KR20150003003A

KR20150003003A - Cassette device of banknote dispenser

Info

Publication number: KR20150003003A
Application number: KR20130075479A
Authority: KR
Inventors: 안병만; 선동훈; 이경태
Original assignee: 노틸러스효성 주식회사
Priority date: 2013-06-28
Filing date: 2013-06-28
Publication date: 2015-01-08

Abstract

The present invention relates to a cassette device of a bankbook dispenser for easily storing a bankbook and improving the arrangement of the bankbook by easily controlling the height of a bankbook storage space disposed on the cassette of the bankbook dispenser. The present invention includes: a main body (110) which a storage space (S) of the bankbook is arranged therein; an elevating member (140) which moves upward and downward inside the main body (110) and includes a push plate (142) of which upper side loads the bankbook; an elevator (160) which interworks with the elevating member (140) inside the main body (110) for the elevating member (140) to move upward and downward; and a locker (170) equipped between the elevator (160) and the main body (110) for restricting the operation of the elevator (160) which prevents the elevating member (140) from moving upward and downward when restricting the operation of the elevator (160) and allows the elevating member (140) to move downward when the elevating member (140) receives force downward greater than a specific value.

Description

[0001] Cassette device of banknote dispenser [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cassette apparatus for a passbook issuer, and more particularly, to a cassette apparatus for a passbook issuer which can easily adjust the height of a passbook storage space provided in a cassette of a passbook issuer.

In general, a banking automation device (ATM) is a device for providing a convenient financial service to a customer without any place or time constraint in a bank or other financial institution.

Among these financial automation devices, a device that handles passbooks has a function of printing transaction information of passbooks and a function of issuing new passbooks when the parameters of pages of all passbooks have been terminated and the passbooks have a month, And a cassette device in which a new passbook to be issued is loaded is provided inside the device.

Background Art [0002] In the prior art relating to a cassette device of a passbook issuer, FIG. 1 shows a cassette device disclosed in the publication No. 10-2008-0062800.

The conventional cassette device 1 has a main body 10 in which a storage space S of a passbook M is provided and a push plate An elastic member 30 for providing an elastic force so that the push plate 20 is pressed upward and a separating portion 40 for separating and transporting the passbooks provided on the upper portion of the main body 10, And an outlet 50 through which the passbook separated by the separating unit 40 is taken out.

The passbook is formed by folding a middle portion of a plurality of inwardly folded sheets of relatively thin thickness on the inside of a relatively thick cover sheet and folding the folded side flatly and forming a book shape consist of. Therefore, when a plurality of passbooks are stacked in the storage space S, the other side is swollen upward, and unlike a medium such as a banknote or a check which is stacked in a horizontal form, It is not easy to load them in an aligned state in the space S.

However, the conventional cassette device 1 does not include a configuration in which the user can arbitrarily adjust the storage space S of the passbook provided between the push plate 20 and the separator 40, It is difficult to load the passbook in an aligned state in the space S. If the passbook is not uniformly loaded, the passbook separated by the separating unit 40 is taken out by the exit 50, There is a problem that can result.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to easily adjust the height of the passbook storage space provided in the cassette of the passbook issuer, thereby facilitating storage of passbooks, And it is an object of the present invention to provide a cassette device for a passbook issuer.

To achieve the above object, a cassette apparatus (100) of a passbook issuer of the present invention comprises a main body (110) having a passbook storage space (S) therein; A lifting member (140) movably disposed in the main body (110) and including a push plate (142) on which a passbook is stacked; A lifting mechanism 160 interlocked with the lifting member 140 in the main body 110 so that the lifting member 140 moves in the vertical direction; Down mechanism 160 and the main body 110 in order to limit the operation of the lifting mechanism 160 and the operation of the lifting mechanism 160. When the lifting mechanism 160 is restricted in operation, And a lock mechanism 170 for inhibiting upward movement of the lifting member 140 and allowing the lifting member 140 to move downward when a force greater than a predetermined value is applied to the lifting member 140 in a downward direction.

In this case, the raising and lowering mechanism 160 includes guide rails 161a and 161b vertically penetrating the both sides of the raising and lowering member 140 and vertically installed on both sides of the inside of the main body 110; First pulleys 163a and 163b rotatably disposed on the upper and lower sides of the main body 110 to one side of the storage space S; Second pulleys 164a and 164b rotatably disposed on the upper and lower sides of the main body 110 to the other side of the storage space S; A first belt 165a vertically disposed at one side of the storage space S to be connected to the first pulleys 163a and 163b and having one end coupled to one side of the lifting member 140; And a second belt (165b) disposed on the other side of the storage space (S) to be connected to the second pulleys (164a, 164b) and one end of which is coupled to the other side of the lifting member (140) .

