 15 fully in the desired fixed position, at the same time to bring back the gear 12 in fixed engagement with the gears 761, 762 carrier and pusher, as well as to prevent further movement forward of the copier 81, as shown in Fig and 25. Also, additional slope 98 copier 81 is in contact with or directed to the intake slope 88, and exaltation 103 copier 81 addressed to or is in contact with the edge 102 of the inlet 105, but between the intermediate slope 96 copier 81 and the front tilt 90 of the Cam guide 80, a gap, as pokazanova Fig. Alternatively, the rear gear 12 can be in the setpoint connection with gears 761, 762 carrier and pusher during contact of the proximal plate 94 with the proximal surface 91, as soon as the end surface 104 reaches the proximal channel 85, and the spring or elastic environment for creating elastic depreciation can be used in at least one of the connected rear gear and pinion 761 and 762 carrier and pusher.

As shown in Fig, the bottom surface 15A of the housing 15 is also formed with the release 48b intermediate channel 48 in the drive device 1; gears 201 and 202 moving and stacking the rear gear 12 of the device 9 to move in the drive device 1 protrude from the holes 56a, 56b formed on the bottom surface 15a in the housing 15; a variety of protective ribs 58 formed around the holes 56a, 56b with the opportunity to speak down from the bottom surface 15b toward the stacker 3, while surrounding the rear gear 12. The length of the protrusion of the protective ribs 58 on the bottom surface 15A is substantially the same as or more than the length of the rear gear 12 to completely surround the rear gear 12 protective ribs 58. Protective ribs 58 continue parallel to each other and perpendicular to the issue 48b. As shown in Fig, the upper surface 62 of the stacker 3 is parallel to nor is it the surface 15A of the housing 15 and includes an inlet 59 for receiving bills 35, moved from the release 48b intermediate channel 48 in the drive device 1, and the set or four hollow inside and direct insertion grooves 53 are ongoing longitudinal or perpendicular to the inlet 59 and parallel to each other. Holes 57a and 57b are formed in the insertion grooves 53 with access to the gears 761 and 762 carrier and pusher outside through holes 57a and 57b. Many of ribs 54 formed in the insertion grooves 53 on the upper surface 62 on opposite sides of the gears 761 and 762 carrier and pusher.

When the installation of the drive device 1 in a stationary position, shown in Fig, on the frame 4, the bottom surface 15A of the housing 15 is parallel to the upper surface 62 of stacker 3; protective ribs 58 of the drive device 1 are installed in the corresponding insertion grooves 53 stacker 3; rear gear 12 of the drive device 1 become meshed with gears 761 and 762 carrier and pusher stacker 3; and at the same time, the protective ribs 58 of the housing 15 are located between the ribs 54 stacker 3; and the release 48b intermediate channel 48 in the housing 15 is accurately aligned with the inlet 59 stacker 3. At least each of the lower part of the gear 201 and 202 moving and stacking acts in each hole 56a, 56b to bring in drive and with the possibility otable the Oia engagement with the gears 761 and 762 carrier and pusher stacker 3, respectively. Fig and 19 show the construction of the body 15 in a suitable stationary frame 4, where the end surface 104 of the Cam 81 is in contact with or near the outermost surface 93 of the Cam guide 80. As seen on Fig, gears 201 and 202 moving and stacking are in engagement with gears 761 and 762 carrier and plunger, respectively, with the possibility of the propulsion device 6 has led to the introduction of bills 35 and devices 7 of the pusher for stacking banknotes 35.

During forward rotation of the motor 701 move the drive gear 17 201 movement actuates the device 6 has led to the introduction of bills 35 backup camera 78, and during rotation of the motor 701 move in the opposite direction of bill 35 can be returned to the inlet 14 through the intermediate channel 48 and the passage 10. Further, when bill 35 is returned to the reserve chamber 78, the motor 702 laying operates with a rotating device 8 power transmission and gear 202 styling rear gear 12 to the actuating device 7 of the pusher, which puts forth a bill 35 in the backup chamber 78 in the memory 79.

[5] Snap device

As shown in Fig-29, the snap device 120 is located at the front end of the housing 15 and between the housing 15 and the bracket 82, and it is Adina fastens the housing 15 with the bracket 82 to prevent unexpected movement of the housing 15 in the direction of the connector. Snap device 120 contains grupowy arm 122 mounted for rotation on the bracket 82 around the shaft 121, rotating the operating lever 124 mounted on the axis 123, the arm 125, mounted on the axis 123, and a spring 127 stretching, having one end fixed in the side wall 51 of the housing 15 (6 and 27), and the other end connected to the offset end 128 of the ratchet lever 122, with the possibility of creating elastic tensile strength for elastic impacts on grupowy lever 122 in the direction of rotation counterclockwise around the shaft 121. Grupowy lever 122 includes a stopper 126 formed with a slope a lever which can be captured by the edge of the hole a formed on the bracket 82 and the elongated hole 130 for receiving rotatably finger 129, mounted on the operating lever 124. When the drive unit 1 is mounted on the frame 4, the stopper 126 slides on the upper surface of the bracket 82 with tilt a lever in contact with the bracket 82, and therefore, the tilt a lever forcibly rotates grupowy lever 122 in a counterclockwise direction against the elastic force of the spring 127 stretching. When the arm 125 is manually removed downwards, grupowy lever 122 also forcibly rotated in the counterclockwise direction for removing the stopper 125 is disengaged from the hole 82a.

