KR20140052584A - Apparatus for turning cover of bankbook - Google Patents

Abstract

Disclosed is a device for carrying a cover of a bankbook forwards. The device for carrying a cover of a bankbook forwards in accordance with the present invention includes a main body; a transfer unit which transfers the bankbook from a carry forward transfer path and is mounted on the main body; a carry forward unit carrying forwards the cover of the bankbook transferred by the transfer unit; and a shutter unit making a cover carrying space of a new bankbook by rotating a shutter in the upper part of the carry forward transfer path or guiding the transfer of the new bankbook by reversely rotating the shutter.

Description

{APPARATUS FOR TURNING COVER OF BANKBOOK}

More particularly, the present invention relates to a passbook type marker device which is installed in a module form on a passbook issuer and can carry a label having a thick thickness exactly in comparison with a folded form of a new passbook in a folded state. .

In general, among financial automation devices such as an ATM (automated teller machine), a device that handles passbooks has a function of printing transaction data of passbooks on passbook media and issuing them.

In particular, a financial automation device that handles passbooks against a large number of customers may be required to store old passbooks safely and accurately and to provide reliability of new passbooks while maximizing customer convenience.

In addition, a banking automation apparatus handling a bankbook is required to store a banknote medium to be used for generating a new banknote in a stable manner, to reliably pick up and transfer the banknote, to transfer money quickly, To be limited.

As a background technology of the invention, bidirectional carryover and carryover of patent documents can be recognized. The passbook page reversing device is put in a state in which the passbook is laid open. The passbook page, which is a thick passbook page, can be carried forward bidirectionally. There is a disadvantage in that it is not possible to carry over a relatively thick thickness of cover, as it has a thickness difference which is superior to that of the cover.

That is, when the thick cover is carried over, the thickness of the passbook in the rolled state becomes thin, thereby causing a gap between the conveyance roller and the guide roller used for conveying the passbook, and the conveying performance may be deteriorated.

In addition, since the cover and the inlay can be carried over at once due to the friction between the cover and the inlay, the thickness of the passbook can not be predicted to a predetermined size. Therefore, the gap between the conveying roller and the guide roller . However, in the conventional passbook page reversing device of the patent document, there is no means for adjusting the gap, so that the passbook page can be carried over and the passbook mark is not sufficiently transferred and conveyed.

Japanese Patent Application Laid-Open No. 10-0539440

The present invention provides a transfer shaft coupled to an upper guide so as to have a clearance in the vertical direction, wherein a rotary shaft portion and a roller shaft portion are connected to both ends of a joint portion having a clearance of the transfer shaft, and the roller shaft portion of the transfer shaft The cover of the new passbook corresponding to the passbook or the passbook medium is removed by removing the gap between the conveying roller and the guide roller when the passbook is rolled so that the cover of the new passbook brought in the folded state can be accurately conveyed and conveyed I would like to provide a banknote display device.

According to an aspect of the present invention, A transfer unit mounted on the main body and transferring the passbook flow from the transfer conveyance path; A carry section for carrying the cover of the passbook conveyed by the conveyance section; And a shutter unit which rotates the shutter at the upper portion of the carryover path to make a cover carry space of the new passbook or to rotate the shutter backward to guide the conveyance of the new passbook.

The main body may include a front frame coupled to the feed motor of the feed unit and the shutter motor of the shutter unit; A rear frame spaced apart from and parallel to the front frame and coupled with a carry motor of the carry section; A plate-shaped upper guide connected between the front frame and the rear frame; And a plate-shaped lower guide connected between the front frame and the rear frame to form the carry-over conveying path below the upper guide.

The conveying unit may include: a conveying motor mounted on a motor bracket of a front frame of the main body; A feed gear assembly coupled to a motor shaft of the feed motor; A drive shaft connected to the feeder gear assembly and rotatably coupled between the front frame and the rear frame of the main body; A drive pulley coupled to the drive shaft; A conveyance belt having one end of the belt coupled to the drive pulley; A driven pulley coupling the other end of the belt of the conveyance belt; And a driven shaft connected to the driven pulley and rotatably coupled between the front frame and the rear frame.

