CN115383332A

CN115383332A - Supporting plate micropore machining equipment for solid material bottle

Info

Publication number: CN115383332A
Application number: CN202211324580.0A
Authority: CN
Inventors: 薛亮; 郑江
Original assignee: Changshu Pharmaceutical Machinery Co ltd
Current assignee: Changshu Pharmaceutical Machinery Co ltd
Priority date: 2022-10-27
Filing date: 2022-10-27
Publication date: 2022-11-25
Anticipated expiration: 2042-10-27
Also published as: CN115383332B

Abstract

The invention relates to the technical field of laser drilling accessories, in particular to a supporting plate micropore machining device for a solid material bottle, which comprises a bottom plate, a fixed groove plate and a movable groove plate, wherein the fixed groove plate is fixed on the bottom plate, the movable groove plate is slidably arranged on the fixed groove plate, a plurality of linking blocks are arranged on the fixed groove plate and the movable groove plate, a plurality of linkage plates are arranged between the fixed groove plate and the movable groove plate and are arranged in a Z shape, two ends of the linkage plates are respectively hinged with the linking blocks on the fixed groove plate and the movable groove plate, laser emitters are fixedly arranged at the middle positions of the bottom ends of the linkage plates, a conveying belt is arranged on the bottom plate in a transmission manner, and a plurality of clamping grooves are uniformly arranged on the conveying belt. In the invention, in the process of feeding the square supporting plate, the adaptive adjustment is carried out on the distance between the laser emitters in the whole row according to the size of the square supporting plate, so that the feeding of the square supporting plate and the distance adjustment of the laser emitters are carried out synchronously, the time and the labor are saved, and the working efficiency is high.

Description

Supporting plate micropore machining equipment for solid material bottle

Technical Field

The invention relates to the technical field of laser drilling accessories, in particular to supporting plate micropore machining equipment for a solid material bottle.

Background

Micropore on the square layer board of solid material bottle is for improving the area of contact of solvent air current and MO source granule on the little medium, at present, set up the mode of micropore on square layer board and carry out the mode that the multirow was punched through a whole row of laser emitter in proper order, in the in-service use in-process, the width of square layer board is unchangeable, the length of square layer board can change along with the size of solid material bottle, and in order to keep the unanimity of solvent air current, micropore's quantity is unchangeable, and for make the micropore distribute evenly on the square layer board of different sizes, need adjust the interval of a whole row of laser emitter, it wastes time and energy to the process of interval adjustment relatively, work efficiency is lower.

Disclosure of Invention

The invention mainly aims to provide a supporting plate micropore processing device for a solid material bottle, so as to effectively solve the problems pointed out in the background technology.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a layer board micropore processing equipment for solid material bottle, comprising a base plate, decide the frid and move the frid, decide the frid and fix on the bottom plate, move the frid slidable mounting on deciding the frid, decide all to be provided with a plurality of pieces that link up on frid and the moving frid, decide the frid and move and be provided with a plurality of linkage boards between the frid, a plurality of linkage boards are the zigzag and arrange, the both ends of a plurality of linkage boards are articulated with linking piece on deciding the frid and moving the frid respectively, a plurality of linkage board bottom middle part positions all fixedly are provided with laser emitter, it is provided with the conveyer belt to move on the bottom plate, evenly be provided with a plurality of draw-in grooves on the conveyer belt.

Preferably, the conveying belt is formed by arranging a plurality of single belts at equal intervals, the width of each single belt is smaller, and the distance between every two adjacent single belts is larger than the width of laser emitted by the laser emitter.

Preferably, the movable groove plate is fixedly provided with two racks, the two racks are respectively located at positions close to the end portions of the movable groove plate, the two racks are oppositely arranged in the direction, the two racks all slide to penetrate through the fixed groove plate, the bottom plate is rotatably provided with two rotating columns, the two rotating columns are symmetrical in position, tooth structures are arranged on the outer circumferential wall of the two rotating columns, the two racks are respectively meshed with the tooth structures on the two rotating columns, the bottom plate is provided with two sliding grooves, a moving plate is arranged in the two sliding grooves in a sliding mode, springs are arranged between one end, opposite to the other, of the two moving plates and the corresponding inner wall of the sliding groove, toothed plates are fixedly arranged at one ends, opposite to the other, the toothed plates are meshed with the tooth structures on the corresponding rotating columns, arc guide plates are fixedly arranged at the same ends of the two moving plates, and the two arc guide plates are symmetrical in position.