A first roller 166a and a second roller 166b are rotatably provided on both sides of the upper portion of the main body 110. The first roller 166a and the second roller 166b A first elastic member 167a and a second elastic member 167b which are supported at both ends of the lifting member 140 and the main body 110 are provided so as to extend therebetween so that an upward elastic force is applied to the lifting member 140 Lt; / RTI >

The lock mechanism 170 includes a latch gear 171 coupled to a shaft 162c to which the first pulley 163b and the second pulley 164b are coupled, And a lock lever 173 provided to limit the rotation of the latch gear 171.

The latch lever 173 includes a latch portion 173a which is pivoted around the shaft 172 and selectively engaged with the latch gear 171. The latch portion 173a is engaged with the latch gear 171 In a direction in which it is hooked to the base end portion.

A door 120 is provided on the front surface of the main body 110 so as to open and close the main body 110. The door 120 is provided between the other side of the door 120 and the main body 110, And the locking part 130 is pivoted in conjunction with the opening and closing of the door 120 so that the latch gear 171 of the locking mechanism 170 And the lock lever 173 is operated to be in a locked or unlocked state.

The locking part 130 includes a handle 131 protruding outwardly from the door 120 and a connecting shaft 130 connected to one end of the handle 131 and extending to the inside of the main body 110. [ And a locking member 135 coupled to an extended end of the connection shaft 132. The lock lever 173 is provided on the upper side of the locking lever 130 with a lock The lock lever 173 is detached from the latch gear 171 as the latch lever 173 is lifted up and down by the member 135. When the locking lever 130 is rotated in the opposite direction to the lock 130, And a lifting bracket 174 for locking the lock lever 173 to the latch gear 171 may be provided.

The locking part 130 is elastically supported so that the locking member 135 is rotated in a direction to be hooked on the lifting bracket 174, And a stopper 134 for restricting the bi-directional rotation angle range of the biasing member 132 within a predetermined range.

The locking bracket 174 is formed with a locking hole 174d into which the protrusion 173d protruding from the lock lever 173 is inserted to be coupled to the up and down movement bracket 174 And the lock lever 173 is turned.

A guide hole 174c is formed in the upward and downward bracket 174 so as to have a long hole shape and a guide protrusion 175 fixed to the main body 110 is inserted into the guide hole 174c, An up and down movement of the down bracket 174 is guided and an elastic member 176 for providing downward elastic force to the up and down bracket 174 may be coupled to one side of the up and down bracket 174. [

The lock lever 173 is extended from one end of the locking portion 173a so that when the locking lever 173 is pressed in one direction, the locking lever 173a is released from engagement with the latch gear 171, (Not shown).

Also, a blocking plate 115 for limiting access to the push portion 173b may be disposed on the front side of the push portion 173b.

The lifting member 140 includes a body 141 coupled to both sides of the lifting mechanism 160 so as to be interlocked with the lifting mechanism 160. A push plate 142 coupled horizontally to an upper portion of the body portion 141 and having a passbook on its upper surface; And a handle 143 separated from the lower portion of the push plate 142 and coupled to the lower portion of the body 141 in a horizontal direction.

An elastic member 145 is provided between the upper surface of the body portion 141 and the lower surface of the push plate 142 so as to provide an elastic force to the push plate 142 in the upward direction. .

According to the cassette apparatus of the passbook issuance apparatus according to the present invention, since the lock mechanism is provided for restricting the operation of the lifting mechanism provided so as to be interlocked with the lifting and lowering member on which the passbook is loaded, the height of the passbook storage space can be arbitrarily adjusted So that the storing work of the passbook can be easily performed.

Further, when the lock mechanism is configured to include the latch gear and the lock lever engaged therewith, even when the lock mechanism is in the locked state, when the user applies a force greater than a predetermined value to the up and down member in the downward direction, The height of the passbook compartment can be largely adjusted. When the lock mechanism is in the locked state, when the user's hand is positioned above the storage space by suppressing the upward movement of the lifting / lowering member, A safety accident that may be caused by the upward movement can be prevented in advance.

Further, the lock mechanism is interlocked with the lock portion provided on the door via the ascending and descending bracket, so that when the door is closed, the lock mechanism is in the released state, and the ascending / descending member moves upward And the lock mechanism is locked in a state in which the door is opened, thereby fixing the position of the lifting and lowering member. When the user pushes the push portion connected to the lock lever, The height of the storage space can be freely adjusted by releasing the locked state.

