CN110544338B - Width adjusting mechanism and automatic banknote receiving hopper thereof - Google Patents

Abstract

The width regulating mechanism comprises a width regulating plate, and a width regulating slide plate part is fixed on the width regulating plate; the width adjusting plates are respectively positioned at two sides of the banknote receiving plate, one end of the width adjusting slide plate part on each width adjusting plate passes through the width adjusting slide groove and is respectively connected and fixed with one end of the first width adjusting driving plate and one end of the second width adjusting driving plate, the first width adjusting inclined plate and the second width adjusting inclined plate are respectively arranged at one ends of the first width adjusting driving plate and the second width adjusting driving plate, which are close to each other, and the space between the first width adjusting inclined plate and the second width adjusting inclined plate is gradually reduced from bottom to top; the first width adjusting inclined plate and the second width adjusting inclined plate are respectively tightly attached to the outer wall of the width adjusting driving wheel, the width adjusting driving wheel is arranged at one end of the second width adjusting driving rod through a second rotating shaft, and the other end of the second width adjusting driving rod is hinged with one end of the first width adjusting driving rod through a first rotating shaft; the other end of the first width adjusting driving rod is eccentrically hinged with a width adjusting driving disc, and the width adjusting driving disc is arranged on an output shaft of a width adjusting motor.

Description

Width adjusting mechanism and automatic banknote receiving hopper thereof

Technical Field

The invention relates to financial equipment, in particular to a width adjusting mechanism and an automatic banknote receiving hopper thereof.

Background

In the process of banknote distribution by a financial institution, a banknote receiving hopper is indispensable and is mainly used for receiving and stacking output banknotes. Most of the prior bill receiving hoppers adopt fixed groove-shaped structures, and the width, depth and height of the bill receiving hoppers are fixed. However, the length and the width of different paper money are different, the heights of the paper money outlets of different paper money outlet devices from the ground are also different, and once the heights are too large, the paper money can easily incline in the falling process to cause the paper money to fall into the paper money receiving hopper in a scattered manner, so that the paper money cannot be stacked, and the use is seriously affected. When the difference between the length and the size of the paper money is large, the paper money is possibly disordered in the length direction in the paper money receiving hopper, and the paper money is also easily folded and scattered. The large difference between the width dimensions of the bill receiving hopper and the bill can also cause the bill to be scattered in the width direction, thereby influencing the use.

In this regard, the applicant has devised a width adjustment mechanism and an automated bill receiving hopper thereof, which can adjust the height of the bill receiving plate, the width of the width adjustment plate, and the relative depth of the bill receiving plate and the bill in the width direction when receiving the bill, thereby preventing the bill from being scattered and disordered.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention is to provide a width adjusting mechanism and an automatic bill receiving hopper thereof, wherein the width adjusting mechanism can adjust the distance between two width adjusting plates, so as to adapt to bills with different lengths.

In order to achieve the above object, the present invention provides a width adjusting mechanism, comprising a width adjusting plate, on which a width adjusting slide plate part is fixed; the width adjusting plates are respectively positioned at two sides of the banknote receiving plate, one end of the width adjusting slide plate part on each width adjusting plate passes through the width adjusting slide groove and is respectively connected and fixed with one ends of the first width adjusting driving plate and the second width adjusting driving plate, the first width adjusting inclined plate and the second width adjusting inclined plate are respectively arranged at one ends, close to each other, of the first width adjusting driving plate and the second width adjusting driving plate, and the distance between the first width adjusting inclined plate and the second width adjusting inclined plate is gradually reduced from bottom to top; the first width adjusting inclined plate and the second width adjusting inclined plate are respectively tightly attached to the outer wall of the width adjusting driving wheel, the width adjusting driving wheel is installed at one end of the second width adjusting driving rod in a circumferential rotation mode through a second rotating shaft, and the other end of the second width adjusting driving rod passes through the width adjusting guide plate and then is hinged with one end of the first width adjusting driving rod through the first rotating shaft;

the width adjusting guide plate is fixed on the vertical plate, the other end of the first width adjusting driving rod is eccentrically hinged with the width adjusting driving disc through a third rotating shaft, and the width adjusting driving disc is arranged on an output shaft of the width adjusting motor.

Preferably, the top of the width adjusting plate is provided with a first banknote guiding inclined plate which is inclined from one end close to the banknote receiving plate to the other end from bottom to top and gradually away from the banknote receiving plate.

