JP4299017B2 - Device withdrawal mechanism, money handling device and transaction device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus withdrawal mechanism, a money handling apparatus, and a transaction apparatus, and more particularly, an apparatus withdrawal mechanism that can perform a smooth operation even when a heavy apparatus is pulled out, a money handling apparatus including the apparatus withdrawal mechanism, and The present invention relates to a transaction apparatus provided with the money handling apparatus.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a transaction device such as an automatic ticket vending machine or a payment machine is configured such that a unit mechanism such as a money handling device is built in a casing which is an outer frame of the transaction device. In such a transaction apparatus, in order to perform maintenance and inspection of the unit mechanism, an apparatus drawer mechanism is provided so that the unit mechanism can be pulled out from the housing. As a conventional device drawing mechanism, for example, there is one configured so that a unit mechanism can be drawn along a slide rail. The device pulling mechanism has a plurality of stoppers, and each of the stoppers is in contact with each other, so that the unit mechanism is stopped at a predetermined position when pulled out (for example, Patent Documents). 1).
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-120427 (page 3-5, FIG. 4-5)
[0004]
[Problems to be solved by the invention]
However, a unit mechanism such as a money handling apparatus is required to have a high function, for example, an increased amount of money, particularly coins, and is heavy. When pulled out with a strong force, the stopper may be damaged and the money handling apparatus may fall off. For this reason, careful work is required, which may hinder smooth work.
[0005]
Accordingly, the present invention provides a device drawer mechanism capable of performing a smooth operation without dropping even when a heavy device is pulled out, a money handling device including the device drawer mechanism, and a transaction including the money handling device. The purpose is to provide a device.
[Means for Solving the Problems]
[0008]
  In order to achieve the above object, the claims1The apparatus pulling mechanism 1 according to the invention according to FIG.And FIG.As shown in FIG. 1, in the apparatus pulling mechanism 1 used for pulling out a heavy apparatus; a support part 2 attached to the base 206; and a drawer supported by the support part 2 so as to be movable relative to the support part 2 Part 3; first stop member 4 attached to drawer part 3; for each of support part 2 and drawer part 3In the direction of movement of the drawer 3Relative movement possibleAnd has a first long hole 17 in which the direction of the long axis is the moving direction of the lead-out portion 3.A moving member 5;A stopper rail guide 16 which is inserted into the first elongated hole 17 so as to be slidable and fixed to the support portion 2; a second elongated hole whose major axis direction is the moving direction of the movable member 5; 14 and a second stop member 6 that contacts the first stop member 4,Leader 3BeforeBy relative movementPulled out to maximum pullout positionsometimes, PullStop movement of Exit 3Stopper bracket 9When;The stopper bracket 9 is inserted into the second long hole 14 so as to be slidable with respect to the moving member 5, and the stopper bracket guide 15 fixed to the moving member 5; the moving member 5 and the stopper bracket 9 are To be relatively movable in the long axis direction of the long hole 14Elastic supportAnd mitigates the impact when the movement of the drawer 3 is stoppedAn elastic member.
[0009]
If comprised in this way, it will be equipped with the support part 2 and the drawer | drawing-out part 3, and since the drawer | drawing-out part 3 is supported by the support part 2 so that it can move relatively with respect to the support part 2, a heavy apparatus is pulled out. be able to. Furthermore, the first restraining member 4 attached to the drawer 3, the movable member 5 movable relative to each of the support 2 and the drawer 3, and the movable member 5 are attached. When moved to the predetermined position by the relative movement, the second restraining member 6 that restrains the movement of the drawing portion 3 by contacting the first restraining member 4, the first restraining member 4, and the second restraining member 4. Since the elastic member 7 that elastically supports both or any one of the restraining members 6 is provided, the impact of the restraining can be mitigated, and a smooth operation can be performed without dropping even when a heavy device is pulled out. A device pull-out mechanism that can be performed can be provided.
[0010]
Further, by configuring in this way, for example, the second restraining member 6 can move independently, so that the drawer portion 3 can be moved to the predetermined position without depending on the movement amount of the drawer portion 3. When the first stop member 4 and the second stop member 6 are brought into contact with each other when moved, the movement of the drawer portion 3 can be stopped.