The conveying portion may include: a tensioning pulley contacting the outer surface of the conveyance belt; A tensioning shaft rotatably supporting the tensioning pulley and fixed between the front frame and the rear frame; An interlocking shaft disposed parallel to the position between the tensioning shaft and the driven shaft and rotatably coupled between the front frame and the rear frame; An interlocking pulley coupled to the interlocking shaft and receiving power from the conveyance belt; An interlocking gear coupled to the interlocking shaft and the drive shaft, respectively; A transmission gear engaged with the interlocking gear; A transfer shaft for receiving a driving force synchronized through the transfer gears, respectively; And a plurality of transport rollers coupled to the transport shaft.

The transfer unit may further include a first manual rotation lever coupled to an end of the drive shaft protruding outward from the rear frame.

In addition, the carryover portion may include a carry motor coupled to a rear frame of the main body; A carryover gear assembly coupled to the motor shaft of the carryover motor; A carry shaft connected to the carryover gear assembly and rotatably coupled between the front frame and the rear frame of the main body; And a plurality of carry grips connected to the carry shaft and protruding perpendicularly to the axial direction of the carry shaft to carry over the cover of the passbook.

In addition, the carry grip may be formed of a rubber material or a urethane material, which is capable of exhibiting a frictional force and an elastic force.

In addition, the carry grip may form a hollow shaft between a portion connected to the carry shaft and an end of the carry grip.

The shutter unit may include a shutter motor coupled to a front frame of the main body by a motor bracket; A shutter gear assembly coupled to a motor shaft of the shutter motor; A shutter shaft connected to the shutter gear assembly and rotatably coupled between the front frame and the rear frame of the main body; And a shutter coupled to the shutter shaft between the front frame and the rear frame.

The shutter unit may further include a second manual rotation lever coupled to an end of the shutter shaft protruding outward from the front frame.

The shutter may further include: a shutter connection portion connected to the shutter shaft; A horizontally extending guide end formed to be inclined toward the carry grip at the shutter connecting portion; And a pusher projecting from the shutter connecting portion in a direction opposite to the guide end.

In addition, the shutter portion may include a stopper which contacts the bottom of the pusher after rotation of the shutter to provide an elastic supporting force.

The stopper may further include a stopper plate having a plurality of pin holes, the stopper plate having a "?" A stopper spring located between the stopper plate and an upper guide of the main body; A guide pin inserted in the stopper spring and protruding from the upper surface of the upper guide and extending through the pin hole of the stopper plate; And a stop ring coupled to an end of the guide pin and stopping the vertical movement of the stopper spring within a predetermined stroke range.

The transfer shaft may include: a rotary shaft having the transfer gear to receive a driving force from the interlocking gear of the drive shaft; A conveying shaft portion having the conveying roller; And a joint portion for interconnecting the rotary shaft portion and the feed shaft portion so as to be able to rotate and bend.

In addition, the upper portion of the idler shaft around the conveying shaft and the conveying shaft can be pressed by the elastic portion.

In the embodiment of the present invention, when the new passbook corresponding to the passbook or the passbook medium is folded in the rolled-up conveying path between the upper guide and the lower guide, and then the cover of the new passbook is carried , Since the thickness of the cover sheet is relatively thicker than that of the new passbook, a gap relatively larger than the thickness difference of the inward sheet may be generated, which may cause a problem in conveying the new passbook. The roller shaft portion and the rotary shaft portion of the conveying shaft are connected by a joint portion having a clearance so that the roller shaft portion and the rotary shaft portion of the conveying shaft can move in the vertical direction and the roller shaft portion of the conveying shaft is moved in a vertical direction, So that it can adapt to the thickness change of the new passbook according to the carryover of the new passbook, As may be removed, after the February cover has the advantage that can be accurately transferred to new account.

In addition, the embodiment of the present invention has an advantage in that it can smoothly guide the new passbook to carry over, since the shutter of the shutter portion can be rotated to make the cover carry-over space of the new passbook and the shutter of the shutter portion can be rotated backward have.