And a guide plate disposed at an upper portion of the passbook storage space with a downward gradient toward the exit side and a gate member located behind the guide plate is provided with a plurality of guide members for guiding the passbook separated and transported by the separator to the exit side The passbook stored in the storage space can be smoothly taken out through the exit without jamming to prevent malfunction of the apparatus and improve the reliability of issuing passbooks.

1 is a view showing a cassette device of a conventional passbook issuer,
FIG. 2 is a perspective view of a cassette device of a passbook issuer according to the present invention,
Fig. 3 is a rear side perspective view of Fig. 2,
4 is a perspective view showing the inside of a cassette device of a passbook issuer according to the present invention,
FIG. 5 is a perspective view of the locking mechanism in a locked state,
Fig. 6 is a perspective view showing the case where the lock mechanism is in the unlocked state,
7 is a perspective view showing an outlet side of a passbook in a cassette device of a passbook issuer according to the present invention,
8 is a side view of Fig. 7,
Fig. 9 is a front side perspective view of the gate member, (b) a rear side perspective view of the gate member,
10 is a side view (a) of the gate member, (b) a plan view,
11 is a state diagram showing a state in which a passbook is taken out from a cassette device of a passbook issuer according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 is a perspective view of the cassette apparatus of the passbook issuance apparatus according to the present invention, FIG. 3 is a rear side perspective view of FIG. 2, and FIG. 4 is a perspective view showing the interior of the cassette apparatus of the passbook issuance apparatus according to the present invention.

The cassette device 100 of the passbook issuer according to the present invention includes a main body 110 in which a passbook to be issued is loaded, a door 120 that opens and closes a front surface of the main body 110, A locking part 130 provided between the main body 110 and the main body 110 to lock the door 120 to the main body 110 and a locking part 130 disposed between the main body 110 and the main body 110 to be movable upward and downward, A guide plate 150 which forms a storage space S of a passbook between the lifting member 140 and the lifting member 140 and which is fixed to the upper portion of the storage space S and guides the outflow of the passbook, A lifting mechanism 160 interlocked with the lifting and lowering member 140 inside the main body 110 to move the lifting member 140 in the vertical direction, A lock mechanism 170 provided between the lifting mechanism 160 and the main body 110, a lock mechanism 170 installed between the lifting mechanism 160 and the main body 110, A separating portion 180 for separating the passbooks one by one and transferring the passbooks to the outlet 192 located at the rear of the main body 110 and a gate member 182 for guiding the take- 190).

One side of the door 120 is coupled to the main body 110 through a hinge 121 and the locking part 130 is provided between the other side of the door 120 and the main body 110.

When the locking part 130 is rotated to one side, the engagement with the main body 110 is released and the door 120 can be opened. When the door part 120 is closed, the locking part 130 is rotated So that the door 120 is prevented from being opened. The locking part 130 is mechanically connected to the locking mechanism 170 in such a manner that the locking mechanism 170, which will be described later, is locked or unlocked in conjunction with opening and closing of the door 120. That is, when the door 120 is opened, the lock mechanism 170 is locked to prevent movement of the lifting mechanism 160 and the lifting / lowering member 140 connected thereto, and when the door 120 is closed The lock mechanism 170 is in a released state so that the lifting mechanism 160 and the lifting and lowering member 140 connected thereto can move. A detailed description thereof will be given later while explaining the configuration of the lock mechanism 170. [

The lifting and lowering member 140 is disposed so as to be movable in the vertical direction so as to adjust the height of the storage space S in accordance with the number of passbooks stacked thereon. The lifting member 140 includes a body portion 141, A handle 143 separated from the lower portion of the push plate 142 and coupled to the lower portion of the body 141 in the horizontal direction, 144), which are coupled to both sides of the lifting and lowering mechanism (see FIG.

Between the upper surface of the body portion 141 and the bottom surface of the push plate 142, elastic members 145 are coupled to both sides. Therefore, even when a plurality of passages stacked between the push plate 142 and the guide plate 150 are swollen and tilted to one side, the elastic member 145 is displaced to the inclined side, and the inclination angle of the push plate 142 is automatically adjusted And at the same time an elastic force acts on the push plate 142 so that the loaded passbook is pressed to the guide plate 150 side, so that the passbook can be stably stacked on the push plate 142.

The guide plate 150 is fixed to the main body 110 so as to be positioned at an upper portion of the storage space S and is provided at the lower surface of the guide plate 150, As shown in Fig. The front side of the passbook that is stacked in the storage space S is stacked in an upwardly bulging state with respect to the rear side where the outlet 192 is located, It is preferable that the plate 150 is provided so that the rear side thereof is inclined downward relative to the front side. Referring to FIG. 7, the extended surface B of the guide plate 150 is inclined downward to have a predetermined inclination angle? From the front to the rear with respect to the horizontal plane A.