[0011]
  In order to achieve the above object, the claims2The money handling apparatus 100 according to the invention according to the present invention is, for example, as shown in FIGS.1The apparatus drawing-out mechanism 1 of description and the accommodating part 101 which accommodates money are provided.
[0012]
If comprised in this way, since said apparatus drawer | drawing-out mechanism 1 is provided, even if it is a case where weight becomes large by the accommodating part 101, for example, it can be pulled out rapidly with strong force, for example, and smooth work is performed Can do.
[0013]
  In order to achieve the above object, the claims3The transaction apparatus 200 according to the present invention is claimed as shown in FIGS.2And a customer service unit 210 that accepts a user's operation.
[0014]
If comprised in this way, since the money processing apparatus 100 provided with said apparatus drawer mechanism 1 is provided, since the operation | work which pulls out the money processing apparatus 100 can be performed smoothly, a maintenance and inspection can be performed easily.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. In addition, in each figure, the same code | symbol is attached | subjected to the mutually same or equivalent member, and the overlapping description is abbreviate | omitted.
[0016]
With reference to FIG. 1, FIG. 2, FIG. 3, and FIG. 4, the slide rail mechanism 1 as an apparatus drawing mechanism according to the first embodiment of the present invention will be described. FIG. 1 is a plan view showing a state in which the drawer portion 3 is pulled out from the support portion 2, and FIG. 2 is a plan view showing a state in which the drawer portion 3 is housed in the support portion 2. 3 is an arrow view of the slide rail mechanism 1 as viewed from the direction A in FIG. FIG. 3 is a view of the slide rail mechanism 1 with the ground bracket 3d removed for explaining the configuration. FIG. 4 is an exploded perspective view of the vicinity of the second restraining member 6. The slide rail mechanism 1 is used to pull out a heavy device. A heavy apparatus is a money processing apparatus which processes money, such as a coin and a banknote, for example. In particular, the coin processing device 100 as a money processing device, which will be described later with reference to FIG. 5, is heavy when a large amount of coins is stored.
[0017]
As shown in FIG. 1, the slide rail mechanism 1 includes a ground base 2 as a support portion attached to a floor base 206 (see FIG. 5) as a foundation, and a ground base 2 so that it can move relative to the ground base 2. And a ground bracket 3 as a lead-out portion supported by the. As will be described later, the ground bracket 3 includes a ground bracket 3a, a ground bracket 3b, a ground bracket 3c, and a ground bracket 3d. Hereinafter, when these are not particularly distinguished, they are simply referred to as a ground bracket 3.
[0018]
  Furthermore, the slide rail mechanism 1 includes a first stopper 4 as a first restraining member attached to the ground bracket 3, and a moving member that can move relative to each of the ground base 2 and the ground bracket 3. The stopper rail 5 is attached to the stopper rail 5, and when the ground bracket 3 is moved to the predetermined position by the relative movement, the ground bracket 3 is moved by coming into contact with the first stopper 4.ControlA second stopper 6 is provided as a second stopping member to be stopped, and a coil spring 7 is provided as an elastic member that elastically supports either or both of the first stopper 4 and the second stopper 6. The first stopper 4 is integrally formed in the vicinity of the end of the ground bracket 3a. In the present embodiment, the case where the second stopper 6 is elastically supported by the coil spring 7 will be described.
[0019]
The slide rail mechanism 1 includes a slide rail 8, a stopper bracket 9 to which the second stopper 6 is attached, a third stopper 10 formed on the ground bracket 3d, and a fourth formed on the stopper rail 5. The stopper 11 is included. The ground base 2, the ground bracket 3, the first stopper 4, the third stopper 10, and the slide rail 8 constitute a slide rail portion 12. The stopper rail 5, the second stopper 6, The coil spring 7, the stopper bracket 9, and the fourth stopper 11 constitute a stopper portion 13. Hereinafter, the above configuration will be described in detail.
[0020]
First, the slide rail portion 12 will be described in detail.
[0021]
As shown in FIG. 2, the slide rail portion includes a ground bracket 3a, a ground bracket 3b, and a ground bracket 3c that are arranged in parallel to each other. Are coupled by a ground bracket 3d to form the ground bracket 3 integrally.
