CN203720912U - Automatic cash dispensing gate system - Google Patents

Abstract

The utility model relates to the technical field of the automatic teller machine (ATM), especially to an automatic cash dispensing gate system. According to the system, a direct drive assembly and a first rotation support are arranged at the inner side of a gate support; a first installing shaft is installed at the gate support by a first installing shaft; and a driving end of the first rotation support is connected with a gate by a first sliding hole. A relay is controlled by a controller to drive the direct drive assembly to move, thereby driving the first rotation support to make rotation. The first rotation support is connected with the gate by the driving end and thus the gate arranged at the outer side of the gate support can be driven to move upwardly, so that the gate opens. When the gate needs to be closed, the controller sends out a corresponding instruction to the direct drive assembly; and the direct drive assembly makes reaction to move towards an opposite direction; meanwhile, the first rotation support is driven to make rotation towards the opposite direction, thereby realizing gate closing. The provided gate system has advantages of simple structure, precise controlling and reliable operation.

Description

A kind of automatic money output gate system

Technical field

The utility model relates to ATM (ATM (automatic teller machine)) technical field, relates in particular to a kind of automatic money output gate system.

Background technology

At present, along with improving constantly and the development of national economy of scientific and technological level, various automated business machinery is more and more extensive in the use of financial sector, and wherein, ATM can replace the machinery work of artificial repeatability, has greatly improved work efficiency.

Yet existing cash-out shutter drives various linkage support by motor, and then realize gate opening, its complex structure, poor controllability, moves unreliable and noise is large.

Therefore,, for above deficiency, the utility model provides a kind of automatic money output gate system.

Utility model content

(1) technical matters that will solve

The purpose of this utility model is to provide a kind of simple in structure, controls accurate and reliable automatic money output gate system.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides a kind of automatic money output gate system, it comprises controller, gate support, be arranged on the gate in gate support outside and be arranged on gate support inner side directly to driven unit and the first runing rest; Controller with directly to driven unit, be connected, with control directly to driven unit directly to movement; The first runing rest is arranged on gate support by installation shaft, directly to driven unit, be flexibly connected with the first runing rest, to drive the first runing rest to rotate, on gate support, offer the first sliding eye, the drive end of the first runing rest is connected with gate by the first sliding eye, to drive gate to move up and down.

Wherein, describedly directly to driven unit, comprise transverse moving support, relay and the first elasticity restoring piece, transverse moving support is arranged on the top of the first runing rest, the lower end of transverse moving support is provided with drive hole, on the first runing rest, be provided with the first bearing pin matching with drive hole, relay is connected to a side of transverse moving support, be used for pulling transverse moving support, one end of the first elasticity restoring piece is connected to the opposite side of walking crosswise traversing carriage, the other end is connected on gate support, for the direction to away from relay, pulls transverse moving support.

Wherein, it also comprises the second runing rest being flexibly connected with the first runing rest and is opened in the second sliding eye on gate support, the second runing rest is arranged on gate support by the second installation shaft, the link of the first runing rest is provided with the second bearing pin, the link of the second runing rest is provided with the slotted hole coordinating with the second bearing pin, and the drive end of the second runing rest is connected with gate by the second sliding eye.

Wherein, it also comprises the second elasticity restoring piece, described the first bearing pin is arranged on the top of the rotation center of the first runing rest, on the first runing rest, the below of rotation center is provided with the first projection piece, one end of the second elasticity restoring piece is connected with this first projection piece, and the other end is connected to the position of close the second sliding eye upper end on gate support.

Wherein, it also comprises sensor triggering component, sensor triggering component is arranged on gate support the position near the first sliding eye, and sensor triggering component is connected on transverse moving support near a side of the first elasticity restoring piece, and sensor triggering component is electrically connected to controller.

