CN210836218U - Coin temporary storage - Google Patents

Abstract

The utility model provides a coin temporary storage, include: the coin temporary storage device comprises a machine body, a temporary storage shell, a first gate and a second gate, wherein the first gate and the second gate can selectively open or close an opening of the temporary storage shell, the first gate and the second gate are respectively and rotatably arranged on the machine body, the lower side edge of the first gate and the lower side edge of the second gate can be selectively contacted so as to form a coin temporary storage space together with the temporary storage shell, the bottoms of the first gate and the second gate are both in a tooth-shaped structure, and the tooth-shaped structures at the bottoms of the first gate and the second gate are mutually staggered under the condition that the first gate and the second gate form the coin temporary storage; the coin temporary storage also comprises a driving device for driving the first gate and the second gate to overturn, and the driving device can selectively drive the first gate or the second gate to open. This scheme is opened and close two gates through a drive arrangement drive and is controlled the coin and move towards product structure compacter, and the gate bottom adopts staggered structure, reduces the requirement to product machining precision, avoids the machining precision not enough to cause and leaks the coin phenomenon.

Description

Coin temporary storage

Technical Field

The utility model relates to a public transport equipment technical field especially relates to a coin temporary storage.

Background

At present, a coin temporary storage in an automatic ticket vending machine used for subway and public transport generally comprises four turning doors, wherein every two turning doors are combined into a coin storage bin, the four turning doors are combined into two coin storage bins, and coins with two denominations, such as unary coins and pentagonal coins, are respectively placed in the two coin storage bins. Wherein, two leaves turn over the rotatable setting of door to supply two kinds of coins of monetary value to pass through, successfully accept the coin in the transaction alone, cancel the transaction and return the original coin task, two leaves turn over the door and drive through two actuating mechanism even more respectively, because the stack setting of a plurality of mechanisms, lead to the reliability of coin temporary storage poor, manufacturing, maintenance cost height.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an aim at: which can solve the above-mentioned problems existing in the prior art.

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

a coin buffer, comprising: the coin temporary storage device comprises a machine body, a temporary storage shell, a first gate and a second gate, wherein the first gate and the second gate can selectively open or close an opening of the temporary storage shell, the first gate and the second gate are respectively and rotatably arranged on the machine body, the lower side edge of the first gate and the lower side edge of the second gate can be selectively contacted with each other to form a coin temporary storage space together with the temporary storage shell, the bottoms of the first gate and the second gate are both in a tooth-shaped structure, and the tooth-shaped structures at the bottoms of the first gate and the second gate are mutually staggered under the condition that the first gate and the second gate form the coin temporary storage space; the coin temporary storage further comprises a driving device for driving the first gate and the second gate to overturn, and the driving device can selectively drive the first gate or the second gate to be opened.

Optionally, the driving device includes a driving motor and a driving wheel eccentrically disposed at a power output end of the driving motor, and the driving wheel is eccentrically rotatable under the driving of the driving motor, so as to selectively press the first shutter or the second shutter to open.

Optionally, a first follower wheel is arranged on the first gate, a second follower wheel is arranged on the second gate, and the driving wheel extrudes the first follower wheel to drive the first gate to turn over, or the driving wheel extrudes the second follower wheel to drive the second gate to turn over.

Optionally, the organism includes first fixed plate and the second fixed plate of relative setting, the temporary storage casing sets up first fixed plate with between the second fixed plate, first fixed plate with be provided with first pivot and second pivot between the second fixed plate that is parallel to each other, rotatable the installing of first gate is in the first pivot, rotatable the installing of second gate is in the second pivot.

Optionally, an in-place sensor is further arranged on the machine body, a sensor trigger piece is arranged at the end, farthest away from a power output shaft of the driving motor, of the driving wheel, and the driving wheel drives the sensor trigger piece to rotate to selectively trigger the in-place sensor.

