CN209993030U - Paper currency pushing and pressing mechanism and paper currency deposit and withdrawal box - Google Patents

Abstract

The application provides a paper currency pushing mechanism, which comprises a paper currency pushing plate for bearing paper currency; a first motor for driving the paper currency pushing plate to reciprocate along the paper currency stacking direction; and the paper money position control assembly comprises a sensor and a paper money pressing position control rod, wherein the sensor is positioned above the paper money pressing plate and is in communication connection with the control mechanism of the first motor, the paper money pressing position control rod is used for triggering the sensor, and the paper money pressing position control rod is used for preventing the paper money pressing plate from moving along the paper money stacking direction. The application also provides a paper money storing and taking box provided with the paper money pushing and pressing mechanism, the stroke of the paper money pushing and pressing plate is controlled through the sensor and the paper money pressing position control rod, so that the paper money is pushed and pressed to the outer tangent direction of the paper money taking wheel and the separating wheel, and the smooth conveying of the paper money is ensured.

Description

Paper currency pushing and pressing mechanism and paper currency deposit and withdrawal box

Technical Field

The utility model relates to a financial equipment technical field especially relates to a paper currency pushing and pressing mechanism and paper currency access case.

Background

The access chest is typically provided with a banknote chest for holding banknotes for storage and dispensing. The paper money box is internally provided with a paper money pushing and pressing plate for supporting paper money, the paper money pushing and pressing plate can move up and down in the paper money box, and the paper money on the paper money pushing and pressing plate moves up and down along with the paper money pushing and pressing plate. When the paper money is output from the paper money box, the paper money pushing plate pushes the paper money to the paper money taking wheel at a set pressure, at the moment, the paper money taking wheel rotates to drive the paper money contacted with the paper money to move to the paper money twisting wheel, the paper money twisting wheel and the separating wheel are oppositely arranged at the inlet and the outlet of the paper money box, and the paper money twisting wheel and the separating wheel drive single paper money to pass through the conveying channel and then output the paper money box.

However, when the paper money contacts the money taking wheel in the process of outputting the paper money to the money box, if the position of the paper money output cannot be controlled, phenomena such as paper jam and overlapping easily occur, so that the effect of separating the paper money is not ideal, and the paper money is not conveyed smoothly.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a paper currency pushing and pressing mechanism and paper currency access cash case to solve the problem that proposes in the above-mentioned technical background.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a first aspect of the present application provides a banknote pressing mechanism including:

-a banknote pusher for carrying banknotes;

-a first motor for driving the banknote press plate to reciprocate along the banknote stacking direction;

-a banknote position control assembly comprising:

the sensor is positioned above the paper money pushing plate and is in communication connection with a control mechanism of the first motor;

and the coin pressing position control rod is used for triggering the sensor.

Preferably, the coin pressing position control rod comprises a first part and a second part, a rotating shaft is arranged at the joint of the first part and the second part, and the tail ends of the first part and the second part are both positioned on the same side of the rotating shaft and above the paper money pushing plate; the distance between the sensor and the rotating shaft is smaller than the distance between the tail end of the first part and the rotating shaft.

More preferably, the sensor is an optical coupler sensor, a transmitter and a receiver are arranged at one end facing the rotating shaft, and a channel for the first part to run is formed between the transmitter and the receiver.

Preferably, the coin pressing position control rod can rotate relative to the sensor and is switched between a first position and a second position;

when the coin pressing position control rod is located at the first position, the coin pressing position control rod is separated from the sensor, the sensor outputs a first signal to the control mechanism of the first motor, and the control mechanism of the first motor controls the first motor to operate, so that the paper money pushing plate is driven to move along the paper money stacking direction;

when the paper money pushing plate pushes the paper money to a preset position, the sensor is shielded when the paper money pressing position control rod is located at the second position, the sensor outputs a second signal to the control mechanism of the first motor, the control mechanism of the first motor controls the first motor to stop running, and the paper money pushing plate stops moving.

