CN109622446B - Double-side cleaning mechanism - Google Patents

Abstract

The invention provides a double-sided cleaning mechanism, comprising: the device comprises a first conveying mechanism, a rotating mechanism and a second conveying mechanism; the card conveying device comprises a first conveying mechanism and a rotating mechanism, wherein the first conveying mechanism and the rotating mechanism are arranged along a first direction, the first conveying mechanism is used for receiving a card and conveying the card to the rotating mechanism along the first direction, and the rotating mechanism is used for rotating and conveying the card to a second conveying mechanism along a second direction; the second conveying mechanism is arranged on one side of the rotating mechanism and used for receiving the cards and cleaning the two sides of the cards, and the second conveying mechanism is also used for conveying the cleaned cards to the rotating mechanism; the rotating mechanism is also used for rotating and conveying the cleaned card to the first conveying mechanism, and the first conveying mechanism is also used for receiving and outputting the cleaned card. According to the card cleaning device, the purpose of cleaning the double surfaces of the card can be achieved by changing the card conveying direction through the first conveying mechanism, the rotating mechanism and the second conveying mechanism, and the card cleaning efficiency is improved.

Description

Double-side cleaning mechanism

Technical Field

The invention relates to the technical field of card cleaning, in particular to a double-face cleaning mechanism.

Background

At present, in the traditional certificate card cleaning field, the card surface quality has a great influence on the final card forming. Due to the fact that grease exists on the surface of the card or dust particles exist in the working environment, the surface quality of the card is poor in the subsequent card forming process, and the phenomena of scratches and the like exist seriously. Therefore, such devices can clean the surface of the card in various ways, and the conventional card cleaning devices usually use brushes or sticky rollers to sweep dust particles or sticky films to remove dirt on the surface of the card. The above approaches are generally limited to card drive, which is a single-side cleaning of the card, and the cleaning quality of the card surface is poor or the initial cleaning effect is good, but the effect is not good after a long time.

Disclosure of Invention

In view of this, the invention provides a double-sided cleaning mechanism, which aims to solve the problem that only one-sided cleaning can be performed on a card at present.

The invention provides a double-sided cleaning mechanism, which comprises: the device comprises a first conveying mechanism, a rotating mechanism and a second conveying mechanism; the card conveying device comprises a first conveying mechanism and a rotating mechanism, wherein the first conveying mechanism and the rotating mechanism are arranged along a first direction, the first conveying mechanism is used for receiving a card and conveying the card to the rotating mechanism along the first direction, and the rotating mechanism is used for rotating and conveying the card to a second conveying mechanism along a second direction; the second conveying mechanism is arranged on one side of the rotating mechanism and used for receiving the cards and cleaning the two sides of the cards, and the second conveying mechanism is also used for conveying the cleaned cards to the rotating mechanism; the rotating mechanism is also used for rotating and conveying the cleaned card to the first conveying mechanism, and the first conveying mechanism is also used for receiving and outputting the cleaned card.

Further, in the above double-sided cleaning mechanism, the first conveying mechanism includes: the two first conveying assemblies are arranged oppositely, and are respectively arranged at the input end of the card and the output end of the card; the rotating mechanism is located between the two first conveying assemblies.

Further, in the above double-sided cleaning mechanism, the rotating mechanism includes: the device comprises a first support frame, a first transmission mechanism, a second transmission mechanism and a second transmission assembly; the first transmission mechanism is connected with the first support frame and is used for driving the first support frame to rotate; the second conveying assembly is respectively connected with the first supporting frame and the second transmission mechanism, and the second transmission mechanism is used for driving the second conveying assembly to operate so that the second conveying assembly conveys the cards along a second direction.

Further, in the above double-sided cleaning mechanism, the second conveying mechanism includes: the second supporting frame, the third conveying assembly and the first cleaning mechanism; the third conveying assembly is connected with the second supporting frame and used for conveying the card along a second direction; the first cleaning mechanism is connected with the second support frame and used for cleaning the two sides of the card when the card moves along the second direction.