In this embodiment, the surface is the surface configuration of the inner surface of the frame 4 and the outer surfaces in the drive device 1 can be modeled in the Cam guide 80 and the copier 81 Cam connector 9 without the necessity to use any additional component or known in the prior art connector between the frame 4 and the drive device 1, and therefore, the processing device bills can increase the height and length of the stacker 3 for effective expansion of its volume to accommodate it notes. Also, since the stacker 3 can have an increased length, it can take longer notes, which are known in the prior art stacker cannot be stacked, and obviously this extends the field of application processing bills. Despite the fact that gears 761 and 762 carrier and pusher stacker 3 are located inside the stacker 3, not speaking beyond the upper surface 62 of the stacker 3, the drive unit 1 can be mounted in a predetermined fixed position in the frame 4, while protecting the gears 201 and 202 move and installation of the drive device 1 from unwanted collisions with external objects during the operation of attaching and detaching the drive device 1 with respect to the frame 4, thereby increasing the service life of the treatment of the notes.

When the copier 81 is moved along the distal channel 83, as shown in Fig, tilt a lever stopper 126 in snap device 120 is brought into contact with the edge 82b of the bracket 82 (Fig) for forced rotation of the ratchet lever 122 in a counterclockwise direction in the circle of the shaft 121, counteracting the elastic force of the spring 127, and therefore, the stopper 126 runs onto and moved, slithering, along the upper surface of the bracket 82. Further, the copier 81 moves downward tilted along the back and front tilt 89 and 90 through the channel 84 of access, and the stopper 126 remains in contact with the top surface of the bracket 82. When the end surface 104 of the Cam 81 is brought into contact with the outermost surface 93 of the proximal channel 85, the elastic force of the spring 127 rotates grupowy lever 122 in a counterclockwise direction to engage the stopper 126 with a hole a bracket 82 so that the snap device 120 is used for installation of the drive device 1 in a stationary position of the frame 4 and thus of course to prevent the rapid discharge of the drive device 1 from the frame 4. Thus, the Cam guide 80 and abutting copiers 81 provide design tapered connection for quick and easy installation of the drive device 1 on and removal from the frame 4 without the formation of any mechanical collision between them.

When the drive unit 1 is removed from the frame 4, the arm 125 is manually rotated downward or counterclockwise direction around the axis 123, counteracting the elastic force of the spring 127 to rotate the ratchet lever 122 upward in a counterclockwise direction with your finger 129. Rotation is clockwise ratcheting lever 122 releases the engagement between the stopper 126 and the hole 82a, to allow the drive device 1 to come forward so that the copier 81 can be separated from the Cam guide 80 to remove the drive device 1 from frame 4 without any unwanted physical contact device 9 move in the drive device 1 with the bracket 82 and the upper surface 62 of the stacker 3.

[6] Drive and a detachable connection between the drive unit and stacker

According to the processing device banknotes of the present invention, after the copier 81 is inserted into the proximal channel 85 of the Cam guide 80, the housing 15 of the drive device 1 additionally pushed inside the frame 4, as shown in Fig, and, thus, the copier 81 may be horizontally and slightly displaced along the proximal channel 85. When the end surface 104 of the copier 81 comes in contact with the outermost surface 93 of the proximal channel 85, the drive unit 1 is contained in a proper fixed position to prevent further movement inside the drive device 1, and at the same time, the rear gear 12 are connected with the possibility of driving with the driving gear 76. At the same time, additional slope 98 copier 81 is in contact with or directed to the intake slope 88; exaltation 103 copier 81 addressed to or is in contact with the edge 12 of the inlet 105; between the intermediate slope 96 copier 81 and the front tilt 90 of the Cam guide 80 as shown in Fig, a gap. Alternatively, the rear gear 12 can be connected with the ability to drive a driven gear 76 as a result of the copier 81 in the proximal channel 85 with the proximal plate 94 into contact with the proximal surface 91. Can also be created elastic attenuation of elastic effects on at least one of the rear and the drive gear 12 and 76 with an elastic material such as spring, when the back gear 12 is provided in driving engagement with the drive gear 76.

Thus, when the drive unit 1 is fixed to the frame 4, the copier 81 can be moved along the distal channel 83 so that the drive unit 1 can be moved horizontally, parallel to and above the upper surface 62 of stacker 3 while maintaining the drive device 1 in spaced relation to the bracket 82 and stacker 3 to eliminate physical contact of the rear gear 12 of the drive device 1 with bracket 82 or stacker 3. Further, the copier 81 can be moved under the slope along the channel 84 access even more closer to the stacker 3 and the proximal channel 85. When the copier 81 reaches the proximal channel 85 or when the copier 81 is slightly moved along the Proxima is inogo channel 85 in a fixed position, rear gear 12 of the drive device 1 can be brought into direct engagement with the drive gear 76 stacker 3; at the same time, the proximal plate 94 of the Cam 81 is brought into contact with the proximal surface 91 of the Cam guide 80; protective ribs 58 on the bottom surface 15a of the drive device 1 can be installed in the insertion grooves 53 on the upper surface 62 of stacker 3; and the release 48b of the drive device 1 can be aligned with the inlet 59 of the stacker 3. Shown an embodiment illustrates the design of a Cam connector 19 having a Cam guides 80 formed on the inner surfaces of the side walls 40 in the frame 4, and copiers 81 formed on the pair of side walls 51 on the housing 15 of the drive device 1, and Vice versa, copiers 81 can be formed on the inner surfaces of the side walls 40 in the frame 4, and the Cam guides 80 may be formed on a pair of side walls 51 of the drive device 1.

[7] the Fourth actuating device = device move

As shown in figure 2 and 3, the device 9 movement comprises a drive pulley 32 connected with driving actuator 17 through the device 8 of the transmission power for the rotation of all antivitiligo unit 41, and a drive belt 36 wound around a drive pulley 32, its the one of the rotating rollers 38 and the first pulley 74 in the drive device 1 to move the document or notes 35 along the intermediate channel 48. Bill 35 is fed through the passage 10 in validator 2 in the intermediate channel 48 of the drive device 1, and, thus, is clamped between the drive belt 36 and rotatable pressure roller 33 to move the banknotes 35 along the intermediate channel 48 in the direction of the stacker 3.

