Documents storage unit

FIELD: personal use articles.

SUBSTANCE: invention relates to a unit for storage of documents such as banknotes in stack. The device contains a support plate assembly for the documents stack shifting towards the aperture in the body of the documents storage unit. The body may contain an auxiliary mechanism promoting the documents stack shifting in the process of a newly obtained document stacking. Additionally, the device includes a setting mechanism designed so that to enable motion between the closed and the opened positions while the closed position prevents the shearing mechanism from application of a shearing force.

EFFECT: banknotes stacking convenience enhancement due to uniform stacking.

15 cl, 16 dwg

 

The technical field to which the invention relates.

This invention relates to a unit for storing documents, and more particularly to a device for processing documents, intended for storage of documents stacked. In this description, the term "document" refers to the notes, sheets of paper, checks, coupons, securities, currency, tickets, or any other flat flexible object similar purpose.

The level of technology

Blocks for storing documents containing compartment (for example, the cartridge for exchange) and used in conjunction with an automated device for conducting business transactions, usually contain a base, such as a push plate that is designed to support a stack of documents. Push plate, which is a bundle laid earlier documents can be moved to ensure placement in the foot again received documents. With the increase in the number of documents in the stack any small deviation between the plane of the pressure plate and the plane stacked in the stack of documents during displacement due to laying in the foot can lead to swelling of the surface or down the stack of documents due to the action of gravity. If swelling occurs the surface of the stack, the cassette for storing documents may be unable to accept the mother of additional documents for storage and may require maintenance of automated devices for business transactions. Thus, it is important to minimize the deviation of the plane of the pressure plate from the plane stacked in the stack of documents in the process of laying the newly received documents. It is also important to maximize the available space inside the cassette for storing documents, which is intended for storage of securities.

In the node pressure plate is typically used one or more springs (e.g., conical springs), designed to bias the pressure plate in a certain direction. At the site of a traditional design, the presser plate has a pin located along each longitudinal edge, which enters the slot cumulative compartment for storing documents and directs the presser plate along the slits in the process of laying in a pile of newly obtained documents. In the other nodes of the retainer plate is used cantilever plate, which is connected with the sliding bearing, moving along the rack, and serves to guide the pressure plate in order to stack the newly received documents. In an alternative embodiment, the mechanism type of scissors underneath the presser plate may be used to move the pressure plate in the process of laying in a pile of newly obtained documents. In another alternative embodiment, the node pressure PL is stiny is configured such he forms the mechanism rack and pinion, as described in document US 2004/0195758 attached to this document as a reference.

In some designs the block for storing documents connected with the device checks the conformity of the documents and is designed for stacking documents in a stack inside the unit in a vertical position. Specifically, the documents are stacked in such a way that the plane of the stacked documents is oriented vertically. When you want this configuration, you may need additional effort to move the stack of documents within a block for storing documents. Increasing stack of documents stored in the unit for storing documents, the pack starts to fall down because of the action of gravity, and a pack begins to warp. In the warping packs friction force caused by pulling the bundles along the inner walls of the block for storing documents, greatly increases the amount of force needed to move the stack of documents in the process of laying in a pile of newly obtained documents.

Disclosure of inventions

This invention relates to a unit for storing documents, intended for storage of documents stacked. In some embodiments of this invention bloke unit is provided shims to move the stack of documents in the direction of the opening in the housing unit for storing documents. In some embodiments of the invention, the housing unit for storing documents contains an auxiliary mechanism that allows you to put the documents in the stack and move them in the process of laying the newly received document.

In some embodiments of the invention, the unit for storing documents detachable manner connected with system compliance documents. As is known, the system checks the conformity of the documents used for the reception of the document and the identification and/or authentication of the inserted document. General principles of devices to verify compliance documents are well known and therefore not described in detail in this patent application.