[0022]
On the other end of the ground bracket 3a opposite to the end to which the ground bracket 3d is coupled, when the ground bracket 3 is pulled out from the ground base 2 to a predetermined position, the second end described later is provided. A first stopper 4 is formed so as to come into contact with the stopper 6. Further, a third stopper 10 is formed on the ground bracket 3d.
[0023]
Next, the slide rail 8 will be described with reference to FIG. The slide rail 8 includes an outer rail 8a, an intermediate rail 8b, and an inner rail 8c. The cross-sectional shapes of the outer rail 8a, the middle rail 8b, and the inner rail 8c of the slide rail 8 are each substantially U-shaped. Each of the three sides of the substantially U-shaped side of each rail is a rail having a groove formed in a concave shape when viewed in cross section, and between the rails, that is, the substantially U-shape of the outer rail. A ball is sandwiched and assembled in an inner groove of the mold, a substantially U-shaped outer groove of the middle rail 8b, and an approximately U-shaped outer groove of the inner rail 8c. By rolling these balls, each rail can move relatively linearly and smoothly. The moving direction is a direction orthogonal to the paper surface in FIG.
[0024]
The ground base 2 fixed to the floor base 206 has a substantially U-shaped cross section. The ground base 2 has a substantially U-shaped central side fixed to the floor base 206 so that the approximately U-shaped opening faces upward. The outer rails 8a of the pair of slide rails 8 are fixed to the outside of both sides of the substantially U-shaped side of the ground base 2 so as to face the outside. As described above, the outer rail 8a has a substantially U-shaped cross section, and the outer side of the central side of the approximately U-shaped outer rail 8a is substantially U-shaped on the ground base 2. It is fixedly attached to the outside of both sides. Furthermore, a sheet metal having a substantially L-shaped cross-section for fixing the outer rail 8a of the third slide rail 8 to the ground base 2 is fixed inside the substantially U-shaped central side of the ground base 2. Attached. Of the sides of the substantially L-shaped sheet metal, the outer side of the substantially U-shaped central side of the outer rail 8a is fixed to the side perpendicular to the central U-shaped side of the ground base 2. Is attached. The three slide rails 8 and the ground base 2 are fixed so as to be substantially E-shaped together.
[0025]
On the substantially U-shaped backs of the inner rails 8c of the three slide rails 8, a ground bracket 3a having a substantially L-shaped cross section and constituting the above-described ground bracket 3 (see FIG. 2), It is fixedly attached inside the long sides of the ground bracket 3b and the ground bracket 3c.
[0026]
Further, a U-shaped bracket 115 having a substantially U-shaped cross-section is mounted on the ground bracket 3 in a state where the U-shaped opening is faced down toward the paper surface in FIG. . The U-shaped bracket 115 forms the lowermost base plate of the coin processing apparatus 100 described later with reference to FIG.
[0027]
Because of such a configuration, even if the device attached to the ground bracket 3 is a heavy device such as a coin processing device 100 (see FIG. 5) described later, the ground bracket 3 is horizontally mounted from the ground base 2. Can be pulled out easily in the direction.
[0028]
In the slide rail mechanism 1, a ground base 2 as a support portion is placed on a floor base 206 as a foundation. The ground base 2 is fixed to the floor base 206 with bolts (not shown). The ground base 2 may be directly attached to the floor base 206 as shown in the figure, or may be attached via another member (not shown).
[0029]
Next, the stopper part 13 will be described in detail.
[0030]
As shown in the exploded perspective view of FIG. 4, the stopper rail 5 is installed along the ground base 2 on the side opposite to the slide rail 8. The ground base 2 has a stopper rail guide 16 formed as a protrusion on the opposite side of the surface to which the outer rail 8a of the slide rail 8 is fixed. The stopper rail 5 has a substantially U-shaped cross-sectional shape (see FIG. 3), and has a long hole 17 on the central side of the approximately U-shaped. The stopper rail 5 is attached to the ground base 2 so as to be relatively movable within a predetermined range by inserting a stopper rail guide 16 into the elongated hole. In this embodiment, two stopper rail guides 16 and two long holes 17 are formed in the moving direction.
