CN216211309U - Self-service reimbursement terminal - Google Patents

Abstract

The utility model relates to a self-service reimbursement terminal which comprises a rack, a material loading part, a charging mechanism and a conveying mechanism. The machine frame is used for bearing a material loading part, a loading mechanism and a conveying mechanism, the material loading part is used for bearing a material to be reimbursed, the loading mechanism is used for loading the material to be reimbursed, and the conveying mechanism is used for connecting and driving the material loading part. The material loading part is provided with a discharge chute, the material loading mechanism comprises a material unloading part positioned at the edge of an opening of the material loading box, and the material unloading part can stretch into the discharge chute of the material loading part to butt against the material to be sold. Under the drive of the conveying mechanism, the material loading part moves relative to the material unloading part of the material loading mechanism, namely the material unloading part moves relative to the material unloading groove of the material loading part. Because the material to be reported and cancelled is by the piece butt of unloading, the removal of the material to be reported and cancelled receives the restriction of unloading the piece, and the material to be reported and cancelled also carries the material piece motion with unloading the piece together relatively. When the material loading part is completely separated from the lower part of the material to be reported, the material to be reported loses the support of the material loading part and is separated from the material loading part, and the material is accurately transferred into the charging box.

Description

Self-service reimbursement terminal

Technical Field

The utility model relates to the technical field of material sorting, in particular to a self-service reimbursement terminal.

Background

At present, enterprises adopt reimbursement terminals to realize automatic processing of reimbursement bills.

However, when the existing self-service reimbursement terminal is used for boxing the reimbursement bill, the transfer of the reimbursement bill is not accurate enough and is easy to lose.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a self-service reimbursement terminal.

A self-service reimbursement terminal, comprising:

a frame;

the material carrying part is movably arranged in the rack, a discharge chute is formed in the material carrying part, and the material carrying part is used for carrying materials to be reimbursed;

the loading mechanism comprises a loading box and a discharging part, the discharging part is arranged on the rack, the loading box is provided with a loading position relative to the rack, when the loading box is at the loading position, the discharging part is positioned at the opening edge of the loading box, and the discharging part is used for extending into the discharging groove and abutting against the material to be printed; and

the conveying mechanism is arranged on the rack and used for connecting and driving the material loading part to move relative to the material unloading part so that the material unloading part extends into the material unloading groove and transfers the material to be distributed on the material loading part into the material loading box.

Above-mentioned self-service reimbursement terminal, its material loading piece is used for accepting the material of reimbursement for treatment, and conveying mechanism is used for connecting and drives the relative charging box motion of charging mechanism of material loading piece to with the material of reimbursement for treatment on the material loading piece shift to in the charging box.

The material loading mechanism comprises a loading box and a material unloading part arranged on the rack, wherein the loading box is arranged at a loading position, the material unloading part is positioned at the opening edge of the loading box, and the material unloading part can stretch into the material unloading groove of the loading part to abut against a material to be sold. Under the drive of the conveying mechanism, the material loading part moves relative to the material unloading part of the material loading mechanism, namely the material unloading part moves relative to the material unloading groove of the material loading part.

Because the material to be reported and cancelled is by the piece butt of unloading, the removal of the material to be reported and cancelled receives the restriction of unloading the piece, and the material to be reported and cancelled also carries the material piece motion with unloading the piece together relatively. When the material loading part completely departs from the lower part of the material to be distributed, the material to be distributed loses the support of the material loading part and departs from the material loading part, and the material is accurately transferred into the charging box. The transfer process of the material to be distributed can be completed only by depending on the structure of the discharge chute of the material loading part and matching with the discharge part. Therefore, the discharging piece and the discharging groove are simple in structure and simple in movement, and the transfer of the materials to be reported is more efficient and reliable in the process.

In one embodiment, the discharge chute is an open chute and the opening of the discharge chute provides a passageway for the discharge member to exit the discharge chute.

In one embodiment, the carrier member has a first position and a second position relative to the discharge member, the carrier member being positioned directly above the hopper when the carrier member is in the first position, the discharge member extending into the discharge chute and being positioned at the bottom of the discharge chute, the carrier member being positioned directly above the hopper when the carrier member is in the second position, and the discharge member being positioned away from the discharge chute.