Further, in the above-mentioned double-sided cleaning mechanism, the second support frame includes: two first support plates and two second support plates; the two first supporting plates and the two second supporting plates are enclosed to form a frame body, the two first supporting plates are arranged oppositely, and the two second supporting plates are arranged oppositely; through holes for the cards to pass through are formed in the corresponding positions of the two first supporting plates; the third conveying assembly and the first cleaning mechanism are connected inside the frame body.

Further, the above-mentioned double-sided cleaning mechanism further includes: and the second cleaning mechanism is arranged on the outer side of the second conveying mechanism and is used for cleaning the second conveying mechanism.

Further, in the above double-sided cleaning mechanism, the second cleaning mechanism includes: a cleaning assembly and a tensioning mechanism; the cleaning assembly is arranged on the outer side of the second conveying mechanism; the tensioning mechanism is connected with the cleaning assembly and used for tensioning the cleaning assembly to clean the second conveying mechanism.

Further, in the above double-sided cleaning mechanism, the cleaning unit includes: two first clean running rollers that set up side by side, two first clean running rollers all are connected with straining device.

Further, in the above-mentioned double-sided cleaning mechanism, the tension mechanism includes: the clamping device comprises a cam, a connecting shaft and two clamping bodies; the cam is rotatably connected with the connecting shaft, two ends of the connecting shaft are respectively connected with the two clamping bodies, and the cam is pressed against one clamping body; the two clamping bodies are respectively in one-to-one correspondence with the two first cleaning rollers and are respectively positioned on the outer sides of the respective corresponding first cleaning rollers.

Further, in the above-described double-sided cleaning mechanism, each of the clamp bodies includes: a first bracket and two spring assemblies; wherein, the two spring components are respectively and rotatably connected with the two ends of the first cleaning roller; one end of the connecting shaft penetrates through one spring assembly, the edge of the cam is abutted against the spring assembly, and the two spring assemblies are connected with the first support.

Further, in the above-described double-sided cleaning mechanism, each spring assembly includes: a second bracket and a spring; wherein, the second bracket is rotatably connected with one end of the first cleaning roller; the spring clamp is located between second support and the first support.

Further, in the above double-sided cleaning mechanism, the second cleaning mechanism further includes: the cleaning belt winding and unwinding mechanism is characterized in that the cleaning belt of the cleaning belt winding and unwinding mechanism is wound on the outer side of the tensioning mechanism.

The card cleaning device comprises a first conveying mechanism, a second conveying mechanism, a double-side cleaning mechanism and a rotating mechanism, wherein the first conveying mechanism conveys the card in a first direction, the rotating mechanism changes the conveying direction of the card into a second direction, the second conveying mechanism conveys the card in the second direction and cleans the double sides of the card in the conveying process, the cleaned card is conveyed back to the rotating mechanism by the second conveying mechanism, and the rotating mechanism changes the conveying direction of the card back to the first direction, so that the card finally leaves the double-side cleaning mechanism by the first conveying mechanism.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic perspective view of a double-sided cleaning mechanism according to an embodiment of the present invention;

FIG. 2 is a front view of a dual side cleaning mechanism provided by an embodiment of the present invention;

FIG. 3 is a top view of a dual-sided cleaning mechanism provided in accordance with an embodiment of the present invention;

FIG. 4 is a side view of a dual side cleaning mechanism provided by an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a first conveying mechanism in the double-sided cleaning mechanism according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a rotating mechanism in the double-sided cleaning mechanism according to the embodiment of the present invention;

fig. 7 is a schematic view of another perspective structure of a rotating mechanism in the double-sided cleaning mechanism according to the embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a second conveying mechanism in the double-sided cleaning mechanism according to the embodiment of the present invention;

fig. 9 is a schematic perspective view of a combination of a second conveying mechanism and a second cleaning mechanism in the double-sided cleaning mechanism according to the embodiment of the present invention;