The separating unit 180 separates the passages contacting the lower surface of the guide plate 150 one by one and transfers the passbooks one by one to the back side of the guide plate 150. The lower end of the roller member may pass through the guide plate 150 and may be exposed to the lower side of the guide plate 150. The lower end of the roller member may be exposed to the lower side of the guide plate 150, So as to be in contact with the upper surface of the passbook.

The passbook separated by the separating unit 180 and conveyed to the rear side passes through the outlet 192 of the gate member 190 and is taken out to the outside of the cassette apparatus 100. The gate member 190 is formed with a plurality of guide portions protruding forward and backward at the upper and lower ends of the outlet 192 so that the passbook being separated and transported can be smoothly guided to the outlet 192 side.

The lifting mechanism 160 vertically penetrates the connecting brackets 144a and 144b coupled to both sides of the body portion 141 of the lifting and lowering member 140, First pulleys 163a and 163b rotatably disposed on the upper and lower portions of the main body 110 at one side of the storage space S and first and second pulleys 163a and 163b installed in the storage space S, A second pulley 164a and 164b rotatably disposed on the upper and lower sides of the main body 110 on the other side and a second pulley 164a and 164b rotatably disposed on the upper side and the lower side of the storage space S to be connected to the first pulleys 163a and 163b, A first belt 165a which is disposed at one end of the lifting member 140 and is connected to a connection bracket 144a at one end of the lifting member 140 and a second belt 165b at the other end of the storage space S to be connected to the second pulley 164a, And a second belt 165b which is disposed in the up-and-down direction and whose one end is coupled to the connection bracket 144b located on the other side of the lifting member 140. [

The first pulley 163a positioned at one side of the upper portion of the main body 110 is coupled to the shaft 162a fixed to the transverse direction at one side of the upper portion of the main body 110 to be idle, The first roller 166a is coupled to one side of the first roller 163a. The outer circumferential surface of the first roller 166a protrudes radially outward at both side edges thereof. The inner circumference of the outer circumferential surface is concave. One end of the outer circumferential surface of the first roller 166a is fixed to the connection bracket 144a, 110 and fixed to the lifting and lowering member 140 so that the first elastic member 167a is elastically stretched.

The second pulley 164a located on the other side of the upper portion of the main body 110 is coupled to the shaft 162b fixed to the other side of the upper portion of the main body 110 so as to idle, A second roller 166b is coupled to one side of the second pulley 164a and one end of the second roller 166b is fixed to the connection bracket 144b and the other end of the second roller 166b is fixed to the main body 110 And a second elastic member 167b for providing an upward elastic force is connected to the lifting member 140. [ The first pulley 163b and the second pulley 164b located on both sides of the lower portion of the main body 110 are coupled to the same shaft 162c.

Accordingly, when the lock mechanism 170 is in the locked state, the upward and downward members 140 are subjected to an upward force by the first and second elastic members 167a and 167b. When the lock mechanism 170 is in the unlocked state, the ascending and descending member 140 is lifted and lowered so that the passbook loaded in the storage space S is guided by the guide plate 150, When the stacked passbooks are taken out one by one and the number of stacked sheets is reduced, the lifting member 140 moves upward.

FIG. 5 is a perspective view of the lock mechanism in a locked state, and FIG. 6 is a perspective view of the lock mechanism in a locked state.

4 to 6, the locking mechanism 170 restrains the upward and downward movement of the lifting and lowering member 140 when the door 120 is opened. When the door 120 is closed, 140 to be in a state in which they can move up and down. A latch gear 171 is coupled to one side of the first pulley 163b and a shaft 172 is provided on the upper side of the latch gear 171. [ And a lock lever 173 pivoted about the center of the latch lever 171 to limit the rotation of the latch gear 171.

The gear teeth formed on the outer circumferential surface of the latch gear 171 are inclined in one direction of the circumferential direction. One side of the gear teeth located on the tilted side forms an acute angle with the outer surface of the gear teeth, And the other side of the gear teeth located on the side opposite to the inclined side has an obtuse angle with the outer side surface of the gear teeth, and the boundary portion has a round shape.

