CN212315032U

CN212315032U - Automatic disc changer

Info

Publication number: CN212315032U
Application number: CN202021880713.9U
Authority: CN
Inventors: 艾兵
Original assignee: Shanghai Yingshuo Electronic Technology Co ltd
Current assignee: Shanghai Yingshuo Electronic Technology Co ltd
Priority date: 2020-09-01
Filing date: 2020-09-01
Publication date: 2021-01-08
Anticipated expiration: 2030-09-01

Abstract

The utility model discloses an automatic disk changer, which comprises a frame, a tape feeding part, a tape coiling part and a tail adhesive sticking part, wherein the tape feeding part, the tape coiling part and the tail adhesive sticking part are arranged on the frame; the reel part comprises a winding mechanism, a reel cache mechanism and a reel receiving mechanism; the tail glue pasting part comprises a tail glue pasting mechanism, a tail glue cutting mechanism and a tail glue caching mechanism, the carrier tape caching mechanism, the tape feeding mechanism and the winding mechanism are sequentially connected from right to left, and the disc collecting mechanism is positioned right below the winding mechanism; the tape cutting mechanism is positioned below the tape conveying mechanism; the reel cache mechanism is arranged at the top end of the rack and is positioned right above the winding mechanism; the tail adhesive sticking mechanism is positioned above the tape transport mechanism; the tail cutting glue mechanism and the tail sticking glue mechanism are arranged adjacently; the tail rubber buffer mechanism is arranged on the right side of the rack. The utility model discloses an automatic trade a set machine, it is easy and simple to handle, each mechanism is reliable and stable, has saved the human cost, improves work efficiency.

Description

Automatic disc changer

Technical Field

The utility model relates to an auxiliary device on semiconductor trade braid all-in-one, concretely relates to automatic trade dish machine.

Background

In order to protect electronic components, the electronic components are usually loaded into a carrier tape having a specific thickness and equidistantly distributed pockets for holding the electronic components, and the surface of the carrier tape is sealed by a cover tape under the condition of external force or heating to protect the electronic components in the pockets of the carrier tape. To facilitate the transportation, storage, and use of the carrier tape and cover tape, a reel is typically used to carry the carrier tape and cover tape. The existing packaging of the braiding all-in-one machine is mainly a single-disc reel, the reel needs to be manually replaced manually, and manual insertion holes are formed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's defect, providing an automatic trade a set machine, easy and simple to handle, each mechanism is reliable and stable, improves production facility utilization ratio, reduction in production cycle, practices thrift the cost.

The technical scheme for realizing the purpose is as follows: an automatic disk changer comprises a rack, and a tape feeding part, a tape coiling part and a tail adhesive sticking part which are arranged on the rack, wherein the tape feeding part comprises a carrier tape caching mechanism, a tape feeding mechanism and a tape cutting mechanism; the reel part comprises a winding mechanism, a reel caching mechanism and a reel collecting mechanism; paste tail gluey part including pasting tail gluey mechanism, surely tail gluey mechanism and tail gluey buffer memory mechanism, wherein:

the carrier tape caching mechanism, the tape feeding mechanism and the winding mechanism are sequentially connected from right to left, and the disc collecting mechanism is positioned right below the winding mechanism;

the tape cutting mechanism is positioned below the tape transport mechanism;

the reel cache mechanism is arranged at the top end of the rack and is positioned right above the winding mechanism;

the tail adhesive sticking mechanism is positioned above the tape transport mechanism;

the tail cutting glue mechanism and the tail sticking glue mechanism are arranged adjacently;

the tail rubber buffer mechanism is arranged on the right side of the rack.

The carrier band caching mechanism mainly comprises a caching wheel, a guide wheel, an upper limit sensor and a lower limit sensor, wherein the guide wheel and the caching wheel are arranged one above the other, the upper limit sensor is arranged between the guide wheel and the caching wheel, and the lower limit sensor is arranged below the caching wheel.

The automatic disc changer is characterized in that the tape transport mechanism mainly comprises a tape transport motor, a ratchet wheel, a track, an origin detection sensor and a carrier tape swing arm, wherein the tape transport motor drives the ratchet wheel to rotate; the ratchet wheel and the carrier band swing arm are respectively arranged at two ends of the track, and the ratchet wheel is adjacent to the guide wheel; the origin detection sensor is arranged adjacent to the ratchet wheel.