[0031]
When the ground bracket 3 is pulled out to a predetermined position, the above-described second stopper 6 that comes into contact with the first stopper 4 (see FIG. 2) is formed at the end of the stopper bracket 9 on the pulling direction side. Yes. An elongated hole 14 is formed in the stopper bracket 9. The stopper bracket 9 is attached by inserting a stopper bracket guide 15 formed as a protrusion near the end of the stopper rail 5 on the pulling direction side into the elongated hole 14. As a result, the stopper bracket 9 can move relative to the stopper rail 5 within a predetermined range. In the present embodiment, two stopper bracket guides 15 and two long holes 14 are formed in the moving direction.
[0032]
  Furthermore, one end of a coil spring 7 for elastically supporting the stopper bracket 9 is attached to the other end of the stopper bracket 9 opposite to the end where the second stopper 6 is formed. The other end of the coil spring 7 is attached to the stopper rail 5. The coil spring 7 pulls out the ground bracket 3 to a predetermined position, and the first stopper 4 and the second stopper6Has a function to alleviate the impact at the time of contact.
[0033]
A fourth stopper 11 is bent at the end of the stopper rail 5 on the pulling direction side. The fourth stopper 11 moves to the drawing direction side by abutting against the third stopper 10 (see FIG. 2) formed on the ground bracket 3d when the pulled-out ground bracket 3 is pushed in. Push the stopper rail 5 that is being pushed back.
[0034]
Further, the drawing operation and pushing operation of the slide rail mechanism 1 will be described in detail.
[0035]
First, returning to FIG. 1, the drawing operation of the slide rail mechanism 1 will be described. When pulling out the ground bracket 3 from the ground base 2, the ground bracket 3 first moves to a position where the first stopper 4 and the second stopper 6 come into contact with each other. When the ground bracket 3 further moves from here, the stopper portion 13 to which the second stopper 6 is attached moves together with the ground bracket 3 in the pulling direction. When the ground bracket 3 is moved to a predetermined position, the stopper rail 5 constituting the stopper portion 13 does not move, and the ground bracket 3 is stopped at that position. At this time, the coil spring 7 that elastically supports the second stopper 6 alleviates the impact generated when the second stopper 6 is stopped.
[0036]
Further, the push-in operation of the slide rail mechanism 1 will be described with reference to FIG. When the ground bracket 3 is pushed back to the ground base 2, the ground bracket 3 first moves to a position where the third stopper 10 and the fourth stopper 11 come into contact with each other. When the ground bracket 3 further moves from here, the stopper portion 13 including the fourth stopper 11 moves together with the ground bracket 3 in the push-in direction. When the ground bracket 3 is moved to a predetermined storage position, the stopper rail 5 of the stopper portion 13 does not move, and the ground bracket 3 is stopped at that position.
[0037]
As described above, in the slide rail mechanism 1, the stopper portion 13 can be independently moved within a certain range. Therefore, even when the movement range of the slide rail 8 exceeds the length of the slide rail 8, Installation is possible. Further, since the second stopper 6 is elastically supported by the coil spring 7, the first stopper 4 and the second stopper 6 come into contact with each other, and the impact when stopping the ground bracket 3 is reduced. Accordingly, even when a heavy apparatus such as the coin processing apparatus 100 is placed on the ground bracket 3 and pulled out with a strong force, the second stopper 6 may be damaged, and the apparatus may fall off the slide rail mechanism 1. There is no.
[0038]
The apparatus pull-out mechanism of the present invention is not limited to the above-described embodiment, and various modifications can be made within the scope described in the claims. For example, the elastic member that elastically supports the second stopper 6 has been described as the coil spring 7, but a plate spring or rubber may be used.
[0039]
With reference to FIG. 5, FIG. 6, the money processing apparatus provided with the above-mentioned slide rail mechanism 1 which concerns on the 2nd Embodiment of this invention is demonstrated. Here, the money handling apparatus will be described as a coin handling apparatus 100 that processes coins. FIG. 5 is a perspective view showing the appearance of the coin processing apparatus 100, and FIG. 6 is a schematic cross-sectional view for explaining the schematic structure of the coin processing apparatus 100.