Preferably, the width adjusting motor is fixed on the bottom plate through a motor bracket.

Preferably, the vertical plate is also provided with a reset supporting plate, the reset supporting plate is positioned on one side of the width adjusting sliding plate part, which is far away from the width adjusting sliding groove, the reset supporting plate is fixedly assembled with one end of a spring rod, the other end of the spring rod passes through the width adjusting sliding plate part and is fixedly assembled with the inner wall of the shell, and the width adjusting sliding plate part can slide in the axial direction of the spring rod; the spring rod is sleeved with a reset pressure spring on the part between the width adjusting slide plate part and the inner wall of the shell.

The invention also discloses an automatic banknote receiving hopper, which is applied with the width adjusting mechanism.

Preferably, the banknote receiving machine also comprises a shell and a banknote receiving plate, wherein a top plate and a bottom plate are respectively arranged at the top and the bottom of the shell, the bottom plate is provided with a bottom plate edge, the top plate is provided with a banknote receiving wheel groove, a banknote receiving wheel is arranged in the banknote receiving wheel groove, the banknote receiving wheel is arranged on a banknote receiving shaft, the banknote receiving shaft is respectively assembled with a first banknote receiving shaft plate and a second banknote receiving shaft plate in a circumferential rotation manner, the first banknote receiving shaft plate and the second banknote receiving shaft plate are respectively arranged on a banknote receiving mounting plate, and the banknote receiving mounting plate is fixed on the top plate;

one end of the bill receiving shaft penetrates out of the first bill receiving shaft plate and then is assembled and fixed with the second gear, the second gear is meshed with the first gear for transmission, the first gear is fixed on a bill receiving output shaft, the bill receiving output shaft is arranged in a bill receiving motor, and the bill receiving motor is arranged on the bill receiving mounting plate;

the shell internally mounted has the riser, is provided with height-adjusting spout, width-adjusting spout on the riser, height-adjusting spout, width-adjusting spout respectively with height-adjusting slider part, width-adjusting slider part block and slidable assembly of width-adjusting mechanism of height-adjusting mechanism.

Preferably, the banknote receiving shaft is provided with a coding disc, a plurality of penetrating coding grooves are uniformly formed in the circumferential direction of the coding disc, and the coding disc is provided with the coding grooves to be installed in the coder at the edge.

Preferably, the height adjusting mechanism comprises a height adjusting driving plate, the height adjusting driving plate is provided with a height adjusting sliding block part, a height adjusting driving part and a height adjusting induction piece, the height adjusting sliding block part and the height adjusting driving part are respectively provided with a height adjusting sliding cylinder and a height adjusting thread cylinder at one side far away from the banknote receiving plate after penetrating through the vertical plate, the height adjusting sliding cylinder and the height adjusting thread cylinder are respectively sleeved on a height adjusting guide rod and a height adjusting screw rod, two ends of the height adjusting guide rod are respectively fixed on a bottom plate and a banknote receiving mounting plate, the height adjusting screw rod is coaxially assembled and fixed with an output shaft of the height adjusting motor, and the axis of the height adjusting screw rod is parallel to the axis of the height adjusting guide rod in the vertical direction;

the height-adjusting sliding cylinder can slide in the axial direction of the height-adjusting guide rod, and the height-adjusting threaded cylinder is assembled with the height-adjusting screw rod through threaded screwing; the banknote receiving plate is fixed on one side of the height-adjusting driving plate, which is far away from the height-adjusting slide cylinder, and can move along with the movement of the height-adjusting driving plate.

Preferably, the height-adjusting driving plate is further provided with a height-adjusting sensing piece, the vertical plate is fixed with a detection mounting plate along the axial direction of the height-adjusting guide rod, the detection mounting plate is respectively provided with a first positioning sensor, a second positioning sensor and a third positioning sensor, the first positioning sensor, the second positioning sensor and the third positioning sensor are photoelectric sensors, positioning slots capable of enabling the height-adjusting sensing piece to penetrate through are formed in the first positioning sensor, the second positioning sensor and the third positioning sensor, and when the height-adjusting sensing piece is installed in the positioning slots, the first positioning sensor, the second positioning sensor or the third positioning sensor corresponding to the positioning slots outputs electric signals.