Unit for storing documents may include a mechanism for laying in a pile that is designed to insert the newly obtained documents in cumulative Bay unit for storing documents, and this compartment is at least partially formed by the housing unit. In an alternative embodiment, the mechanism for laying in a pile can be an integral part of the device for checking the conformity of the documents. Unit for storing documents includes a housing bounding cumulative compartment containing the stacked documents. At one end of the housing has an aperture through which the newly received document is s fall into the Cabinet, the documents stacked in the stack inside the accumulating compartment. In some embodiments of the invention, the housing further comprises a movable cover for access, connected to the housing and intended to provide access to the contents inside the unit. Removable cover for access, may contain associated with security tools (e.g., locking mechanism)that enables the switching of the cover between the closed (or locked) state and open, or removed, by the state. For example, cover for access may include a locking mechanism to lock the cover in order to access a certain position. In some embodiments, the implementation of the present invention, the cover is connected with the housing can be rotated, and in other embodiments, the cover for access has the ability longitudinal sliding relative to the body.

Unit for storing documents includes a support plate for supporting a stack of documents. The support plate may be removable way to connect with the body and can be moved relative to the housing that allows you to move the stack of documents in the process of laying in a pile of newly obtained documents. In some embodiments of the invention, the frame includes parallel rails, and the support plate includes a toothed gear in adasia in engagement with the parallel rails. In some embodiments of the invention, the toothed gear connected to at least two edges of the support plate can be rotated, and one or more parallel rails are gearing with one or more gears. In some embodiments of the invention, the toothed gear may be connected to one or more axes at a first lateral edge of the support plate, and one or several axes can pass to the second lateral edge of the support plate. One or more toothed gears can be connected with one or several axes at the second lateral edge of the support plate.

In some embodiments the invention, the support plate includes a shift mechanism that is designed to bias the support plate towards the opening of the case (i.e. in the direction of where the documents are inserted in cumulative compartment). The shift mechanism may include a spring (e.g., torsion spring)connected with at least one of the axes to bring the rotation of the associated axis in a direction causing movement of the support plate in the direction of opening (or the input aperture of the pattern.

The support plate may further comprise a mounting mechanism, in the process associated with the shift mechanism. The installation mechanism can is to be configured, which prevents the shift mechanism to move the support plate toward the opening of the housing. In some embodiments of the invention the adjusting mechanism includes a movable actuator (or switch), allowing him to engage at least one of the toothed gears (or related items), which is connected with the axle, which is connected with the shifting of the spring to prevent its rotation. In some embodiments the invention, the support mechanism includes at least two pairs of gears connected respectively to at least two axes. In some embodiments of the invention, the shift spring in the process, connected with one of the at least two axes. In some embodiments of the invention the adjusting mechanism has a configuration that prevents rotation of the at least one axis and allows you to rotate the other axis.

In some embodiments of the invention, the unit for storing documents contains an auxiliary mechanism designed to reduce the effort required to move the stack of documents when you are laying in a pile of newly received document. Auxiliary mechanism may be involved in the selection, depending on the size of the stack of documents when the size reaches for is anee a predetermined threshold value. The supporting mechanism may include a sliding plate moving along the body so as to support the stack of documents during displacement when laying in a pile of newly received document. In some embodiments of the invention a sliding plate connected with the housing by means of ball bearings. The moving plate can be connected to the housing by means other sliding mechanisms, such as guide rails or grooves.

When a block for storing documents is embedded in the device for the reception or processing of documents in a horizontal position, the stack of documents will eventually accumulate on the inner bottom surface of the housing due to the force of gravity. In known up to the present time structures the force required for displacement of banknotes, based on the lower horizontal surface of the cassette, required a significant amount of force pressing (or offset) from the mechanism of the documents are stacked in the stack to push the stack at a sufficient distance for laying the newly received document. In example embodiments of the block for storing documents of the present invention applied to an auxiliary mechanism to minimize or reduce the effort required for laying in a pile of newly received document, so that you can b the lo to use standard mechanisms for laying in a pile (or the mechanisms of lower power). By placing a sliding plate between the stack of documents and the lower surface of the case documents can be shifted in the process of laying in a pile by sliding movement with low friction. The ability to carry out the displacement of the stack of documents with low friction allows for a more efficient and with less effort to move the stack of documents.