Further, the embodiment of the present invention is advantageous in that it is possible to stop the rotation of the shutter quickly by providing a shutter shaft rotated to the shutter motor, a shutter coupled to the shutter shaft and having a pusher, and a stopper elastically supporting the pusher of the shutter .

Further, in the embodiment of the present invention, first to fourth guide plates, which are respectively coupled to the ends of the upper guide and the lower guide so as to be used also as the bidirectional conveyance passage of the new carryover passage, So that importing and exporting can be accurately performed.

1 is a perspective view of a passbook type indicating apparatus according to an embodiment of the present invention,
Fig. 2 is a bottom view of the banknote marking apparatus shown in Fig. 1,
FIG. 3 is a plan view of the banknote marking apparatus shown in FIG. 1,
Fig. 4 is a right side view of the banknote display device shown in Fig. 3,
Fig. 5 is a left side view of the passbook type indicating apparatus shown in Fig. 3,
6 is a cross-sectional view taken along the line AA shown in Fig. 3,
7 is a cross-sectional view of line BB shown in Fig. 3,
8 is a cross-sectional view of the line CC shown in Fig. 3,
FIG. 9 is an enlarged view of the main part of the banknote display device shown in FIG. 1,
FIGS. 10 to 13 are cross-sectional views for explaining a method of operating the banknote marking apparatus shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art.

In the description of this embodiment, the passbook medium or the passbook type is a new passbook to be newly issued according to the arrangement of the old passbooks in the passbook issuer, and is stored in the new passbook cassette in a folded state , A workpiece or a work which is carried from the new banknote cassette to the marking apparatus or is carried out to the inlaid printing module beside the marking apparatus after the cover is carried over. In the detailed description, the passbook can be referred to as a new passbook, and in the claims, it can be called a passbook as a new passbook or a passbook.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a banknote marking apparatus according to an embodiment of the present invention; FIG.

Referring to FIG. 1, the banknote display device according to the present embodiment can be installed in a main frame of a banking automation device as a module type. The banknote can be installed between a new banknote cassette (not shown) and an inlaid printing module And a main body 100 detachably mounted on the main frame based on the position.

The present embodiment may include a transfer unit 200 mounted on the main body 100 for transferring (for example, advancing or retracting) the new passbook in the transfer conveying path 109.

Since the carry-over conveying path 109 is a passage through which a new passbook in a folded state or a passbook in a stretched state passes, but corresponds to a space that carries a cover of a new passbook in a folded state, It can have a passage hole thickness.

Therefore, the conveying rollers 225a, 225b (or 226b, 226b) are brought into close contact with the conveying rollers 225a, 225b, 226a, 226b to a new passbook having a relatively thin thickness and a relatively thick thickness as a folded state, , 226a, 226b can be provided on the carry-back conveying path 109, and this power transmitting structure can be described with reference to Fig. 6 below.

On the other hand, the present embodiment is characterized in that it includes a carryover section 300 for carrying a cover of a passbook conveyed by the conveyance section 200, that is, a cover of a new passbook, And a shutter unit 400 for guiding the conveyance of the new passbook by making the cover carry space of the new passbook or rotating the shutter 420 in the reverse direction.

The main body 100 includes a front frame 101 to which the conveying motor 210 of the conveying unit 200 and the shutter motor 410 of the shutter unit 400 are coupled, A plate-shaped upper guide 103 connected between the front frame 101 and the rear frame 102 and a lower frame 103 connected to the rear frame 102 to which the carry motor 310 of the upper guide 103 is coupled, A lower plate guide 104 connected between the front frame 101 and the rear frame 102 so as to form the backward conveying path 109 in the front frame 101 and the rear frame 102, Beam 105. < / RTI > Here, the upper guide 103 may have a clearance corresponding to the shape of the opening 420 or the shutter 420 in which the shutter 420 of the shutter 400 can be rotated, or may have a shutter passage area of a relatively large size have.

On both sides of the upper guide 103, a first guide plate 103a and a second guide plate 103b which are inclined upwardly and have serrated ends may be formed.

On both sides of the lower guide 104, a third guide plate 104a (see FIG. 2 and FIG. 3) and a fourth guide plate 104b which are inclined downwardly and have serrated ends can be formed.