A second aspect of the present application provides a banknote deposit and withdrawal box comprising: the cash box comprises a box body, wherein an opening is formed in the surface of the box body, and a conveying channel and a cash box unit are arranged inside the box body;

the money box unit includes:

a chamber for stacking and storing paper money, wherein the chamber is provided with an inlet and an outlet, and the inlet and the outlet are communicated with the opening through the conveying channel;

the banknote twisting wheel and the separating wheel are positioned on two sides of the inlet and the outlet of the bin and are oppositely arranged at intervals and used for driving the banknotes to move between the conveying channel and the bin;

the banknote taking wheel is arranged at the upstream of the inlet and the outlet along the banknote output direction and is used for driving the banknotes to move towards the inlet and the outlet; the paper money output direction is the direction of the paper money in the bin entering the conveying channel;

the paper money pushing and pressing mechanism is arranged above the bin, wherein the paper money pushing and pressing plate moves in a reciprocating mode along the paper money stacking direction so as to enable the paper money pushing and pressing plate to be close to or far away from the paper money taking wheel; the paper money position control assembly controls the paper money pushing and pressing plate to push paper money to the inner tangent direction of the money twisting wheel and the separating wheel.

Preferably, the coin pressing position control rod of the paper money position control assembly comprises a first part and a second part, a rotating shaft is arranged at the joint of the first part and the second part, and the tail ends of the first part and the second part are both positioned on the same side of the rotating shaft and above the paper money pushing plate; the distance between the sensor of the paper money position control assembly and the rotating shaft is smaller than the distance between the tail end of the first part and the rotating shaft.

More preferably, the conveying passage is an inclined passage, and the second portion is at least partially located above the conveying passage and is blocked from rotating downward by the conveying passage.

More preferably, the sensor is an optical coupler sensor, a transmitter and a receiver are arranged at one end facing the rotating shaft, and a channel for the first part to run is formed between the transmitter and the receiver.

Further, the first part is located between the transmitter and the receiver, light rays emitted to the receiver from the transmitter are blocked, and the tail end of the second part abuts against the upper portion of the conveying channel.

Preferably, a coin pressing position control rod of the paper money position control assembly can rotate relative to the sensor and is switched between a first position and a second position;

when the coin pressing position control rod is located at the first position, the coin pressing position control rod is separated from the sensor, the sensor outputs a first signal to the control mechanism of the first motor, and the control mechanism of the first motor controls the first motor to operate, so that the paper money pushing plate is driven to move along the paper money stacking direction;

when the paper money pushing plate pushes the paper money to a preset position, the sensor is shielded when the paper money pressing position control rod is located at the second position, the sensor outputs a second signal to the control mechanism of the first motor, the control mechanism of the first motor controls the first motor to stop running, and the paper money pushing plate stops moving.

Preferably, the case has a rectangular parallelepiped shape.

Preferably, the opening is provided on an upper surface of the box, and the bills are stacked in a vertical direction in the compartment.

Preferably, the opening is provided in a side surface of the box body, and the bills are stacked in a horizontal direction in the compartment.

Preferably, when the paper money is stored in the bin, the paper money pushing plate moves in the direction away from the paper money taking wheel, and an accommodating cavity is formed between the paper money pushing plate and the paper money taking wheel;

when the paper money is taken out of the bin, the paper money pushing plate pushes the paper money to the inner tangent direction of the separating wheel and the money twisting wheel, so that the paper money is abutted to the money taking wheel.

Preferably, the outer surface of the banknote taking wheel is provided with a friction part, and when the banknote taking wheel drives the banknotes to move from the bin to the entrance and the exit, the friction part of the banknote taking wheel is in contact with the banknotes.

More preferably, the friction part has a friction surface, and the friction surface is a curved surface protruding from the outer peripheral surface of the banknote collecting wheel.

Preferably, the banknote taking wheel and the banknote twisting wheel are in transmission connection with a second motor and driven by the second motor to synchronously rotate.

Preferably, the separating wheel rotates unidirectionally when the paper money is taken out of the chamber, and is used for conveying the paper money into the conveying channel in a single piece.

Preferably, the banknote deposit and withdrawal box further comprises: the shifting wheel comprises an annular fixing part and radial blades, the fixing part is sleeved on a wheel shaft of the separating wheel, the blades are integrally connected with the fixing part, and the blades are circumferentially arrayed along the outer side surface of the fixing part.

More preferably, the thumb wheel rotates in a banknote input direction; wherein, the paper currency input direction is the direction that the paper currency in the transfer passage enters the bin.