Various aspects of the present invention is described below in the claims.

Brief description of drawings

Figure 1 shows a block to store documents.

Figure 2 shows a block to store documents containing case.

Figure 3 shows a block to store documents containing a movable cover for access to the closed position.

On figa shows a block to store documents containing a movable cover for access to the open position.

On FIGU shows a block to store documents with an aperture for the receipt of documents.

Figure 5 shows a block to store documents containing the support plate connected to the case.

Figure 6 shows a support plate containing multiple toothed gears.

7 shows the support plate containing the shift mechanism.

On Fig shows the different elements of the installation mechanism and the shift mechanism.

Figure 9 shows a block to store documents containing the moveable the support plate and the movable supporting mechanism.

Figure 10 shows the different elements of the rolling support mechanism.

Figure 11 shows the block for storing documents containing the stack of documents, suspended above the body.

On Fig shows a block to store documents, in which at least part of the stack of documents based on the auxiliary mechanism.

On Fig shows the supporting mechanism containing a sliding plate in the original position.

On Fig shows the supporting mechanism containing a sliding plate in an intermediate position.

On Fig shows the supporting mechanism containing a sliding plate in its extended position.

The implementation of the invention

This invention relates to a unit for storing documents, and more specifically to a device forming a stack of documents intended for storage of the document in the stack. In some embodiments, the implementation of the present invention, the unit 50 for storing documents connected with the device 10 of document processing, as shown in figure 1. The device 10 processing documents can contain module 20 checks the conformity of the documents and the housing 30. In some embodiments of the invention, the unit 50 for storing documents and the module 20 checks the conformity of the documents have detachable connection with the body 30.

Module 20 checks appropriate to Estia documents made with the possibility of reception of the document 60, inserted into the inlet 21, and transportation of the document 60 along the transport path past the sensor of the document. Sensor document is designed to determine at least refer to the document 60 or the authenticity of the document 60. Documents that are defined as acceptable module 20 checks the conformity of the documents are transported to the unit 50 for storing documents. In some embodiments of the invention, the document 60 is transported through the device 10, the processing of documents to the place near the opening 52 of the unit 50 for storing documents (see fig.4b). In some embodiments of the invention, the unit 50 for storing documents connected with the device 10 of document processing, so as to accumulate therein a stack of documents, with the plane of each stacked in a stack of document is usually oriented vertically or perpendicular to the longitudinal direction of the unit 50 for storing documents.

Unit 50 for storing documents may contain a housing 55 in which is formed the internal storage compartment 58, as shown in figure 2 and 4. The housing 50 has an aperture 52 through which the newly received documents are inserted and stacked in a pile inside the compartment 58, as shown in fig.4b. In some embodiments of the invention, the unit 50 for storing documents d which contains additional mechanism 70 of the documents are stacked, designed for laying in a pile of newly obtained document 60 in the block 50 for storing documents, as shown in figure 11. In some embodiments of the invention, the mechanism 70 laying in a stack is a mechanism styling type of scissors or plunger mechanism, which is widely known to experts in this field of technology. Other types of mechanisms laying in a pile, known to experts in the art, can be used with the unit 50 for storing documents. In other embodiments of the invention, the mechanism 70 laying in a stack is included with the device 10 for processing documents and in the work process associated with the block 50 for storing documents for laying in his newly obtained documents, as shown in figure 11.

In some embodiments of the invention the housing 55 contains the sliding cover 51, which is designed to provide selective access to the contents of the block 50 for storing documents, and this cover can be moved between open and closed positions, as shown in figure 3 and 4. As shown in the illustrated embodiment of the invention, the cover 51 for access is connected to the housing 55 is slidable relative to the housing. In other embodiments of the invention cover for access may be connected with corpus which can be rotated relative to the housing. Cover 51 for access may further comprise a locking mechanism to select its position relative to the housing 55, to prevent movement of the cover 51 for access when it is in closed position.