One end of the lock lever 173 is engaged with the shaft 172 and the other end is engaged with the latch gear 171 when the lock lever 173 is pivoted downward and is released from the latch gear 171 when the lock lever 173 is pivoted upward And a push portion 173b extending from one end of the latch portion 173a at a predetermined angle between the latch portion 173a and the latch portion 173a. The shaft 172 is coupled with an elastic member 173c that provides an elastic force so that the latching portion 173a is rotated in a direction in which the latching gear 171 is engaged. The elastic member 173c is wound on the outer circumferential surface of the shaft 172. The elastic member 173c is supported by the main body 110 and the other end is supported by the upper surface of the engaging portion 173a Lt; / RTI > Therefore, when the user presses the push portion 173b with a force larger than the elastic force of the elastic member 173c, the engagement portion 173a is pivoted clockwise around the shaft 172, The latching state is released and when the push portion 173b is placed, the latching portion 173a is pivoted in the counterclockwise direction by the elastic force of the elastic member 173c and engaged with the latch gear 171. [

When the rotation of the latch gear 171 is restricted by the lock lever 173, the rotation of the shaft 162c coupled with the latch gear 171 is restrained, and the rotation of the first gear 162c coupled to the shaft 162c, Rotation of the pulley 163b and the second pulley 164b is restricted so that movement of the first belt 165a and the second belt 165b connected thereto is also restrained and the up and down movement of the lifting member 140 is stopped. In a state where the latching portion 173a of the lock lever 173 is meshed with the latch gear 171, the clockwise rotation of the latch gear 171 is suppressed and the upward movement of the lifting member 140 is suppressed, The latching portion 173a of the lock lever 173 rides over the surface of the gear teeth of the latch gear 171 which is formed to be curved so that the latch gear 171 Can be rotated in the counterclockwise direction, so that the downward movement of the lifting member 140 becomes possible. When the pushing-down member 140 is released from the downward force, the latching portion 173a and the latch gear 171 are engaged with each other at that position so that the height of the lifting member 140 can be arbitrarily adjusted by the user have.

On the contrary, when the engagement state between the lock lever 173 and the latch gear 171 is released, the shaft 162c coupled with the latch gear 171 and the first pulley 163b and the second pulley 164b The first belt 165a, the second belt 165b, and the ascending / descending member 140 are also operable.

On the other hand, an upward / downward bracket 174 is provided on the upper side of the lock lever 173 and moves up and down in conjunction with the rotation of the lock part 130.

The locking part 130 includes a handle 131 protruding outwardly from the door 120 and a locking part 130 connected to one end of the handle 131 and passing through the door 120 to the inside of the main body 110 An elastic member 133 provided on an outer surface of the connection shaft 132 to provide an elastic force such that the connection shaft 132 is rotated in a clockwise direction, A stopper 134 coupled to the side surface of the connecting shaft 132 to limit the rotatable angle of the connecting shaft 132 to a range of 90 degrees and an engaging member 135 coupled to an end of the connecting shaft 132.

The upward and downward bracket 174 is formed with a through hole 174a through which the end of the engaging member 135 is inserted when the engaging member 135 is turned clockwise by the operation of the handle 131, A flange portion 174b supported by an engaging member 135 is formed at an upper end of the through hole 174a. A guide hole 174c is formed in the upper and lower sides of the upward and downward bracket 174 in the vertical direction and guide protrusions 175 are formed in the guide hole 174c. Down bracket 174 is guided in the vertical direction. An elastic member 176 is provided at one side of the ascending / descending bracket 174 to provide a downward elastic force to the ascending / descending bracket 174. The upper end of the guide hole 174c is hooked on the upper end of the guide projection 175 by the elastic force of the elastic member 176 when the external force is not applied to the ascending / descending bracket 174 Position.

A locking hole 174d is formed in the lower portion of the ascending and descending bracket 174 and a protrusion 173d formed on the inner side of the locking hole 174d to protrude rearward from the locking portion 173a of the lock lever 173, Are placed in the inserted form. Therefore, when the up-down bracket 174 is moved upward, the protrusion 173d positioned in the latch hole 174d is lifted upwards, and the lock state between the lock lever 173 and the latch gear 171 The latching portion 173a of the lock lever 173 is engaged with the latch gear 171 by the elastic force of the elastic member 173c to be locked .

The interlocking action of the locking part 130 and the ascending / descending bracket 174 will be described in more detail. The upper end of the engaging member 135 is brought into contact with the bottom surface of the flange portion 174b formed at the upper end of the ascending and descending bracket 174 and the ascending and descending bracket 174 174 upward. Accordingly, when the user places the handle 131 in the closed state of the door 120, the handle 131 and the connecting shaft 132 and the locking member 135 connected thereto are urged by the elastic force of the elastic member 133, 134. In this case, as the engaging member 135 rotates clockwise, the lifting / lowering bracket 174 is lifted upwards, and in conjunction with this, The protrusion 173d inserted in the locking hole 174d of the lock lever 174 is urged upward so that the lock lever 173 is pivoted clockwise and the lock between the lock lever 173 and the latch gear 171 The state is released. Therefore, when the door 120 is closed, the lock mechanism 170 is unlocked, so that the lifting member 140 is movable up and down.