[8] the Fifth execution unit = antivitiligooil block

As shown in Figure 1-3 and 30, antivitiligooil block 41 has a rotor 42, which contains the bearing shaft 140 is held on a support frame 22, the pulley 32 of the rotor mounted on the support shaft 140 to rotate drive belt 36 wound around the pulley 32 of the rotor, and the rollers 43 mounted rotatably on the support shaft 140, which is located in the hole 142 of the rollers 43.

As shown in Fig, the roller 43 comprises a cylindrical core 44 and a lot of flanged disks 151 fixed to and radially extends from the cylindrical core 44 coaxial, in-line and in spaced relation to each other. Each disc 151 has opposite side surfaces formed with ribs 143, which are axially toward machined radial surface 152 adjacent disk 151 in spaced relation to the aforementioned disk 151. Each edge 143 has a radially outward narrowed guide surface 144, prong 145 formed on the radially inner edge of the ribs 143, the hook 146, formed on the top edge 143 connected between the guide surface 144 and tooth 145 to give each rib 143 in General feathered form or shape of a right-angled triangle.

As shown in Fig hook 146 is formed on the top edge 143 with the possibility of slightly to speak on the circumference or width of the radially inward from an edge 143 to circumnavigate the space 147 grip between the teeth 145 and a cylindrical core 44 so that the space 147 capture can capture flexible tool 170 to retrieve, for example a chain, string or ribbon, coupled with bill 35, to reliably prevent an invalid move notes 35 from the device.

The pulley 74, shown in figure 1, is rotated by the motor 701 move the actuator 17 through the device 8 power transmission and drive belt 36 wound around the pulleys 74, moving with the possibility of rotation of the pulley 32 of the rotor in one piece with antivitiligooil unit 41. When bill 35 is supplied from the passage 10 into the intermediate channel 48, it is clamped between the drive belts 36 and pinch rollers 33 and is moved along the intermediate channel 48, while bill 35 is in contact with and along the outer periphery of the disk 151 in the roller 43. Next, drive belts 36 advanced function can travel notes 35 along the intermediate canal toward the stacker 3.

[9] the Mounting of the drive unit

As shown in Fig-12, a drive unit 13, which in General triangular cross-section, can be simply installed in and removed from the housing 15, despite the fact that the drive unit 13 comprises a block including the actuator 17, the device 8 power transmission driven by a drive 17, the device 9 to move in as the fourth actuator, antivitiligooil unit 41 as the fifth Executive device and support frame 22 with the ability to maintain all these items for free operation of the device 9 move and antivitiligo unit 41 through the device 8 power transmission. As shown in Fig, support frame 22 comprises a pair of cylindrical or semi-cylindrical hinge couplings 160, each of which has a bearing (not shown) to maintain with the possibility of rotation of the shaft 73 in the device 8 power transmission. Swivel coupler 160 can be made to rotate and remove the swivel bearings or teeth 161 of the respective semicircular cross section formed in the housing 15, and the pivot shaft 73 may be accepted with the possibility of rotation and ocalenia slot 163 formed in the housing 15. When the drive unit 13 is installed inside the housing 15, first, the hinge coupling 160 of the drive unit 13 is installed in the pair is the R pivot bearings 161; secondly, the drive unit 13 rotates in the counterclockwise direction around the hinge coupling 160 to a predetermined position in the housing 15, as shown in Fig.9-12; and finally, to secure the support frame 22 in the inner wall of the housing 15 for fixing the drive unit 13 in the desired position inside the housing 15, are used mounting screws 163. When the drive unit 13 is attached in the proper position inside the housing 15, the rotor 42 antivitiligo unit 41 and the drive belt 36 wound around the pulley 32 of the rotor correctly placed, being converted to the arcuate intermediate channel 48, and simultaneously the front gear 11 automatically and with ocalenia are in engagement with the output gear 39. Bottom cover 15a can be attached to the bottom surface of the housing 15 by means of screws 164 with a hat.

Fig illustrates a perspective view of the fully assembled device processing of bills according to a variant implementation of the present invention; Fig.6 is a disassembled perspective view of the frame 4, the drive device 1, validator 2 and stacker 3 before Assembly; and Fig depicts the drive unit 13 and the housing 15 to the Assembly. When assembling, first, the drive unit 13 is installed in a proper position inside the housing 15, as described above; second, the drive unit 13 is mounted inside the housing 15 through the your mounting screws 163; and, thirdly, the bottom cover 15a is attached to the lower surface of the housing 15 by screws 164 with hats.

Then, fourthly, the housing 20 of the validator 2 is mounted with the possibility of removal on the body 15 of the drive device 1 via a sliding connector 16; fifthly, the housing 15 of the drive device 1 is mounted with the possibility of disconnection to the frame 4 by means of a Cam connector 19; and finally, stacker 3 is mounted with the ability to detach the frame 4. On the contrary, after securing the stacker 3 to the frame 4, the housing 15 can be attached to the frame 4 by means of a Cam connector 19. When the body 15 of the drive device 1 is fixed to the frame 4, grupowy lever 122 snap device 120 automatically secured in the hole 82a of the bracket 82 to prevent the unintentional release of the body 15 of the frame 4. As the priority order, and a special sequence of Assembly of the driving device 1, validator 2, stacker 3 and frame 4, and any additional policies may be adopted for Assembly and disassembly. As an example, first, the housing 20 of the validator 2 can be mounted with disconnect on the housing 15 of the drive device 1 with a sliding connector 16 with automatic engagement of the input gear 21 of the conveyor device 5 with the output gear 39 in the drive device 1 so that the conveyor device is STW 5 can be connected with driving and branch with a drive device 1, while the passage 10 of the validator 2 can automatically communicate with the intermediate channel 48 in the drive device 1.