The automatic disc changer is characterized in that the belt cutting mechanism mainly comprises a cutter cylinder, a movable cutter and a fixed cutter, the cutter cylinder drives the movable cutter to move, the fixed cutter is fixed on the track, and the movable cutter is matched with the fixed cutter; and guide bearings are respectively arranged on two sides of the movable cutter.

The automatic disc changer is characterized in that the winding mechanism mainly comprises an ejector rod cylinder, a baffle plate cylinder, a tape flatting cylinder, a jack inductor, a reel presence or absence inductor and a disc supporting cylinder, wherein the baffle plate cylinder is positioned at the lower side of the ejector rod cylinder; the adhesive tape flatting cylinder and the supporting disc cylinder are arranged on the left side and the right side of the ejector rod cylinder in a one-to-one correspondence manner, and the supporting disc cylinder is adjacent to the carrier tape swing arm; the jack inductor is arranged between the adhesive tape flatting cylinder and the baffle cylinder; the reel inductor is arranged on the baffle cylinder.

The reel cache mechanism mainly comprises a limiting cylinder, a guide plate cylinder, a loading-free reel sensor, two separating cylinders and two limiting rods, wherein the guide plate is obliquely arranged, the guide plate cylinder and the limiting cylinder are respectively connected with the guide plate, the guide plate cylinder is positioned right above the ejector rod cylinder, and the guide plate cylinder drives the guide plate to move; the two separating cylinders are respectively arranged above the guide plate, and the two limiting rods are connected with the two separating cylinders in a one-to-one correspondence manner; the loading disc sensor and the unloading disc sensor are arranged adjacent to the separation cylinder.

The automatic disc changer is characterized in that the disc retracting mechanism mainly comprises a limiting plate, a disc sensor, an upper limiting sensor and a lifting mechanism, wherein the limiting plate is vertically arranged below the baffle cylinder; the lifting mechanism is connected with the limiting plate and drives the limiting plate to move up and down; the upper limiting inductor and the disc inductor are arranged on one side of the limiting plate in an up-and-down mode.

The above automatic disk changer is characterized in that the tail adhesive tape sticking mechanism mainly comprises an adhesive tape suction nozzle and an adhesive pressing head cylinder connected with the adhesive tape suction nozzle, and the adhesive tape suction nozzle is located below the adhesive pressing head cylinder.

The automatic disc changer comprises a disc feeding cylinder, a disc tensioning cylinder, a disc cutting cylinder and a disc tensioning wheel, wherein the disc cutting cylinder and the disc feeding cylinder are arranged in a one-to-one correspondence manner, the disc cutting cylinder and the disc tensioning cylinder are arranged on the left side and the right side of a disc suction nozzle, and the disc tensioning wheel is arranged below the disc feeding cylinder.

The utility model provides an foretell automatic change dish machine, wherein, the tail is glued buffer memory and is constructed including organic glass apron, sticky tape rotation axis and stainless steel bottom plate, the one end of stainless steel bottom plate with the right side of frame links to each other, the other end with the sticky tape rotation axis links to each other, the side is provided with respectively around the sticky tape rotation axis organic glass apron.

The utility model discloses an automatic trade a set machine, it is easy and simple to handle, each mechanism is reliable and stable, has saved the human cost, improves work efficiency.

Drawings

FIG. 1 is a three-dimensional structure diagram of the automatic disk changer of the present invention;

FIG. 2 is a front view of the automatic disk changer of the present invention;

FIG. 3 is a rear view of the automatic disc changer of the present invention;

FIG. 4 is a schematic structural view of a carrier tape buffer mechanism of the automatic disk changer of the present invention;

FIG. 5 is a schematic structural view of a deck mechanism of the automatic disc changer of the present invention;

FIG. 6 is a schematic structural view of a tape cutting mechanism of the automatic disk changer of the present invention;

fig. 7 is a schematic structural view of a winding mechanism of the automatic disc changer of the present invention;

FIG. 8 is a schematic structural view of a reel buffer mechanism of the automatic disk changer of the present invention;