On the contrary, when the handle 131 is rotated in the counterclockwise direction, the engaging member 135 is also rotated counterclockwise so that the engaging member 135 is separated from the flange portion 174b of the ascending / descending bracket 174, At the same time, the lifting / lowering bracket 174 is released from the restraint by the retaining member 135 and is moved downward by the elastic force of the elastic member 176, The protrusion 173d inserted into the locking hole 174d of the bracket 174 is released from the restriction in the downward direction and the lock lever 173 is rotated counterclockwise by the elastic force of the elastic member 173c, 173 engage with the latch gear 171 to be locked. Therefore, when the door 120 is opened, the lock mechanism 170 is automatically locked with the lock portion 130, so that the user presses the push portion 173b of the lock mechanism 170 to arbitrarily set the lock state The upward movement of the lifting member 140 is prevented unless the lifting member 140 is released. Therefore, when the user's hand is positioned in the storage space S between the lifting member 140 and the guide plate 150 in a state that the door 120 is opened, the lifting member 140 abruptly moves up and down It is possible to prevent a safety accident that may be caused in advance.

A blocking plate 115 may be provided on the front surface of the push portion 173b to prevent the push portion 173b from being inadvertently operated. Therefore, since only a narrow operating space is formed between the pushing portion 173b and the shielding plate 115, the pushing portion 173b can be operated through the operating space, but the pushing portion 173b can be inadvertently Can be prevented from being operated.

Hereinafter, the configuration of the gate member 190 provided at the position where the passbook is taken out from the cassette 100 will be described with reference to Figs. 7 to 11. Fig. Fig. 7 is a perspective view showing the outlet side of the passbook in the cassette device of the present invention. Fig. 8 is a side view of Fig. 7, Fig. 9 is a front view of the gate member, Fig. 10 is a side view of the gate member, Fig. 11 (b) is a plan view, and Fig. 11 is a state diagram showing a state in which the passbook is taken out from the cassette device of the passbook issuer according to the present invention.

The gate member 190 forms a guide plate 150 located in the storage space S of the passbook and an outlet 192 which is located on the rear side of the separation part 180 and through which the passbook is carried out. The gate member 190 is formed to have a predetermined height and elongated in the transverse direction to a size that allows passage of the passbook through the plate-shaped body portion 191, and an outlet 192 is formed in the front-back direction . A plurality of guide portions 193, 194 and 195 are formed on the front side and the rear side of the outlet 192 so as to guide the passageway through the outlet 192 smoothly.

The guide portions 193, 194 and 195 are symmetrical to each other with respect to the intermediate portion of the outlet 192 in the left and right directions and are symmetrical to each other. The first guide portion 193 supports both upper surfaces of the passages, A third guide part 195 and a fourth guide part 196 which are formed at a predetermined distance below the first guide part 193 and the second guide part 194 to support the lower surface of the passbook, And a fifth guide part 197 formed at the middle part of the outlet 192 to support the middle part of the upper surface of the passbook.

The lower surfaces of the first guide part 193 and the second guide part 194 are formed at the same height as the lower ends of the roller members constituting the separating part 180 and are separated from the separating part 180 and conveyed to the rear side The upper surface of the passbook is guided to be conveyed in an aligned state without being bulged upward. The first guide part 193 and the second guide part 194 are formed to protrude forward and backward from the upper end of the outlet 192. First ribs 193a and 194a are positioned on the inner side of the first guide part 193 and the second guide part 194 on the left and right sides of the center of the outlet 192, Two ribs 193b and 194b are formed to protrude forward and rearward from the upper end of the outlet 192. The distal ends of the second ribs 193b and 194b are formed so as to protrude forward from the distal ends of the first ribs 193a and 194a As shown in Fig. The upper surfaces of both sides of the passages passing through the separating portion 180 and transferred to the outlet 192 are first brought into contact with the distal ends of the second ribs 193b and 194b and thereafter the front ends of the first ribs 193a and 194a Since the second ribs 193b and 194b contact both sides of the upper surface of the passbook at the same time, the degree of alignment of the passbook can be improved.

The passages supported on the upper surface by the first guide portion 193 and the second guide portion 194 and conveyed toward the outlet 192 include a first guide portion 193 and the second guide portion 194 and the third guide portion 195 and the fourth guide portion 196 protruding rearward from the lower end of the outlet 192, The upper and lower surfaces of the passbook passing through the outlet 192 can be stably supported and taken out to the outside of the cassette apparatus 100. [

The fifth guide part 197 (197a, 197b) positioned between the first guide part 193 and the second guide part 194 and protruding frontward has a bottom surface which is inclined with respect to the first guide part 193 and the second guide part 194 And is formed at a position higher than the lower surface of the guide portion 194. Therefore, the passages entering the outlet 192 side are pressed by the first guide portion 193 and the second guide portion 194 in the upper side of the both side portions, while the central portion of the passageway rising upward, 5 guide portion 197 in the downward direction. Therefore, the upper surface of the passbook passing through the outlet 192 is supported by the first guide portion 193 and the second guide portion 194 so as not to be slid to one side, and is guided by the fifth guide portion 197 The central portion of the top surface is prevented from bulging, and the passbook can be passed through the outlet 192 in an aligned state.