Fig. 2 is a bottom view of the banknote marking apparatus shown in Fig. 1. Fig.

The conveyance unit 200 includes a conveyance motor 210 mounted on a motor bracket of a front frame 101 of the main body 100 shown in FIG. 1, a conveyance gear assembly 211 coupled to a motor shaft of the conveyance motor 210, A drive shaft 212 connected to the feed gear assembly 211 and rotatably coupled between the front frame 101 and the rear frame 102 and a drive pulley 213 coupled to the drive shaft 212, A driven pulley 215 coupled to the other end of the conveyor belt 214 and a driven pulley 215 coupled to the driven pulley 215 and coupled to the front frame 101, And a driven shaft 216 rotatably coupled between the rear frame 102.

The conveyance unit 200 includes a tensioning pulley 217 that contacts the outer surface of the conveyance belt 214 and a tensioning pulley 217 that rotatably supports the tensioning pulley 217 and is disposed between the front frame 101 and the rear frame 102 And may further include a fixed tensioning shaft 218.

A bushing or a bearing is interposed between the hub of the tensioning pulley 217 and the circumferential surface of the tensioning shaft 218 and a stopping pulley 217 is provided to prevent a slippage along the axial direction of the tensioning shaft 218 The ring may be further provided in the ring groove of the tensioning shaft 218.

6 is a cross-sectional view taken along the line A-A shown in Fig. 3, Fig. 7 is a cross-sectional view taken along the line B-B shown in Fig. 3, and Fig. 8 is a cross-sectional view taken along the line C-C shown in Fig.

2 and 7, the transfer unit 200 is disposed parallel to the position between the tensioning shaft 218 and the driven shaft 216 and rotatably between the front frame 101 and the rear frame 102 An interlocking pulley 220 coupled to the interlocking shaft 219 and receiving power from the conveying belt 214 and an interlocking pulley 220 coupled to the interlocking shaft 219 and the driving shaft 212, And gears 221 and 222, respectively. The interlocking gears 221 and 222 position the gear teeth of the interlocking gears 221 and 222 in the inner spaces of the gear openings 104c and 104d of the lower guide 104, respectively.

FIG. 3 is a plan view of the banknote marking apparatus shown in FIG. 1. FIG.

2 and 3, the gear teeth of the interlocking gears 221 and 222 of FIG. 2 are engaged with the transmission gears 223 and 224 of FIG. 3 through the gear openings 104c and 104d, respectively.

That is, the transfer unit 200 includes transfer gears 223 and 224 engaged with the interlocking gears 221 and 222, transfer shafts 225 and 226 that receive the driving force synchronized through the transfer gears 223 and 224, And a plurality of conveying rollers 225a, 225b, 226a, 226b coupled to the conveying shafts 225, 226, respectively.

Fig. 4 is a right side view of the banknote marking apparatus shown in Fig. 3, and Fig. 5 is a left side view of the banknote marking apparatus shown in Fig.

4 and 5, the transfer unit 200 may further include a first manual rotation lever 227 coupled to an end portion of the drive shaft 212 protruding outward of the rear frame 102.

3 and 5, the carryover part 300 includes a carry motor 310 coupled to the rear frame 102, a carry gear assembly 311 coupled to the motor shaft of the carry motor 310, A backward shaft 312 connected to the gear assembly 311 and rotatably coupled between the front frame 101 and the rear frame 102 and a connecting shaft 312 connected to the backward shaft 312, 314 (see FIG. 1) which are vertically protruded from the back of the new passbook and carry over the cover of the new passbook.

The carry grips 313 and 314 may be formed of a material capable of exerting a frictional force and an elastic force such as a rubber material or a urethane material.

The carry grips 313 and 314 are formed with a void portion 315 between a portion connected to the carry shaft 312 and an end portion of the carry grips 313 and 314 so that an elastic force or a resilient force , It is possible to carry over the mark of the new passbook precisely while minimizing the friction slip with the new passbook.