Preferably, the banknote deposit and withdrawal box further comprises: the pair of rotating wheels are arranged on the conveying channel and rotate along the conveying direction of the paper money, and the pair of rotating wheels and the paper money twisting wheel are arranged in an externally tangent mode.

More preferably, the pair of wheels is provided upstream of the separation wheel in the banknote input direction.

Preferably, at least one conveying wheel is arranged on the conveying channel, and the conveying wheel rotates along the conveying direction of the paper money and is used for driving the paper money to move along the conveying channel.

The third aspect of the present application provides a two-compartment paper money deposit and withdrawal box, comprising:

the device comprises a box body, a conveying channel and two cash box units, wherein the surface of the box body is provided with an opening, the box body is internally provided with the conveying channel and the two cash box units which are respectively a first cash box unit and a second cash box unit, and the first cash box unit and the second cash box unit are sequentially arranged along the vertical direction or the horizontal direction; the entrance and exit of the compartment of the first banknote box unit is a first entrance and exit, the entrance and exit of the compartment of the second banknote box unit is a second entrance and exit, and the conveying channel is connected between the opening and the first entrance and the second entrance and exit.

Preferably, the case has a rectangular parallelepiped shape.

Preferably, the first cassette unit and the second cassette unit are detachably connected.

Preferably, the first access port and the second access port are arranged on the same side of the box body.

Preferably, the first access opening and the second access opening are disposed at opposite sides of the box body.

Preferably, the opening is formed in an upper surface of the box body, and the banknotes are stacked in a vertical direction in the compartment of the first cassette unit and the compartment of the second cassette unit.

Preferably, the opening is provided in a side surface of the case, and the banknotes are stacked in a horizontal direction in the compartment of the first cassette unit and the compartment of the second cassette unit.

Preferably, the transport channel comprises a first channel and a second channel; the first channel communicates the opening of the box body with the first inlet and the second channel communicates the opening of the box body with the second inlet and the second outlet.

More preferably, at least one conveying wheel is arranged on the first channel, and the conveying wheel rotates along the conveying direction of the paper money and is used for driving the paper money to move along the first channel; and/or at least one conveying wheel is arranged on the second channel, rotates along the conveying direction of the paper money and is used for driving the paper money to move along the second channel.

More preferably, the two-chamber banknote deposit and withdrawal box further comprises: a flap disposed adjacent to the opening of the box for switching between the first channel and the second channel.

Furthermore, the turning plate is provided with an electromagnet and a direct current power supply unit for supplying power to the electromagnet, and under the action of magnetic force, the turning plate is switched between the first channel and the second channel.

Furthermore, when the turning plate is in a first magnetic state, the first channel is opened, and the second channel is closed; and when the turning plate is in a second magnetic state, the second channel is opened, and the first channel is closed.

Furthermore, the turning plate comprises a rotating shaft and a plate body rotating around the rotating shaft, and the edge of the plate body is arc-shaped.

Preferably, the box body further comprises a power supply, and the power supply supplies power to each electric device in the first cash box unit and the second cash box unit.

Compared with the prior art, the technical scheme of the utility model following beneficial effect has:

1) the utility model provides a paper currency bulldozes mechanism and contains paper currency access cash case of this paper currency bulldozes mechanism, can control the stroke of paper currency bulldozing plate through sensor and coin pressing position control lever, makes paper currency bulldozed to the internal tangent direction of twirling paper money wheel and separating wheel, has guaranteed the transport of paper currency unobstructed.

2) The two-bin paper money depositing and withdrawing box includes two bins capable of being deposited with and withdrawn from paper money and communicated via conveying passage to the same opening of the box, and the two bins are provided with the paper money pushing and pressing mechanisms separately.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application. In the drawings:

FIG. 1 is a schematic view of a banknote deposit and withdrawal box provided with a banknote pushing mechanism;

FIG. 2 is a schematic view of a bill pressing position control lever of the bill pressing mechanism in a first position;

FIG. 3 is a schematic view of a second position of a coin pressing position lever of the bill pressing mechanism;

FIG. 4 is a schematic view of a two-compartment banknote deposit and withdrawal bin with a banknote pushing and pressing mechanism;