Preferably, be provided with two sets of mounting brackets on the bottom plate, all rotate on two sets of mounting brackets and be provided with the roller, the conveyer belt transmission cover is established on two rollers, be provided with the connecting axle with the axle center on one of them roller, the fixed plectane that is provided with of one end of connecting axle dorsad roller, the plectane dorsad connecting axle's one end is the circumference form and evenly is provided with a plurality of swing pieces, be provided with the quad slit on the bottom plate, the quad slit internal rotation is provided with the pivot, the pivot runs through the bottom plate antetheca, fixed cover is equipped with the rotor plate in the pivot, the rotor plate is located the quad slit, the fixed swinging arms that is provided with on the circumference outer wall of rotor plate, the swinging arms is located between two adjacent swing pieces in a plurality of swing pieces when being in the top, the fixed mounting panel front end is provided with the motor, the pivot is connected with motor output end transmission.

Preferably, the lateral wall of bottom plate is last to be fixed to be provided with two extension boards, all fixedly on two extension boards be provided with the stand, and two stand tops all fixedly are provided with the limiting plate, and the limiting plate is located the conveyer belt top.

Preferably, two guide posts are arranged in the sliding groove, and the moving plate is sleeved on the two guide posts in a sliding manner.

Preferably, two support columns are arranged on the bottom plate, one ends of the two support columns, which are opposite to the bottom plate, are fixedly connected with the bottom end of the fixed groove plate, and the two support columns are respectively positioned on two sides of the conveying belt.

Preferably, the clamping device further comprises a clamping pin, a clamping groove is formed in the middle of the fixed groove plate, a clamping hole is formed in the middle of the connecting block located at the middle of the fixed groove plate and aligned with the clamping groove, and the clamping pin sequentially penetrates through the clamping hole and the clamping groove.

After the technical scheme is adopted, the invention has the beneficial effects that:

in the process of square supporting plate feeding, the adaptive adjustment is carried out on the interval of a whole row of laser emitters according to the size of the square supporting plate, so that the feeding of the square supporting plate and the interval adjustment of the laser emitters are carried out synchronously, the time and the labor are saved, and the working efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective view of an overall front left corner downward angled view configuration in an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a partial structure of a right front top corner downward squint structure at a fixed groove plate, the fixed groove plate and a plurality of linkage plates in the embodiment of the invention;

FIG. 3 is a partially disassembled schematic perspective view of the joining block, the linkage plate and the laser transmitter in an embodiment of the invention;

FIG. 4 is a schematic perspective view of a partial structure of a conveyor belt and a limiting plate, wherein the right front top corner of the partial structure is downward oblique;

fig. 5 is a front plan view of a part of the structure at the conveyor belt and the stopper plate in the embodiment of the invention;

FIG. 6 is a right plan view of the partial structure of the circular plate, the swing block, the swing lever and the motor in the embodiment of the present invention;

FIG. 7 is a front plan view of the structure of the circular plate, the swing block, the rotating plate and the swing lever in the embodiment of the present invention;

FIG. 8 is a top plan view of a portion of the structure at the moving plate, conveyor belt and arcuate guide plate in an embodiment of the present invention;

FIG. 9 is a perspective view of the structure of the slotted plate, the engagement block and the detent of an embodiment of the present invention, shown in a top left front angled downward perspective;

FIG. 10 is a top plan view of an embodiment of the present invention after attachment of a plurality of linkage plates and a plurality of engagement blocks;

reference numerals: 1. a base plate; 2. a fixed groove plate; 3. a movable groove plate; 4. a joining block; 5. a linkage plate; 6. a laser transmitter; 7. a conveyor belt; 8. a card slot; 9. a rack; 10. rotating the column; 11. a chute; 12. moving the plate; 13. a spring; 14. a toothed plate; 15. an arc-shaped guide plate; 16. a mounting frame; 17. a roller; 18. a connecting shaft; 19. a circular plate; 20. a swing block; 21. a square hole; 22. a rotating shaft; 23. a rotating plate; 24. a swing lever; 25. mounting a plate; 26. a motor; 27. a support plate; 28. a column; 29. a limiting plate; 30. a guide post; 31. a support pillar; 32. a bayonet lock; 33. a clamping groove; 34. and (4) a clamping hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In order to solve the problems that the process of adjusting the distance between the laser emitters is time-consuming and labor-consuming and the working efficiency is low in the prior art, the embodiment of the invention realizes that the distance between a whole row of laser emitters is adjusted adaptively according to the size of the square supporting plate in the process of feeding the square supporting plate, so that the feeding of the square supporting plate and the distance adjustment of the laser emitters are carried out synchronously, the time and the labor are saved, and the working efficiency is high, and the embodiment of the invention is described in detail as follows:

the supporting plate micropore processing equipment for the solid material bottle comprises a bottom plate 1, a fixed groove plate 2 and a movable groove plate 3, wherein the fixed groove plate 2 is fixed on the bottom plate 1, the movable groove plate 3 is slidably mounted on the fixed groove plate 2, a plurality of connecting blocks 4 are arranged on the fixed groove plate 2 and the movable groove plate 3, a plurality of linkage plates 5 are arranged between the fixed groove plate 2 and the movable groove plate 3, the linkage plates 5 are arranged in a Z shape, two ends of each linkage plate 5 are respectively hinged with the connecting blocks 4 on the fixed groove plate 2 and the movable groove plate 3, the middle positions of the bottom ends of the linkage plates 5 are fixedly provided with laser transmitters 6, a conveying belt 7 is arranged on the bottom plate 1 in a transmission manner, and a plurality of clamping grooves 8 are uniformly arranged on the conveying belt 7;

more specifically, the number of the connecting blocks 4 on the movable groove plate 3 is one more than that of the connecting blocks 4 on the fixed groove plate 2, for convenience of understanding, specific examples are given, in the embodiment of the present invention, the number of the connecting blocks 4 on the fixed groove plate 2 is set to five, the number of the connecting blocks 4 on the movable groove plate 3 is set to six, the five connecting blocks 4 on the fixed groove plate 2 and the six connecting blocks 4 on the movable groove plate 3 are arranged in a staggered manner, the connecting block 4 located at the middle of the five connecting blocks 4 on the fixed groove plate 2 is fixedly connected with the fixed groove plate 2, the five connecting blocks 4 on the fixed groove plate 2 and the six connecting blocks 4 on the movable groove plate 3 are hinged and connected through a plurality of linkage plates 5, after the connection is completed, the plurality of linkage plates 5 are arranged in a zigzag manner, and the number of the linkage plates 5 can be determined to be ten, which needs to be specifically described, the fixed groove plate 2 and the movable groove plate 3 are opposite in direction, and the fixed groove plate 2 and the movable groove plate 3 are located in the same plane, and the movable groove plate is always close to or far away from the fixed groove plate 2;

in the specific implementation process, a square supporting plate is placed in a clamping groove 8 on a conveying belt 7, the square supporting plate is fed through the conveying belt 7, in the process that the square supporting plate moves to the position below a plurality of laser emitters 6, a movable groove plate 3 slides towards a fixed groove plate 2, as a connection block 4 positioned at the middle of five connection blocks 4 on the fixed groove plate 2 is fixedly connected with the fixed groove plate 2, a plurality of linkage plates 5 are hinged with the corresponding connection blocks 4, and the linkage plates 5 are arranged in a Z shape, as the distance between the movable groove plate 3 and the fixed groove plate 2 is gradually reduced, the distance between the central points of the linkage plates 5 is extended at equal intervals, as the laser emitters 6 are arranged at the middle position of the bottom end of the linkage plates 5, the distance between two adjacent laser emitters 6 in the plurality of laser emitters 6 is extended at equal intervals, and the synchronous and equal adjustment of the distances between the plurality of laser emitters 6 is automatically completed through the sliding of the movable groove plate 3;

when the laser emitter feeding device is used, in the process of feeding the square supporting plate, the adaptive adjustment is carried out on the interval of the laser emitter 6 in the whole row according to the size of the square supporting plate, so that the feeding of the square supporting plate and the interval adjustment of the laser emitter 6 are carried out synchronously, time and labor are saved, and the working efficiency is high.

Based on the above embodiment, the conveyer belt 7 is formed by arranging a plurality of single belts at equal intervals, the width of each single belt is smaller, and the distance between two adjacent single belts is larger than the width of the laser emitted by the laser emitter 6;

in the concrete implementation process, after conveyer belt 7 with the appointed station of square layer board conveyer belt 7, a plurality of laser emitter 6 transmission laser punch the square layer board, and laser can pass between two adjacent single bands, and after the interval adjustment between a plurality of laser emitter 6, the laser that laser emitter 6 transmitted still can pass from the clearance between two corresponding single bands, through dividing into a plurality of single bands of equidistance range with conveyer belt 7 for can not block the laser that laser emitter 6 sent, improve the operational reliability.