FIG. 9 is a schematic structural view of a disc retrieving mechanism of the automatic disc changer of the present invention;

fig. 10 is a schematic structural view of a tail glue pasting mechanism of the automatic disc changer of the present invention;

fig. 11 is a schematic structural view of a tail rubber cutting mechanism of the automatic disc changer of the present invention;

fig. 12 is a schematic structural diagram of the tail rubber buffer mechanism of the automatic disk changer of the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the following detailed description is provided with reference to the accompanying drawings:

referring to fig. 1, 2 and 3, a preferred embodiment of the present invention is an automatic disc changer, which includes a frame 10, and a tape feeding portion, a tape winding portion and a tail glue portion disposed on the frame 10, wherein the tape feeding portion includes a carrier tape buffer mechanism 1, a tape feeding mechanism 2 and a tape cutting mechanism 3; the reel part comprises a winding mechanism 7, a reel cache mechanism 8 and a reel collecting mechanism 9; the tail glue pasting part comprises a tail glue pasting mechanism 4, a tail glue cutting mechanism 5 and a tail glue caching mechanism 6.

The carrier tape buffer mechanism 1, the tape transport mechanism 2 and the winding mechanism 7 are sequentially connected from right to left, and the disc collecting mechanism 9 is positioned right below the winding mechanism 7; the tape cutting mechanism 3 is positioned below the tape transport mechanism 2; the reel cache mechanism 8 is arranged at the top end of the rack 10 and is positioned right above the winding mechanism 7; the tail adhesive sticking mechanism 4 is positioned above the tape transport mechanism 2; the tail cutting glue mechanism 5 is arranged adjacent to the tail sticking glue mechanism 4; the tail rubber buffer mechanism 6 is arranged on the right side of the rack 10.

Referring to fig. 4, the carrier tape buffer mechanism 1 mainly includes a buffer wheel 11, a guide wheel 12, an upper limit sensor 13 and a lower limit sensor 14, the guide wheel 12 and the buffer wheel 11 are disposed one above the other, the upper limit sensor 13 is disposed between the guide wheel 12 and the buffer wheel 11, and the lower limit sensor 14 is disposed below the buffer wheel 11. The carrier band caching mechanism 1 is used for caching carrier bands woven by front-section equipment (namely, a braiding all-in-one machine), and continuous and stable work of the front-section equipment is guaranteed. The carrier tape enters the guide wheel 12 and is wound on the buffer wheel 11, the buffer wheel 11 is driven to move up and down by the linear bearing and the guide shaft, and the upper limit sensor 13 and the lower limit sensor 14 respectively control the upper position and the lower position of the buffer wheel 11.

Referring to fig. 5, the tape transport mechanism 2 mainly includes a tape transport motor, a ratchet wheel 22, a track 23, an origin detector sensor 24 and a carrier tape swing arm 25, wherein the tape transport motor drives the ratchet wheel 22 to rotate; the ratchet wheel 22 and the carrying belt swing arm 25 are respectively arranged at two ends of the track 23, and the ratchet wheel 22 is adjacent to the guide wheel 12; the origin detection sensor 24 is disposed adjacent to the ratchet wheel 22. The tape transport motor drives the ratchet wheel 22 to rotate, so that the carrier tape conveyed by the guide wheel 12 of the carrier tape buffer memory mechanism 1 enters the track 23, and the carrier tape is inserted into the empty reel of the winding mechanism 7 through the carrier tape swing arm 25. The tape deck 2 can perform automatic winding, counting and other functions. The carrier tape enters the track 23 from the carrier tape buffer mechanism 1 through the ratchet wheel 22, and a pinch roller mechanism is specially designed for preventing the carrier tape from tilting. The carrier tape comes out from the track 23 and enters the carrier tape swing arm 25, the track 23 comprises an original point detection sensor 24, the original point of the carrier tape can be found through the original point detection sensor 24, and the front empty number and the rear empty number of the carrier tape can be set. The carrier band swing arm 25 has three main functions, namely, the carrier band is transported to the winding mechanism 7 through the rail 23 and is continuously transported in the coiling process; secondly, when the reel is full, the adhesive tape is conveyed, so that the carrier tape in the reel is not scattered; and thirdly, when a reel disc is completely finished, the swing arm can rotate clockwise to provide space for disc replacement.