Optionally, the in-position sensor includes a first in-position sensor for detecting that the first gate is opened in position, a second in-position sensor for detecting that the second gate is opened in position, and a third in-position sensor for detecting that neither the first gate nor the second gate is opened;

when the sensor trigger piece triggers the first in-position sensor, the driving wheel pushes the first follow-up wheel to drive the first gate to turn over and open;

when the sensor trigger piece triggers the second in-position sensor, the driving wheel pushes the second follow-up wheel to drive the second gate to turn over and open;

when the sensor trigger piece triggers the third in-place sensor, the first gate and the second gate are in a closed state.

Optionally, the driving motor is disposed on the first fixing plate, and the driving wheel, the first follower wheel, the second follower wheel, the first in-position sensor, the second in-position sensor, and the third in-position sensor are disposed between the temporary storage housing and the first fixing plate.

Optionally, the surface of the temporary storage housing facing the first fixing plate and the surface facing the second fixing plate are provided with the tension springs.

Optionally, a first folded edge is arranged at the end part, facing the first fixing plate, of the first gate, and the first follower wheel is arranged on the first folded edge; and a second turning edge is arranged at the end part of the second gate facing the first fixing plate, and the second follow-up wheel is arranged on the second turning edge.

Optionally, a tension spring is further connected between the first gate and the second gate, and the tension spring is used for pulling the first gate and the second gate to the closed position.

The utility model has the advantages that: the first gate and the second gate are driven to open and close through a driving device respectively so as to control the trend of coins, and the whole mechanical structure is more compact. In addition, the bottom of first gate and second gate all adopts the staggered structure to reduced the requirement to two gate machining precision, avoided the insufficient coin phenomenon that leads to the fact of machining precision, effectively improved product reliability, had higher practicality.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is a schematic view of a three-dimensional structure of a coin buffer according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating an internal structure of a coin buffer according to an embodiment of the present invention;

FIG. 3 is a structural display view of the swinging member according to the embodiment of the present invention;

fig. 4 is a partial illustration of a back structure of a coin buffer according to an embodiment of the present invention.

In the figure:

1000. a coin temporary storage; 100. a body; 110. a first fixing plate; 111. a first in-position sensor; 112. a second in-position sensor; 113. a third in-position sensor; 120. a second fixing plate; 200. a first gate; 210. a first follower wheel; 300. a second gate; 310. a second follower wheel; 400. a partition plate; 500. a drive device; 510. a drive wheel; 511. a sensor trigger piece; 520. a drive motor; 600. a temporary storage housing; 610. a coin inlet; 611. a first coin outlet space; 612. a second coin outlet space; 620. and a coin outlet.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "fixed" are to be understood broadly, e.g. as a fixed connection, a detachable connection or an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1-4, the present invention provides a coin buffer 1000. in an embodiment of the present invention, the coin buffer 1000 includes: the temporary storage device comprises a machine body 100, a temporary storage housing 600, and a first gate 200 and a second gate 300 which can selectively open or close an opening of the temporary storage housing 600, wherein the first gate 200 and the second gate 300 are respectively rotatably arranged on the machine body 100, the lower side of the first gate 200 can selectively contact with the lower side of the second gate 300 to form a coin temporary storage space together with the temporary storage housing 600, the bottoms of the first gate 200 and the second gate 300 are both in a tooth-shaped structure, and the tooth-shaped structures at the bottoms of the first gate 200 and the second gate 300 are mutually staggered under the condition that the first gate 200 and the second gate 300 form the coin temporary storage space; the temporary coin storage 1000 further comprises a driving device 500 for driving the first gate 200 and the second gate 300 to turn, and the driving device 500 can selectively drive the first gate 200 or the second gate 300 to open.

In this embodiment, temporary storage case 600 is the frame that encloses that roughly is the rectangle form, temporary storage case 600 includes preceding curb plate, right side board, posterior lateral plate and the left side board that connects gradually, preceding curb plate right side board posterior lateral plate with the left side board encloses to close and forms the frame that is the rectangle form, enclose the frame and form opening coin inlet 610 and opening coin outlet 620 up. The lower side of the front plate is hinged to the first gate 200, and the lower side of the rear plate is hinged to the second gate 300. A partition plate 400 is disposed below a position where the lower side of the first gate 200 abuts against the second gate 300 to partition the coin outlet 620 into a first coin outlet space 611 and a second coin outlet space 612, and it can be understood that the first coin outlet space 611 and the second coin outlet space 612 are respectively provided for discharging coins of a first type and coins of a second type which are different in type.