1 and 3, the shutter unit 400 includes a shutter motor 411 coupled to the front frame 101 by a motor bracket 411, a shutter gear assembly 411 coupled to a motor shaft of the shutter motor 410, A shutter shaft 413 connected to the shutter gear assembly 412 and rotatably coupled between the front frame 101 and the rear frame 102 and a shutter shaft 413 projecting outward from the front frame 101 A second manual rotation lever 414 coupled to an end of the shutter shaft 413 and a shutter 420 coupled to the shutter shaft 413 between the front frame 101 and the rear frame 102 have.

3 and 7, the shutter 420 includes a shutter connecting portion 421 connected to the shutter shaft 413, and a horizontally elongated guide formed obliquely toward the carry grips 313 and 314 in the shutter connecting portion 421. [ An end portion 422 and a pusher 423 projecting in the direction opposite to the guide end portion 422 in the shutter connecting portion 421. [

The shutter connection portion 421 may be formed in a C-shaped cross-section so as to be detachable while enclosing the shutter shaft 413. The shutter connection portion 421 may be formed by a bolt hole and a fixing bolt formed in the thickness direction of the shutter connection portion 421, Or may be coupled to the shutter shaft 413.

The pusher 423 can be rotated in a direction opposite to the rotation of the guide end portion 422 when the axis of the shutter shaft 413 is the center of rotation because the pusher 423 is located opposite to the guide end portion 422. [

The shutter unit 400 has a stopper 430 which contacts the bottom of the pusher 423 after rotation of the shutter 420 to provide an elastic supporting force.

The stopper 430 includes a stopper plate 431 having a plurality of pin holes and formed in a vertical section of the pusher 423 and a stopper plate 431 disposed between the stopper plate 431 and the upper guide 103 A guide pin 433 inserted in the stopper spring 432 and extending from the upper surface of the upper guide 103 so as to penetrate the pin hole of the stopper plate 431, And a stop ring 434 that stops the vertical movement of the stopper spring 432 within a predetermined stroke range.

Here, the stopper plate 431 may be movably coupled to the stopper plate guide hole of the upper guide 103 in the vertical direction.

The pusher 423 of the shutter 420 can contact the stopper plate 431 after the shutter 420 rotates at a predetermined rotation angle. At this time, since the stopper spring 432 supports the stopper plate 431 and the pusher 423 by spring elastic force, it is possible to stop the rotation of the shutter 420 or to shock the shock generated when the shutter 420 comes into contact with the pusher 423 have.

When the shutter 420 is reversely rotatable, the stopper plate 431 applies an elastic repulsive force to push the pusher 423 of the shutter 420 upward, so that the reverse rotation of the shutter 420 rapidly .

6, the conveying shaft 226 includes a rotary shaft portion 216c having a conveying gear 224 for receiving a driving force from the interlocking gear 222 of the driving shaft 212, a plurality of conveying rollers 226a And a joint portion 216e for interconnecting the rotary shaft portion 216c and the feed shaft portion 216d so as to be able to rotate and bend.

The joint portion 216e is a connecting means capable of turning and bending such as a universal joint. The joint portion 216e has a fitting groove and a fitting protrusion at one end of the joint portion 216e, And other fitting grooves and fitting protrusions may be formed in the direction orthogonal to or intersecting with the fitting protrusions.

Accordingly, the conveying shaft 226 moves in the vertical direction (the left-right direction in FIG. 6) of the shaft shaft center in correspondence with the thickness change of the new passbook to be conveyed by performing the rotation R in conjunction with the drive shaft 212 L), it can always be brought into close contact with the new passbook.

Referring to Fig. 8, the transfer shaft 226 includes a rotary shaft portion 216c coupled to a groove of a rotary support bracket (not shown) (see reference numeral 240 in Fig. 9) in the form of a U- And an elastic part 250 fixed to the spring coupling part 230 at a position spaced apart from the rotary shaft part 216c and pressing the upper part of the rotary shaft part 216c by the elastic force of the free end. Here, the elastic part 250 may be formed of a leaf spring, but the spirit of the present invention is not limited thereto.

For example, referring to FIG. 9, a transfer shaft 225 on the side of the shutter unit 400 is rotatably coupled to a rotation support bracket 240.