Preferably, the depth adjusting mechanism further comprises a depth adjusting motor, an output shaft of the depth adjusting motor is coaxially assembled and fixed with one end of a depth adjusting screw rod, the other end of the depth adjusting screw rod penetrates through the vertical plate and the depth adjusting driving plate respectively and then is assembled with the edge of the bottom plate in a circumferential rotation manner, the depth adjusting screw rod and the vertical plate can be assembled in a circumferential rotation manner, the depth adjusting screw rod and the depth adjusting screw barrel are assembled in a threaded screwing manner, and the depth adjusting screw barrel is fixed on the depth adjusting driving plate;

the two bottom plate edges are respectively arranged on two sides of the vertical plate, the two bottom plate edges are respectively assembled and fixed with two ends of the depth adjusting guide rod, the depth adjusting guide rod is sleeved with a depth adjusting sliding cylinder, the depth adjusting sliding cylinder is fixed on the depth adjusting driving plate, and the depth adjusting sliding cylinder can slide in the axial direction of the depth adjusting guide rod; a depth adjusting installation block is fixed on the depth adjusting driving plate, and a depth adjusting door plate is installed on the depth adjusting installation block;

the inner wall of the depth adjusting installation block is a hollow hinge cavity, a first hinge ring and a second hinge ring are installed in the hinge cavity, and door plate hinge shafts are installed in the first hinge ring and the second hinge ring respectively; the door plate hinge shaft penetrates through the door plate hinge block and can be assembled in a circumferential rotation mode relative to the door plate hinge block, and the door plate hinge block is arranged on the depth adjusting door plate; the door plate hinge shaft is sleeved with a door plate torsion spring which is used for generating torsion force for enabling the depth adjusting door plate to rotate towards the depth adjusting installation block; the end part of the depth adjusting driving plate is provided with a depth adjusting sensing piece, and a fourth positioning sensor and a fifth positioning sensor are arranged on the inner wall of the shell, at positions corresponding to the depth adjusting sensing piece and along the axial direction of the depth adjusting guide rod.

The beneficial effects of the invention are as follows:

1. the invention has simple structure, and can adjust the distance between the two width adjusting plates, the height of the bill receiving plate and the assembly depth of the bill receiving plate and the bill, thereby preventing the bill from being folded, disordered and the like caused by disorder or falling at high positions in the width and length directions of the bill, and ensuring the bill to be stacked.

2. The width adjusting mechanism can adjust the width between the two width adjusting plates through the width adjusting mechanism, so that the width of the two width adjusting plates can be adjusted to be not only capable of completely receiving paper money, but also not too large to cause dislocation of paper money in the length direction when the paper money is used.

3. The invention can realize the adjustment of the distance between the depth adjusting door plate and the vertical plate through the depth adjusting module, thereby adjusting the depth of the paper money arranged in the paper money receiving plate to prevent the paper money from dislocation in the width direction.

Drawings

Fig. 1 to 11 are schematic structural views of the present invention. Wherein fig. 5, 6, 7, 8 are each cross-sectional views A-A, B-B, C-C, D-D of fig. 4.

Fig. 12-13 are schematic structural diagrams of the width-adjusting component and the height-adjusting component of the present invention.

Fig. 14 to 17 are schematic structural views of the present invention.

FIGS. 18 to 19 are schematic views showing a depth adjusting mechanism according to the present invention

FIG. 20 is a schematic view of a structure of a height-adjusting driving plate according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-20, an automatic bill receiving hopper comprises a housing 110, wherein a top plate 130 and a bottom plate 120 are respectively arranged at the top and the bottom of the housing 110, a bottom plate edge 121 is arranged on the bottom plate 120, a bill receiving wheel groove 131 is arranged on the top plate 130, a bill receiving wheel 210 is arranged in the bill receiving wheel groove 131, the bill receiving wheel 210 is arranged on a bill receiving shaft 420, the bill receiving shaft 420 is respectively assembled with a first bill receiving shaft plate 181 and a second bill receiving shaft plate 182 in a circumferential rotation manner, the first bill receiving shaft plate 181 and the second bill receiving shaft plate 182 are respectively arranged on a bill receiving mounting plate 180, and the bill receiving mounting plate 180 is fixed on the top plate 130;