In one embodiment, the conveying mechanism comprises:

the first transmission assembly is arranged on the rack;

the first fixing frame is connected with the first transmission assembly and driven by the first transmission assembly to move along a first direction;

the second transmission assembly is arranged on the first fixing frame; and

the second fixing frame is connected with the second transmission assembly and driven by the second transmission assembly to move along a second direction, and the second fixing frame is connected with and synchronously drives the material loading part to reach the first position or the second position;

wherein a line connecting the first position and the second position is parallel to the second direction, and the first direction and the second direction are perpendicular to each other.

In one embodiment, the size of the discharge chute is greater than the size of the material to be reimbursed in the second direction.

In one embodiment, the discharge chutes comprise a first discharge chute and a second discharge chute spaced along one side of the carrier member, and the discharge members comprise a first discharge member and a second discharge member spaced along one side of the hopper, wherein the spacing between the first discharge chute and the second discharge chute is equal to the spacing between the first discharge member and the second discharge member.

In one embodiment, the self-service reimbursement terminal comprises a limiting piece for limiting the movement of the material to be reimbursed, and the limiting piece is arranged on the edge of the material carrying piece along the extending direction parallel to the discharge chute.

In one embodiment, the limiting members include a first limiting member and a second limiting member, the first limiting member is fixedly connected to one side edge of the material loading member, and the second limiting member is located at the other side edge of the material loading member and is fixedly connected to the rack or the material loading member.

In one embodiment, the loading mechanism comprises an automatic box sealing assembly, the loading box comprises a box body and a box cover, and the automatic box sealing assembly is used for enabling the box cover to automatically close the box body.

In one embodiment, the loading box is movably arranged on the frame, the box cover is connected to the opening edge of the box body and can rotate relative to the box body, and the self-sealing box assembly comprises a clamping piece arranged in the frame and can be telescopically arranged; when the charging box is in an open state and is located at the charging position, the clamping part extends out and is located on one side, back to the box cover, for covering the box body, so that when the charging box is moved out of the rack, the clamping part can be abutted and drive the box cover to overturn relative to the box body to close the box body.

In one embodiment, the self-service box sealing assembly further comprises a driving element arranged in the rack, the driving element is used for connecting and driving the clamping element to stretch and retract, when the loading box is in the material bearing position, the driving element is located on one side of the loading box and drives the clamping element to extend out, so that the clamping element reaches the side, opposite to the box cover, for covering the box body, and when the driving element drives the clamping element to retract, the clamping element leaves the movement path of the loading box.

In one embodiment, the rack is provided with a material taking port, the charging mechanism comprises a base and a partition plate, the base is arranged at the material taking port, the partition plate is used for connecting and driving the base to extend and retract relative to the material taking direction of the material taking port, the base is used for placing the charging box, and when the charging box is at the charging position, the partition plate covers the material taking port.

In one embodiment, the loading mechanism includes a slide rail, the slide rail is disposed in the frame and parallel to the material taking direction of the material taking port, and the base is slidably disposed on the slide rail.

Drawings

Fig. 1 is a perspective view of a self-service reimbursement terminal provided in an embodiment of the present invention;

fig. 2 is a perspective view of an internal structure of a self-service reimbursement terminal according to an embodiment of the present invention;

FIG. 3 is a perspective view of the material loading member of the self-service reimbursement terminal shown in FIG. 1 receiving a material to be reimbursed;

FIG. 4 is a perspective view of a carrier in a third position in accordance with one embodiment of the present invention;

FIG. 5 is a perspective view of a carrier in a fourth position in accordance with one embodiment of the present invention;

FIG. 6 is a perspective view of a carrier in a first position according to one embodiment of the present invention;

FIG. 7 is a perspective view of a carrier in a second position according to one embodiment of the present invention;

FIG. 8 is a side view of a carrier according to one embodiment of the present invention;

FIG. 9 is a perspective view of a loading member and a loading bin of the self-reimbursement terminal of FIG. 1;

FIG. 10 is a perspective view of a conveyance mechanism of the self-reimbursement terminal of FIG. 1;

FIG. 11 is a schematic illustration of a partially exploded configuration of a charging mechanism of the self-reimbursement terminal of FIG. 1;

FIG. 12 is a side view of a charging mechanism provided in accordance with one embodiment of the present invention;