The first gate 200 and the second gate 300 are opened by the driving device 500, the driving device 500 is installed on the machine body 100, and the machine body 100 is disposed outside the temporary storage housing 600.

It should be noted that the driving device 500 has a driving portion, which can selectively drive toward the first gate 200 or the second gate 300 to press the first gate 200 or the second gate 300, so as to open the first gate 200 or the second gate 300.

In use, a coin of one denomination is thrown into the coin temporary storage 1000, and the coin falls into the coin temporary storage space, and the driving part of the driving device 500 drives toward the first gate 200 and presses the gate to open the first gate 200, and at this time, the coin inlet 610 communicates with the first coin outlet space 611, so that the coin is discharged from the first coin outlet space 611; when a coin of another denomination is deposited into the coin buffer 1000, the coin falls into the coin buffer space, and the driving portion of the driving device 500 drives the second shutter 300 and presses the second shutter 300 to open the second shutter 300, the coin inlet 610 communicates with the second coin outlet space 612, so that the coin is discharged from the second coin outlet space 612.

In the coin temporary storage 1000 of the present technical solution, the first gate 200 and the second gate 300 are driven to open and close respectively by one driving device 500 to control the trend of coins, so that the whole mechanical structure is more compact. In addition, the bottom of first gate 200 and second gate 300 all adopts the staggered structure to reduced the requirement to two gate machining precision, avoided the machining precision not enough to cause and leak the coin phenomenon, had higher practicality.

As shown in fig. 1 to 4, in an embodiment of the present invention, the driving device 500 includes a driving motor 520 and a driving wheel 510 eccentrically disposed at a power output end of the driving motor 520, and the driving wheel 510 is eccentrically rotatable under the driving of the driving motor 520, so as to selectively press the first shutter 200 or the second shutter 300 to open.

In this embodiment, the driving motor 520 is installed on the machine body 100, and an output shaft portion of the driving motor 520 is the power output end, that is, the output shaft portion of the driving motor 520 is eccentrically provided with a driving wheel 510, and the driving wheel 510 is specifically an eccentric wheel, and the eccentric wheel is eccentrically and drivingly connected to the output shaft portion of the driving motor 520, so as to drive the output shaft portion to rotate by driving the driving motor 520, and further drive the driving wheel 510 to rotate, so as to extrude the first gate 200 or the second gate 300.

It should be noted that when the driving motor 520 is driven to rotate forward, the output shaft thereof rotates forward, and the driving wheel 510 rotates forward along with the rotation of the output shaft to press and open the first shutter 200; when the driving motor 520 is driven to rotate in the reverse direction, the output shaft portion thereof rotates in the reverse direction, and the driving wheel 510 rotates in the reverse direction in accordance with the rotation of the output shaft portion to press and open the second shutter 300.

In other embodiments of the present invention, the driving wheel 510 may also be a cam, which is not limited herein.

In this technical scheme, drive motor 520 drives drive wheel 510 to rotate towards first gate 200 or second gate 300 to open first gate 200 or second gate 300 respectively, and it can be understood that this scheme adopts eccentric drive mechanism to open first gate 200 or second gate 300 respectively, has simple structure, convenient to use and the low characteristics of maintenance cost.

In addition, the driving wheel 510 can rotate 360 degrees, and can also only rotate in the forward direction or only rotate in the reverse direction, that is, the driving motor 520 can drive the driving wheel 510 in a manner that the driving wheel is not limited to the reciprocating switching between the forward rotation and the reverse rotation, and can also only rotate in the forward direction or only rotate in the reverse direction, so that the service life of the driving motor 520 can be protected.

As shown in fig. 1-4, in an embodiment of the present invention, a first follower wheel 210 is disposed on the first gate 200, a second follower wheel 310 is disposed on the second gate 300, and the driving wheel 510 presses the first follower wheel 210 to drive the first gate 200 to turn over, or the driving wheel 510 presses the second follower wheel 310 to drive the second gate 300 to turn over.