Referring to fig. 6, the tape cutting mechanism 3 mainly includes a cutter cylinder 31, a movable cutter 32 and a fixed cutter 34, the cutter cylinder 31 drives the movable cutter 32 to move, the fixed cutter 34 is fixed on the rail 23, and the movable cutter 32 is matched with the fixed cutter 34; guide bearings 33 are respectively provided on both sides of the movable cutter 32. When the number of the carrier tapes reaches the set required number, the tape cutting mechanism 3 works to cut the carrier tapes. The tape cutting mechanism 3 cuts the carrier tape by pushing the movable cutter 32 through the cutter cylinder 31 and the fixed cutter 34 fixed in the track 23 in the tape transport mechanism 2, the track of the movable cutter 32 is limited by the guide bearing 33, and the guide bearing 33 is adopted for the purpose of mainly reducing friction.

Referring to fig. 7, the winding mechanism 7 mainly includes a push rod cylinder 71, a baffle cylinder 72, a tape leveling cylinder 73, a jack inductor 74, a reel presence or absence inductor 75, and a reel supporting cylinder 76, wherein the baffle cylinder 72 is located at the lower side of the push rod cylinder 71; the adhesive tape flatting cylinder 73 and the disc supporting cylinder 76 are arranged on the left side and the right side of the ejector rod cylinder 72 in a one-to-one correspondence manner, and the disc supporting cylinder 76 is adjacent to the carrier band swing arm 25; the jack sensor 75 is arranged between the adhesive tape flatting cylinder 73 and the baffle cylinder 72; a reel presence sensor 75 is provided on the baffle cylinder 72. The empty reel is arranged on the reel supporting cylinder 76, a carrier tape from the tape moving mechanism 2 is inserted into the empty reel through the carrier tape swing arm 25, and the empty reel finishes original point positioning, carrier tape winding and tail glue leveling on the winding mechanism 7. The winding mechanism 7 firstly makes the reel edge be enlarged through the reel-supporting cylinder 76, so that the carrier tape from the tape-moving mechanism 2 can enter the reel more easily. The jack position is located by the jack sensors 74 (using fiber optic sensors) to allow the carrier tape to be inserted into the reel holes correctly and quickly, and the carrier tape then reels up on the reels. In addition, the reel sensor 75 is used for detecting the front and back positions of the reel, and in order to prevent the center of the reel from being not in a preset position, the baffle cylinder 72 is specially designed, and the baffle cylinder 72 is used for driving the baffle disc to enable the center of the reel to be in the preset position.

Referring to fig. 8, the reel caching mechanism 8 mainly includes a limiting cylinder 81, a guide plate 82, a guide plate cylinder 83, a loading and unloading disc sensor 85, two separating cylinders 84 and two limiting rods 86, the guide plate 82 is obliquely arranged, the guide plate cylinder 83 and the limiting cylinder 81 are respectively connected with the guide plate 82, the guide plate cylinder 83 is located right above the ejector rod cylinder 71, and the guide plate cylinder 83 drives the guide plate 82 to move; the two separating cylinders 84 are respectively arranged above the guide plate 82, and the two limiting rods 86 are correspondingly connected with the two separating cylinders 84 one by one; a tray sensor 85 is provided adjacent to the separation cylinder 84. The reel buffer mechanism 8 is used for storing empty reels and ensuring that the empty reels are continuously supplied to the winding mechanism 7, and the number of the empty reels stored in the reel buffer mechanism 8 can reach 30. Empty reels are placed in the reel buffer mechanism 8 and are restrained by two separate cylinders 84. When the separation cylinder 84 is actuated, the two stop rods 86 will be inserted between the empty reels, which will fall into the guide plate 82 when the separation cylinder 84 is returned to the initial position. And the guide plate 82 is carried by the guide plate cylinder 83 to carry the empty reel to the winding mechanism 7. The reel presence/absence sensor 85 detects the presence/absence of a reel.

Referring to fig. 9, the disc retracting mechanism 9 mainly includes a limiting plate 91, a disc sensor 92, an upper limiting sensor 93 and a lifting mechanism 94, wherein the limiting plate 91 is vertically disposed below the baffle cylinder 72; the lifting mechanism 94 is connected with the limiting plate 91 and drives the limiting plate 91 to move up and down; the upper limit sensor 93 and the disk sensor 92 are disposed one above the other on one side of the limit plate 91. The carrier tray that has completed winding is stored at the take-up mechanism 9. The reel retracting mechanism 9 is used for storing full reels, and it uses the motor to rotate and drive the belt transmission device to make the lifting mechanism 94 drive the limit plate 91 to move up and down, the reel sensor 92 is used for detecting whether a reel exists, and the upper limit sensor 93 is used for detecting the upper position of the lifting mechanism 94.