FIG. 13 is another side view of a charging mechanism provided in accordance with one embodiment of the present invention;

reference numerals:

10. self-service reimbursement terminal 100, frame 150, get material mouth

200. Scanning mechanism 220, discharge hole 400 and material loading part

410. Discharge chute 411, bottom 412, opening

500. Conveying mechanism 510, first transmission assembly 520 and first fixing frame

530. A second transmission assembly 540, a second fixing frame 630, a limiting member

631. First limiting member 632, second limiting member 700 and charging mechanism

710. Charging box 711, box cover 712 and box body

720. Base 730, slide rail 740, automatic joint sealing subassembly

741. Driving piece 742, screens piece 743, fixed bolster

750. A discharge member P1, a first position P2, a second position

P3, third position P4, fourth position P5, charging position

D1, a first direction D2, a second direction D3 and a material taking direction

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present invention, it is to be understood that the terms "length", "width", "thickness", "upper", "lower", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Referring to fig. 1 and 2, in one embodiment, a self-reimbursement terminal 10 is provided and includes a rack 100, a loading member 400, a loading mechanism 700, and a conveying mechanism 500. The rack 100 is used for bearing the material loading part 400, the loading mechanism 700 and the conveying mechanism 500, the material loading part 400 is used for bearing the material to be reported, the loading mechanism 700 is used for loading the material to be reported, the conveying mechanism 500 is used for connecting and driving the material loading part 400 to convey the material to be reported, borne by the material loading part 400, to a predetermined position in the rack 100, and the predetermined position at least comprises the position of the loading mechanism 700. The transport mechanism 500 moves the carrier 400 relative to the charging mechanism 700 to transfer the material to be reported on the carrier 400 to the charging mechanism 700.

Specifically, the conveying mechanism 500 may drive the loading member 400 to a position where the loading member 400 receives the material to be reportedly. For example, in the embodiment shown in fig. 2 and 3, a scanning mechanism 200 is provided on the rack 100 for scanning the material to be reportedly sold and outputting the scanned material to be reportedly sold from a discharge port 220 of the scanning mechanism 200. The position of the material loading part 400 for receiving the material to be reported is positioned below the discharge hole 220 so as to receive the material to be reported output from the discharge hole 220.

Referring again to fig. 4-7, the charging mechanism 700 may include a charging bin 710 and a discharge member 750, the discharge member 750 being disposed in the frame 100, the charging bin 710 being movable relative to the frame 100 to a charging position P5. The charging box 710 is positioned in the frame 100 in the charging position P5, and the discharge member 750 is positioned at the opening edge of the charging box 710. The carrier 400 may also be provided with a discharge chute 410, the width of the discharge chute 410 being sufficient to allow the discharge member 750 to extend into the discharge chute 410.

When the carrier 400 receives material to be reported, the conveying mechanism 500 may move the carrier 400 relative to the discharging member 750 at the edge of the opening of the loading box 710, so that the discharging member 750 extends into the discharging chute 410 to abut the material to be reported on the carrier 400. After the discharge member 750 abuts the material to be reportedly held on the carrier 400, the conveyor mechanism 500 again moves the carrier 400 away from the hopper 710 so that the discharge member 750 at the open edge of the hopper 710 slides along the discharge chute 410, i.e., the discharge member 750 slides along the discharge chute 410 on the carrier 400. Since the material to be reported is abutted by the discharge member 750, the movement of the material to be reported is restricted by the discharge member 750, and the material to be reported also moves together with the discharge member 750 relative to the loading member. When the load cell 400 is completely removed from beneath the material to be reported, the material to be reported is removed from the load cell 400 by the support of the load cell 400 and is accurately transferred into the hopper 710.

It should be noted that the opening of the charging box 710 is at least sized to ensure that the material to be filled is received within the charging box 710. For example, when the material to be distributed is a distribution slip, the distribution slip is generally rectangular paper, and the rectangular charging box 710 may be selected, and the length and width of the opening of the charging box 710 should be the same as those of the distribution slip, so that the material to be distributed can be kept neat and not scattered when the material to be distributed falls into the charging box 710 from the opening of the charging box 710.

Referring again to fig. 7 and 8, in one embodiment, the discharge chute 410 of the load member 400 can be an open chute, and the opening of the discharge chute 410 can provide a passageway for the discharge member 750 to exit the discharge chute 410.