[0040]
First, with reference to the perspective view of FIG. 5, the installation to the coin processing apparatus 100 of the slide rail mechanism 1 is demonstrated. The coin processing device 100 includes the slide rail mechanism 1 described above. The slide rail mechanism 1 is typically installed in a coin processing apparatus 100 as illustrated with a U-shaped bracket 115 interposed. The U-shaped bracket 115 securely fixes the slide rail mechanism 1 and the coin processing device 100.
[0041]
Furthermore, as shown in the schematic cross-sectional view of FIG. 6, the coin processing device 100 includes a change storage unit 101 as a storage unit that stores coins as money. The change storage unit 101 can store about 6600 coins including all denominations, as will be described later. Furthermore, the coin processing device 100 includes an insertion slot 102 that receives inserted coins, a withdrawal slot 103 that dispenses coins to be returned, a feeding section 104 that feeds out coins that have been inserted into the insertion slot 102, A deposit transport unit 105 that transports coins fed out from the unit 104 to the sorting unit 107, a check unit 106 that checks the transported coins, a sorting unit 107 that sorts the transported coins, and a sorting unit A temporary holding unit 108 for temporarily holding the coins released from the 107, and releasing the coins after the temporary holding, a change passage unit 109 for conveying the coins released from the temporary holding unit 108 to the change storage unit 101 for each type; A control unit 110 (see FIG. 9) that inputs and outputs various signals in the coin processing apparatus 100 and controls each unit, and a withdrawal transport unit 112 are configured. Hereafter, each said structure is demonstrated. The coins used in the present embodiment are Japanese yen coins, which are four denominations of 10, 50, 100, and 500 yen.
[0042]
The insertion slot 102 is provided at approximately the center of the side surface of the coin processing apparatus 100, and allows the user to input a plurality of coins in a lump. The withdrawal port portion 103 is provided in the vicinity of the insertion port portion 102 and can discharge reject coins, return coins, change coins and the like, which will be described later.
[0043]
A feeding unit 104 is formed downstream of the coin slot 102 in the direction in which coins flow. A plurality of coins that are input in a lump are separated one by one and fed to the deposit transport unit 105. The deposit transfer unit 105 extends from the upper part of the feeding unit 104 to the sorting unit 107 and is configured to transport the coins fed from the feeding unit 104 to the check unit 106 and further to the sorting unit 107. The Furthermore, the check unit 106 is provided in the deposit conveyance unit 105, and its position is between the feeding unit 104 and the distribution unit 107. The inspection unit 106 determines whether or not the coin is a regular coin, the denomination and the number of coins, and outputs the determination result to the control unit 110.
[0044]
The distribution unit 107 distributes coins for each denomination according to the determination result of the check unit 106. The sorting unit 107 is for coins determined to be abnormal by the check unit 106 or coins that have not been determined (hereinafter referred to as reject coins) for the 10 yen, 100 yen, and 50 yen in order from the left side in FIG. , For 500 yen. Moreover, the distribution part 107 has the distribution claw 113 for every money type, and forms the hole not shown corresponding to each. Further, a reject passage 114 and a passage 116 are formed so as to correspond to the respective holes.
[0045]
As a result, the coins distributed by the distribution claw 113 pass through the corresponding holes, and the reject coins are discharged to the reject passage section 114 below the distribution section and are transported to the withdrawal transport section 112. 10 yen, 100 yen, 50 yen, and 500 yen are respectively discharged into the passage 116 below the sorting unit 107 and held in the temporary holding unit 108.
[0046]
The temporary storage unit 108 includes a storage unit that stores coins and a shutter that can be opened and closed. By opening the shutter, it is possible to release the reserved coins. In addition, the coins released are changed through the change passage unit 109 provided below the temporary storage unit 108, the change storage unit 101 corresponding to each denomination, and from the left in FIG. , 50 yen and 500 yen. The change storage unit 101 can store about 3000 sheets for 10 yen and 100 yen, about 300 sheets for 50 yen and 500 yen, that is, about 6600 sheets for all denominations. Since a large amount of coins can be stored in this way, for example, when the coins are stored up to a full amount, the weight of the coin processing device 100 is particularly large.
[0047]
Further, at the time of the user's return operation, the temporarily held coins are discharged to a return passage portion (not shown) provided separately from the change passage portion 109 below each temporary holding portion 108, and are sent to the withdrawal transport portion 112. Can be transported.