Based on the above embodiment, the movable groove plate 3 is fixedly provided with two racks 9, the two racks 9 are respectively located at positions on the movable groove plate 3 close to the end portions, the two racks 9 are opposite in direction, the two racks 9 both slidably penetrate through the fixed groove plate 2, the bottom plate 1 is rotatably provided with two rotating columns 10, the two rotating columns 10 are symmetrical in position, the circumferential outer walls of the two rotating columns 10 are respectively provided with a tooth structure, the two racks 9 are respectively engaged with the tooth structures on the two rotating columns 10, the bottom plate 1 is provided with two sliding grooves 11, the two sliding grooves 11 are respectively slidably provided with a moving plate 12, a spring 13 is arranged between one end of each of the two moving plates 12 opposite in direction and the inner wall of the corresponding sliding groove 11, one end of each of the two moving plates 12 opposite in direction is fixedly provided with a toothed plate 14, the toothed plate 14 is engaged with the tooth structure on the corresponding rotating moving plate 10, the same end of each of the two moving plates 12 is fixedly provided with an arc-shaped guide plate 15, and the two arc-shaped guide plates 15 are symmetrical in position;

more specifically, the top surface of the moving plate 12 is flush with the top surface of the arc-shaped guide plate 15, and the top surfaces of the moving plate 12 and the arc-shaped guide plate 15 are higher than the upper surface of the conveyor belt 7;

in the specific implementation process, the conveyor belt 7 conveys the square supporting plate, before the moving station of the square supporting plate, the square supporting plate is firstly contacted with the cambered surfaces of the two arc-shaped guide plates 15, the two arc-shaped guide plates 15 play a role in centering and aligning the square supporting plate, when the square supporting plate is placed on the clamping groove 8 on the conveyor belt 7, a worker tries to ensure that the square supporting plate is not excessively deviated, so that the arc-shaped guide plates 15 can smoothly center the square supporting plate when the square supporting plate is contacted with the arc-shaped guide plates 15, the square supporting plate smoothly slides into between the two moving plates 12 after being separated from the contact with the arc-shaped guide plates 15 in the moving process of the square supporting plate along with the conveyor belt 7, the two moving plates 12 move back and back when the square supporting plate is initially contacted with the arc-shaped guide plates 15 and separated from the contact with the arc-shaped guide plates 15, and the distance between the two moving plates 12 shown in the drawing of the embodiment of the invention is the minimum distance, just can center the square supporting plate with the minimum length, the distance between the laser emitters 6 is the minimum distance, in the process that the two moving plates 12 move back to back, the toothed plate 14 applies acting force to the corresponding rotating column 10 to enable the rotating column 10 to rotate, the driving rack 9 slides in the rotating process of the rotating column 10, the moving groove plate 3 moves towards the fixed groove plate 2 under the driving of the two racks 9, when the moving groove plate 3 is gradually close to the fixed groove plate 2, the distances between the laser emitters 6 are driven to synchronously extend in equal quantity, similarly, when the moving groove plate 3 is gradually far away from the fixed groove plate 2, the distances between the laser emitters 6 are driven to synchronously shorten in equal quantity, and in the process of feeding the square supporting plate, the adaptive adjustment of the distances between the laser emitters 6 in a whole row is automatically carried out according to the size of the square supporting plate, the feeding of the square supporting plate and the distance adjustment of the laser emitter 6 are synchronously carried out, time and labor are saved, and the working efficiency is high.

Based on the above embodiment, two sets of mounting brackets 16 are arranged on the bottom plate 1, rollers 17 are rotatably arranged on the two sets of mounting brackets 16, the transmission sleeve of the conveyor belt 7 is arranged on the two rollers 17, one roller 17 is coaxially provided with a connecting shaft 18, one end of the connecting shaft 18, which is opposite to the roller 17, is fixedly provided with a circular plate 19, one end of the circular plate 19, which is opposite to the connecting shaft 18, is circumferentially and uniformly provided with a plurality of swing blocks 20, the bottom plate 1 is provided with a square hole 21, the square hole 21 is rotatably provided with a rotating shaft 22, the rotating shaft 22 penetrates through the front wall of the bottom plate 1, the rotating shaft 22 is fixedly provided with a rotating plate 23, the rotating plate 23 is positioned in the square hole 21, the circumferential outer wall of the rotating plate 23 is fixedly provided with a swing rod 24, the swing rod 24 is positioned between two adjacent swing blocks 20 in the plurality of swing blocks 20 when being positioned at the topmost end, the mounting plate 25 is fixedly provided with the mounting plate 25, the top end of the bottom plate 1 is fixedly provided with a motor 26, and the motor 26 is fixedly arranged at the top end of the mounting plate 25, and the rotating shaft 22 is in transmission connection with the output end of the motor 26;