FIG. 10 is a front view of a combination of a second transport mechanism and a second cleaning mechanism in the double-sided cleaning mechanism according to the embodiment of the present invention;

FIG. 11 is a schematic structural diagram of a second cleaning mechanism in the dual-side cleaning mechanism according to the embodiment of the present invention;

fig. 12 is a schematic structural diagram of a cleaning tape winding and unwinding mechanism in the double-sided cleaning mechanism according to the embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 to 4, a preferred structure of the double-sided cleaning mechanism provided in the present embodiment is shown. As shown, the mechanism comprises: a first transfer mechanism 1, a rotation mechanism 2 and a second transfer mechanism 3. Wherein the first conveyance mechanism 1 and the rotation mechanism 2 are arranged in a first direction, for example, in a horizontal direction. An uncleaned card 4 enters the double-sided cleaning mechanism from the first transport mechanism 1, and after the first transport mechanism 1 receives the card 4, the card 4 is transported in the first direction and is transported to the rotation mechanism 2. The rotation mechanism 2 rotates itself after receiving the card 4, rotates its card output end to a position corresponding to the second transport mechanism 3 on its one side, and then transports the card 4 to the second transport mechanism 3 in a second direction, for example, in a vertical direction. The card receiving end of the second conveying mechanism 3 faces the card output end of the rotating mechanism 2, and the second conveying mechanism 3 receives the card 4 and then conveys the card 4 back and forth along the second direction, for example, the card 4 is conveyed back and forth along the vertical direction, even if the card 4 reciprocates up and down in the vertical direction, in the process of reciprocating up and down of the card 4, the second conveying mechanism 3 cleans the front and back surfaces of the card 4. After the card 4 is cleaned, the second transport mechanism 3 outputs the card 4 from the original receiving end, that is, the card receiving end of the second transport mechanism 3 is the card output end. The rotating mechanism 2 receives the cleaned card 4 output from the second transport mechanism 3 and rotates so as to correspond to the first transport mechanism 1, and then the rotating mechanism 2 transports the cleaned card 4 to the first transport mechanism 1 in the first direction. The first transport mechanism 1 receives the cleaned card 4 and transports the cleaned card 4 out of the duplex cleaning mechanism in a first direction. In a specific implementation, the first direction and the second direction are different directions, and are preferably perpendicular to each other.

In this embodiment, the card 4 enters the double-sided cleaning mechanism from the first conveying mechanism 1, the first conveying mechanism 1 conveys the card 4 in the first direction, and the conveying direction of the card 4 is changed into the second direction through the rotating mechanism 2, the second conveying mechanism 3 conveys the card 4 in the second direction and realizes double-sided cleaning of the card 4 in the conveying process, the cleaned card 4 is conveyed back to the rotating mechanism 2 through the second conveying mechanism 3, and the rotating mechanism 2 changes the conveying direction of the card 4 back to the first direction, so that the card 4 finally leaves the double-sided cleaning mechanism from the first conveying mechanism 1.

Referring to fig. 5, the first transfer mechanism 1 includes: two first transfer assemblies 11. The two first conveying assemblies 11 are oppositely arranged, and the rotating mechanism 2 is located between the two first conveying assemblies 11, that is, one first conveying assembly 11, the rotating mechanism 2 and the other first conveying assembly 11 are sequentially arranged along the first direction. The two first conveying assemblies 11 are respectively arranged at the card input end and the card output end of the card 4 relative to the double-sided cleaning mechanism, namely, the card 4 enters the double-sided cleaning mechanism from one first conveying assembly 11, the rotating mechanism 2 receives the card 4 and rotates to convey the card 4 to the second conveying mechanism 3, and when the rotating mechanism 2 receives the cleaned card 4, the rotating mechanism rotates to the position opposite to the initial position, namely, rotates to the position corresponding to the other first conveying assembly 11, so that the cleaned card 4 is conveyed to the other first conveying assembly 11, and the cleaned card 4 finally leaves the double-sided cleaning mechanism from the other first conveying assembly 11. In specific implementation, the two first transmission assemblies 11 can both adopt a transmission mode that a stepping motor drives a synchronous pulley. Each first transfer assembly 11 may comprise two rubber wheels arranged side by side.