FIG. 5 is a schematic diagram showing a deposit path of banknotes in the two-compartment banknote deposit and withdrawal box to the first banknote box unit (the second banknote box unit is omitted);

FIG. 6 is a schematic diagram showing a deposit path of banknotes in the two-compartment banknote deposit and withdrawal box to the second cassette unit (the second cassette unit is omitted);

FIG. 7 is a schematic illustration of the path of the banknotes from the two-compartment banknote deposit and withdrawal box taken out of the first cassette unit (the second cassette unit is omitted);

fig. 8 is a schematic diagram of a path for taking out the banknotes of the two-compartment banknote deposit and withdrawal box from the second cassette unit (the second cassette unit is omitted).

Illustration of the drawings:

1. a bin; 101. a first chamber; 102. a second chamber; 3. a paper money push plate; 301. a first banknote press plate; 302. a second banknote press plate; 4. turning wheels; 5. a separating wheel; 6. a money twisting wheel; 7. a thumb wheel; 8. an opening; 9. turning over a plate; 11. a banknote taking wheel; 12. a delivery channel; 1201. a first channel; 1202. a second channel; 26. a sensor; 2601. a first sensor; 2602. a second sensor; 27. a coin pressing position control lever; 2701. a first portion; 2702. a second portion; 33. an entrance and an exit; 3301. a first inlet and outlet; 3302. a second inlet and outlet; 34. a rotating shaft.

Detailed Description

The utility model provides a paper currency bulldozing mechanism and paper currency access cash case, for making the utility model discloses a purpose, technical scheme and effect are clearer, make clear and definite, and it is right that the following refers to the drawing and lifts the example the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order, it being understood that the data so used may be interchanged under appropriate circumstances. Furthermore, the terms "comprises," "comprising," and any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The first embodiment is as follows:

FIG. 1 is a schematic view of a banknote deposit and withdrawal box provided with a banknote pressing mechanism.

As shown in fig. 1, the money box for storing and taking out the paper money comprises a box body, wherein the box body is in a cuboid shape. The surface of the box body is provided with an opening 8, and the inside of the box body is provided with a conveying channel 12 and a cash box unit.

The money box unit includes:

a chamber 1 for stacking and storing paper money, wherein the chamber 1 is provided with an inlet and an outlet 33, and the inlet and the outlet 33 are communicated with the opening 8 through the conveying channel 12;

the banknote twisting wheel 6 and the separating wheel 5 are positioned on two sides of the inlet and outlet 33 of the bin 1, are oppositely arranged at intervals and are used for driving the banknotes to move between the conveying channel 12 and the bin 1;

the banknote taking wheel 11 is arranged at the upstream of the inlet and outlet 33 along the banknote output direction, and is used for driving the banknotes to move towards the inlet and outlet 33, and the banknote output direction is the direction in which the banknotes in the bin 1 enter the conveying channel 12; the outer surface of the banknote taking wheel 11 is provided with a friction part, the friction part is provided with a friction surface, the friction surface is a curved surface protruding out of the outer peripheral surface of the banknote taking wheel 11, and when the banknote taking wheel 11 drives the banknote to move from the bin 1 to the entrance 33, the friction part of the banknote taking wheel 11 is in contact with the banknote;

the shifting wheel 7 comprises an annular fixing part and radial blades, the fixing part is sleeved on a wheel shaft of the separating wheel 5, the blades are integrally connected with the fixing part, and the blades form a circumferential array along the outer side surface of the fixing part;

the counter rotating wheel 4 is arranged on the conveying channel 12 and rotates along the conveying direction of the paper money, and the counter rotating wheel 4 is externally tangent to the paper money twisting wheel 6; the pair of rotating wheels 4 is arranged at the upstream of the separating wheel 5 along the banknote input direction;

and the paper money pushing mechanism is arranged in the box body.

In the above embodiment, the banknote taking wheel 11 and the banknote twisting wheel 6 are both in transmission connection with a second motor (not shown in the figure), and are driven by the second motor to synchronously rotate. The conveying channel 12 may also be provided with a plurality of conveying wheels, which rotate in the conveying direction of the banknotes and are used for driving the banknotes to move along the conveying channel 12.

In the above embodiment, the banknote pressing mechanism includes:

1) and the paper currency pushing plate 3 is arranged in the chamber and is used for bearing paper currency.