The housing 55 may contain parallel slats 59 (see figure 5). In some embodiments of the invention, the unit 50 for storing documents contains a movable support plate 100 for durable support a stack of documents 60, as shown in figure 5. Shift mechanism 150 in the process connected with the support plate 100 to bias the base plate 100 in the direction where the newly obtained documents 60 are inserted into the stack of documents 60. In some embodiments of the invention, the shift mechanism 150 comprises a gear gears 120A, 120b connected respectively with the opposite edges 101 and 102 of the support plate 100 can be rotated relative to these edges, as shown in Fig.6 and 7. Shift mechanism 150 further comprises at least two axes 130, which are connected to at least two pairs of toothed gears 120 on opposite edges of the support plate 100. In some embodiments of the invention, the shift mechanism 150 further comprises a spring 180, which is in the process connected with one of the axes 130 (see Fig.7). Shift spring 180 before oznacena to provide shifting efforts on a couple of gears 120, connected via at least one axis 130 in such a manner as to cause movement of the support plate to the front of the unit 50 for storing documents in the direction A, as shown in figure 5. For example, in the configuration shown in figure 5, shift spring 180 in the process of work is associated with the axis 130 that is connected to the lower pair of gears 120, and causes the axle 130 to rotate in the direction of the arrow Z. the Rotation axis 130 in the direction of the arrow Z causes the lower pair of gears 120 to move in the direction And along the bottom rail 59, as shown in figure 5.

In some embodiments of the invention, the shift mechanism 150 further comprises a mounting mechanism 200 for locking the shifting mechanism 150. Specifically, the installation mechanism 200 is designed to prevent the movement of the lower pair of gears 120 in direction And when it is in a locked state. The installation mechanism 200 may include an actuator 208 constipation, connecting gear 205, the locking bar 220 and the axis 210, as shown in Fig. The locking bar 220 may be arranged in such a manner as to cause engagement of the locking protrusion 180 shift mechanism 150 to prevent further forward rotation (in the direction of the arrow Z) on the bottom axis 130 shifting mechanism 150 when installation is echanism 200 is in the locked position.

In some embodiments of the invention, the unit 50 for storing documents contains auxiliary mechanism 300, contributing to the displacement of the stack of documents 60, placed inside the unit 50 for storing documents. Auxiliary mechanism 300 may include a sliding plate 310 that is connected to the housing 55 is slidable relative to the housing, as shown in figures 9 and 10. In some embodiments of the invention the auxiliary mechanism 300 is installed on the lid 51 for access slidable relative to the cover for access. In some embodiments of the invention the auxiliary mechanism 300 is connected to the housing 55 is slidable relative to the housing by means of roller elements 330 that come into contact with moving the plate 310 and the housing 55 (or lid 51 for access).

Figure 10 shows an example of an auxiliary mechanism 300, connected with the sliding housing 55 and is installed on the lid 51 for access. Cover 51 for access may include longitudinal channels 335 to install an independent roller elements 330 in many places between the moving plate 310 and the cover 51 for access. Auxiliary mechanism 300 can be designed to support a stack of documents 60, after the size of the stack reaches a predetermined maximum led the ranks. In some embodiments of the invention, when the size of the stack of documents 60 reaches a certain value (i.e. the maximum threshold), the force developed support plate 100 in the direction And may be insufficient to support the stack along its entire length above the bottom surface of the housing 60 due to the action of gravity. When the stack of documents 60 exceeds such a threshold, at least part of the stack will move and be based on a bottom surface of the housing 55 (or on the cover 51 for access or on the base plate (310). In some embodiments, execution unit 50 for storing documents containing auxiliary mechanism 300, a portion of the stack of documents 60, which is shifted in the vertical direction, will be based on a sliding plate 310, and not on the housing 55.

In some embodiments of the invention, the stack of documents 60 comes in contact with the auxiliary mechanism 300 after it is inserted in the unit 50 for storing documents. For example, the newly received document 60 can be positioned relative to the aperture 52 so that it is in contact with the moving plate 310 while laying in a pack. In other embodiments of the invention, the secondary mechanism (not shown) can interact with the stack of documents 60 so that the push plate or friend is the first interactive element comes in contact with the stack on the opposite side with respect to the place, where the pack rests on the sliding plate 310, so that all the documents in the stack has shifted and relied on a sliding plate 310.