Wherein, described sensor triggering component comprises that sensor touches support, first sensor and the second sensor, sensor touches support and is arranged on rotationally transverse moving support one side by the 3rd installation shaft on it, sensor touches support and is flexibly connected with transverse moving support, first sensor and the second sensor are arranged near the first sliding eye upper end from top to bottom, the shake-up end that sensor touches on support is corresponding with the position of first sensor when gate closure state, the shake-up end of sensor shake-up support is corresponding with the position of the second sensor when gate opening state, first sensor and the second sensor are electrically connected to controller respectively.

Wherein, the installation shaft that described sensor touches support is rotation axis, on this rotation axis, be also connected with baffle plate, on the first runing rest, between rotation center and the drive end of the first runing rest, be provided with the second projection piece, the bottom of baffle plate offers the groove matching with the second projection piece, when the drive end of the first runing rest is positioned at the lower end of the first sliding eye, baffle wedge is on the second projection piece.

Wherein, described the first elasticity restoring piece and the second elasticity restoring piece are spring.

Wherein, the below of the gate mouth of described gate support is provided with adjustable rubber blanket support, and rubber blanket support is positioned at the below of gate, on rubber blanket support, is provided with rubber blanket.

Wherein, the dual-side of described gate support is provided with strip slide opening, and the dual-side of gate has the bending part matching with described strip slide opening.

(3) beneficial effect

Technique scheme tool of the present utility model has the following advantages: in the automatic money output gate system that the utility model provides, in the inner side of gate support, arrange directly to driven unit and the first runing rest, the first runing rest is arranged on gate support by the first installation shaft, the drive end of the first runing rest is connected with gate by the first sliding eye, relay drives and directly to driven unit, moves under the control of controller, and then drive the first runing rest to rotate, the first runing rest is connected with gate by its drive end, thereby can drive the gate in gate support outside to move up, gate opening, when gate needs closure, controller is to directly sending corresponding instruction to driven unit, directly to driven unit, make a response and move in the opposite direction, drive the first runing rest to rotate in the opposite direction simultaneously, realize the closure of gate, this automatic money output gate system has simple in structure, control accurate and reliable advantage.

Accompanying drawing explanation

Fig. 1 is the axonometric drawing in the utility model embodiment automatic money output gate system outside;

Fig. 2 is the structural representation of the utility model embodiment automatic money output gate system inner side;

Fig. 3 is the axonometric drawing of the utility model embodiment automatic money output gate system inner side;

Fig. 4 is the schematic diagram of gate opening state outside the utility model embodiment automatic money output gate system;

Fig. 5 is the schematic diagram of the outer side gate closure state of the utility model embodiment automatic money output gate system;

Fig. 6 is the schematic diagram of side gate closure state in the utility model embodiment automatic money output gate system.

In figure, 1: gate support; 2: gate; 3: strip slide opening; 4: rubber blanket support; 5: the first rack pin shafts; 6: the second rack pin shafts; 7: the first sliding eyes; 8: the second sliding eyes; 9: relay; 10: relay iron; 11: relay iron hole; 12: transverse moving support; 13: the first bearing pins; 14: the three bearing pins; 15: sensor touches support; 16: the three installation shaft; 17: the second runing rests; 18: the second springs; 19: the first springs; 20: first sensor; 21: the second sensors; 22: the first installation shaft; 23: the second bearing pins; 24: the second installation shaft; 25: drive hole; 26: baffle plate; 27: the second projection pieces; 28: the first runing rests.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples are used for illustrating the utility model, but are not used for limiting scope of the present utility model.

In description of the present utility model, it should be noted that, orientation or the position relationship of the indications such as term " " center ", " laterally ", " on ", D score, " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward " be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; rather than the device of indication or hint indication or element must have specific orientation, with specific orientation structure and operation, so can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " etc. are only for describing object, and can not be interpreted as indication or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be mechanical connection, can be to be also electrically connected to; Can be to be directly connected, also can indirectly be connected by intermediary.For the ordinary skill in the art, can concrete condition understand the concrete meaning of above-mentioned term in the utility model.