2) A first motor (not shown) for driving the paper money pushing plate 3 to move back and forth along the paper money stacking direction so as to make the paper money pushing plate 3 approach or separate from the paper money taking wheel 11. Specifically, when paper money is stored in the bin 1, the paper money pushing plate 3 moves in a direction away from the paper money taking wheel 11, and an accommodating cavity is formed between the paper money pushing plate 3 and the paper money taking wheel 11; when the paper money is taken out of the bin 1, the paper money pushing plate 3 pushes the paper money to the inner tangent direction of the separating wheel 5 and the money twisting wheel 6, so that the paper money is abutted to the money taking wheel 11.

3) The paper money position control component controls the paper money pushing plate 3 to push the paper money to the inner tangent direction of the money twisting wheel 6 and the separating wheel 5, and comprises a sensor 26 and a money pressing position control rod 27. The sensor 26 is fixed above the banknote press plate 3 and faces the upper surface of the banknote press plate 3, and the sensor 26 is connected to a control mechanism (not shown) of the first motor in a communication manner. The coin pressing position control rod 27 is used for triggering the sensor 26.

Fig. 2 and 3 show the structure schematic diagrams of the coin pressing position control rod of the paper money pushing mechanism in a first position and a second position. In a preferred embodiment, the coin pressing position control lever 27 comprises a first portion 2701 and a second portion 2702, a rotating shaft 34 is arranged at the joint of the first portion 2701 and the second portion 2702, and the ends of the first portion 2701 and the second portion 2702 are both located on the same side of the rotating shaft 34 and above the paper money pushing plate 3; the distance between the sensor 26 and the rotating shaft 34 is smaller than the distance between the end of the first portion 2701 and the rotating shaft 34. The sensor 26 is an optical coupler sensor, and a transmitter and a receiver are arranged at one end facing the rotating shaft 34, and a channel for the first part 2701 to run is formed between the transmitter and the receiver.

The coin position control lever 27 is rotatable relative to the sensor 26, and is switched between a first position and a second position. When the bill pressing position control lever 27 is in the first position, as shown in fig. 2, it is separated from the sensor 26, and the sensor 26 outputs a first signal to the control mechanism of the first motor, which controls the operation of the first motor, thereby driving the bill pressing plate 3 to move in the bill stacking direction. As shown in fig. 3, when the banknote pressing plate 3 presses the banknote to a predetermined position, the upper surface of the banknote abuts against the end of the second portion 2702, the banknote pressing position control lever 27 is in the second position, the end of the first portion 2701 is located between the transmitter and the receiver of the sensor, the light beam emitted from the transmitter to the receiver is blocked, the end of the second portion 2702 abuts against the upper side of the conveying channel 12, at this time, the sensor 26 outputs a second signal to the control mechanism of the first motor, the control mechanism of the first motor controls the first motor to stop operating, and the banknote pressing plate 3 stops moving.

The working principle of the embodiment is as follows:

the paper money is stored in the paper money box through the combined action of the rotating wheel 4 and the poking wheel 7. When the paper money is stored in the bin 1 from the conveying channel 12, the money twisting wheel 6, the counter-rotating wheel 4 and the separating wheel 5 rotate along the money entering direction, so that the paper money in the conveying channel 12 is driven to enter the bin 1. The poking wheel 7 which is coaxial with the separating wheel 5 is driven by the wheel shaft of the separating wheel 5 to rotate along the banknote entering direction, and the blades of the poking wheel can be unfolded and flap the tail end of the banknote so as to stack the banknote on the banknote push plate 3 in the bin 1 in order. At this time, the end of the coin pressing position control lever 27 close to the sensor 26 (i.e., the end of the first portion 2701) is separated from the sensor 26, the sensor 26 can detect the banknotes and feed back information to the control mechanism of the first motor, and the control mechanism controls the first motor to rotate, so that the banknote pressing plate 3 is driven to move in the direction away from the inlet/outlet 33, and a banknote stacking space is formed between the banknote pressing plate 3 and the inlet/outlet 33.