Below is a description of the work unit for storing documents. When the document 60 is inserted into the device 10 for processing documents through the inlet 21, the module 20 to verify the conformity of the documents determines the acceptability of the document 60. Acceptable document 60 is transported through the device 10 for processing documents of place next to the unit 50 for storing documents. Acceptable documents 60, located near the unit 50 for storing documents, are placed in a stack within a block for storing documents using the laying mechanism 70. When documents 60 are stacked in the stack unit 50 for storing documents, the support plate 100 is shifted to the laying mechanism 70, as shown in figure 11. The support plate 100 is pushed in the direction of the laying mechanism 70 with the shifting mechanism 150. When laying mechanism 70 extends and pushes the newly received document 60 in the unit 50 for storing documents, the support plate 100 is shifted in the direction opposite to the force exerted by shifting mechanism 150. The displacement of the support plate 100 causes the timing gear 120 to rotate and to move along the rails 59. When laying mechanism 70 ubered is in its initial position, shift mechanism 150 pushes the support plate 100 in the direction of the laying mechanism 70 (i.e. in the direction of A).

As the laying of additional documents in the unit 50 for storing documents the size of the stack of documents 60 increases. After the stack of documents 60 will exceed a certain predefined size, at least part of the stack may move down (for example, due to the action of gravity) and may rely on the housing 55 (or sliding plate 310, as shown in Fig. Before the size of the stack of documents exceeds a predetermined threshold value, the reference plate 100 supports a stack of documents 60 in sustainable and limbo, without contact with the housing 55 (or sliding plate 310). In this configuration, the newly stacked documents 60 are added to the stack by moving the support plate 100 without interaction with the housing 55 (or sliding plate 310).

As soon as the size of the stack of documents 60 exceeds the threshold value of the stack of documents 60 can move in the vertical direction, so that it is supported by a housing 55 (or on a sliding plate 310). When displaced in the vertical direction of the stack will be in contact with the moving plate 310, the offset of the stack will be based on a sliding plate 310 (or casing 55), and this will cause the moving square is tiny 310 in the transverse (or longitudinal) direction, so it will move with the stack of documents 60 adding newly received document 60 in the stack. Due to the fact that the vertical offset of the stack of documents 60 based on a sliding plate 310, the frictional force required to move the stack of documents 60 in the transverse direction can be maintained at the same level as in the case of the stack without vertical offset (or even be less).

For example, on Fig shows the shift plate 310 in the initial position, same state, when the size of the stack of documents 60 such that the support plate 100 supports a stack in a suspended or stable position, so that it has not relied on the sliding plate 310. Provided that the size of the stack is small enough, so that part of the stack is not shifted in the vertical direction and does not interact with the body 55 (or sliding plate 310), the sliding plate is in its extreme forward position. As you increase the size of the stack of documents 60 gravity causes at least part of the stack to fall down (or shift down in the vertical direction), and she begins to rely on the housing 55 (or sliding plate 310). In some embodiments of the invention the size of the unit 50 for storing documents is selected such that moving the PLA is Tina returned to its original position (as shown in Fig), even despite the fact that part of the stack rests on it. With further increases in the size of the stack of documents 60 laying each newly received document 60 causes simultaneous displacement of both the stack and the moving plate in the transverse direction. Similarly, increasing the size of the stack of documents 60 position, which returns the moving plate 310 after laying in a pile of newly obtained document 60 becomes located farther from its original position. An example of the position of the moving plate 310 at a location remote from the original position shown in Fig. Continuing the newly obtained documents in the unit 50 for storing documents may result in the fact that the moving plate 310 moves at a fully extended position in which the unit 50 for storing documents already cannot accept any more new documents, as shown in Fig.