[0048]
  The change storage unit 101 is configured below each temporary storage unit 108 and is provided with a discharge port (not shown) through which coins are discharged. The discharge port (not shown) has a distribution claw (not shown). The change storage unit 101 can distribute coins to the withdrawal / conveyance unit 112 and the collection passage 111 by driving a sorting claw. The change storage unit 101 discharges coins as change to the user to the dispensing transport unit 112. Further, the stored coins are supplied to, for example, a safe unit 207 described later with reference to FIG. 7 so that the change storage unit 101 does not become full.CageThe stored coins can be recovered by discharging them to the recovery passageway 111.
[0049]
The withdrawal conveyance unit 112 is installed below the change storage unit 101 and extends to the withdrawal port unit 103, and conveys reject coins, return coins, and change coins to the user to the dispensing port unit 103. Is.
[0050]
According to the above coin processing apparatus 100, since the slide mechanism 1 that reduces the impact with a spring is provided, for example, even when the coin storage portion 101 or the like is almost replenished and the weight increases, for example, the second stopper 6 (see FIG. 1) is not damaged and the coin processing apparatus 100 is not dropped off, and can be quickly pulled out with a strong force, for example. A commercially available slide rail may be used as the slide rail 8 used in the slide rail mechanism 1 described above. Such a commercially available slide rail is preliminarily provided with a stopper for restricting the range of operation. In this case, for example, when pulling out the coin processing apparatus 100 having increased in weight, even if a commercially available slide rail stopper is temporarily damaged, a stopper that alleviates the impact, in the first embodiment, the second stopper. 6 (see FIG. 1) works in an auxiliary manner, and the coin processing device 100 does not fall off by reducing the impact.
[0051]
Next, an automatic ticket vending machine 200 as a transaction apparatus including the coin processing apparatus 100 according to the third embodiment of the present invention will be described with reference to FIG. 7, FIG. 8, and FIG. 7 is a schematic block diagram for explaining the installation of the coin processing device 100 in the automatic ticket vending machine 200, FIG. 8 is a schematic block diagram showing the customer service section 210 of the automatic ticket vending machine 200, and FIG. It is a schematic block diagram which shows a relationship.
[0052]
First, with reference to the block diagram of FIG. 7, the installation of the coin processing apparatus 100 in an automatic ticket vending machine will be described. The coin processing apparatus 100 is installed in one corner of the automatic ticket vending machine 200, for example. FIG. 7 shows the operation surface of the attendant on the side opposite to the customer service section 210 (see FIG. 8) where the user performs the purchase operation of the automatic ticket vending machine 200. The automatic ticket vending machine 200 is a banknote processing device 202 as a money processing device for processing banknotes as money, a card processing device 203 as a money processing device for processing cards such as prepaid cards, and ticket printing for issuing tickets and the like. And a device 204. The coin processing device 100 is provided together with the banknote processing device 202. Further, the automatic ticket vending machine 200 includes an operation panel 201 for operation by an attendant. The above configuration will be described below.
[0053]
The automatic ticket vending machine 200 includes a casing 205 that is an outer frame of the apparatus. A floor base 206 as a foundation is formed in the housing 205. The floor base 206 is a plate-like member formed horizontally. Each processing apparatus includes a slide rail mechanism 1 and is attached to the housing 205 via the slide rail mechanism 1. From the left side in the figure, a coin processing device 100, a banknote processing device 202, and a ticket printing device 204 are placed on the floor base 206 via the slide rail mechanism 1, respectively. In addition, the operation panel 201 is installed in the upper center of the casing 205. Further, the card processing device 203 is attached to the lower part of the operation panel 201 via the slide rail mechanism 1. That is, the card processing device 203 is suspended from the operation panel 201 as a foundation via the slide rail mechanism 1. The coin processing device 100, the banknote processing device 202, the card processing device 203, and the ticket printing device 204 can each be pulled out to a predetermined position by the slide rail mechanism 1.
[0054]
Further, the vending machine 200 includes a safe unit 207 for collecting coins stored in the coin processing apparatus 100. The safe unit 207 is installed below the floor base 206 so as to correspond to the coin processing apparatus 100. The coin processing device 100 and the safe unit 207 are connected by the collection passage 111 described above with reference to FIG. The vending machine 200 is configured such that coins stored in the coin processing apparatus 100 can be collected into the safe unit 207.