Also suitable fastening copier 81 to the Cam guide 80 in the Cam connector 19 provides direct, first, mount the removable casing 15 of the drive device 1 to the frame 4 without any unwanted contact device 9 to move the bracket 82 of the frame 4 and stacker 3 in the mounting body 15 to the frame 4; secondly, setting, detachable and automatically engages the rear gear 12 in the drive device 1 with driven gears 76 in stacker 3; thirdly, the alignment with the possibility of separation of the release 48b in the drive device 1 with the inlet 59 in the stacker 3; and finally, the installation with the possibility of separating the protective ribs 58 in the drive device 1 in the insertion grooves 53 on the upper surface 62 in the stacker 3. In this case, if the transmission device 1 is mounted with the possibility of removal to the frame 4 with the Cam connector 19 after mounting with removable stacker 3 to the frame 4 in advance, or if on the contrary, stacker 3 pre-mounted with the ability to detach the frame 4 after mounting with the possibility of removal of the drive device 1 to the frame 4 with the Cam connector 19, the drive unit 1 and stacker 3 can be from dynany with driving, the intermediate channel 48 communicates with the backup camera 78. Thus, it is possible simply to serve, to assemble or disassemble the transmission device 1, the validator 2, stacker 3 and the frame 4 in the form of discrete individual modules or blocks. Fig illustrates the fully assembled device processing of banknotes according to the present invention.

[10] Using the processing device of the notes

When bill 35 is inserted in the inlet 49 of the validator 2 in the assembled device, processing bills, optical inlet sensor detects the insertion of a bill 35 in the inlet 49, with the possibility of signal detection in the control unit of the actuator in the housing 15, which thus sends signals to the actuator to rotate the motor 701 move in a forward direction. The drive power of the electric motor 701 movement is transmitted to the input gear 21 through the device 8 power transmission, front gear 11 and the output gear 39 to actuate the conveyor device 5, and simultaneously the drive belt 36 in the device 9 move moves through the device 8 transfer power to promote bills 35 along the passage 10 in the direction of the drive device 1. Further, the power actuator 7 is transferred to the device 6 has been leading in the stacker 3 with gear 201 move and pinion 761 drove in stacker 3 for completion of the second actuation device 6 was taken. Further, the sensor checks (not shown) determines the optical and magnetic characteristics of bill 35, movable along the passage 10, to generate detection signals indicating these characteristics, which are received by the control device actuator for determining the authenticity of banknotes. When the device drive control determines bill 35 genuine, it immediately drives the conveying device 5 in the forward direction to feed the banknotes 35 in the drive unit 1. When the device drive control determines bill 35 fake, it rotates the motor 701 move in the opposite direction to change the operation device 8 power transmission, belt 36 in the device 9 and move the conveyor device 5, to return the bill 35 in the inlet 49 of the validator 2.

Bill 35, some genuine, moves through the passage 10 into the intermediate channel 48 in the drive device 1, and thus, it is held between the drive belt 36 and the pressure roller 33 to move notes 35 in the forward direction along the intermediate channel 48 in the direction of the stacker 3. Next, bill 35 passes through the release 48b intermediate channel 48 and the inlet 59 stacker 3 in the backup chamber 78 through the device 6 led, the device drive control stopping the pad from sliding the t of the motor 701 displacement device 6 led, and at the same time actuates the motor 702 styling for the actuating device 7 of the pusher, which puts bill 35 in the backup chamber 78 in the memory 79.

May cause undesirable case when for removing banknotes from the device processing bills without authorization, someone inserts into the inlet 14 of the validator 2 bill 35, which is attached to a tool 170 to retrieve, such as string, thread or tape. However antivitiligooil unit 41 can easily prevent this unfair action, as listed below. When the bill was 35 antivitiligooil block 41 as genuine, moving forward notes 35 pulls a connected spring 170 in the passage 10 and the intermediate channel 48 so that the spring 170 passes along the guide surface 144 ribs 143 in a direction radially inward of the roller 43 comes into engagement with the teeth 145 ribs 143. In this case, a flexible spring 170 through the passage 10 and the arcuate intermediate channel 48 is subjected to the force of stretching the bill 35, the roaming device 9 and 6 of displacement and planet carrier, voznikaem in addition to weight notes 35 and the spring 170. Thus, this tensile force and weight can put pressure on the spring 170 to stretch it in a straight line or on the minimum distance within the arcuate intermediate the second channel 48. This operation gives the acceleration capability of the compression spring 170 within the intermediate channel 48 on the guide surface 144 ribs 143, to make it slide on and move radially inward along the guide surface 144, and finally, a flexible spring 170 is driven in the space 147 capture to bound the engagement of the spring 147 with ribs 143, as shown in Fig.7, 32 and 33.

In this case, as soon as a flexible spring 170 is captured in the space 147 capture, rotation of the rotor 42 causes the spring 170, confusing the lack of access to the rotor 42 to coil around the rotor 42 through the space 147 capture and intertwine with the prong or prongs 145 ribs 143, and this reliably prevents excessive pushing or removing notes 35 and obviously improves the safety and reliability of the processing device of the notes.