For example, in the embodiment shown in fig. 6 and 7, when the discharging member 750 has been extended into the discharge chute 410 of the loading member 400, the conveying mechanism 500 may move the loading member 400 relative to the discharging member 750, so that the discharging member 750 slides along the discharge chute 410 and leaves the discharge chute 410 from the opening of the discharge chute 410, i.e., the discharging member 750 leaves the loading member 400. Because the material to be reported on the material loading part 400 is abutted by the unloading part 750, the material to be reported also can synchronously leave the material loading part 400 with the unloading part 750, and the material to be reported is ensured to be separated from the material loading part 400.

Further, as shown in fig. 6 and 7, the carrier member 400 has a first position P1 and a second position P2 with respect to the discharging member 750. When the carrier member 400 is in the first position P1, the carrier member 400 is positioned directly above the hopper 710, and the discharge member 750 extends into the discharge chute 410 and is positioned at the bottom 411 of the discharge chute 410; when the carrier member 400 is in the second position P2, the carrier member 400 is clear of the loading bin 710 directly above and the discharge member 750 is clear of the discharge chute 410. As shown in fig. 7 and 8, the bottom 411 of the discharge chute 410 is an end opposite to the opening 412 of the discharge chute 410.

Under the driving of the conveying mechanism 500, the loading member 400 reaches the first position P1 first. As shown in FIG. 6, the load member 400 in the first position P1 is positioned directly above the charging box 710, and the discharge member 750 at the edge of the opening of the charging box 710 extends into the discharge chute 410 of the load member 400 and is positioned at the bottom of the discharge chute 410. When the material loading member 400 receives the material to be reported, the discharging member 750 is located at the bottom of the discharging slot 410, so as to better ensure that the discharging member 750 abuts against the edge of the material to be reported.

Under the driving of the conveying mechanism 500, the loading member 400 moves from the first position P1 to the second position P2. As shown in FIG. 7, the load member 400 in the second position P2 has exited the loading bin 710 directly above, and the discharge member 750 at the edge of the opening of the loading bin 710 has also exited the discharge chute 410, i.e., the discharge member 750 has exited the load member 400.

Thus, during the movement of the carriage 400 from the first position P1 to the second position P2, the discharge member 750 may better limit the movement of the material to be newspapered, as the discharge member 750 abuts the edge of the material to be newspapered, ensuring that the material to be newspapered is completely detached from the carriage 400 and accurately falls into the charging box 710 from directly above the charging box 710.

Referring to fig. 10, the conveying mechanism 500 may include a first transmission assembly 510, a first fixing frame 520, a second transmission assembly 530, and a second fixing frame 540. Specifically, the first transmission assembly 510 may be fixedly disposed on the frame, the first fixing frame 520 is connected to the first transmission assembly 510 and driven by the first transmission assembly 510 to move along the first direction D1, the second transmission assembly 530 is disposed on the first fixing frame 520, the second fixing frame 540 is connected to the second transmission assembly 530 and driven by the second transmission assembly 530 to move along the second direction D2, and the second fixing frame 540 is connected to and synchronously drives the material loading element 400. The line connecting the first position P1 and the second position P2 is parallel to the second direction D2, and the first direction D1 and the second direction D2 are perpendicular to each other.

In the embodiment shown in fig. 2 to 7, the first transmission assembly 510 can drive the first fixing frame 520 to move upward along the first direction D1, and synchronously drive the second transmission assembly 530, the second fixing frame 540 and the material loading unit 400, so that the material loading unit 400 moves upward along the first direction D1 to reach a position below the discharge port 220 of the scanning mechanism 200, that is, a position where the material loading unit 400 receives the material to be reported, so as to receive the material to be reported output from the discharge port 220.

As shown in fig. 4, when the material loading unit 400 has received the material to be distributed, the material loading unit 400 moves downward along the first direction D1 to reach the third position P3 under the driving of the first transmission assembly 510, and the lower surface of the material loading unit 400 at the third position P3 is higher than the upper surface of the discharging unit 750 in the first direction.

As shown in FIG. 5, the carrier 400 at the third position P3 moves in the second direction D2 toward the loading box 710 to reach the fourth position P4 under the action of the second driving assembly 530, the carrier 400 at the fourth position P4 is located directly above the loading box 710, and the discharging member 750 is located directly below the discharging chute 410.