Referring to fig. 10, the tail glue attaching mechanism 4 mainly includes a tape suction nozzle 41 and a head cylinder 42 connected thereto, and the tape suction nozzle 41 is located below the head cylinder 42. Stretching the adhesive tape to a set length to wait for a cutter; conveying the cut adhesive tape to a tail adhesive sticking waiting station; when the number of the carrier tapes reaches the required number and the carrier tapes are cut, the head pressing air cylinder 42 sticks the heads to the carrier tapes. The tail glue pasting mechanism 4 adsorbs tail glue on the tail glue track by vacuum, after the winding mechanism 7 finishes one disc, the tail glue is cut off by the tail glue cutting mechanism 5, the tail glue is pasted on the carrying belt by the belt conveying mechanism 2, and the tail glue pasting mechanism is driven by the tape pasting cylinder 73 in the winding mechanism 7 to paste the tail glue on the carrying belt smoothly.

Referring to fig. 11, the tail-cutting adhesive mechanism 5 mainly includes an adhesive tape feeding cylinder 51, an adhesive tape tensioning cylinder 54, an adhesive tape cutting cylinder 53 and an adhesive tape tensioning wheel 52, the adhesive tape tensioning cylinder 54 and the adhesive tape feeding cylinder 51 are arranged one above the other, the adhesive tape cutting cylinder 53 and the adhesive tape tensioning cylinder 54 are arranged on the left and right sides of the adhesive tape suction nozzle 41 in a one-to-one correspondence manner, and the adhesive tape tensioning wheel 52 is located below the adhesive tape feeding cylinder 51. The tail rubber cutting mechanism 5 cuts the tail rubber and produces a second rubber head. The tail rubber cutting mechanism 5 tensions the rubber belt through a rubber belt tensioning cylinder 54 and a rubber belt feeding cylinder 51, and then drives the cutter to cut the rubber belt through a rubber belt cutting cylinder 53.

Referring to fig. 12, the tail glue buffer mechanism 6 includes an organic glass cover plate 61, a tape rotating shaft 62 and a stainless steel bottom plate 63, one end of the stainless steel bottom plate 63 is connected to the right side of the rack 10, the other end is connected to the tape rotating shaft 62, and the organic glass cover plate 61 is disposed on the front side and the rear side of the tape rotating shaft 62. The tail stock material is wound around the tape spool 62. The tail adhesive buffer mechanism 6 is used for storing adhesive tapes. The organic glass cover plate 61 is a transparent acrylic cover plate, so that the use condition of the adhesive tape can be clearly seen, and the adhesive tape is convenient to replace by adopting an adjustable tightening handle.

The utility model discloses an automatic change dish machine, with the braid from the braid all-in-one, through switching wheel mechanism switching to carrier band buffer memory mechanism, through the tape transport mechanism, receive a set mechanism again. When one roll of braid is accomplished, start and cut tape unit and construct, paste tail rubber machine and cut tail rubber machine to accomplish the effect of a roll reel from not having to full dish, easy and simple to handle, reduce operation, improved production efficiency, through the signal of receiving front end equipment (braid all-in-one), can realize that the braid all-in-one is changed into empty dish with the charging tray of full dish under the state of not shutting down, improved the degree of automation of braid all-in-one, saved the human cost, improve work efficiency, easy operation, stability is high.

To sum up, the utility model discloses an automatic trade a set machine, it is easy and simple to handle, each mechanism is reliable and stable, has saved the human cost, improves work efficiency.

It will be appreciated by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as limitations of the present invention, and that changes and modifications to the above described embodiments will fall within the scope of the claims of the present invention as long as they are within the spirit and scope of the present invention.

Claims

1. An automatic disk changer is characterized by comprising a rack, a tape feeding part, a tape coiling part and a tail adhesive sticking part, wherein the tape feeding part, the tape coiling part and the tail adhesive sticking part are arranged on the rack; the reel part comprises a winding mechanism, a reel caching mechanism and a reel collecting mechanism; paste tail gluey part including pasting tail gluey mechanism, surely tail gluey mechanism and tail gluey buffer memory mechanism, wherein:

the tape cutting mechanism is positioned below the tape transport mechanism;

the tail rubber buffer mechanism is arranged on the right side of the rack.