[11] Demolition devices handling banknotes

Special procedure for disassembly of the drive device 1, validator 2, stacker 3, and frame 4 is not, and all or selected one or each of them can be disassembled if necessary. For example, after or without release snap device 120 of the housing 20 of the validator 2 can be removed from the housing 15 of the drive device 1 along the sliding connector 16 when uncoupling the input gear 21 of the validator 2 from the output gear 39 of the drive device . Also, when the arm 125 snap device 120 is manually pulled down, grupowy lever 122 snap device 120 is released from the hole 82a in the bracket 82 to remove the copier 81 of the Cam guide 80 and for disconnecting the drive device 1 from the frame 4 when uncoupling the rear gear 12 of the drive device 1 from the drive gear 76 in the stacker 3. Also, the stacker 3 can be attached with the ability of the Department to the frame 4 so that stacker 3 can be removed from the frame 4 and the drive device 1 as needed. For example, in patent US 5372361 described the design feature for the stacker attached with the possibility of removal to the frame. Thus, an embodiment of the present invention allows the drive unit 1, the validator 2, stacker 3, and frame 4 device processing bills to separate into discrete modules or blocks when performing the method of disassembly, the opposite way to build, to test, repair, inspection or replacement of parts or unit.

[12] the Features, performance and technical results of the processing device of the notes

[1] Used the device to process bills can be collected by the Association of a particular unit of the drive device 1, validator 2, stacker 3 and frame 4, and further divided into discrete modules with the ability to branch and merge implemented for the I individual manufacturing, Assembly, disassembly, inspection, inspection and replacement.

[2] After Assembly of the device processing bills consistently interconnected relationship is the Association with Department of the drive device 1, validator 2 and stacker 3 for connection with a driving actuator 17 in the drive device 1 with a conveyor device 5 in validator 2 and the devices 6 and 7 were taken and the pusher in the stacker 3.

[3] After Assembly with the possibility of separation of the drive device 1, validator 2 and stacker 3 bill 35 can be consistently and continuously moved through the passage 10 of the validator 2, the intermediate channel 48 and backup camera 78 in stacker 3 with simultaneous operation of the drive device 1, the conveying device 5, device 6, and 7 were taken and pusher.

[4] One drive device 1 may be installed, integrated or centralized drive system for conveyor devices 5, 6 and 7 were taken and the plunger without requiring any additional source of motion and control devices in validator 2 and stacker 3, both of which are made with the reduced weight, due to the fact that the drive unit 1 has an actuator 17, which includes the motor 701 and 702 moving and stacking apparatus and drive control.

[5] Drive unit 1 can be built is a device 9 move and antivitiligooil block 41, both driven by an electric motor 701 is moved.

Industrial applicability

The present invention relates to a modular device for the processing of documents, which contains the modular drive unit and many modular actuators, in particular, for example, the validator and stacker, United with driving and branch with a drive device.

1. Modular device for processing documents containing:
validator, which has a conveyor device for moving the document along a passage formed in the validator to validate the document, and a casing to accommodate the conveyor device,
stacker for storing the document filed from the validator, and
drive unit, which has a drive unit and a casing to accommodate the drive unit,
when you do this:
the drive unit includes a drive device transmit power, which is driven by the actuator, the moving device driven by the drive power through the power transmission to move the document from the validator in the stacker via a channel formed in the drive device, the front and rear gears, both driven by the drive power through a power transmission, a support frame for maintaining the drive and is trojstva power transmission as one unit, and a couple of hinges formed in the base frame,
the casing is formed with a pair of bearings capable of taking with the possibility of separation and rotation of the hinge support frame,
the drive unit is installed inside the fixing of hinges in the paired bearings and further rotation of the drive unit in the direction of the inside of the case,
stacker contains the device is driven to move the document from the intermediate channel in the drive device in the stacker,
the casing validator with removable attached to the housing of the drive device for the connection, with the ability to detach and bring in the movement of the conveyor device validator with the front gear in the drive unit for driving the conveyor device validator drive power, and
stacker with removable connected with a drive device for connection, with the ability to detach and driving devices drove the stacker with the rear gear in drive unit for driving the device took stacker drive power for the coordinated movement of the document from the passage into the validator via the intermediate channel in the drive device in the stacker.

2. Modular device for processing documents according to claim 1, additionally containing an output gear supported with the option of rotation in the case,
moreover, the drive unit rotates at a desired fixed position in the housing to automatic and with the possibility of disengagement of the cast front gear in the drive unit engages with the output gear, and
the casing validator with removable attached to the housing of the device for connection, with the ability to detach and bring in the movement of the conveyor device validator output gear.

3. Modular device for processing documents according to claim 1, additionally containing a sliding connector that is provided between the casing of the validator and the housing of the drive device for engagement with the ability to detach and slide the cover to the body.

4. Modular device for processing documents according to claim 3, in which the sliding connector comprises a pair of rails attached to the housing of the drive device, and a slide mounted on the casing validator,
while floaters have a cross-section complementary to the cross-section of the rails to be attached, with the ability to detach and slide the slider to rails for installation, with the possibility of disconnection or separation, casing validator on the housing of the drive device.

5. Modular device for processing documents according to claim 1, in which the rear gear in the drive unit has a gear moving and stacking,
Pref is d contains the motors moving and stacking,
the gear movement is connected, with the ability to detach and bring in the movement, with the device took stacker for transmitting power of the motor moving the device was performed using the power transmission, and
gear stacking connected, with the ability to detach and bring in the movement, with the device of the stacker pusher for transferring the power of the motor device of the pusher with the power transmission.