As shown in FIG. 6, the carrier 400 in the fourth position P4 is moved downward in the first direction D1 to the first position P1 by the first driving assembly 510, so that the discharging member 750 at the opening edge of the loading box 710 extends into the discharging chute 410 and is located at the bottom of the discharging chute 410, and the discharging member 750 abuts against the edge of the material to be printed on the carrier 400.

As shown in fig. 7, when the loading member 400 located at the first position P1 moves away from the charging box 710 along the second direction D2 to reach the second position P2 under the driving of the second driving unit 530, the hoisting material on the loading member 400 is restricted by the unloading member 750 to be detached from the loading member 400 and fall into the charging box 710.

Referring to fig. 6 and 7, the discharge chutes 410 may include first and second discharge chutes 411 and 412 spaced along one side of the carrier 400, and the discharge members 750 may include first and second discharge members 721 and 722 spaced along one side of the charging box 700. Wherein the interval between the first discharge chute 411 and the second discharge chute 412 is equal to the interval between the first discharge member 721 and the second discharge member 722 so that the first discharge member 721 and the second discharge member 722 can be inserted into the first discharge chute 411 and the second discharge chute 412, respectively.

When the carrier 400 receiving the material to be reported is located at the first position P1, the first discharging member 721 and the second discharging member 722 may be spaced and abutted against the same side edge of the material to be reported, i.e. the first discharging member 721 and the second discharging member 722 may be abutted against two different positions of the same side edge of the material to be reported, respectively.

Thus, during the movement of the carriage 400 from the first position P1 to the second position P2, the material to be reportedly held by the discharge member 750 moves away from the carriage 400, and the first discharge member 721 and the second discharge member 722, which are spaced to abut against the same side edge of the material to be reportedly held, can better ensure that the direction in which the material to be reportedly held moves away from the carriage 400 is parallel to the second direction D2, thereby ensuring that the material to be reportedly held is more accurately transferred into the charging box 710.

Referring to FIG. 3, in one embodiment, the size of the discharge chute 410 is greater than the size of the material to be reportedly sold in the second direction D2. For example, in the case of a rectangular receipt, the length of the discharge chute 410 in the second direction D2 should be greater than the width of the receipt. When the carrier 400 with the coupon is in the first position P1, as shown in fig. 6, the discharge member 750 extends into the discharge chute 410 and is positioned at the bottom 411 of the discharge chute 410. in the second direction D2, the discharge member 750 can bypass the coupon to ensure a direct abutment against the edge of the coupon, thereby better restricting the movement of the coupon.

Referring to fig. 8 and 9, the self-service reimbursement terminal may further include a limiting member 630, and the limiting member 630 is disposed at an edge of the loading member 400 along a direction parallel to the extension direction of the discharge chute 410, so as to limit the movement of the material to be reimbursed. The extending direction of the limiting members 630 is parallel to the second direction D2.

Specifically, the limiting member 630 may include a first limiting member 631 and a second limiting member 632, the first limiting member 631 is fixedly connected to one side edge of the loading member 400, and the second limiting member 632 is located at the other side edge of the loading member 400 and is fixedly connected to the rack 100 or the loading member 400.

For example, in the embodiment shown in fig. 8 and 9, the first stopper 631 and the second stopper 632 are both provided at the edge of the loading member 400 in parallel with the extending direction of the discharge chute 410. The first limiting member 631 is fixedly connected to a side of the loading member 400 opposite to the rack 100, the second limiting member 632 is disposed at an opposite edge of the loading member 400 to the first limiting member 631 at an interval, and the second limiting member 632 is formed by the rack 100.

Specifically, the side of the frame 100 facing the load member 400 is flush with the side of the load member 400 facing the frame 100, and the side of the hopper 710 facing the frame 100 is flush with the side of the frame 100 facing the load member 400. Therefore, the side of the frame 100 facing the loading member 400 can be directly used as the second limiting member 632. When the material to be reported is received on the material loading part 400, and the conveying mechanism 500 drives the material loading part 400 to move relative to the charging box 710 so as to transfer the material to be reported from the material loading part 400 into the charging box 710, the first limiting part 631 and the second limiting part 632 are respectively located at two sides of the material to be reported, and are parallel to the direction in which the material to be reported leaves the material loading part 400, so that the transfer reliability of the material to be reported is further ensured.