Specifically, the first gate 200 is fixed with a first connecting rod, the first follower wheel 210 is rotatably connected to the first connecting rod, and the circumferential surface of the first follower wheel is arranged to face the circumferential surface of the driving wheel 510; it is understood that the second gate 300 is also fixed with a second link, and the second follower wheel 310 is also rotatably connected to the second link, and its circumferential surface is also disposed facing the circumferential surface of the driving wheel 510.

By arranging the circumferential surface of the first follower wheel 210 and the circumferential surface of the driving wheel 510 opposite to each other, when the driving wheel 510 presses the first follower wheel 210, the driving wheel 510 and the first follower wheel 210 roll with each other, so that in the process, the sliding friction force between the first follower wheel 210 and the driving wheel 510 is small, which is also beneficial to ensuring the service life of the driving device 500. The circumferential surface of the second follower wheel 310 and the circumferential surface of the drive wheel 510 are also disposed opposite to each other, and the same principle and effect are obtained.

As shown in fig. 1-4, in an embodiment of the present invention, the machine body 100 includes a first fixing plate 110 and a second fixing plate 120 which are oppositely disposed, the temporary storage housing 600 is disposed between the first fixing plate 110 and the second fixing plate 120, a first rotating shaft and a second rotating shaft are disposed between the first fixing plate 110 and the second fixing plate 120 in parallel, the first gate 200 is rotatably mounted on the first rotating shaft, and the second gate 300 is rotatably mounted on the second rotating shaft.

Specifically, both ends of the first rotating shaft and the second rotating shaft are fixed to the first fixing plate 110 and the second fixing plate 120, respectively, the upper side of the first gate 200 is rotatably connected to the first rotating shaft, and the upper side of the second gate 300 is rotatably connected to the second rotating shaft.

Therefore, the first gate 200 and the second gate 300 can be conveniently disassembled and maintained, and in addition, the first gate 200 and the second gate 300 can be conveniently rotated.

As shown in fig. 1-4, in an embodiment of the present invention, the machine body 100 is further provided with a sensor in place, a sensor trigger piece 511 is disposed on the end of the driving wheel 510 farthest from the power output shaft of the driving motor 520, and the driving wheel 510 drives the sensor trigger piece 511 to rotate to selectively trigger the sensor in place.

In this embodiment, the in-place sensor is a U-shaped correlation sensor, and through the arrangement of the sensor trigger piece 511, when the sensor trigger piece 511 rotates along with the driving wheel 510, the sensor trigger piece 511 passes through the groove correlation position of the in-place sensor to trigger the in-place sensor, so as to know the position state of the driving wheel 510 at present, and further know the opening and closing states of the first gate 200 and the second gate 300.

The utility model discloses an in some embodiments, the sensor that targets in place can be provided with three, four, five and more, and a plurality of sensors set gradually along the rotation orbit of drive wheel 510, are convenient for learn current drive wheel 510's position state, and then learn first gate 200 with the current state of opening and close of second gate 300.

As shown in fig. 1-4, in an embodiment of the present invention, the in-place sensor includes a first in-place sensor 111 for detecting that the first gate 200 is opened in place, a second in-place sensor 112 for detecting that the second gate 300 is opened in place, and a third in-place sensor 113 for detecting that neither the first gate 200 nor the second gate 300 is opened.

When the sensor trigger piece 511 triggers the first in-position sensor 111, the driving wheel 510 pushes the first follower wheel 210 to drive the first gate 200 to turn over and open;

when the sensor trigger piece 511 triggers the second in-position sensor 112, the driving wheel 510 pushes the second follower wheel 310 to turn the second gate 300 to open;

when the sensor trigger piece 511 triggers the third position sensor 113, the first gate 200 and the second gate 300 are tensioned by a tension spring, and the first gate 200 and the second gate 300 are in a closed state.