As shown in Figure 1, Figure 2 and Figure 3, the automatic money output gate system that the utility model provides comprises controller, gate support 1, be arranged on the gate 2 in gate support 1 outside and be arranged on gate support 1 inner side directly to driven unit and the first runing rest 28; The first runing rest 28 is arranged on gate support 1 rotationally by the first installation shaft 22 on it, describedly directly to driven unit, comprise transverse moving support 12, relay 9 and the first spring 19, transverse moving support 12 is arranged on the top of the first runing rest 28, preferably, transverse moving support 12 is T-shape, the lower end of transverse moving support 12 is provided with and on 25, the first runing rests 28 of square drive hole, is provided with the first bearing pin 13 matching with drive hole 25; The iron core of relay 9 is connected to a side (right side) of transverse moving support 12 by relay iron hole 11, be used for pulling transverse moving support 12, the first spring 19 is arranged on the opposite side (left side) of transverse moving support 12, one end of the first spring 19 is connected on transverse moving support 12, the other end is connected to the corresponding side of gate support 1, for the direction to away from relay 9, pulls transverse moving support 12; Controller is connected with relay 9, with pilot relay 9 actions.Controller sends steering order, pilot relay 9 work, and the iron core of relay 9 pulls to be walked crosswise traversing carriage and moves to right, and when relay 9 is not worked, under the effect of the first spring 19 elastic restoring forces, transverse moving support 12 is pulled initial position; In the process moving at transverse moving support 12, the drive hole 25 by transverse moving support 12 lower ends matches with the first bearing pin 13 on the first runing rest 28, and transverse moving support 12 can drive the first runing rest 28 to rotate.

In the utility model, the drive end (left end) that offers the first sliding eye 7, the first runing rests 28 on gate support 1 is connected with gate 2 by the first sliding eye 7, to drive gate 2 to move up and down.Particularly, the drive end of the first runing rest 28 is connected with the first rack pin shaft 5, and this first rack pin shaft 5 is connected with gate 2 through the first sliding eye 7.Usually, the first sliding eye 7 has certain radian, and vertically arranges, in the process that the first runing rest 28 rotates, the first bearing pin 13 of the first runing rest 28 drive ends slides in the first sliding eye 7, and then drives gate 2 to move up and down.As shown in Figure 6, when the first runing rest 28 rotates counterclockwise and when the first bearing pin 13 is positioned at the bottom of the first sliding eye 7, gate 2 is in closure state; As shown in Figure 4, when the first runing rest 28 clockwise rotates and when the first bearing pin 13 is positioned at the top of the first sliding eye 7, gate 2 is in opening.

Automatic money output gate system of the present utility model also comprises the second runing rest 17 being flexibly connected with the first runing rest 28 and is opened in the second sliding eye 8 on gate support 1, the second runing rest 17 is arranged on the right side of the first runing rest 28, the second runing rest 17 is installed in rotation on gate support 1 by the second installation shaft 24 on it, the link of the first runing rest 28 is provided with the second bearing pin 23, the link of the second runing rest 17 is provided with the slotted hole coordinating with the second bearing pin 23, the drive end of the second runing rest 17 is connected with gate 2 by the second sliding eye 8, particularly, the drive end of the second runing rest 17 is connected with the second rack pin shaft 6, this second rack pin shaft 6 is connected with gate 2 through the second sliding eye 8, preferably, on gate 2, offer slotted hole, in the slotted hole that the second rack pin shaft 6 inserts on gate 2.When the first runing rest 28 rotates 1 lifting of drive gate support, by the first runing rest 28, rotate and drive the second runing rest 17 to rotate, and then the drive end of the second runing rest 17 also drives gate 2 liftings, can improve the stationarity that gate 2 moves up and down so on the one hand, alleviate on the other hand the holding capacity of the first bearing pin 13, can improve its serviceable life.