6. Modular device for processing documents, comprising: a validator, which has a conveyor device for moving the document along a passage formed in the validator to validate the document, and a casing to accommodate the conveyor device,
stacker for storing the document filed from the validator,
drive unit, which has a drive unit and a casing to accommodate the drive unit,
a frame for fixing the stacker and the drive device,
when you do this:
the driving device includes a drive device transmit power, which is driven by the actuator, the moving device driven by the drive power through the power transmission to move the document from the validator in the stacker via a channel formed in the drive device, the front and rear gears, both below the e in motion by the drive power from the device power transmission,
stacker contains the device is driven to move the document from the intermediate channel in the drive device in the stacker,
the casing validator with removable attached to the housing of the drive device for the connection, with the ability to detach and bring in the movement of the conveyor device validator with the front gear in the drive unit for driving the conveyor device validator drive power, and
the housing of the drive device with removable connected to the frame by means of a Cam connector formed between the frame and the housing of the drive device for the automatic and with the possibility of disengagement bring back the gears in the drive unit engages with the possibility of driving, with the drive pinion in the device took stacker for the propulsion of the device took stacker drive power of the drive unit for the coordinated movement of the document from the passage into the validator via the intermediate channel in the drive device in the stacker.

7. Modular device for processing documents according to claim 6, further containing a sliding connector that is provided between the casing of the validator and the housing of the drive device for engagement, with the ability to detach and slide the cover to the body.

8. Mo is ulnae device processing documents according to claim 7, in which the sliding connector comprises a pair of rails attached to the housing of the drive device, and a slide mounted on the casing validator,
while floaters have a cross-section complementary to the cross-section of the rails to be attached, with the ability to detach and slide the slider to rails for installation, with the possibility of disconnection or separation, casing validator on the housing of the drive device.

9. Modular device for processing documents according to claim 6, in which the Cam connector includes a Cam guides formed on a pair of vertically spaced side walls in the frame, and copiers formed on a pair of vertically spaced side walls at the drive device,
when the copier is inserted in the associated Cam rails for mounting with removable side walls of the drive device to the side walls of the frame.

10. Modular device for processing documents according to claim 6, in which the rear gear in the drive unit has a gear moving and stacking,
the actuator includes a motor moving and stacking,
the gear movement is connected, with the ability to detach and bring in the movement, with the device took stacker for transmitting power of the motor moving the device was performed using the device per the villas power, and
gear stacking connected, with the ability to detach and bring in the movement, with the device of the stacker pusher for transferring the power of the motor styling device of the pusher with the power transmission.

11. Modular device for processing documents, comprising: a driving device that has a drive unit, a support frame for maintaining the drive unit, an intermediate channel formed in the drive device, and a housing to accommodate the drive unit,
stacker that has a device carrier, United, with the ability to detach and driving with a driving unit of the driving device to move the document from the intermediate channel in the drive device in the stacker, and
a frame formed with the Cam connector between the frame and the drive device,
when you do this:
the drive unit includes a drive device of a power transmission connected to drive with driving, and the rear gear driven by the drive using the power transmission,
the device carrier contains a drive gear that is connected, with the ability to detach and driving with the rear gear in the drive device, and
the housing of the drive device with removable connected to the frame through the Cams of the second connector for automatic and with the possibility of disengagement bring back the gears in the drive device engages, with driving, with the drive pinion in the device was taken.

12. The modular device of the document processing according to claim 11, in which the drive unit further comprises a moving device for moving the document along the intermediate channel toward the stacker, and
antivitiligooil block which is connected with the possibility of driving with a moving device to make antivitiligooil block to rotate under the action of drive power by using the power transmission.

13. Modular-processing device of the documents indicated in paragraph 12, in which antivitiligooil unit includes a rotor rotated by the actuator through the power transmission, and
support frame to maintain with the possibility of rotation of the rotor
the rotor contains a number of disks, and placed coaxially in line, and are spaced from each other, and many feathered edges, axially protruding from the radial surfaces of the disks toward the opposite radial surface of the adjacent spaced disks, and
each of the ribs includes a radially outward narrowed guide surface formed on the radially outer edge of the ribs, and teeth formed on the radially inner edge of the ribs.



 

Same patents:

FIELD: transport.

SUBSTANCE: claimed set of inventions relates to document processing device. This device incorporates important document detector and carrier to displace said documents by said detector. Opposite said detector (2) arranged is a guide element for passive guidance of the document. Said guide element can be displaced, at simultaneous displacement of several important documents, by said detector, for example, under action of force applied thereto.

EFFECT: higher accuracy and reliability of document testing.

18 cl, 12 dwg

FIELD: information technology.

SUBSTANCE: apparatus (100) for depositing carriers has a deposit transporting unit (120) which provides a deposit circulation path for a carrier, input by a carrier depositing unit (113); a temporary storage carrier transportation unit, which provides a temporary storage carrier circulation path which is in contact with the deposit circulation path for transporting carriers into a temporary storage unit, a temporary storage unit gateway which is situated between the deposit circulation path and the temporary storage carrier circulation path for selectively changing the carrier path for direction thereof towards the temporary storage carrier circulation path; and carrier transportation path which provides a carrier transportation path in contact with the temporary storage carrier circulation path for transporting carriers into a carrier storage unit, a carrier storage unit gateway which is situated between the temporary storage carrier circulation path and the carrier transportation unit for selectively changing the carrier path.

EFFECT: providing selective change of the carrier transportation path, which increases operating reliability.

14 cl, 10 dwg

FIELD: information technologies.

SUBSTANCE: device comprises a charging unit for valuable documens, a unit of dispensing and/or an accumulator for processed valuable documents, a transportation device for piece-by-piece transportation of valuable documents from the charging unit along the transportation unit to the dispensing unit, or the accumulator, an inspection device for inspection of valuable documents transported piece-by-piece bypassing it, and a system of suction pipelines for suction air, having a connection for a suction unit designed for suction of air with dust from the system of suction pipelines, and at least one section of manual treatment, connected to the connection, with the suction hole movable in the area of the inspection device in respect to it, and/or at least two pipeline sections connected with the connection, with suction holes, arranged on different sections of the transportation path and directed to this path with the possibility of moving dust through it from valuable documents that are transported along the transportation path.

EFFECT: provision of device reliability due to reduction of contamination with dust.