Referring to fig. 6 and 7, the rotation mechanism 2 includes: a first support frame 21, a first transmission mechanism 22, a second transmission mechanism 23 and a second transmission assembly 24. The first transmission mechanism 1 is connected to the first support frame 21, and the first transmission mechanism 1 drives the first support frame 21 to rotate, and in specific implementation, the first transmission mechanism 22 may adopt a transmission mode in which a motor drives a synchronous pulley. The second conveying assembly 24 is mounted on the first supporting frame 21 to convey the card 4, in the specific implementation, the first supporting frame 21 is two third supporting plates 211 arranged in parallel, the two third supporting plates 211 are connected through a connecting rod 212, the second conveying assembly 24 is a plurality of groups of rollers arranged in parallel, each group of rollers is arranged between the two third supporting plates 211 and rotatably connected with the two third supporting plates 211, and the card 4 moves between the corresponding group of rollers. The second transmission mechanism 23 is connected to the second conveying assembly 24 to drive the second conveying assembly 24 to move, so as to convey the card 4, and in specific implementation, the second conveying assembly 24 may adopt a multi-gear conveying mode driven by a motor.

Referring to fig. 8, the second conveyance mechanism 3 includes: a second support frame 31, a third conveyor assembly 32 and a first cleaning mechanism 33. The third conveying assembly 32 is mounted on the second supporting frame 31, the third conveying assembly 32 conveys the card 4 along the second direction, in the specific implementation, the third conveying assembly 32 is a plurality of sets of rollers arranged in parallel, each set of rollers is rotatably connected with the second supporting frame 31, and the card 4 moves between the corresponding set of rollers. The first cleaning mechanism 33 is also mounted on the second supporting frame 31. The first cleaning mechanism 33 is two second cleaning rollers oppositely arranged, and when the card 4 reciprocates in the second direction, the first cleaning mechanism 33 cleans the front and back surfaces of the card 4. In specific implementation, the second conveying mechanism 3 may adopt a conveying mode of a motor-driven synchronous belt.

Referring to fig. 9, the second support bracket 31 includes: two first support plates 311 and two second support plates 312. Wherein, two first backup pads 311 and two second backup pads 312 connect gradually end to enclose and establish into a framework, and, two first backup pads 311 set up relatively, and two second backup pads 312 set up relatively, and the square through hole 313 that supplies card 4 to pass through is seted up to two first backup pads 311's corresponding position department. The third transfer assembly 32 and the first cleaning mechanism 33 are both connected inside the frame.

Referring to fig. 10, it may further include: the second cleaning mechanism 5 and the second cleaning mechanism 5 are disposed outside the second conveying mechanism 3, specifically, outside the two second cleaning rollers of the first cleaning mechanism 33, so that when the second cleaning rollers do not clean the card 4, the second cleaning mechanism 5 cleans the two second cleaning rollers, and thus the cleaning effect of the second cleaning rollers on the card 4 is better.