[0055]
Further, as shown in FIG. 8, the automatic ticket vending machine 200 includes a coin processing device 100 and a customer service unit 210 that receives user operations. The customer service section 210 is provided with a guidance display section 211 for displaying whether or not the automatic ticket vending machine 200 is selling tickets, and an account selection button 212 corresponding to each account.
[0056]
Further, the customer service section 210 includes a coin insertion slot 213 for inserting coins, a banknote insertion slot 214 for inserting banknotes, a card insertion slot 215 for inserting prepaid cards, and a ticket release from which a ticket is released. It has an exit 216, a coin outlet 217 from which change is released, a banknote outlet 218, and a display 219 for displaying the amount of money. Here, the amount displayed on the display unit 219 includes the accumulated amount of coins inserted from the coin insertion slot 213, the accumulated amount of bills inserted from the bill insertion slot 214, and the prepaid card inserted from the card insertion slot 215. The remaining amount, change amount, etc.
[0057]
The coin slot 213 communicates with the coin processing apparatus 100, and the coins inserted from the coin slot 213 are stored after being recognized and counted by the coin processing apparatus 100. The banknote insertion port 214 communicates with the banknote processing apparatus 202, and the banknotes inserted from the banknote insertion port 214 are stored after being recognized and counted by the banknote processing apparatus 202. The card insertion port 215 communicates with the card processing device 203, and the prepaid card inserted from the card insertion port 215 is identified by the card processing device 203, and after the remaining amount is detected, the card processing device 203 holds the card.
[0058]
As shown in FIG. 9, the control unit 110 of the coin processing device 100, the control unit 220 of the banknote processing device 202, and the control unit 221 of the card processing device 203 are connected to the main control unit 223, and coins, banknotes, and prepaid cards (hereinafter referred to as “cards”). When simply inserted or inserted, the data of the inserted or inserted money is transmitted to the main control unit 223. A guide display unit 211, an account selection button 212, and a display unit 219 are connected to the main control unit 223, and an account is determined by inputting the account selection button 212.
[0059]
Further, the main control unit 223 is connected to the control unit 222 of the ticket printing apparatus 204. Based on a command from the main control unit 223, a ticket corresponding to the account is printed. A ticket is issued from, and change is discharged from the coin outlet 217 and the banknote outlet 218. When the prepaid card is used, the prepaid card is returned to the card insertion slot 215, protrudes from the card insertion slot 215 by a predetermined length, and is returned to the user.
[0060]
  As described above, according to the automatic ticketing machine 200 described above, a smooth operation can be performed even when a heavy apparatus, for example, the coin processing apparatus 100 is pulled out. In addition, even when a plurality of apparatuses are installed as described above, the vending machine 200 can be easily maintained and inspected for each apparatus by attaching each apparatus via the slide rail mechanism 1. be able to. For this reason, for example, speediness such as station service is required, and it is possible to perform work quickly and reliably in complicated work. That is, operational efficiency is good.
For reference, the device pull-out mechanism 1 according to the present invention includes, as shown in FIG. 3, for example, a support portion 2 attached to the base 206 in the device pull-out mechanism 1 used for pulling out a heavy device; A drawer portion 3 supported by the support portion 2 so as to be relatively movable; a first restraining member 4 attached to the drawer portion 3; and attached to the support portion 2 so that the drawer portion 3 reaches the predetermined position. A second restraining member 6 that restrains the movement of the drawer portion 3 by contacting the first restraining member 4 when moved by relative movement; a first restraining member 4 and a second restraining member 6; And a spring 7 that elastically supports either or both.
If comprised in this way, it will be equipped with the support part 2 and the drawer | drawing-out part 3, and since the drawer | drawing-out part 3 is supported by the support part 2 so that it can move relatively with respect to the support part 2, a heavy apparatus is pulled out. be able to. Further, the first restraining member 4 attached to the drawer portion 3 and the support portion 2 are attached to the first restraining member 4 when the drawer portion 3 is moved to the predetermined position by the relative movement. Accordingly, since the second restraining member 6 that restrains the movement of the drawer portion 3 and the spring 7 that elastically supports both the first restraining member 4 and / or the second restraining member 6 are provided. It is possible to provide a device pulling mechanism that can alleviate the impact of restraining and can perform a smooth operation without falling off even when a heavy device is pulled out.