In other embodiments, the second limiting member 632 can be fixedly connected to the other side edge of the carrier 400 (not shown in the drawings) by referring to the arrangement manner that the first limiting member 631 is fixedly connected to one side edge of the carrier 400.

Referring to fig. 1, a material taking port 150 is formed on the rack 100, and a material box 710 can pass through the material taking port 150 to enter and exit the self-service reimbursement terminal 10.

Referring again to fig. 11-13, the loading box 710 may include a box cover 711 and a box body 712, and the loading mechanism 700 may further include a base 720, a partition 721, a slide 730, and an automatic box sealing assembly 740. The box cover 711 is connected to an opening edge of the box 712 and can rotate relative to the box 712, the box cover 711 can be turned over relative to the box 712 to open or close the loading box 710, the slide rail 730 is horizontally disposed in the rack 100 and parallel to the material taking direction D3 of the material taking port 150, the base 720 is slidably disposed on the slide rail 730, the base 720 is used for placing the loading box 710, the partition 721 is fixedly connected to an edge of the base 720 and is used for covering the material taking port 150, and the automatic box sealing assembly 740 is used for enabling the box cover 711 to automatically close the box 712.

Further, the automated box sealing assembly 740 may include a driving member 741, a catch member 742, and a fixing bracket 743. The fixing bracket 743 is disposed on the frame 100 and is used for carrying a driving member 741, the driving member 741 is connected to and drives the blocking member 742 to perform a telescopic motion, when the loading bin 710 is located at the loading position P5, the driving member 741 located at one side of the loading bin 710 can drive the blocking member 742 to extend out relative to the bin cover 711 of the loading bin 710 to reach the rear of the bin cover 711, and the blocking member 742 is used for abutting against the bin cover 711 to automatically flip the bin cover 711 and cover the bin body 712. When the drive member 741 drives the catch 742 into retraction, i.e., the catch 742 is out of the path of movement of the charge 710, the catch 742 does not interfere with the movement of the charge tank 710.

Specifically, in the embodiment shown in fig. 1, 12 and 13, before the present self-service reimbursement terminal 10 is used, the detent 742 is in the retracted state, and the user can pull the partition 721 from the material taking port 150 to the outside of the self-service reimbursement terminal 10 (i.e., along the material taking direction D3) to open the material taking port 150. Because the partition 721 is fixedly connected to the base 720, the base 720 slidably disposed on the slide rail 730 slides outwards along the material taking direction D3 in synchronization with the partition 721. When the base 720 slides to the outside of the self-service reimbursement terminal 10, the user may open the lid 711 of the loading box 710 prepared in advance, place the opened loading box 710 on the base 720, and push the base 720 along the slide rail 730 from the material taking port 150 into the inside of the self-service reimbursement terminal 10, that is, the loading box 710 is located at the loading position P5. At this time, the driving member 741 on the side of the loading box 710 drives the stopper member 742 to project with respect to the lid 711 of the loading box 710 to reach the rear of the lid 711, i.e., the side facing away from the lid 711 for covering the box 712, and the stopper member 742 is higher than the upper surface of the box 712 in the first direction D1.

When the user is to remove the charging box 710 from the self-reimbursement terminal 10, the partition 721 may be pulled outward of the self-reimbursement terminal 10 again to open the material take-off port 150. At this time, the loading box 710 having opened the box cover 711 is slid together with the base 720 in the material taking direction D3 toward the outside of the self-service reimbursement terminal 10, that is, the loading box 710 is away from the receiving position P5 in the material taking direction D3. In the process, detent 742, which is located behind lid 711, remains in place, i.e., remains inside kiosk 10, i.e., lid 711 moves relative to detent 742 in material withdrawal direction D3. Therefore, in this process, the rear side of the case cover 711 is abutted by the retainer 742 and turned forward to cover the case 712. In other words, the loading box 710 with the box cover 711 opened realizes automatic box sealing in the process of transferring from the inside to the outside of the self-service reimbursement terminal 10.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (12)

1. A self-service reimbursement terminal, comprising:

a frame;

the material carrying part is movably arranged in the rack, a discharge chute is formed in the material carrying part, and the material carrying part is used for carrying materials to be reimbursed;

the loading mechanism comprises a loading box and a discharging part, the discharging part is arranged on the rack, the loading box is provided with a loading position relative to the rack, when the loading box is at the loading position, the discharging part is positioned at the opening edge of the loading box, and the discharging part is used for extending into the discharging groove and abutting against the material to be printed; and

the conveying mechanism is arranged on the rack and used for connecting and driving the material loading part to move relative to the material unloading part so that the material unloading part extends into the material unloading groove and transfers the material to be distributed on the material loading part into the material loading box.