Specifically, the third position sensor 113 is located above the first gate 200 and the second gate 300 to avoid contact with the first follower wheel 210 and the second follower wheel 310, so that the first gate 200 or the second gate 300 is turned over by mistake to form a gap, and thus the coin cannot be temporarily stored in the temporary storage space and leaks out through the gap. It should be noted that when the sensor trigger piece 511 triggers the third in-position sensor 113, the driving wheel 510 is in the initial state, that is, the first shutter 200 and the second shutter 300 are both in the closed state.

It can be understood that the third position sensor 113 is provided to know whether the driving portion is located at the initial position, so as to determine whether the driving device 500 is in a usable state.

In addition, when the first gate 200 and the second gate 300 are closed, the first in-position sensor 111 is located at a side toward which the outer surface of the first gate 200 faces, and when the driving wheel 510 presses the first gate 200 until the first in-position sensor 111 senses the sensor trigger piece 511, the first gate 200 is pushed outward by the driving wheel 510, that is, the driving motor 520 stops driving when the first gate 200 is opened.

Similarly, when the second shutter 300 and the second shutter 300 are closed, the second-in-position sensor 112 is located on the side of the outer surface of the second shutter 300, and when the driving wheel 510 presses the second shutter 300 until the second-in-position sensor 112 senses the sensor trigger piece 511, the second shutter 300 is pushed outward by the driving wheel 510, that is, the driving motor 520 stops driving when the second shutter 300 is opened.

In addition, the first in-position sensor 111, the second in-position sensor 112 and the third in-position sensor 113 may be U-shaped correlation sensors with model number KI5654-AA04LF, or may be other model numbers.

As shown in fig. 1 to 4, in an embodiment of the present invention, the driving motor 520 is disposed on the first fixing plate 110, and the driving wheel 510, the first follower wheel 210, the second follower wheel 310, the first in-position sensor 111, the second in-position sensor 112, and the third in-position sensor 113 are disposed between the temporary storage housing 600 and the first fixing plate 110.

As shown in fig. 1 to 4, in an embodiment of the present invention, an end of the first gate 200 facing the first fixing plate 110 is provided with a first folding edge, and the first follower wheel 210 is disposed on the first folding edge; the end of the second gate 300 facing the first fixing plate 110 is provided with a second turning edge, and the second follower wheel 310 is provided on the second turning edge.

Specifically, the first gate 200 and the second gate 300 are both substantially rectangular, and the first folding edge and the second folding edge are the right sides of the first gate 200 and the second gate 300, respectively. With this arrangement, when coins are deposited into the temporary storage space, the interference between the coins and the first follower wheel 210 or the second follower wheel 310 can be avoided, so as to prevent the coins from being jammed in the first follower wheel 210 or the second follower wheel 310 and affecting the normal operation of the coin register 1000.

In other embodiments of the present invention, the first turned edge and the second turned edge may also be other sides of the first gate 200 and the second gate 300, which is not limited herein.

In an embodiment of the present invention, the surface of the temporary storage housing 600 facing the first fixing plate 110 and the surface facing the second fixing plate 120 are provided with tension springs, and further, the tension springs are disposed between the first gate 200 and the second gate 300, and the tension springs are used to pull the first gate 200 and the second gate 300 to the closed position.

Specifically, the extension spring is equipped with two, two the extension spring is located respectively register casing 600 orientation first fixed plate 110 with towards the surface of second fixed plate 120, the both ends of extension spring are connected with the side of first gate 200 and second gate 300 respectively, so that first gate 200 with the lower side of second gate 300 is close to each other, and the butt for overall structure is inseparabler.