one end of the bill receiving shaft 420 penetrates through the first bill receiving shaft plate 181 and then is assembled and fixed with the second gear 232, the second gear 232 is meshed and driven with the first gear 231, the first gear 231 is fixed on the bill receiving output shaft 511, the bill receiving output shaft 511 is arranged in the bill receiving motor 510, the bill receiving motor 510 can drive the bill receiving output shaft 511 to circumferentially rotate after being electrified, and the bill receiving motor 510 is arranged on the bill receiving mounting plate 180;

the banknote receiving shaft 420 is provided with a code disc 220, a plurality of through code grooves are uniformly formed in the circumferential direction of the code disc 220, the code disc 220 is provided with the code grooves to be installed in the encoder 540, and the encoder 540 can be a photoelectric sensor. In use, the coding disc 220 rotates circumferentially, so that the coding groove continuously passes through the encoder to judge the rotation angle and rotation speed of the coding disc.

The vertical plate 140 is installed in the housing 110, the vertical plate 140 is provided with a height-adjusting chute 141 and a width-adjusting chute 142, and the height-adjusting chute 141 and the width-adjusting chute 142 are respectively clamped with a height-adjusting slide block part 811 of the height-adjusting mechanism and a width-adjusting slide plate part 352 of the width-adjusting mechanism and can be assembled in a sliding manner;

the height adjusting mechanism comprises a height adjusting driving plate 810, the height adjusting driving plate 810 is provided with a height adjusting sliding block part 811, a height adjusting driving part 812 and a height adjusting sensing piece 813, the height adjusting sliding block part 811 and the height adjusting driving part 812 respectively are provided with a height adjusting sliding cylinder 330 and a height adjusting threaded cylinder 380 at one side far away from the banknote receiving plate 320 after passing through the vertical plate 140, the height adjusting sliding cylinder 330 and the height adjusting threaded cylinder 380 are respectively sleeved on a height adjusting guide rod 430 and a height adjusting screw rod 450, two ends of the height adjusting guide rod 430 are respectively fixed on the bottom plate 120 and the banknote receiving mounting plate 180, the height adjusting screw rod 450 is coaxially assembled and fixed with an output shaft of the height adjusting motor 520, and the axis of the height adjusting screw rod 450 is parallel to the axis of the height adjusting guide rod 430 in the vertical direction;

the height-adjusting slide cylinder 330 can slide axially on the height-adjusting guide rod 430, the height-adjusting screw cylinder 380 and the height-adjusting screw 450 are assembled by screwing together through threads, and when the height-adjusting screw 450 rotates circumferentially, the height-adjusting screw cylinder 380 can be driven to move axially, so that the height-adjusting driving plate 810 is driven to move synchronously;

the vertical plate 140 is fixed with a detection mounting plate 192 along the axial direction of the height-adjusting guide rod 430, the detection mounting plate 192 is respectively provided with a first positioning sensor 551, a second positioning sensor 552 and a third positioning sensor 553, the first positioning sensor 551, the second positioning sensor 552 and the third positioning sensor 553 are all photoelectric sensors, a positioning slot capable of enabling the height-adjusting sensing piece 813 to pass through is formed in the vertical plate, and when the height-adjusting sensing piece 813 is installed in the positioning slot, the first positioning sensor 551, the second positioning sensor 552 and the third positioning sensor 553 corresponding to the positioning slot can output electric signals, so that the position of the height-adjusting driving plate in the height direction can be judged.

The bill receiving plate 320 is fixed on the side of the height adjusting driving plate 810 away from the height adjusting slide cylinder 330, and can move along with the movement of the height adjusting driving plate 810. When the paper money receiving device is used, the position of the paper money receiving plate 320 in the axial direction of the height-adjusting guide rod 430 can be adjusted by forward and backward rotation of the motor, so that the position of the paper money receiving plate can be adjusted according to the distance between the paper money at the top of the paper money receiving plate and the paper money outlet of the paper money outlet device, and the paper money can be prevented from being scattered after the distance is too large. In actual use, the banknote receiving plate is firstly located at the third positioning sensor 553, namely the topmost part, then the downward moving speed of the banknote receiving plate can be adjusted according to the banknote outlet speed until the banknote receiving plate reaches the second positioning sensor 552 (the second positioning sensor 552 generates potential change), then the speed reduction of the heightening motor starts to stop, until the first positioning sensor 551 is reached, the heightening motor stops running, and the banknote receiving hopper is judged to have reached the maximum banknote receiving height.