2. The self-service reimbursement terminal of claim 1, wherein said discharge chute is an open chute and said discharge chute opening provides access for said discharge member to exit said discharge chute.

3. The self-service reimbursement terminal of claim 2, wherein said carrier member has a first position and a second position relative to said discharge member, said carrier member being positioned directly above said hopper when said carrier member is in said first position, said discharge member extending into and being positioned at the bottom of said discharge chute, said carrier member being positioned directly above said hopper when said carrier member is in said second position, said discharge member being positioned away from said discharge chute.

4. The self-reimbursement terminal according to claim 3, wherein the delivery mechanism comprises:

the first transmission assembly is arranged on the rack;

the first fixing frame is connected with the first transmission assembly and driven by the first transmission assembly to move along a first direction;

the second transmission assembly is arranged on the first fixing frame; and

the second fixing frame is connected with the second transmission assembly and driven by the second transmission assembly to move along a second direction, and the second fixing frame is connected with and synchronously drives the material loading part to reach the first position or the second position;

wherein a line connecting the first position and the second position is parallel to the second direction, and the first direction and the second direction are perpendicular to each other.

5. The self-service reimbursement terminal of claim 1, wherein the discharge chutes comprise first and second discharge chutes spaced along one side of the carrier, wherein the discharge members comprise first and second discharge members spaced along one side of the hopper, and wherein the spacing between the first and second discharge chutes is equal to the spacing between the first and second discharge members.

6. The self-service reimbursement terminal of claim 1, comprising a limiting member for limiting movement of the material to be reimbursed, wherein the limiting member is disposed at an edge of the material carrying member along a direction parallel to an extension direction of the discharge chute.

7. The self-service reimbursement terminal of claim 6, wherein the limiting members comprise a first limiting member and a second limiting member, the first limiting member is fixedly connected to one side edge of the material loading member, and the second limiting member is located at the other side edge of the material loading member and is fixedly connected to the rack or the material loading member.

8. The self-reimbursement terminal of claim 1, wherein the charging mechanism comprises an automatic box sealing assembly, the charging box comprising a box body and a box cover, the automatic box sealing assembly for enabling the box cover to automatically close the box body.

9. The self-service reimbursement terminal of claim 8, wherein the loading bin is movably disposed in the rack, the bin cover is connected to an opening edge of the bin body and can rotate relative to the bin body, the self-service box sealing assembly comprises a position retaining member disposed in the rack, and the position retaining member is telescopically disposed; when the charging box is in an open state and is located at the charging position, the clamping part extends out and is located on one side, back to the box cover, for covering the box body, so that when the charging box is moved out of the rack, the clamping part can be abutted and drive the box cover to overturn relative to the box body to close the box body.

10. The self-service reimbursement terminal of claim 9, wherein the self-service sealing assembly further comprises a driving member disposed in the rack, the driving member is configured to connect and drive the engaging member to extend and retract, when the container is in the receiving position, the driving member is located on one side of the container and drives the engaging member to extend, so that the engaging member reaches a side facing away from the container cover for covering the container body, and when the driving member drives the engaging member to retract, the engaging member leaves a movement path of the container.

11. The self-service reimbursement terminal of claim 9, wherein the rack is provided with a material taking port, the loading mechanism comprises a base and a partition, the base is arranged at the material taking port, the partition is used for connecting and driving the base to extend and retract relative to the material taking direction of the material taking port, the base is used for placing the loading box, and when the loading box is in the loading position, the partition covers the material taking port.

12. The self-service reimbursement terminal of claim 10, wherein the loading mechanism comprises a slide rail, the slide rail is disposed in the rack and parallel to a material taking direction of the material taking port, and the base is slidably disposed on the slide rail.

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