In some embodiments of the invention, the unit 50 for storing documents contains the installation mechanism 200. The installation mechanism 200 allows you to remove the base plate 100 of the housing 55. The installation mechanism 200 has two States: locked state and an unlocked state. In the locked position, the actuator 208 is in position, is displaced in the transverse direction inward from the outer g is unity base plate 100. The actuator 208 in the process, connected with the connecting gear 205, which allows connecting the gear 205 to slide along the axis 210. Offset inward in the transverse direction of the actuator 208 and accordingly the connecting gear 205 causes the output coupling gear 205 of the gearing with the gear 120b shifting mechanism 150 and maintaining a gearing ratio gear 125. Transmission gear 125 can then log in toothed engagement with the upper gear 120A. The actuator 208 is shifted in the transverse direction inside, locking lug 220 also moves inward and in a blocking position preventing further rotation axis 130 of the shift mechanism 150. Specifically, the blocking position of the locking lugs 220 leads to a state where it rests on the ledge 185 axis 130, which prevents further rotation axis 130 in the direction of the arrow Z.

For translation of the installation mechanism 200 from the locked state to an unlocked state, the actuator 208 is moved in the transverse direction outwards to the outer border of the base plate 100. Movement of the actuator 208 in the unlocked position causes the connecting gear 205 to slide along the axis 210 and enter into toothed engagement with the gear 120b. In addition, the locking bar 220 is moved in and out of the blocking position,which allows the axis 130 of the shift mechanism to rotate freely (for example, in the Z-direction).

The support plate 100 can be removed from the housing 55 when the installation mechanism 200 is in the locked position. For example, the support plate 100 may be located at some distance from the front surface of the housing 55 due to the presence of the stack of documents 60. To remove the support plate 100, the cover 51 for access to be removed from the housing 55 and mounting mechanism 200 is transferred to the locked position. When the adjusting mechanism is in the locked position, this causes the locking bar 220 to engage with the protrusion 185, which prevents further movement forward of the support plate 100 (i.e., in direction A). When the connecting gear 205 is not in engagement with the transmission gear 125 and the lower gear 120b, top gear 120A is still able to rotate freely about the axis 130A. By turning the upper edge of the support plate 100 top gear 120A rotate along the rails 59, as long as they will not be released from engagement with the rail 59. As soon as the gear 120A disengaged from the rail 59, the lower gear 102b can be lifted up from the bottom rail 59. Once both pairs of gears 120A and 120b are out of engagement with the rail 59, the support plate can be rotated and removed from the housing 55.

Other embodiments of this invention are within the scope of the invention, described the CSOs in the claims.

1. Unit (50) for storing documents, containing:
case (55) for storing multiple documents (60) in the stack, in which their surfaces facing each other;
the support plate (100), detachable way connected with the body;
many toothed gears connected with the support plate (100) to rotate, and at least two pairs of gears (120a, 120b) are connected by at least two axes;
many essentially parallel rails (59)connected to the housing (55), and Reiki (59) is performed with input to the gearing with multiple gears (120, 120a, 120b), and
shift mechanism (150)designed to offset support plate (100) in the direction of the last stacked documents on one longitudinal end of the housing, and
further comprises a mounting mechanism configured to move between locked and unlocked positions, in this locked position the adjusting mechanism prevents shifting mechanism to provide a shear load on one of the at least two axes, which prevents the above-mentioned rotation axis.

2. Unit for storing documents according to claim 1, characterized in that the supporting plate is removable from the housing when the mounting mechanism is in the locked position.

3. Unit for storing documents according to any one of claim 1 is 2, characterized in that it further comprises a cover for access, removable way connected with the body and forming at least part of one side of body.

4. Unit for storing documents according to claim 3, characterized in that the cover for access forms the lower longitudinal side of the body under documents.

5. Unit for storing documents according to any one of claims 1, 2, 4, characterized in that the shifting mechanism (150) includes a spring connected to one of the at least two axes (130).

6. Unit for storing documents according to any one of claims 1, 2, 4, characterized in that the set of gears is connected with at least two opposite edges of the support plate for rotation.

7. Unit for storing documents according to any one of claims 1, 2, 4, characterized in that at least two axles are designed to connect at least two pairs of gears on opposite edges of the support plate.