In the description herein, it is to be understood that the terms "upper", "lower", "left", "right", and the like are used in a descriptive sense and with reference to the illustrated orientation or positional relationship, and are used for convenience in description and simplicity in operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used merely for descriptive purposes and are not intended to have any special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. A temporary coin store (1000) comprising: the coin temporary storage device comprises a machine body (100), a temporary storage housing (600), and a first gate (200) and a second gate (300) which can selectively open or close an opening of the temporary storage housing (600), wherein the first gate (200) and the second gate (300) are respectively and rotatably arranged on the machine body (100), the lower side edge of the first gate (200) and the lower side edge of the second gate (300) can be selectively contacted to form a coin temporary storage space together with the temporary storage housing (600), and the coin temporary storage device is characterized in that the bottoms of the first gate (200) and the second gate (300) are both in a toothed structure, and the toothed structures at the bottoms of the first gate (200) and the second gate (300) are mutually staggered under the condition that the first gate (200) and the second gate (300) form the coin temporary storage space; the temporary coin storage (1000) further comprises a driving device (500) for driving the first gate (200) and the second gate (300) to overturn, and the driving device (500) can selectively drive the first gate (200) or the second gate (300) to open.

2. The temporary storage of coins (1000) of claim 1, wherein said driving means (500) comprises a driving motor (520) and a driving wheel (510) eccentrically disposed at a power output end of said driving motor (520), said driving wheel (510) being eccentrically rotatable by said driving motor (520) to selectively press said first shutter (200) or said second shutter (300) to open.

3. A temporary storage of coins (1000) according to claim 2, wherein said first gate (200) is provided with a first follower wheel (210), said second gate (300) is provided with a second follower wheel (310), said driving wheel (510) presses said first follower wheel (210) to turn said first gate (200), or said driving wheel (510) presses said second follower wheel (310) to turn said second gate (300).

4. The temporary storage of coins (1000) of claim 3, wherein said machine body (100) comprises a first fixing plate (110) and a second fixing plate (120) which are oppositely disposed, said temporary storage housing (600) is disposed between said first fixing plate (110) and said second fixing plate (120), a first rotating shaft and a second rotating shaft are disposed between said first fixing plate (110) and said second fixing plate (120) in parallel, said first shutter (200) is rotatably mounted on said first rotating shaft, and said second shutter (300) is rotatably mounted on said second rotating shaft.

5. The temporary storage coin table (1000) as claimed in claim 4, wherein said machine body (100) further comprises an in-position sensor, said driving wheel (510) is provided with a sensor trigger piece (511) at the end furthest from the power output shaft of said driving motor (520), and said driving wheel (510) drives said sensor trigger piece (511) to rotate to selectively trigger said in-position sensor.

6. The temporary storage of coins (1000) of claim 5, wherein said reach sensor comprises a first reach sensor (111) for detecting that said first gate (200) is opened to reach, a second reach sensor (112) for detecting that said second gate (300) is opened to reach, and a third reach sensor (113) for detecting that neither said first gate (200) nor said second gate (300) is opened;

when the sensor trigger piece (511) triggers the first in-position sensor (111), the driving wheel (510) pushes the first follow-up wheel (210) to drive the first gate (200) to turn over and open;

when the sensor trigger piece (511) triggers the second in-position sensor (112), the driving wheel (510) pushes the second follow-up wheel (310) to drive the second gate (300) to turn over and open;

when the sensor trigger piece (511) triggers the third in-position sensor (113), the first shutter (200) and the second shutter (300) are in a closed state.

7. A temporary storage according to claim 6, characterized in that the driving motor (520) is arranged on the first fixed plate (110), and the driving wheel (510), the first follower wheel (210), the second follower wheel (310), the first in-position sensor (111), the second in-position sensor (112) and the third in-position sensor (113) are arranged between the temporary storage housing (600) and the first fixed plate (110).

8. A temporary storage unit (1000) according to claim 7, wherein the surfaces of the temporary storage unit housing (600) facing the first fixing plate (110) and facing the second fixing plate (120) are provided with tension springs.

9. A temporary storage of coins (1000) according to claim 8, wherein an end of said first gate (200) facing said first fixing plate (110) is provided with a first folded edge, said first follower wheel (210) being provided on said first folded edge; the end part of the second gate (300) facing the first fixing plate (110) is provided with a second turning edge, and the second follow-up wheel (310) is arranged on the second turning edge.

10. A temporary storage of coins (1000) according to claim 1, wherein a tension spring is further connected between said first gate (200) and said second gate (300), said tension spring being configured to pull said first gate (200) and said second gate (300) towards a closed position.

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