Further, as shown in Figure 2, in order to improve the speed of dirigibility and the response of the utility model system acting, the utility model also provides the second spring 18, particularly, the second bearing pin 23 is arranged on the top of the rotation center of the first runing rest 28, and on the first runing rest 28, the below of rotation center is provided with the first projection piece, one end of the second spring 18 is connected with this first projection piece, and the other end is connected to the position of close the second sliding eye 8 upper ends on gate support 1.Like this, by the second spring 18 is set, when system needs closed gate 2, the first spring 19 pulls transverse moving support 12, the first runing rest 28 rotates counterclockwise, the elastic restoring force of the second spring 18 can further impel the first runing rest 28 to be rotated counterclockwise, and then drive the second runing rest 17 to turn clockwise, like this, on the link of the first runing rest 28 and the second runing rest 17, move, the drive end of the first runing rest 28 and the second runing rest 17 moves down, gate 2 is realized closed, linkage and the harmony of the first runing rest 28 and the second runing rest 17 are stronger, and then can improve the speed of dirigibility and the response of the utility model system acting.

Preferably, as shown in Figure 2, in order to improve precision and the controllability of the operation of the utility model system, the location settings sensor triggering component of close the first sliding eye 7 on gate support 1.Particularly, sensor triggering component comprises that sensor touches support 15, first sensor 20 and the second sensor 21, preferably sensor shake-up support 15 is " L " type, sensor touches support 15 and by the 3rd installation shaft 16 on it, is arranged on rotationally the left side of transverse moving support 12, sensor touches support 15 and is connected with the 3rd bearing pin 14 of transverse moving support 12 left ends by the mounting hole on it, first sensor 20 and the second sensor 21 are arranged near the first sliding eye 7 upper ends from top to bottom, the shake-up end that sensor touches on support 15 is corresponding with the position of first sensor 20 when gate 2 closure state, the shake-up end of sensor shake-up support 15 is corresponding with the position of the second sensor 21 when gate 2 opening.Like this, at sensor, touch in the process of support 15 rotations, when moving to first sensor 20, triggers at the shake-up end of sensor shake-up support 15 first sensor 20, the information that first sensor 20 arrives the drive end of the first runing rest 28 in the first sliding eye 7 bottoms passes to controller, controller obtains wanting as required to open the sluices 2 o'clock after this information, controller sends steering order to relay 9, and then the first runing rest 28 is moved, when the drive end of the first runing rest 28 arrives the top of the first sliding eye 7, the shake-up end of sensor shake-up support 15 arrives location triggered second sensor 21 of the second sensor 21, the information that the second sensor 21 is opened corresponding gate 2 passes to controller, controller and then make 9 work of corresponding steering order pilot relay, thereby can improve precision and the controllability of the operation of the utility model system.

Further, the 3rd installation shaft 16 that described sensor touches support 15 is rotation axis, on this rotation axis, be also connected with baffle plate 26, baffle plate 26 and sensor touch support 15 and synchronously rotate, on the first runing rest 28, between rotation center and the drive end of the first runing rest 28, be provided with the second projection piece 27, the bottom of baffle plate 26 offers the groove matching with the second projection piece 27, when the drive end of the first runing rest 28 is positioned at the bottom of the first sliding eye 7, baffle plate 26 is stuck on the second projection piece 27.When gate 2 need to be opened, transverse moving support 12 moves right, like this, baffle plate 26 and sensor touch support 15 and also rotate simultaneously, baffle plate 26 leaves the second projection piece 27, and meanwhile, the first runing rest 28 rotates, drive gate 2 to open, the matching design by baffle plate 26 grooves and the first runing rest 28 can improve system reliability of operation.

Further, as shown in Figure 5 and Figure 6, the below that the gate of described gate support 1 is 2 mouthfuls is provided with adjustable rubber blanket support 4, and rubber blanket support 4 is positioned at the below of gate 2, is provided with rubber blanket for resiliency supported gate 2 on rubber blanket support 4.Wherein, rubber blanket support 4 is in height adjustable, can resiliency supported gate 2 when gate 2 is closed by rubber blanket support 4 is set, alleviate the stressed of the first bearing pin 13 and the second bearing pin 23, and the noise can the operation of minimizing system producing.