The rotation support bracket 240 is open at the top and rotatably seats the transfer shaft 225 and the transfer gear 223.

At this time, since the upper portion of the rotation support bracket 240 is opened, the conveyance shaft 225, the transmission gear 223, and the conveyance roller 225a are also moved in the direction of the axis of the shaft corresponding to the change in thickness of the new passbook according to the overturning of the new passbook. As shown in Fig.

However, the other elastic portion 251 may be formed so that one end of the elastic portion 251 is connected to the other end of the elastic member 251 in a spring-loaded manner so as to prevent excessive movement or excessive shaking of the transfer shaft 225, the transfer gear 223, The upper end of the transfer shaft 225 can be pressed by the elastic force of the elastic portion 251 by fixing the free end of the elastic portion 251 to the upper portion of the transfer shaft 225 and fixing the free end of the elastic portion 251 to the upper portion of the transfer shaft 225,

The coupling and acting structure of the other elastic portion 251 may be the same as the structure for pressing the idle shaft 260 of this embodiment by elastic force.

Here, the idle shaft 260 may be disposed parallel to the transfer shaft 225, and may be rotatably coupled to the upper guide.

That is, another elastic portion 252 may be coupled to the periphery of the idle shaft 260 by the above-mentioned elastic portion 251 in a coupling manner.

Hereinafter, an operation method of the passbook type indicating apparatus according to the present embodiment will be described.

FIGS. 10 to 13 are cross-sectional views for explaining a method of operating the banknote marking apparatus shown in FIG.

10, a new passbook M in a folded state from an apparatus (for example, an elevator apparatus) located at the periphery of the bankbook marking apparatus is carried to the carry-over conveyance route 109 of the main body 100. [

The new passbook M is conveyed to the stop position of the carry grip 313 of the carryover part 300 corresponding to the rotation of the conveyance belt and the conveyance roller of the conveyance part 200 and then stopped. The transfer unit 200 recognizes the stop position of the new passbook M and stops the transfer of the new passbook M to the sensor (not shown) installed in the main body 100, .

In this case, as shown in FIG. 11, the new passbook M can be positively positioned at the carryover position while raising the shutter 420 of the shutter unit 400 upward.

At this time, the pusher 423 of the shutter 420 is elastically supported by the stopper 430 and can be quickly stopped. Also, the stopper 430 can support the new passbook M by the elastic force of the stopper 430.

Referring to FIG. 12, the carry grip 313 rotates (Q) and carries the cover of the new passbook M.

At this time, the shutter 420 is rotated (P) so as to make a cover carry space capable of carrying the cover of the new passbook M on the carry-in conveying route 109 in accordance with the operation control of the shutter motor .

In this case, the mark of the new passbook M may be placed in the guide groove 441 of the cover guide 440.

Referring to FIG. 13, the driving unit 200 starts to feed the new passbook M in the carrying-out direction, so that the cover of the new passbook M can be fully opened.

In addition, the old passbook (not shown) may be transferred from the right side of the carryback path 109 to the left side in a unfolded state, or from the left side of the carryback path 109 to the right side.

At this time, the spherical roller is conveyed in an unfolded state, but even if it has a relatively thin thickness compared with the new passbook M, the conveyance roller of the conveyance shaft, which can be elastically restrained by the elastic portion and can be bent and rotated by the joint portion, And the conveyance belt.

100: main body 200:
210: Feed motor 250, 251, 252:
300: Transferring section 310: Transferring motor
313, 314: carry grip 400:
410: shutter motor 420: shutter
423: pusher 430: stopper