Preferably, the bottom of the bill receiving plate 320 is provided with a photoelectric sensor 556, the photoelectric sensor 556 is used for detecting whether the bill is placed on the bill receiving plate 320, the principle is that the photoelectric sensor 556 emits light beams to the top surface of the bill receiving plate 320, once articles are placed on the top surface of the bill receiving plate 320, the light beams are reflected back to the photoelectric sensor 556 to be received, and the photoelectric sensor 556 outputs an electric signal, so that the bill receiving is judged to be started.

Preferably, the banknote receiving plate 320 is disposed obliquely upward from an end near the vertical plate to an end of the depth adjusting door plate 310. This design is primarily intended to prevent the banknote on the banknote acceptor plate 320 from falling off one end of the depth gate plate 310.

The width adjusting mechanism comprises a width adjusting plate 350, a first banknote guiding inclined plate 351 which is inclined from one end close to the banknote receiving plate to the other end and gradually away from the banknote receiving plate from bottom to top is arranged at the top of the width adjusting plate 350, and a width adjusting sliding plate portion 352 is also fixed on the width adjusting plate 350; the width adjusting plates 350 are two and are respectively positioned at two sides of the banknote receiving plate 320, one end of the width adjusting slide plate part 352 on each width adjusting plate 350 passes through the width adjusting chute 142 and is respectively connected and fixed with one ends of the first width adjusting driving plate 160 and the second width adjusting driving plate 170, one ends, close to each other, of the first width adjusting driving plate 160 and the second width adjusting driving plate 170 are respectively provided with the first width adjusting inclined plate 161 and the second width adjusting inclined plate 171, and the space between the first width adjusting inclined plate 161 and the second width adjusting inclined plate 171 is gradually reduced from bottom to top; the first width adjusting inclined plate 161 and the second width adjusting inclined plate 171 are respectively tightly attached to the outer wall of the width adjusting driving wheel 240, the width adjusting driving wheel 240 is installed at one end of the second width adjusting driving rod 480 in a circumferential rotation manner through the second rotating shaft 622, and the other end of the second width adjusting driving rod 480 is hinged with one end of the first width adjusting driving rod 470 through the first rotating shaft 621 after passing through the width adjusting guide plate 191;

the width adjusting guide plate 191 is fixed on the vertical plate 140, the other end of the first width adjusting driving rod 470 is eccentrically hinged with the width adjusting driving plate 250 through a third rotating shaft 623 (the third rotating shaft 623 is not coaxial with the width adjusting driving plate 250), the width adjusting driving plate 250 is mounted on an output shaft of the width adjusting motor 530, and the width adjusting motor 530 is fixed on the bottom plate 120 through the motor bracket 150.

The vertical plate 140 is further provided with a reset supporting plate 340, the reset supporting plate 340 is located at one side of the width adjusting sliding plate portion 352 away from the width adjusting sliding groove 142, the reset supporting plate 340 is fixedly assembled with one end of the spring rod 440, the other end of the spring rod 440 passes through the width adjusting sliding plate portion 352 and is fixedly assembled with the inner wall of the housing 110, and the width adjusting sliding plate portion 352 can slide in the axial direction of the spring rod 440; the spring rod 440 is sleeved with a reset pressure spring 610 on a portion between the width adjustment slide plate portion 352 and the inner wall of the housing 110, and the reset pressure spring 610 is used for generating a pushing force for pushing the width adjustment slide plate portion 352 to the width adjustment driving wheel 240.

When the distance between the two width adjustment plates 350 needs to be adjusted, only the width adjustment motor 530 needs to be started, and the width adjustment motor 530 drives the width adjustment driving disc 250 to rotate circumferentially, so as to drive the width adjustment driving wheel 240 to move up or down between the first width adjustment inclined plate 161 and the second width adjustment inclined plate 171. When moving upwards, the width adjusting driving wheel 240 pushes the first width adjusting inclined plate 161 and the second width adjusting inclined plate 171 to be far away from each other, so that the distance between the two width adjusting plates 350 is increased; when moving downwards, the first width adjusting inclined plate 161 and the second width adjusting inclined plate 171 are respectively driven by the elastic force of the reset pressure spring 610 to approach each other, so that the distance between the two width adjusting plates 350 is reduced. The width adjustment guide plate is used for ensuring that the second width adjustment driving rod 480 can only move axially.