8. Unit (50) for storing documents, connected with a device for checking the compliance of documents with the ability to detach and having mechanism (70) for laying documents (60) in the stack unit for storing documents, when this unit for storing document contains:
case (55) for storing multiple documents (60) in the stack, in which their surfaces facing each other;
the support plate (100), connected with building the som (55);
many toothed gears (120, 120a, 120b)connected with the support plate (100) to rotate, and at least two pairs of gears (120, 120a, 120b) are connected by at least two axes (130);
many parallel rails (59)associated with the case (55), and Reiki (59) is performed with input to the gearing with multiple gears (120, 120a, 120b); and
shift mechanism (150)designed to offset support plate (100) in the direction of the last stacked documents on one longitudinal end of the housing, and
further comprises a cover for access, connected with the body and forming at least part of one side of body.

9. Unit for storing documents of claim 8, characterized in that it contains an auxiliary mechanism that contains the node-slip, allowing the auxiliary mechanism to slide relative to the housing with a small amount of friction between them.

10. Unit for storing documents according to claim 9, characterized in that the node slide contains a series of rollers located between the support mechanism and the housing.

11. Unit for storing documents according to claim 9, characterized in that the node slide comprises a pair of sliding rails located between the support mechanism and the housing.

12. Unit for storing documents on any of PP-11, characterized in that the cu is the Cabinet for access forms the lower longitudinal side of the body under documents.

13. Unit for storing documents on any of PP-11, characterized in that the shifting mechanism (150) includes a spring connected to one of the at least two axes (130).

14. Unit for storing documents on any of PP-11, characterized in that the set of gears is connected with at least two opposite edges of the support plate for rotation.

15. Unit for storing documents on any of PP-11, characterized in that at least two axles are designed to connect at least two pairs of gears on opposite edges of the support plate.



 

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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: engineering of devices for processing banknotes.

SUBSTANCE: device and method for processing banknotes, mainly used for one at a time dispensing of banknotes for processing, counting them, sorting and checking authenticity, have capability of such processing in several working modes, while for selecting and displaying working modes, display is provided with sensor screen.

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.

SUBSTANCE: banknotes, positioned in pallet, are moved on pallet inside banknote receiver, wherein lever, affecting plunger, opens gate in lower portion of pallet for moving banknotes into container, positioned in lower portion of receiver. Receiver has frame inserted with tightness into its upper portion, which is also provided with gate, bent downwards during movement of money to inside of receiving sack, made of elastic material, enveloping the frame. After that closing plate seals the frame, which may then be extracted from container for following transportation, to bank, for example.

EFFECT: greater protection of container from unsanctioned access, simplified process of container use and decreased possibility of receiving traumas during use of container.

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.

SUBSTANCE: device includes loading aperture 10, through which stacks of elements are fed into machine from the outside; tool 11-12 for feeding one element at a time onto transportation route 11-13-14 inside the machine, and means 20 to provide customers with instructions and information concerning correct handling of machine. Between unloading aperture 10 and means 11-12 for transfer an auxiliary tool 16-17 is positioned, which is provided for transportation of elements to device 11-12 for feeding one element at a time. Device also includes tool 11-12-17-10 for possible return of a stack of elements back to loading aperture 10 at the same time when tool 20 for dispensing instructions provides instructions to customers to properly arrange the returned stack of elements.

EFFECT: possible automatic feeding of squeezed banknote to prevent jamming of machine, no need for presence of personnel for cleaning the machine from damaged elements.

2 cl, 3 dwg

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

SUBSTANCE: cartridge contains a set of moveable buttons - indicators of cartridge information, each button may be turned around its axis for changing its position. Buttons may be moved along axis in outward or inward direction relatively to body of cartridge by their rotation. Different plans of positioning of buttons along the axis display appropriate various characteristics of cartridge content. Cartridge may be inserted into ATM, where button positions may be read by ATM.

EFFECT: unused buttons may be kept in the cartridge, button locations may be changed without opening the cartridge.

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

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: 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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