18 cl, 17 dwg

FIELD: information technology.

SUBSTANCE: banknote storage unit comprises a banknote storage roller (17), two banknote conveyor belts (26, 27) and two collection sprockets (18, 19) of said belts, each belt (26, 27) being wound on one side to the storage roller (17) and on the other to one of the collection sprockets (18, 19), the two belts being arranged to come into contact with the banknotes respectively on opposite faces, a handling means being present to move the roller, the sprockets and the belts so as to alternatively realise the storage of the banknotes on the roller or their release from the storage unit. The said collection sprockets (18, 19) are installed at the same shaft (20).

EFFECT: maintaining the correct tension in a belt used to issue banknotes.

11 cl, 5 dwg

FIELD: information technology.

SUBSTANCE: paper sheet processing device includes a feeder device (11), which includes a support surface (11a) which varies inclination from the vertical direction, and a seating surface (11b) which is essentially perpendicular to the support surface and is configured to receive a plurality of paper sheets which vary inclination along the support surface and are stacked into a pile on the seating surface, a clamping mechanism (14) which clamps paper sheets on the side of the seating surface of the feeder device, a transportation channel (16) for transporting the clamped paper sheet, a control device (18) for checking the transported paper sheet and a storage device for storing checked paper sheets.

EFFECT: high reliability of the device.

14 cl, 31 dwg

FIELD: transport.

SUBSTANCE: bank note processing device 1 comprises service mechanism assembly 40 to output paper sheet or sheets, assembly 10 to count paper sheets, sheet or sheets store 20, sheet or sheets transfer paths 10a-10e, 40a, 40b to move sheets to service mechanism assembly 40, sheet or sheets counter 10 and store 20. Besides, this device comprises connection guides 51 arranged between transfer paths 10a-10e and stores 20 to feed paper sheet or sheets, motor 62, cam 59 and solenoid S to switch connection guides 51 in the state of connection with transfer paths 10a-10e and stores 20 to feed paper sheets, and in the state of disconnection to break the above said connection.

EFFECT: ease of use.

4 cl, 12 dwg

FIELD: information technologies.

SUBSTANCE: device for reception, dispensing, accordingly, return of banknotes has a pocket, which is arranged as separated by a separating element into two compartments, the separating element comprises at least two parts not connected with each other, arranged as jointly moved inside the pocket for formation of two compartments in it, and every of which is installed as movable on one of the side walls of the pocket arranged oppositely to each other. At the same time there is at least one clamping element, which is arranged between parts of the separating element and is arranged as capable of movement that does not depend on the separating element inside the pocket for clamping of banknotes available in the pocket.

EFFECT: simplified design and convenience of operation.

9 cl, 12 dwg

FIELD: transport.

SUBSTANCE: proposed device has hopper divided by separation element into two compartments. For this, said separation element may displace inside said hopper. Besides, it has transfer-clamping unit that may displace irrespective of aforesaid separation element to lock bank notes there inside. Note here that said transfer-clamping element displaces in first direction inside said hopper to get in contact with bank notes and to displace bank notes to be issued or returned from, mainly, the area of separation element. Thereafter, said separation element displaces inside the hopper in second direction, opposite the first one, by said transfer-clamping element.

EFFECT: ease of use, simplified design.

7 cl, 12 dwg

FIELD: information technology.

SUBSTANCE: terminal device includes a testing module (100), a module for temporary storage and subsequent issuing of received banknotes (200) and a banknote storage module (300). The testing module determined whether banknotes have been received or not. Received banknotes are stored in the storage module. The module for temporary storage and subsequent issuing of received banknotes serves to move the temporarily stored banknotes into the testing module for issuing as change or moving the temporarily stored banknotes into the storage module.

EFFECT: possibility of issuing change using cash received by a terminal.

15 cl, 13 dwg

FIELD: information technologies.

SUBSTANCE: system comprises terminals of cashiers, which are designed for operation with money in cash, a server of a retail enterprises, a sever of a bank that services this enterprises, and a controller tracking operation of cashier terminals. The controller role is played by an automated deposit machine (ADM) arranged in the form of a bank terminal for receipt of money in cash with appropriate reservoirs for storage of banknotes in the form of cash bags or cassettes installed inside a body arranged in the form of a safe, and protected against unauthorised access. In the upper part of the automated deposit machine the following components are installed: a printing device, a module to identify users and a module of control and indication, having an information link with the retail enterprise server, and also with the server of the bank that services this enterprise located in the zone of the bank.

EFFECT: higher efficiency of processing and reliability of storing money in cash.

2 dwg

FIELD: transport.

SUBSTANCE: invention relates to equipment for automatic filling of envelopes. Proposed device comprises frame structure, bearing plate and pressure-sensitive lever. Bearing plate keeps the pile of envelopes in vertical position. Pressure sensitive-lever has sensory surface. Said lever can turn in response to envelope pile pressure. Lever turn is detected by gage. Feed device changes pressure to envelope pile in response to gage signal.

EFFECT: adjusted pressure applied to envelope pile.

23 cl, 13 dwg

FIELD: personal use articles.

SUBSTANCE: invention is related to a dispenser of dispensable plates for food products. The dispenser of individual disposable plates (pre-stacked and having a non-rounded upper edge) contains: a charging platform for a stack of pates (equipped with a discharging gate wherethrough the first plate of the stack falls under the force of gravity when separated from the said stack), a separator separating the upper plate of the stack from the other plates in the stack, equipped with a part baffling the discharging gate, the stack of plates vertically relying on the said part. The baffling part enclose the non-round hole and the arrester of the stacked plate turning relative to the separator; the external perimetre of the hole essentially matches that of each plate within the stack; the separator is set into rotation around the hole axis and relative to the said charging platform thus to alter the angular position of the said hole for alignment with the angular position o the first plate within the stack which allows the said plate to fall through the discharging gate.