A depth adjusting motor 560 of a depth adjusting mechanism is mounted on a portion between the motor support 150 and the bottom plate 120, an output shaft of the depth adjusting motor 560 is coaxially assembled and fixed with one end of a depth adjusting screw 410, the other end of the depth adjusting screw 410 passes through the vertical plate 140 and the depth adjusting driving plate 620 respectively and then is assembled with the edge 121 of the bottom plate in a circumferential rotation manner, the depth adjusting screw 410 and the vertical plate 140 are assembled in a circumferential rotation manner, the depth adjusting screw 410 and the depth adjusting screw barrel 360 are assembled in a screw thread screwing manner, and the depth adjusting screw barrel 360 is fixed on the depth adjusting driving plate 620, so that the depth adjusting driving plate 620 can be driven to move in the axial direction when the depth adjusting screw 410 rotates circumferentially;

the two bottom plate edges 121 are respectively arranged on two sides of the vertical plate 140, the two bottom plate edges 121 are respectively assembled and fixed with two ends of the depth adjusting guide rod 460, the depth adjusting guide rod 460 is sleeved with the depth adjusting slide tube 370, the depth adjusting slide tube 370 is fixed on the depth adjusting driving plate 620, and the depth adjusting slide tube 370 can slide axially on the depth adjusting guide rod 460, so that guiding is provided for movement of the depth adjusting driving plate 620.

The depth adjusting driving plate 620 is fixed with a depth adjusting mounting block 710, the inner wall of the depth adjusting mounting block 710 is a hollow hinge cavity 713, a first hinge ring 711 and a second hinge ring 712 are mounted in the hinge cavity 713, and door panel hinge shafts 720 are mounted in the first hinge ring 711 and the second hinge ring 712 respectively; the door hinge shaft 720 penetrates the door hinge block 312 and is assembled in a rotatable manner with respect to the door hinge block 312, and the door hinge block 312 is disposed on the depth adjusting door plate 310, thereby achieving hinge assembly between the depth adjusting door plate 310 and the depth adjusting mounting block 710.

The door hinge shaft 720 is sleeved with a door torsion spring 730, and the door torsion spring 730 is used for generating torsion force for rotating the depth adjusting door plate 310 towards the depth adjusting mounting block 710, so as to keep the depth adjusting door plate 310 rotating and tightly attached to the depth adjusting mounting block 710, that is, keep the depth adjusting door plate 310 closed.

The top of the depth adjusting mounting block 710 and the top of the depth adjusting door plate 310 are respectively provided with a third banknote guide plate 714 and a second banknote guide plate 311, which have the same inclination direction as the first banknote guide plate. The first banknote guide plate 351, the third banknote guide plate 714 and the second banknote guide plate 311 are mainly designed to increase the openings for the banknotes to enter the banknote receiving plate 320, the width adjusting plate and the depth adjusting plate, so that the banknotes are convenient to enter.

The end of the depth adjusting driving plate 620 is provided with a depth adjusting sensing plate 621, a fourth positioning sensor 554 and a fifth positioning sensor 555 are disposed on the inner wall of the housing 110 and at positions corresponding to the depth adjusting sensing plate 621 and along the axial direction of the depth adjusting guide rod 460, and the fourth positioning sensor 554, the fifth positioning sensor 555 and the first positioning sensor are of the same type, and are also electric signals generating potential changes when the depth adjusting sensing plate 621 is installed into the positioning slot inside the housing, so as to determine the position of the depth adjusting driving plate 620, that is, determine the distance between the depth adjusting door plate 310 and the vertical plate. The fourth positioning sensor 554 and the fifth positioning sensor 555 correspond to the two displacement ends with the largest distance between the depth adjusting door panel 310 and the vertical plate.

When the distance between the depth adjusting door plate 310 and the vertical plate needs to be adjusted, the depth adjusting motor 560 is started, and the depth adjusting motor drives the depth adjusting screw 410 to rotate circumferentially, so as to drive the depth adjusting driving plate 620 to move in the axial direction.