Preferably, as shown in Figure 1, the dual-side of described gate support 1 is provided with strip slide opening 3, and the dual-side of gate 2 has the bending part matching with described strip slide opening 3.Wherein, in strip slide opening 3, be provided with slide bushing, the bending part of gate 2 both sides embeds in slide bushing.In the process of gate 2 oscilaltions, the bending part that embeds slide bushing slides up and down in slide bushing like this, can minimizing system move the noise producing like this in the reliable lifting of gate 2.

In the automatic money output gate system that the utility model provides, while needing starting gate 2, controller sends instruction to relay 9, relay 9 actions are to the inside absorption iron core of relay 9, iron core moves right, the moving transverse moving support 12 of iron core pore area that iron core is connected with transverse moving support 12 by it moves right, the square drive hole 25 of transverse moving support 12 lower ends drives the first bearing pin 13 on the first runing rest 28 to move to the right, thereby the first installation shaft 22 that the first runing rest 28 be take on it is clockwise rotated as the center of circle, the drive end of the first runing rest 28 (left end) slides in the first sliding eye 7 by the first rack pin shaft 5 and drives gate 2 to move up, simultaneously, the second bearing pin 23 of the first runing rest 28 links (right-hand member) drives the slotted hole of the second runing rest 17 links (left end) to move down, and then drive the second runing rest 17 to rotate counterclockwise, thereby the drive end of the second runing rest 17 (right-hand member) drives gate 2 to move up by the second rack pin shaft 6 upward sliding in the second sliding eye 8, like this, common gate 2 starting gate 2 that moves up that drives of the first runing rest 28 and the second runing rest 17.Meanwhile, the 3rd installation shaft 16 that transverse moving support 12 be take on sensor shake-up support 15 with dynamic sensor shake-up support 15 by the 3rd bearing pin 14 on it clockwise rotates as the center of circle, the shake-up end that sensor touches support 15 left ends moves from the position relative with first sensor 20 to the position relative with the second sensor 21, in time gate 2 information closed and that open is passed to controller.Above-mentioned a series of actions is carried out simultaneously, and when the shake-up end of sensor shake-up support 15 arrives the position of first sensor 20, first sensor 20 passes to controller by this information, controller pilot relay 9, make relay 9 stop action, gate 2 puts in place, completes breakdown action.Certainly,, by sensor triggering component, by the control program of controller, can not realize the movement range of relay 9 yet, realize the control to gate 2 opening and closing positions.

When the closed gate 2 of needs, relay iron 10 departs from, and under the action of the first spring 19 and the second spring 18, transverse moving support 12, the first runing rest 28, the second runing rest 17 and sensor shake-up support 15 complete action contrary to the above.After gate 2 closures put in place, the shake-up end that sensor touches support 15 is positioned at the position relative with first sensor 20, gate corrects for 2 times and can contact with the rubber blanket on rubber blanket support 4, simultaneously, the second projection piece 27 of the first runing rest 28 is stuck in the groove of baffle plate 26 lower ends, and gate 2 is in closure state.

In sum, in the automatic money output gate system that the utility model provides, inner side at gate support 1 arranges the relay 9 connecting successively, transverse moving support 12, the first runing rest 28 and the second runing rest 17, relay 9 drives transverse moving support 12 to move under the control of controller, and then drive the first runing rest 28 to clockwise rotate, the first runing rest 28 drives the second runing rest 17 to rotate counterclockwise, the first runing rest 28 and the second runing rest 17 drive gate 2 to move up by its drive end separately jointly, gate 2 is opened, when gate 2 needs closure, relay iron 10 departs from, by the effect of the first spring 19 and the second spring 18, make transverse moving support 12, the first runing rest 28 and the second runing rest 17 complete contrary action, realize the closure of gate 2, by sensor triggering component is set, can in time the status information of gate 2 opening and closings be fed back to controller in time, accurately and timely pilot relay 9 actions of controller, improve precision and the controllability of whole system operation, the groove of baffle plate 26 bottoms that are connected with sensor shake-up support 15 installation shaft matches with the second projection piece 27, when the drive end of the first runing rest 28 is positioned at the bottom of the first sliding eye 7, baffle plate 26 is stuck on the second projection piece 27, can further improve system reliability of operation.