When the upper surface of the passbook collides with the first guide portion 193, the second guide portion 194 and the fifth guide portion 197, an impact is applied to the gate member 190. In this case, The position of the outlet 190 is shifted upward and the outlet 192 is displaced from the predetermined position and the collision of the impact with the gate member 190 may deteriorate the alignment of the passbook. In order to prevent such a problem, the gate member 190 is configured to absorb an impact that a passbook is struck on the guide portions 193, 194, 197, and to allow the outlet 192 to be restored to a predetermined position by an elastic member 114 And is elastically supported. 3, an upper end of the elastic member 114 is supported at both lower ends of the body portion 191 of the gate member 190, and a lower end of the elastic member 114 is engaged with an engagement pin 113 formed on the back surface of the body 110. [ As shown in FIG.

9, a guide hole 198 is formed in the shape of a long hole in the vertical direction, and the gate member 190 is connected to the guide hole 198 And is supported so as to be movable up and down by a guide protrusion 112 which is inserted into the main body 110 and fastened to the main body 110. A support member 111 may be coupled between the guide protrusion 112 and the guide hole 198 to prevent the guide protrusion 112 from separating from the guide protrusion 112. [

When the passive element is struck by the guide portions 193, 194 and 197 of the gate member 190, the gate member 190 is moved upward by a predetermined length to absorb the impact, and after the predetermined length is moved upward, The elasticity of the elastic member 114 acting in the direction of the elastic member 114 returns the elastic member 114 to the original position and the outlet 192 can maintain the fixed position. According to the gate member 190 configured as described above, when the passbook stored in the storage space S is taken out, the passbook is guided in a state aligned toward the outlet 192, passes smoothly through the outlet 192, .

As described above, according to the present invention, when the door 120 is opened, the lock mechanism 170 can be locked, but the height of the passbook compartment S can be easily adjusted by the user, The locked state of the lock mechanism 170 is automatically released so that the passbook stacked in the passbook accommodation space S is pressed toward the separating portion 180 located at the upper side, The passbook is smoothly taken out without being caught by the plurality of guide portions provided on the gate member 190, thereby preventing malfunction of the apparatus and improving the reliability of passbook issuance.

100: cassette device 110: main body
111: support member 112: guide projection
113: engaging pin 114: elastic member
120: door 130:
131: handle 132: connection axis
133: elastic member 134: stopper
135: engaging member 140: lifting member
141: body portion 142: push plate
143: handle portion 144a, 144b: connection bracket
145: elastic member 150: guide plate
160: lifting mechanism 161a, 161b: guide rail
162a, 162b, 162c: shafts 163a, 163b:
164a, 164b: second pulley 165a: first belt
165b: second belt 166a: first roller
166b: second roller 167a: first elastic member
167b: second elastic member 170: locking mechanism
171: Latch gear 172: Shaft
173: Lock lever 173a:
173b: push portion 173c: elastic member
173d: projecting portion 174: ascending / descending bracket
174a: Through hole 174b:
174c: guide hole 175: guide projection
176: elastic member 180:
190: gate member 191:
192: outlet 193: first guide part
193a, 194a: first ribs 193b, 194b:
194: second guide part 195: third guide part
196: fourth guide part 197: fifth guide part
198: Guide hole

Claims

A main body 110 having a storage space S for storing passbooks therein;
An ascending / descending member (140) disposed inside the main body (110) so as to be movable up and down and having a passageway on an upper surface thereof;
A lifting mechanism 160 interlocked with the lifting member 140 in the main body 110 so that the lifting member 140 moves in the vertical direction; And
The lifting mechanism 160 is provided between the lifting mechanism 160 and the main body 110 to limit the operation of the lifting mechanism 160. When the lifting mechanism 160 is restricted from operating, And a locking mechanism (170) for restricting upward movement of the lifting member (140) and allowing downward movement of the lifting member (140) when a force greater than a predetermined value is applied downward to the lifting member (140) / RTI >

The method according to claim 1,
The lifting / lowering mechanism (160)
Guide rails (161a, 161b) vertically installed on both sides of the ascending / descending member (140) and vertically installed on both sides of the inside of the main body (110);
First pulleys 163a and 163b rotatably disposed on the upper and lower sides of the main body 110 to one side of the storage space S;
Second pulleys 164a and 164b rotatably disposed on the upper and lower sides of the main body 110 to the other side of the storage space S;
A first belt 165a vertically disposed at one side of the storage space S to be connected to the first pulleys 163a and 163b and having one end coupled to one side of the lifting member 140;
And a second belt 165b disposed on the other side of the storage space S to be connected to the second pulleys 164a and 164b and one end of which is coupled to the other side of the lifting member 140 Cassette device of passbook issuer.