Referring to fig. 9 and 11, the second cleaning mechanism 5 includes: a cleaning assembly 51 and a tensioning mechanism 52. The cleaning assembly 51 is arranged at the outer sides of the two second cleaning rollers, the tensioning mechanism 52 is connected with the cleaning assembly 51, the tensioning mechanism 52 can tension or loosen the cleaning assembly 51, when the tensioning mechanism 52 loosens the cleaning assembly 51, the cleaning assembly 51 is pressed against the second cleaning rollers, and then the cleaning assembly 51 cleans the second cleaning rollers; when the tensioning mechanism 52 tensions the cleaning assembly 51, the cleaning assembly 51 does not contact the second cleaning roller. In specific implementation, the cleaning assembly 51 includes two first cleaning rollers 511 arranged in parallel, and each first cleaning roller 511 corresponds to one second cleaning roller and is located outside the corresponding second cleaning roller. Each of the first cleaning rollers 511 is connected to a tensioning mechanism 52, and the tensioning mechanism 52 causes the two first cleaning rollers 511 to move away from or contact the respective corresponding second cleaning rollers by tensioning or releasing the two first cleaning rollers 511.

In the above embodiment, the tension mechanism 52 includes: a cam 521, a connecting shaft 522 and two clamping bodies 523. The cam 521 is rotatably connected to the outer wall of the connecting shaft 522, two ends of the connecting shaft 522 are respectively connected to the two clamping bodies 523, and the cam 521 is pressed against one of the two clamping bodies 523. The two clamp bodies 523 correspond to the two first cleaning rollers 511 one to one, and are disposed outside the corresponding first cleaning rollers 511. As the cam 521 rotates, the two tensioning mechanisms 52 tension or loosen, i.e., move away from or close to the first cleaning roller 511. In a specific implementation, the cam 521 may be driven to rotate by a dc motor.

In the above embodiment, each clamp body 523 includes: a first support 524 and two spring assemblies 525. The two spring assemblies 525 are rotatably connected to two ends of the corresponding first cleaning roller 511, one end of the connecting shaft 522 is inserted through one of the two spring assemblies 525 on one side thereof, the other end is inserted through one of the two spring assemblies 525 on the other side thereof, and the edge of the cam 521 is pressed against the two spring assemblies 525 on two sides thereof. In each clamping body 523, two spring assemblies 525 are connected to the first support 524 so as to be fixed.

In the above embodiment, each spring assembly 525 includes: a second bracket 526 and a spring 527. The second bracket 526 is rotatably connected with one end of the first cleaning roller 511, one end of the connecting shaft 522 passes through the second bracket 526 through the first linear bearing, the spring 527 is clamped between the second bracket 526 and the first bracket 524, the spring 527 is sleeved outside the second linear bearing, and two ends of the second linear bearing are respectively connected with the first bracket 524 and the second bracket 526. When the cam 521 presses the second brackets 526 at both sides thereof, the spring 527 is stressed to be shortened; when the cam 521 is no longer driven by the driving force, the spring 527 applies a force to the second bracket 526, and the second brackets 526 on the two sides of the cam 521 move towards each other, so that the second bracket 526 drives the first cleaning roller 511 to approach and press against the outer wall of the second cleaning roller.

Referring to fig. 12, the second cleaning mechanism 5 further includes: the cleaning tape winding and unwinding mechanism 53. The cleaning tape winding and unwinding mechanism 53 is composed of four winding drums 531, and the winding drums 531 are disposed on the upper side and the lower side of each clamping body 523. The upper and lower reels 531 are wound with a cleaning tape, and the cleaning tape passes around the first cleaning roller 511 on the same side thereof. In specific implementation, the motor can be used to drive the winding drum 531 to rotate, so as to drive the cleaning belt to rotate, and the second cleaning roller is cleaned by the cleaning belt.

The first conveying mechanism 1, the rotating mechanism 2, the second conveying mechanism 3 and the second cleaning mechanism 5 are all mounted on a supporting frame 6.

The specific working process of the double-sided cleaning mechanism provided by the embodiment is as follows:

horizontal conveying: when the card 4 is conveyed from the right side to the double-sided cleaning mechanism, the stepping motor drives the timing pulley, and the card 4 is conveyed to the reverse rotation mechanism 2 through the first conveyance member 11 on the right side to reach a predetermined position.