The paper money taking-out box is realized by the combined action of the paper money pushing mechanism, the paper money taking wheel 11, the paper money twisting wheel 6 and the separating wheel 5. When the banknotes are taken out from the hopper 1 to the conveyance path 12, the first motor drives the banknote press member 3 to move in the direction of the inlet/outlet 33. The money twisting wheel 6 and the money taking wheel 11 rotate along the money output direction, and the separating wheel 5 and the shifting wheel 7 do not rotate. When the paper currency pushing plate 3 pushes the paper currency to the inner tangent direction of the separating wheel 5 and the paper currency twisting wheel 6, one end of the paper currency is contacted with the tail end of the second part 2702 of the paper currency pressing position control rod 27, the paper currency pressing position control rod 27 rotates around the rotating shaft 34, one end (namely the tail end of the first part 2701) close to the sensor 27 shields the sensor 26, the sensor 26 cannot detect the paper currency, information is fed back to a control mechanism of the first motor, the control mechanism controls the first motor to stop rotating, and the paper currency pushing plate 3 also stops moving towards the paper currency taking wheel 11. At this time, the banknotes stacked on the banknote press plate 3 abut against the banknote taking wheel 11, the banknote taking wheel 11 rotates in the banknote dispensing direction, the friction part of the banknote taking wheel 11 contacts with the banknotes and drives the banknotes to move between the banknote twisting wheel 6 and the separating wheel 5, and when the banknotes move between the banknote twisting wheel 6 and the separating wheel 5, the banknote twisting wheel 6 drives the banknotes in contact with the banknote twisting wheel to be conveyed to the conveying channel 12 through the inlet and outlet 33. During conveying, the separating wheel 5 is locked, namely the separating wheel 5 can be used for preventing other paper currencies below the paper currencies moving between the paper currency twisting wheel 6 and the separating wheel 5, so that only one paper currency in the inlet and the outlet is conveyed at a time. In this embodiment, a one-way bearing is used to control the motion state of the separator 5. Since the separating wheel 5 is locked, the dial wheel 7 which is arranged coaxially with the separating wheel is static, and the blades of the dial wheel are bent along the circumferential direction of the fixing part, no obstruction is caused to the banknote blocking process, and the separated banknotes can be smoothly conveyed to the conveying channel 12.

In another embodiment, the separating wheel 5 can rotate in the same direction of rotation as the wheel 6 when the wheel 6 transports the banknotes towards the transport path 12. For example, the banknote twisting wheel 6 may rotate counterclockwise when transporting the banknotes to the transport path 12, and the separating wheel 5 may rotate counterclockwise, so that the separating wheel 5 may prevent the movement of the banknotes in contact with the banknote twisting wheel 6 and the separating wheel 5, and only one banknote at a time in the inlet and outlet 33 may be transported.

In this embodiment, the opening 8 is formed in the upper surface of the box body, and the banknotes are stacked in the vertical direction in the storage chamber 1. Of course, the opening 8 may also be disposed on a side surface of the box body, and the banknotes are stacked in the compartment 1 along a horizontal direction, which has the same working principle and is not described herein again.

Example two:

FIG. 4 is a schematic view of a two-compartment banknote deposit and withdrawal bin with a banknote pushing mechanism.

As shown in fig. 4, a two-compartment banknote deposit and withdrawal box comprises: the device comprises a box body with a cuboid structure, wherein an opening 8 is formed in the surface of the box body, a conveying channel and two banknote box units, namely a first banknote box unit and a second banknote box unit, are arranged in the box body, and the first banknote box unit and the second banknote box unit are sequentially arranged along the vertical direction; the compartment of the first cassette unit is a first compartment 101, the entrance and exit of which is a first entrance and exit 3301, the compartment of the second cassette unit is a second compartment 102, the entrance and exit of which is a second entrance and exit 3302, and the conveying passage is connected between the opening 8 and the first entrance and exit 3301 and the second entrance and exit 3302.

In this embodiment, the first port 3301 and the second port 3302 are provided on the same side of the box, but in another embodiment, the first port 3301 and the second port 3302 may be provided on opposite sides of the box.

In this embodiment, the opening 8 is provided on the upper surface of the box body, and the banknotes are stacked in the vertical direction in the first compartment 101 and the second compartment 102. Of course, in another embodiment, the opening 8 may be provided on the side of the box, and the banknotes are stacked in the horizontal direction in the first compartment 101 and the second compartment 102.