When the paper money width adjusting device is used, firstly, the distance between the two width adjusting plates is adjusted according to the paper money size, so that the distance between the two width adjusting plates is slightly larger than the paper money size; then, the distance between the depth adjusting door plate 310 and the vertical plate is adjusted to be slightly larger than the width of the paper money, and then the paper money receiving plate 320 is adjusted to the top; finally, the banknote receiving starts, and the banknote receiving plate gradually moves downwards according to the banknote discharging speed in the banknote receiving process until reaching the first positioning sensor, so that the banknote receiving is completed. Then the depth adjusting door plate 310 is opened, and the paper money on the paper money receiving plate is taken out. The banknote output speed can be judged according to the rotating speed of the banknote receiving wheel detected by the encoder.

The present invention is not described in detail in the present application, and is well known to those skilled in the art.

The foregoing describes in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the invention by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (7)

1. The utility model provides a width mechanism is transferred which characterized in that: the device comprises a width adjusting plate, wherein a width adjusting slide plate part is fixed on the width adjusting plate; the width adjusting plates are respectively positioned at two sides of the banknote receiving plate, one end of the width adjusting slide plate part on each width adjusting plate passes through the width adjusting slide groove and is respectively connected and fixed with one ends of the first width adjusting driving plate and the second width adjusting driving plate, the first width adjusting inclined plate and the second width adjusting inclined plate are respectively arranged at one ends, close to each other, of the first width adjusting driving plate and the second width adjusting driving plate, and the distance between the first width adjusting inclined plate and the second width adjusting inclined plate is gradually reduced from bottom to top; the first width adjusting inclined plate and the second width adjusting inclined plate are respectively tightly attached to the outer wall of the width adjusting driving wheel, the width adjusting driving wheel is installed at one end of the second width adjusting driving rod in a circumferential rotation mode through a second rotating shaft, and the other end of the second width adjusting driving rod passes through the width adjusting guide plate and then is hinged with one end of the first width adjusting driving rod through the first rotating shaft;

the width adjusting guide plate is fixed on the vertical plate, the other end of the first width adjusting driving rod is eccentrically hinged with the width adjusting driving disc through a third rotating shaft, and the width adjusting driving disc is arranged on an output shaft of the width adjusting motor;

the top of the width adjusting plate is provided with a first banknote guiding inclined plate which is inclined from one end close to the banknote receiving plate to the other end from bottom to top and gradually away from the banknote receiving plate;

the width adjusting motor is fixed on the bottom plate through a motor bracket;

the vertical plate is also provided with a reset supporting plate, the reset supporting plate is positioned on one side of the width adjusting sliding plate part, which is far away from the width adjusting sliding groove, the reset supporting plate is fixedly assembled with one end of a spring rod, the other end of the spring rod passes through the width adjusting sliding plate part and is fixedly assembled with the inner wall of the shell, and the width adjusting sliding plate part can slide in the axial direction of the spring rod; the spring rod is sleeved with a reset pressure spring on the part between the width adjusting slide plate part and the inner wall of the shell.

2. An automatic change and connect paper money fill, characterized by: the width adjusting mechanism of claim 1 is applied.

3. An automated banknote receiving hopper as claimed in claim 2 wherein: the paper money receiving machine further comprises a shell and a paper money receiving plate, wherein a top plate and a bottom plate are respectively arranged at the top and the bottom of the shell, the bottom plate is provided with a bottom plate edge, a paper money receiving wheel groove is formed in the top plate, paper money receiving wheels are arranged in the paper money receiving wheel groove, the paper money receiving wheels are arranged on paper money receiving shafts, the paper money receiving shafts are respectively assembled with a first paper money receiving shaft plate and a second paper money receiving shaft plate in a circumferential rotation manner, the first paper money receiving shaft plate and the second paper money receiving shaft plate are respectively arranged on a paper money receiving mounting plate, and the paper money receiving mounting plate is fixed on the top plate;

one end of the bill receiving shaft penetrates out of the first bill receiving shaft plate and then is assembled and fixed with the second gear, the second gear is meshed with the first gear for transmission, the first gear is fixed on a bill receiving output shaft, the bill receiving output shaft is arranged in a bill receiving motor, and the bill receiving motor is arranged on the bill receiving mounting plate;

the shell internally mounted has the riser, is provided with height-adjusting spout, width-adjusting spout on the riser, height-adjusting spout, width-adjusting spout respectively with height-adjusting slider part, width-adjusting slider part block and slidable assembly of width-adjusting mechanism of height-adjusting mechanism.