Turning over and rotating: when the card 4 enters a preset position, the stepping motor drives the synchronous belt to realize 90-degree rotation of the overturning and rotating mechanism 2, and the card 4 is changed from a horizontal state to a vertical state.

Vertical conveying: the stepping motor of the rotating mechanism 2 drives the gear to rotate, drives the second transport assembly 24, and transports the card 4 to the second transport mechanism 3 under the action of friction force to reach a predetermined position.

Cleaning a cleaning roller: when the card 4 enters the second conveying mechanism 3, the second cleaning roller can press the card 4 in the forward and reverse directions. Meanwhile, the second conveying mechanism 3 enables the card 4 to move up and down, and double-side cleaning of the card 4 is achieved.

Turning over and rotating: after the card 4 is cleaned, the card 4 is conveyed to the reverse rotation mechanism 2 by the second conveyance mechanism 3 while the card 4 is rotated from the vertical state to the horizontal state by the drive of the timing belt.

Horizontal conveying: the card 4 enters the rotation mechanism 2, and is transferred from the rotation mechanism 2 to the first transport assembly 11 on the left side by friction of the second transport assembly 24 under gear mesh transmission, and finally, the first transport assembly 11 on the left side transfers the card 4 out of the double-sided cleaning mechanism.

Cleaning the second cleaning roller with the cleaning tape: when the card 4 is in a non-cleaning state, the cam 521 is driven by the direct current motor, under the action of the spring 527, the first cleaning rollers 511 at two sides press the cleaning belt against the second cleaning rollers, the cleaning belt winding motor rotates, the cleaning adhesive tape rotates, and the second cleaning rollers are cleaned by the cleaning adhesive tape.

In summary, in the embodiment, the card 4 enters the double-sided cleaning mechanism from the first transport mechanism 1, the first transport mechanism 1 transports the card 4 in the first direction, and the rotation mechanism 2 changes the transport direction of the card 4 into the second direction, the second transport mechanism 3 transports the card 4 in the second direction and cleans the card 4 on both sides during the transport process, the card 4 after being cleaned is transported back to the rotation mechanism 2 from the second transport mechanism 3, and the rotation mechanism 2 changes the transport direction of the card 4 back to the first direction, so that the card 4 finally leaves the double-sided cleaning mechanism from the first transport mechanism 1.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (5)

1. A dual sided cleaning mechanism, comprising: the device comprises a first conveying mechanism (1), a rotating mechanism (2) and a second conveying mechanism (3); wherein,

the first conveying mechanism (1) and the rotating mechanism (2) are arranged along a first direction, the first conveying mechanism (1) is used for receiving a card (4) and conveying the card (4) to the rotating mechanism (2) along the first direction, and the rotating mechanism (2) is used for rotating and conveying the card (4) to the second conveying mechanism (3) along a second direction;

the second conveying mechanism (3) is arranged on one side of the rotating mechanism (2) and used for receiving the cards (4) and cleaning the double surfaces of the cards (4), and the second conveying mechanism (3) is also used for conveying the cleaned cards (4) to the rotating mechanism (2);

the rotating mechanism (2) is also used for rotating and conveying the cleaned card (4) to the first conveying mechanism (1), and the first conveying mechanism (1) is also used for receiving and outputting the cleaned card (4);

the first transfer mechanism (1) comprises:

the two first conveying assemblies (11) are oppositely arranged, and the two first conveying assemblies (11) are respectively arranged at the input end of the card (4) and the output end of the card (4);

the rotating mechanism (2) is positioned between the two first conveying assemblies (11);

each first conveying assembly (11) can comprise two rubber wheels which are arranged in parallel;

the rotating mechanism (2) comprises: the device comprises a first support frame (21), a first transmission mechanism (22), a second transmission mechanism (23) and a second conveying assembly (24); wherein,

the first transmission mechanism (22) is connected with the first support frame (21) and is used for driving the first support frame (21) to rotate;