The transport channels comprise a first channel 1201 and a second channel 1202; the first passage 1201 communicates the opening 8 of the case with the first port 3301, and the second passage 1202 communicates the opening 8 of the case with the second port 3302. At least one conveying wheel is arranged on the first channel 1201, rotates along the conveying direction of the paper money and is used for driving the paper money to move along the first channel 1201; and/or at least one conveying wheel is arranged on the second channel 1202, and the conveying wheel rotates along the conveying direction of the paper money and is used for driving the paper money to move along the second channel 1202.

In a preferred embodiment, the two-compartment banknote deposit and withdrawal box further comprises: a flap 9, said flap 9 being arranged adjacent to the opening 8 of the box for switching in the first 1201 and second 1202 channels.

Specifically, the turning plate 9 includes a rotating shaft and a plate body rotating around the rotating shaft, and the edge of the plate body is arc-shaped. The turning plate 9 is provided with an electromagnet and a direct current power supply unit (not shown in the figure) for supplying power to the electromagnet, and the turning plate 9 is switched between the first channel 1201 and the second channel 1202 under the action of magnetic force. For example, when the flap 9 is in the first magnetic state, the first channel 1201 is opened, and the second channel 1202 is closed; when the flap 9 is in the second magnetic state, the second channel 1202 is opened and the first channel 1201 is closed.

In addition, the cassette body further comprises a power supply (not shown in the figure) which supplies power to each electric device in the first cassette unit and the second cassette unit.

The working principle of the embodiment is as follows:

the two-chamber paper money storing and taking box stores the paper money into different chambers or takes the paper money out of different chambers through the turning plate 9. The flap 9 has a first position and a second position.

As shown in fig. 5, when the flap 9 is in the first position, the first passage 1201 connected between the opening 8 and the first inlet/outlet 3301 is connected, the second passage 1202 is disconnected, and the banknotes are stored in the first compartment 101 from the opening 8 of the box body; a first paper money pushing plate 301 is arranged in the first bin 101, a control mechanism of the first motor controls the first motor, and the first motor drives the first paper money pushing plate 301 to move towards a direction away from the first access 3301, so that a paper money stacking space is formed between the first paper money pushing plate 301 and the first access 3301.

As shown in fig. 6, when the flap 9 is located at the second position, the second passage 1202 connected between the opening 8 and the second inlet/outlet 3302 is communicated, the first passage 1201 is disconnected, and the banknotes are stored in the second compartment 102 from the opening 8 of the box body; a control mechanism of the first motor of the second banknote pressing plate 302 is provided in the second compartment 102 to control the first motor, and the first motor drives the second banknote pressing plate 302 to move in a direction away from the second inlet/outlet 3302, so that a banknote stacking space is formed between the second banknote pressing plate 302 and the second inlet/outlet 3302.

As shown in fig. 7, when the flap 9 is in the first position, the first passage 1201 connecting between the opening 8 and the first inlet/outlet 3301 is communicated, the second passage 1202 is cut off, and the banknotes are transported from the first compartment 101 to the opening 8 of the box body through the first passage 1201. The first paper money pushing plate 301 pushes the paper money to the inner tangent direction of the separating wheel and the paper money twisting wheel of the first bin 101, the paper money pressing position control rod of the first paper money box unit blocks the first sensor 2601, the paper money reaches the position, the first paper money pushing plate 301 stops moving, and the two-bin paper money storing and taking box can start to take the paper money from the first paper money box unit.

As shown in fig. 8, when the flap 9 is in the second position, the second passage 1202 connected between the opening 8 and the second inlet/outlet 3302 is communicated, the first passage 1201 is disconnected, and the banknotes are transported from the second compartment 102 to the opening 8 of the box body through the second passage 1202. The second banknote pressing plate 302 presses the banknotes in the direction of the inner tangent of the separator and the stacker of the second compartment 102, the second sensor 2602 is stopped by the banknote pressing position lever of the second cassette unit, the banknotes reach the position, the second banknote pressing plate 302 stops moving, and the two-compartment banknote deposit and withdrawal cassette can start the banknote deposit and withdrawal operation from the second cassette unit.