4. An automated banknote receiving hopper as claimed in claim 3 wherein: the banknote receiving shaft is provided with a coding disc, a plurality of penetrating coding grooves are uniformly formed in the circumferential direction of the coding disc, and the coding disc is provided with the coding grooves and is arranged in the coder in a mode of being installed at the edge.

5. An automated banknote receiving hopper as claimed in claim 3 wherein: the height adjusting mechanism comprises a height adjusting driving plate, a height adjusting sliding block part, a height adjusting driving part and a height adjusting induction piece are arranged on the height adjusting driving plate, a height adjusting sliding cylinder and a height adjusting threaded cylinder are respectively arranged on one side, far away from the banknote receiving plate, of the height adjusting sliding block part and the height adjusting driving part after penetrating through the vertical plate, the height adjusting sliding cylinder and the height adjusting threaded cylinder are respectively sleeved on a height adjusting guide rod and a height adjusting screw rod, two ends of the height adjusting guide rod are respectively fixed on a bottom plate and a banknote receiving mounting plate, the height adjusting screw rod is coaxially assembled and fixed with an output shaft of a height adjusting motor, and the axis of the height adjusting screw rod is parallel to the axis of the height adjusting guide rod in the vertical direction;

the height-adjusting sliding cylinder can slide in the axial direction of the height-adjusting guide rod, and the height-adjusting threaded cylinder is assembled with the height-adjusting screw rod through threaded screwing; the banknote receiving plate is fixed on one side of the height-adjusting driving plate, which is far away from the height-adjusting slide cylinder, and can move along with the movement of the height-adjusting driving plate.

6. An automated banknote receiving hopper as claimed in claim 5 wherein: the height-adjusting driving plate is further provided with a height-adjusting induction piece, the vertical plate is fixedly provided with a detection mounting plate along the axial direction of the height-adjusting guide rod, the detection mounting plate is respectively provided with a first position-finding sensor, a second position-finding sensor and a third position-finding sensor, the first position-finding sensor, the second position-finding sensor and the third position-finding sensor are photoelectric sensors, positioning slots capable of enabling the height-adjusting induction piece to penetrate through are formed in the first position-finding sensor, the second position-finding sensor and the third position-finding sensor, corresponding to the positioning slots, output electric signals when the height-adjusting induction piece is installed in the positioning slots.

7. An automated banknote receiving hopper as claimed in claim 3 wherein: the depth adjusting mechanism comprises a depth adjusting motor, an output shaft of the depth adjusting motor is coaxially assembled and fixed with one end of a depth adjusting screw rod, the other end of the depth adjusting screw rod penetrates through a vertical plate and a depth adjusting driving plate respectively and then is assembled with the edge of a bottom plate in a circumferential rotation manner, the depth adjusting screw rod and the vertical plate can be assembled in a circumferential rotation manner, the depth adjusting screw rod and a depth adjusting screw barrel are assembled in a screw thread screwing manner, and the depth adjusting screw barrel is fixed on the depth adjusting driving plate;

the two bottom plate edges are respectively arranged on two sides of the vertical plate, the two bottom plate edges are respectively assembled and fixed with two ends of the depth adjusting guide rod, the depth adjusting guide rod is sleeved with a depth adjusting sliding cylinder, the depth adjusting sliding cylinder is fixed on the depth adjusting driving plate, and the depth adjusting sliding cylinder can slide in the axial direction of the depth adjusting guide rod; a depth adjusting installation block is fixed on the depth adjusting driving plate, and a depth adjusting door plate is installed on the depth adjusting installation block;

the inner wall of the depth adjusting installation block is a hollow hinge cavity, a first hinge ring and a second hinge ring are installed in the hinge cavity, and door plate hinge shafts are installed in the first hinge ring and the second hinge ring respectively; the door plate hinge shaft penetrates through the door plate hinge block and can be assembled in a circumferential rotation mode relative to the door plate hinge block, and the door plate hinge block is arranged on the depth adjusting door plate; the door plate hinge shaft is sleeved with a door plate torsion spring which is used for generating torsion force for enabling the depth adjusting door plate to rotate towards the depth adjusting installation block; the end part of the depth adjusting driving plate is provided with a depth adjusting sensing piece, and a fourth positioning sensor and a fifth positioning sensor are arranged on the inner wall of the shell, at positions corresponding to the depth adjusting sensing piece and along the axial direction of the depth adjusting guide rod.