3. The method of claim 2,
A first roller 166a and a second roller 166b are rotatably provided on both sides of the upper portion of the main body 110. The first and second rollers 166a, The first elastic member 167a and the second elastic member 167b which are supported at both ends of the lifting member 140 and the main body 110 are provided so as to be stretched so that an upward elastic force acts on the lifting member 140 Wherein the cassette ejecting device is a cassette ejecting device for a passbook issuer.

3. The method of claim 2,
The lock mechanism (170)
A latch gear 171 coupled to a shaft 162c to which the first pulley 163b and the second pulley 164b are coupled and a latch gear 171 rotatably provided at one side of the latch gear 171, And a lock lever (173) for restricting the rotation of the card issuer.

5. The method of claim 4,
The latch lever 173 includes a latch portion 173a which is pivoted around the shaft 172 and selectively engaged with the latch gear 171. The latch portion 173a is engaged with the latch gear 171, In a direction perpendicular to the longitudinal direction of the main body of the passbook issuing machine.

5. The method of claim 4,
A door 120 is provided on the front surface of the main body 110 to open and close the main body 110,
A locking part 130 for locking the door 120 to the main body 110 is provided between the other side of the door 120 and the main body 110,
The lock portion 130 is pivoted in conjunction with opening and closing of the door 120 so as to be locked or unlocked between the latch gear 171 of the lock mechanism 170 and the lock lever 173 Cassette device of passbook issuer.

The method according to claim 6,
The locking part 130 includes a handle 131 protruding outwardly from the door 120 and a connecting shaft 130 coupled to one end of the handle 131 and extending to the inside of the main body 110 132 and an engaging member 135 coupled to an extended end of the connecting shaft 132,
The lock lever 173 is detached from the latch gear 171 when the lock portion 130 is rotated in one direction by being hooked on the latch member 135, And a lifting bracket 174 for locking the lock lever 173 to the latch gear 171 as the engagement with the latching member 135 is released and lowered when the locking unit 130 is rotated in the opposite direction And the cassette unit of the passbook issuer.

8. The method of claim 7,
The locking portion 130 is elastically supported so that the engaging member 135 is rotated in a direction in which the engaging member 135 is engaged with the lifting and lowering bracket 174,
Wherein a stopper (134) is provided between the connecting shaft (132) and the engaging member (135) to limit a bidirectional rotational angle range of the connecting shaft (132) within a predetermined range.

8. The method of claim 7,
The locking bracket 174 is formed with a locking hole 174d into which the protruding portion 173d protruding from the lock lever 173 is inserted to interlock with the upward / And the lock lever (173) is pivoted.

8. The method of claim 7,
A guide hole 174c is formed in the up / down bracket 174 in the shape of an elongated hole. A guide protrusion 175 fixed to the main body 110 is inserted into the guide hole 174c, The upward and downward movement of the bracket 174 is guided,
And an elastic member (176) is provided at one side of the ascending / descending bracket (174) to provide a downward elastic force to the ascending / descending bracket (174).

6. The method of claim 5,
The lock lever 173 is extended from one end of the latch portion 173a so that when the latch lever 173 is pressed in one direction, the lock lever 173a is engaged with the latch gear 171 to release the engagement between the latch portion 173a and the latch gear 171, Further comprising a push portion (173b) for pivoting the cassette ejecting portion.

12. The method of claim 11,
And a closure plate (115) for limiting access to the push portion (173b) is disposed on the front side of the push portion (173b).

The method according to claim 1,
The ascending / descending member (140)
A body portion 141 which is coupled to both sides of the lifting mechanism 160 so as to be interlocked with the lifting mechanism 160;
A push plate 142 coupled horizontally to an upper portion of the body portion 141 and having a passbook on its upper surface; And
And a grip portion 143 spaced below the push plate 142 and horizontally coupled to the lower portion of the body portion 141. The cassette apparatus of Claim 1,

14. The method of claim 13,
An elastic member 145 for providing an upward elastic force to the push plate 142 is spaced apart from the upper surface of the body 141 and the bottom surface of the push plate 142. [ Cassette device of passbook issuer.