The above detailed description of the embodiments of the present invention is only for exemplary purposes, and the present invention is not limited to the above described embodiments. Any equivalent modifications and substitutions to those skilled in the art are also within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (10)

1. A banknote pressing mechanism, comprising:

-a banknote pusher for carrying banknotes;

-a first motor for driving the banknote press plate to reciprocate along the banknote stacking direction;

-a banknote position control assembly comprising:

the sensor is positioned above the paper money pushing plate and is in communication connection with a control mechanism of the first motor;

and the coin pressing position control rod is used for triggering the sensor.

2. A banknote pressing mechanism according to claim 1, wherein: the coin pressing position control rod comprises a first part and a second part, a rotating shaft is arranged at the joint of the first part and the second part, and the tail ends of the first part and the second part are both positioned on the same side of the rotating shaft and above the paper money pushing plate; the distance between the sensor and the rotating shaft is smaller than the distance between the tail end of the first part and the rotating shaft.

3. A banknote pressing mechanism according to claim 2, wherein: the sensor is an optical coupler sensor, a transmitter and a receiver are arranged at one end facing the rotating shaft, and a channel for the first part to run is formed between the transmitter and the receiver.

4. A banknote pressing mechanism according to claim 1, wherein: the coin pressing position control rod can rotate relative to the sensor and is switched between a first position and a second position.

5. A banknote deposit and withdrawal bin comprising: the cash box comprises a box body, wherein an opening is formed in the surface of the box body, and a conveying channel and a cash box unit are arranged inside the box body;

the money box unit includes:

a chamber for stacking and storing paper money, wherein the chamber is provided with an inlet and an outlet, and the inlet and the outlet are communicated with the opening through the conveying channel;

the banknote twisting wheel and the separating wheel are positioned on two sides of the inlet and the outlet of the bin and are oppositely arranged at intervals and used for driving the banknotes to move between the conveying channel and the bin;

the banknote taking wheel is arranged at the upstream of the inlet and the outlet along the banknote output direction and is used for driving the banknotes to move towards the inlet and the outlet; the paper money output direction is the direction of the paper money in the bin entering the conveying channel;

the paper currency pushing and pressing mechanism as claimed in any one of claims 1 to 4, which is arranged above the bin, wherein the paper currency pushing and pressing plate moves back and forth along the paper currency stacking direction so as to enable the paper currency pushing and pressing plate to approach or separate from the paper currency taking wheel; the paper money position control assembly controls the paper money pushing and pressing plate to push paper money to the inner tangent direction of the money twisting wheel and the separating wheel.

6. A banknote deposit and withdrawal cassette as claimed in claim 5, wherein: the coin pressing position control rod of the paper money position control assembly comprises a first part and a second part, wherein a rotating shaft is arranged at the joint of the first part and the second part, and the tail ends of the first part and the second part are both positioned on the same side of the rotating shaft and above the paper money pushing plate; the distance between the sensor of the paper money position control assembly and the rotating shaft is smaller than the distance between the tail end of the first part and the rotating shaft.

7. A banknote deposit and withdrawal cassette as claimed in claim 6, wherein: the conveying channel is an inclined channel, and the second part is at least partially positioned above the conveying channel and is blocked by the conveying channel from rotating downwards.

8. A two-compartment banknote deposit and withdrawal box, comprising:

the device comprises a box body, a conveying channel and a cash box unit, wherein the surface of the box body is provided with an opening, the box body is internally provided with the conveying channel and the cash box unit which are respectively a first cash box unit and a second cash box unit, and the first cash box unit and the second cash box unit are sequentially arranged along the vertical direction or the horizontal direction; the entrance and exit of the compartment of the first banknote box unit is a first entrance and exit, the entrance and exit of the compartment of the second banknote box unit is a second entrance and exit, and the conveying channel is connected between the opening and the first entrance and the second entrance and exit.

9. A two-compartment banknote deposit and withdrawal bin according to claim 8 wherein: the conveying channel comprises a first channel and a second channel; the first channel communicates the opening of the box body with the first inlet and the second channel communicates the opening of the box body with the second inlet and the second outlet.

10. A two-compartment banknote deposit and withdrawal bin according to claim 9 further comprising: the box body is provided with a first channel and a second channel, and the box body is provided with an opening for opening and closing the first channel and the second channel.

Images