The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.

Claims (10)

1. an automatic money output gate system, is characterized in that: it comprises controller, gate support, be arranged on the gate in gate support outside and be arranged on gate support inner side directly to driven unit and the first runing rest; Controller with directly to driven unit, be connected, with control directly to driven unit directly to movement; The first runing rest is arranged on gate support by installation shaft, directly to driven unit, be flexibly connected with the first runing rest, to drive the first runing rest to rotate, on gate support, offer the first sliding eye, the drive end of the first runing rest is connected with gate by the first sliding eye, to drive gate to move up and down.

2. automatic money output gate system according to claim 1, it is characterized in that: describedly directly to driven unit, comprise transverse moving support, relay and the first elasticity restoring piece, transverse moving support is arranged on the top of the first runing rest, the lower end of transverse moving support is provided with drive hole, on the first runing rest, be provided with the first bearing pin matching with drive hole, relay is connected to a side of transverse moving support, be used for pulling transverse moving support, one end of the first elasticity restoring piece is connected to the opposite side of walking crosswise traversing carriage, the other end is connected on gate support, for pulling transverse moving support to the direction away from relay.

3. automatic money output gate system according to claim 2, it is characterized in that: it also comprises the second runing rest being flexibly connected with the first runing rest and is opened in the second sliding eye on gate support, the second runing rest is arranged on gate support by the second installation shaft, the link of the first runing rest is provided with the second bearing pin, the link of the second runing rest is provided with the slotted hole coordinating with the second bearing pin, and the drive end of the second runing rest is connected with gate by the second sliding eye.

4. automatic money output gate system according to claim 3, it is characterized in that: it also comprises the second elasticity restoring piece, described the first bearing pin is arranged on the top of the rotation center of the first runing rest, on the first runing rest, the below of rotation center is provided with the first projection piece, one end of the second elasticity restoring piece is connected with this first projection piece, and the other end is connected to the position of close the second sliding eye upper end on gate support.

5. according to the automatic money output gate system described in claim 3 or 4, it is characterized in that: it also comprises sensor triggering component, sensor triggering component is arranged on the position of close the first sliding eye on gate support, and sensor triggering component is connected to a side of close the first elasticity restoring piece on transverse moving support, and sensor triggering component is electrically connected to controller.

6. automatic money output gate system according to claim 5, it is characterized in that: described sensor triggering component comprises that sensor touches support, first sensor and the second sensor, sensor touches support and is arranged on rotationally transverse moving support one side by the 3rd installation shaft on it, sensor touches support and is flexibly connected with transverse moving support, first sensor and the second sensor are arranged near the first sliding eye upper end from top to bottom, the shake-up end that sensor touches on support is corresponding with the position of first sensor when gate closure state, the shake-up end of sensor shake-up support is corresponding with the position of the second sensor when gate opening state, first sensor and the second sensor are electrically connected to controller respectively.

7. automatic money output gate system according to claim 6, it is characterized in that: the installation shaft that described sensor touches support is rotation axis, on this rotation axis, be also connected with baffle plate, on the first runing rest, between rotation center and the drive end of the first runing rest, be provided with the second projection piece, the bottom of baffle plate offers the groove matching with the second projection piece, when the drive end of the first runing rest is positioned at the lower end of the first sliding eye, baffle wedge is on the second projection piece.

8. automatic money output gate system according to claim 4, is characterized in that: described the first elasticity restoring piece and the second elasticity restoring piece are spring.

9. automatic money output gate system according to claim 7, is characterized in that: the below of the gate mouth of described gate support is provided with adjustable rubber blanket support, and rubber blanket support is positioned at the below of gate, on rubber blanket support, is provided with rubber blanket.

10. automatic money output gate system according to claim 9, is characterized in that: the dual-side of described gate support is provided with strip slide opening, and the dual-side of gate has the bending part matching with described strip slide opening.