EFFECT: invention is aimed at the possibility to separate a single plate from the stack without contacting the user's hands.

9 cl, 25 dwg

FIELD: process engineering.

SUBSTANCE: invention relates to sheet material processing. Device for continuous sheet-by-sheet separation of unclamped sheet material comprises feeder, sheet separator and transfer system. Feeder consists of first feeding device and second feeding device. Pile of sheet material is placed in container. Said container has fixed bottom. Said bottom is jointed with feeder conveyor. Said bottom and said conveyor make said first feeding element. Reliability of sheet material is increased.

EFFECT: faster processing.

8 cl, 6 dwg

FIELD: transport.

SUBSTANCE: invention relates to separation of sheet materials. Proposed device for continuous piece-by-piece separation of unfastened sheets comprises feeder, sheet separator and transfer system. Said feeder consists of first feeding element and second feeding element. Separated sheets intake area is divided into first and second sections. Said sections adjoin. Second section makes sheets loading zone.

EFFECT: enlarged loaded stack.

11 cl, 13 dwg

FIELD: printing industry.

SUBSTANCE: invention refers to printing industry and can be used in printing machines. Image shaping device includes paper feeder. The latter includes tray to support pile of sheets, lifting and lowering device, control device, air blowing device, pneumatic conveyor, the first detection device and the second detection device. Control device controls the tray lifting and lowering. Air blowing device serves to separate the upper sheet from the pile. Pneumatic conveyor has the possibility of attracting and transporting the upper sheet. The first detection device is capable of detecting the upper surface of the upper sheet. The second detection device is capable of detecting upper surface of some part of rear end of sheet pile.

EFFECT: higher carrying capacity and efficiency of the device.

11 cl, 26 dwg

FIELD: mechanics.

SUBSTANCE: invention relates to separation and transfer of plate substrates (102), for example solar plates. In compliance with this invention, separation occurs in fluid medium. Adhesion forces originate between grip (108) and separated substrate (102), due to thin fluid film, to adhere to grip (108). Proposed device comprises carrier (104) located in fluid medium to support substrates (102) arranged in feed direction (105), one after another, as a stack (103). It includes also device (107) to separate and transfer at least one substrate, which incorporates aforesaid grip (108) with appliances to receive substrate and to divert carrier (104) therefrom. It comprises also jet device (117) to open a portion of substrate stack in fan-like manner, and clamping element (122) to react against opened substrates (102).

EFFECT: efficient and safe separation of plate substrates.

18 cl, 20 dwg

FIELD: mechanics; technological processes.

SUBSTANCE: device consists of a unit for separation of individual banknotes from the stack and a delivery mechanism. The delivery mechanism has two delivery elements (the first one and the second one). The first delivery element is designed movable in multiple coordinate directions while the second delivery element is movable in but a single direction. The proposed method of continuous per piece separation of loose banknotes envisages relocation of a stack of loose banknotes from the stack acceptance position to the position required for the top lying banknote to be picked up and separated from the stack. The fist delivery element supports the stack to be separated and delivers it to the per piece banknote separation unit.

EFFECT: continuous operation resulting in improved performance of the device.

24 cl, 24 dwg

FIELD: automatic teller machines.

SUBSTANCE: automatic teller machine contains device for dispensing banknotes, having a clip containing money, device for taking banknotes, device for transporting banknotes and device for dispensing banknotes. Rotary door of the clip opens automatically during insertion of the clip into dispensing device. Taking device is made with possible intake of banknotes through an opening. Spring-loaded blade of cover wall holds the shaft of taking device in conjugating connection with driving pin. Transportation device is made with possible vertical and horizontal movement of banknotes. Transportation device contains transporter belts between intermediate shaft and driving shaft. The intermediate shaft is made with possible vertical movement relatively to the driving shaft to ensure stretching of transporter belt. Transportation device also has convex-conic rollers, which automatically repeatedly center the weakened transporter belt. The latch of dispensing device is installed at banknote dispensing port in automatic teller machine. The latch is opened by a lever connected to bar, in turn connected to latch. The latch is opened due to upward movement of the pin in a recess positioned at an angle.

EFFECT: more comfortable and efficient servicing of automatic teller machine, improved operation of its components due to facilitated removal, disassembly and repeated installation of dispensing device unit.

11 cl, 63 dwg

FIELD: banknote processing machines.

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: the device for retention of wood cuts at sawing, for example, by a chain saw.

SUBSTANCE: has frame 9, pendulum (2) with teeth (4) that is installed for turning at the upper part (8) of the frame. The upper part of the frame has teeth (3) directed upwards. Pendulum (2) with teeth {4) is made so that its position can be steplessly varied relative to teeth (3) of the frame lower part. Freely turnable pendulum (2) with its teeth (4) under gravity can be brought into conjugation and can detent the wood section within the turn of the pendulum. The pendulum length is adjusted between the axis of turn and the teeth.

EFFECT: provided disposition of the wood section so that it would take the desirable position or orientation.

9 cl, 5 dwg

FIELD: the device for retention of wood cuts at sawing, for example, by a chain saw.

SUBSTANCE: has frame 9, pendulum (2) with teeth (4) that is installed for turning at the upper part (8) of the frame. The upper part of the frame has teeth (3) directed upwards. Pendulum (2) with teeth {4) is made so that its position can be steplessly varied relative to teeth (3) of the frame lower part. Freely turnable pendulum (2) with its teeth (4) under gravity can be brought into conjugation and can detent the wood section within the turn of the pendulum. The pendulum length is adjusted between the axis of turn and the teeth.

EFFECT: provided disposition of the wood section so that it would take the desirable position or orientation.

9 cl, 5 dwg

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