Claims (15)

main body;
A transfer unit mounted on the main body and transferring the passbook flow from the transfer conveyance path;
A carry section for carrying the cover of the passbook conveyed by the conveyance section; And
And a shutter unit which rotates the shutter at an upper portion of the carry-in conveying path to make a cover carry-over space of the new passbook or to guide the conveyance of the new passbook by reversely rotating the shutter.
The method according to claim 1,
The main body includes:
A front frame coupled to the conveying motor of the conveying unit and the shutter motor of the shutter unit;
A rear frame spaced apart from and parallel to the front frame and coupled with a carry motor of the carry section;
A plate-shaped upper guide connected between the front frame and the rear frame; And
And a plate-shaped lower guide connected between the front frame and the rear frame so that the carry-over conveying path is formed below the upper guide.
The method according to claim 1,
The transfer unit
A transport motor mounted on a motor bracket of a front frame of the main body;
A feed gear assembly coupled to a motor shaft of the feed motor;
A drive shaft connected to the feeder gear assembly and rotatably coupled between the front frame and the rear frame of the main body;
A drive pulley coupled to the drive shaft;
A conveyance belt having one end of the belt coupled to the drive pulley;
A driven pulley coupling the other end of the belt of the conveyance belt; And
And a driven shaft connected to the driven pulley and rotatably coupled between the front frame and the rear frame.
The method of claim 3,
The transfer unit
A tensioning pulley contacting the outer surface of the conveyance belt;
A tensioning shaft rotatably supporting the tensioning pulley and fixed between the front frame and the rear frame;
An interlocking shaft disposed parallel to the position between the tensioning shaft and the driven shaft and rotatably coupled between the front frame and the rear frame;
An interlocking pulley coupled to the interlocking shaft and receiving power from the conveyance belt;
An interlocking gear coupled to the interlocking shaft and the drive shaft, respectively;
A transmission gear engaged with the interlocking gear;
A transfer shaft for receiving a driving force synchronized through the transfer gears, respectively; And
And a plurality of conveying rollers coupled to the conveying shaft.
5. The method of claim 4,
The transfer unit
Further comprising: a first manual rotation lever coupled to an end of the drive shaft protruding outwardly of the rear frame.
The method according to claim 1,
The carry-
A carry motor coupled to a rear frame of the main body;
A carryover gear assembly coupled to the motor shaft of the carryover motor;
A carry shaft connected to the carryover gear assembly and rotatably coupled between the front frame and the rear frame of the main body; And
And a plurality of carry grips connected to the carry shaft and projecting perpendicularly to the axial direction of the carry shaft to carry over the cover of the passbook.
The method according to claim 6,
The carry grip
Rubber material or urethane material, which is formed of a material that can exert frictional force and elastic force.
The method according to claim 6,
The carry grip
And a hollow hole is formed between a portion connected to the carry shaft and an end of the carry grip.
The method according to claim 1,
Wherein,
A shutter motor coupled to the front frame of the main body by a motor bracket;
A shutter gear assembly coupled to a motor shaft of the shutter motor;
A shutter shaft connected to the shutter gear assembly and rotatably coupled between the front frame and the rear frame of the main body; And
And a shutter coupled to the shutter shaft between the front frame and the rear frame.
10. The method of claim 9,
Wherein,
And a second manual rotation lever coupled to an end of the shutter shaft protruded outward from the front frame.
10. The method of claim 9,
The shutter
A shutter connection portion connected to the shutter shaft;
A horizontally extending guide end formed to be inclined toward the carry grip at the shutter connecting portion; And
And a pusher projecting from the shutter connecting portion in a direction opposite to the guide end.
12. The method of claim 11,
Wherein,
And a stopper contacting the bottom of the pusher after rotation of the shutter to provide an elastic supporting force.
12. The method of claim 11,
The stopper
A stopper plate having a plurality of pin holes formed in an "a"
A stopper spring located between the stopper plate and an upper guide of the main body;
A guide pin inserted in the stopper spring and protruding from the upper surface of the upper guide and extending through the pin hole of the stopper plate; And
And a stop ring coupled to an end of the guide pin and stopping the vertical movement of the stopper spring within a predetermined stroke range. 5. The method of claim 4,
The feed shaft
A rotary shaft having the transmission gear to receive a driving force from an interlocking gear of the driving shaft;
A conveying shaft portion having the conveying roller; And
And a joint portion for interconnecting the rotary shaft portion and the feed shaft portion so as to be rotatable and bendable.
The method of claim 3,
And the upper portion of the idler shaft around the conveying shaft and the conveying shaft can be pressed by the elastic portion.

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