[0061]
【The invention's effect】
As described above, according to the present invention, in the device pulling mechanism used for pulling out a heavy device, the supporting portion attached to the foundation and supported by the supporting portion so as to be able to move relative to the supporting portion. The first restraining member attached to the support portion and when the drawer portion is moved to the predetermined position by the relative movement, the first restraining member attached to the drawer portion, and the first restraining member attached to the support portion. A second restraining member that restrains the movement of the drawer portion by abutting on the spring, and a spring that elastically supports both the first restraining member and / or the second restraining member. Therefore, it is possible to provide a device pulling mechanism that can perform a smooth operation without dropping even when a heavy device is pulled out.
[Brief description of the drawings]
FIG. 1 is a plan view showing a state in which a ground bracket of a slide rail mechanism according to a first embodiment of the present invention is pulled out from a ground base.
FIG. 2 is a plan view showing a state in which the ground bracket of the slide rail mechanism according to the first embodiment of the present invention is housed in the ground base.
FIG. 3 is an arrow view of the slide rail mechanism according to the first embodiment of the present invention as seen from the direction A in FIG. 2, and is a view in which a part of the front side is omitted for explaining the configuration of the slide rail mechanism. .
FIG. 4 is an exploded perspective view of a stopper portion of the slide rail mechanism according to the first embodiment of the present invention.
FIG. 5 is a perspective view showing an appearance of a coin processing device according to a second embodiment of the present invention.
FIG. 6 is a schematic cross-sectional view showing a schematic structural diagram of a coin processing device according to a second embodiment of the present invention.
FIG. 7 is a schematic block diagram illustrating installation of a coin processing device according to a second embodiment of the present invention in an automatic ticket vending machine according to a third embodiment of the present invention.
FIG. 8 is a schematic block diagram showing a customer service section of an automatic ticket vending machine according to a third embodiment of the present invention.
FIG. 9 is a schematic block diagram showing the relationship of each part in an automatic ticket vending machine according to a third embodiment of the present invention.
[Explanation of symbols]
1 Slide rail mechanism
2 Ground base
3, 3a, 3b, 3c, 3d Ground bracket
4 First stopper
5 Stopper rail
6 Second stopper
7 Coil spring
8 Slide rail
8a outer rail
8b Middle rail
Rail inside 8c
9 Stopper bracket
12 Slide rail
13 Stopper
100 coin handling equipment
101 Change store
115 U-shaped bracket
200 Automatic ticket machine
201 Operation panel
202 banknote processing apparatus
203 Card processing device
204 ticket printing device
205 housing
206 Floor base
210 Customer Service Department

Claims (3)

In a device pull-out mechanism used when pulling out a heavy device;
A support attached to the foundation;
A drawer portion supported by the support portion so as to be movable relative to the support portion;
A first stop member attached to the drawer;
A moving member that has a first elongated hole that is relatively movable in the moving direction of the drawing portion with respect to each of the support portion and the drawing portion, and whose long axis direction is the moving direction of the drawing portion. When;
A stopper rail guide inserted into the first elongated hole so that the moving member is slidable and fixed to the support;
A second long hole direction of the long axis is the direction of movement of the moving member, and a second stop member that abuts on the first stop member, leaving most Obiki the lead-out portion is the pre SL relative movement when it pulled out to a position, a stopper bracket for restraining the movement of the front Symbol lead portions;
A stopper bracket guide that is inserted into the second elongated hole so as to be slidable with respect to the moving member, and is fixed to the moving member;
An elastic member that elastically supports the moving member and the stopper bracket so as to be relatively movable in the long axis direction of the second elongated hole, and relieves an impact when the movement of the drawer portion is stopped ;
Device drawer mechanism. An apparatus drawer mechanism according to claim 1 ;
A storage unit for storing money;
Money handling equipment. A money handling apparatus according to claim 2 ;
A customer service department that accepts user operations;
Trading device.

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