2. The automatic disc changer according to claim 1, wherein the carrier tape buffer mechanism mainly comprises a buffer wheel, a guide wheel, an upper limit sensor and a lower limit sensor, the guide wheel and the buffer wheel are arranged one above the other, the upper limit sensor is arranged between the guide wheel and the buffer wheel, and the lower limit sensor is arranged below the buffer wheel.

3. The automatic disc changer according to claim 2, wherein the deck mechanism mainly comprises a deck motor, a ratchet wheel, a rail, an origin detector sensor and a carrier tape swing arm, the deck motor drives the ratchet wheel to rotate; the ratchet wheel and the carrier band swing arm are respectively arranged at two ends of the track, and the ratchet wheel is adjacent to the guide wheel; the origin detection sensor is arranged adjacent to the ratchet wheel.

4. The automatic disc changer according to claim 3, wherein the tape cutting mechanism mainly comprises a cutter cylinder, a movable cutter and a fixed cutter, the cutter cylinder drives the movable cutter to move, the fixed cutter is fixed on the track, and the movable cutter is matched with the fixed cutter; and guide bearings are respectively arranged on two sides of the movable cutter.

5. The automatic disc changer according to claim 4, wherein the winding mechanism mainly comprises a push rod cylinder, a baffle cylinder, a tape leveling cylinder, a jack inductor, a reel presence or absence inductor and a disc supporting cylinder, wherein the baffle cylinder is positioned at the lower side of the push rod cylinder; the adhesive tape flatting cylinder and the supporting disc cylinder are arranged on the left side and the right side of the ejector rod cylinder in a one-to-one correspondence manner, and the supporting disc cylinder is adjacent to the carrier tape swing arm; the jack inductor is arranged between the adhesive tape flatting cylinder and the baffle cylinder; the reel inductor is arranged on the baffle cylinder.

6. The automatic disc changer according to claim 5, wherein the reel buffer mechanism mainly comprises a limiting cylinder, a guide plate cylinder, a disc loading and unloading sensor, two separating cylinders and two limiting rods, the guide plate is arranged obliquely, the guide plate cylinder and the limiting cylinder are respectively connected with the guide plate, the guide plate cylinder is positioned right above the ejector rod cylinder, and the guide plate cylinder drives the guide plate to move; the two separating cylinders are respectively arranged above the guide plate, and the two limiting rods are connected with the two separating cylinders in a one-to-one correspondence manner; the loading disc sensor and the unloading disc sensor are arranged adjacent to the separation cylinder.

7. The automatic disc changer according to claim 5, wherein the disc retracting mechanism mainly comprises a limiting plate, a disc sensor, an upper limiting sensor and a lifting mechanism, and the limiting plate is vertically arranged below the baffle cylinder; the lifting mechanism is connected with the limiting plate and drives the limiting plate to move up and down; the upper limiting inductor and the disc inductor are arranged on one side of the limiting plate in an up-and-down mode.

8. The automatic disk changer according to claim 1, wherein the tail adhesive attaching mechanism mainly comprises an adhesive tape suction nozzle and an adhesive pressing head cylinder connected with the adhesive tape suction nozzle, and the adhesive tape suction nozzle is positioned below the adhesive pressing head cylinder.

9. The automatic disc changer according to claim 8, wherein the tape cutting mechanism mainly comprises a tape feeding cylinder, a tape tensioning cylinder, a tape cutting cylinder and a tape tensioning wheel, the tape tensioning cylinder and the tape feeding cylinder are arranged one above the other, the tape cutting cylinder and the tape tensioning cylinder are arranged on the left and right sides of the tape suction nozzle in a one-to-one correspondence, and the tape tensioning wheel is located below the tape feeding cylinder.

10. The automatic disc changer according to claim 1, wherein the tail rubber buffer mechanism comprises an organic glass cover plate, a rubber belt rotating shaft and a stainless steel bottom plate, one end of the stainless steel bottom plate is connected with the right side of the rack, the other end of the stainless steel bottom plate is connected with the rubber belt rotating shaft, and the organic glass cover plate is arranged on the front side and the rear side of the rubber belt rotating shaft respectively.