the second conveying assembly (24) is respectively connected with the first support frame (21) and the second transmission mechanism (23), and the second transmission mechanism (23) is used for driving the second conveying assembly (24) to operate, so that the second conveying assembly (24) conveys the cards (4) along the second direction;

the first supporting frame (21) is provided with two third supporting plates (211) which are arranged in parallel, the two third supporting plates (211) are connected through a connecting rod (212), the second conveying assembly (24) is provided with a plurality of groups of rollers which are arranged in parallel, each group of rollers is arranged between the two third supporting plates (211) and can be rotationally connected with the two third supporting plates (211), the card (4) moves between the corresponding group of rollers, and the second transmission mechanism (23) is connected with the second conveying assembly (24) to drive the second conveying assembly (24) to move, so that the card (4) is conveyed;

further comprising:

the second cleaning mechanism (5) is arranged outside the second conveying mechanism (3), and is used for cleaning the second conveying mechanism (3);

the second cleaning mechanism (5) comprises: a cleaning assembly (51) and a tensioning mechanism (52); wherein the cleaning component (51) is arranged outside the second conveying mechanism (3);

the tensioning mechanism (52) is connected with the cleaning assembly (51) and is used for tensioning the cleaning assembly (51) to clean the second conveying mechanism (3);

the cleaning assembly (51) comprises:

the two first cleaning rollers (511) are arranged in parallel, and the two first cleaning rollers (511) are connected with the tensioning mechanism (52);

the tensioning mechanism (52) includes: a cam (521), a connecting shaft (522) and two clamping bodies (523); wherein,

the cam (521) is rotatably connected with the connecting shaft (522), two ends of the connecting shaft (522) are respectively connected with the two clamping bodies (523), and the cam (521) is pressed against one clamping body (523);

the two clamping bodies (523) are respectively in one-to-one correspondence with the two first cleaning rollers (511) and are respectively positioned at the outer sides of the first cleaning rollers (511) which respectively correspond to the two clamping bodies;

each of the clamping bodies (523) comprises: a first bracket (524) and two spring assemblies (525); wherein,

the two spring assemblies (525) are respectively and rotatably connected with two ends of the first cleaning roller (511);

one end of the connecting shaft (522) penetrates through one spring assembly (525), the edge of the cam (521) is abutted against the spring assembly (525), and the two spring assemblies (525) are connected with the first bracket (524).

2. The double-sided cleaning mechanism according to claim 1, wherein the second conveying mechanism (3) comprises: a second support frame (31), a third conveying assembly (32) and a first cleaning mechanism (33); wherein,

the third conveying assembly (32) is connected with the second supporting frame (31) and is used for conveying the card (4) along the second direction;

the first cleaning mechanism (33) is connected with the second support frame (31) and is used for cleaning the double surfaces of the card (4) when the card (4) moves along the second direction.

3. A duplex cleaning mechanism according to claim 2 wherein the second support bracket (31) comprises: two first support plates (311) and two second support plates (312); wherein,

the two first supporting plates (311) and the two second supporting plates (312) are enclosed into a frame body, the two first supporting plates (311) are oppositely arranged, and the two second supporting plates (312) are oppositely arranged;

through holes (313) for the cards (4) to pass through are formed in the corresponding positions of the two first supporting plates (311);

the third conveying assembly (32) and the first cleaning mechanism (33) are connected to the inside of the frame body.

4. The dual sided cleaning mechanism of claim 1, wherein each spring assembly (525) comprises: a second bracket (526) and a spring (527); wherein,

the second bracket (526) is rotatably connected with one end of the first cleaning roller (511);

the spring (527) is sandwiched between the second bracket (526) and the first bracket (524).

5. The double-sided cleaning mechanism according to claim 1, wherein the second cleaning mechanism (5) further comprises:

the cleaning belt winding and unwinding mechanism (53), the cleaning belt of the cleaning belt winding and unwinding mechanism (53) is wound on the outer side of the tensioning mechanism (52).

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