in the specific implementation process, the motor 26 is powered on, the motor 26 drives the rotating plate 23 to rotate through the rotating shaft 22, the rotating plate 23 drives the oscillating rod 24 to do circular motion, the rotating plate 23 rotates for a circle, the oscillating block 20 is shifted through the oscillating rod 24 to rotate for a certain angle by taking the center of the circular plate 19 as an axis, the rotating plate 23 is driven by the motor 26 to continuously rotate, further, the circular plate 19 intermittently rotates, the circular plate 19 drives the conveying belt 7 to intermittently transmit through the connecting shaft 18, the conveying belt 7 intermittently feeds the square supporting plate, and the square supporting plate is intermittently fed.

Based on the above embodiment, two support plates 27 are fixedly arranged on the side wall of the bottom plate 1, stand columns 28 are fixedly arranged on the two support plates 27, limit plates 29 are fixedly arranged at the top ends of the two stand columns 28, and the limit plates 29 are positioned above the conveyer belt 7;

more specifically, the width of the limiting plate 29 is the same as the width of the single belts that make up the conveyor belt 7;

in the concrete implementation process, at first, the square layer board that will treat processing from the side of draw-in groove 8 pushes into to draw-in groove 8 in, the distance between limiting plate 29 and the conveyer belt 7 is fixed, consequently, the square layer board thickness of treating processing is also fixed, the in-process of the square layer board material loading of conveyer belt 7 drive, the top of square layer board all the time with the diapire sliding contact of limiting plate 29, the width with limiting plate 29 is the same with the width of a plurality of single bands of constituteing conveyer belt 7 in order to prevent that laser emitter 6 from punching the layer board, the laser of launching causes the damage to conveyer belt 7.

Based on the above embodiment, two guide posts 30 are arranged in the chute 11, and the moving plate 12 is slidably sleeved on the two guide posts 30;

in a specific implementation process, the two guide posts 30 play a role in limiting and guiding the moving plate 12, so that the moving plate 12 is more stable when sliding in the sliding groove 11, and the use stability is improved.

Based on the above embodiment, the bottom plate 1 is provided with two supporting columns 31, one ends of the two supporting columns 31, which are back to the bottom plate 1, are fixedly connected with the bottom end of the fixed groove plate 2, and the two supporting columns 31 are respectively located at two sides of the conveying belt 7;

in the specific implementation process, two support columns 31 stably support the fixed groove plate 2, so that the use stability is improved.

Based on the above embodiment, the device further comprises a detent 32, a detent groove 33 is arranged in the middle of the fixed groove plate 2, a detent hole 34 is arranged on the connection block 4 which is positioned at the middle of the fixed groove plate 2, the detent hole 34 is aligned with the detent groove 33, and the detent 32 sequentially penetrates through the detent hole 34 and the detent groove 33;

through the cooperation of bayonet lock 32, screens hole 34 and screens groove 33, realize fixing linking piece 4 to the middle on the fixed slot board 2, convenient to detach improves the convenience of use.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. The supporting plate micropore machining equipment for the solid material bottle is characterized by comprising a bottom plate (1), a fixed groove plate (2) and a movable groove plate (3), wherein the fixed groove plate (2) is fixed on the bottom plate (1), the movable groove plate (3) is slidably mounted on the fixed groove plate (2), a plurality of linking blocks (4) are arranged on the fixed groove plate (2) and the movable groove plate (3), a plurality of linkage plates (5) are arranged between the fixed groove plate (2) and the movable groove plate (3), the linkage plates (5) are arranged in a Z shape, two ends of the linkage plates (5) are hinged with the linking blocks (4) on the fixed groove plate (2) and the movable groove plate (3) respectively, laser transmitters (6) are fixedly arranged in the middle positions of the bottoms of the linkage plates (5), a conveying belt (7) is arranged on the bottom plate (1) in a transmission mode, and a plurality of clamping grooves (8) are uniformly arranged on the conveying belt (7).

2. The supporting plate micropore processing equipment for the solid material bottle according to claim 1, wherein the conveying belt (7) is formed by arranging a plurality of single belts at equal intervals, the width of each single belt is smaller, and the distance between two adjacent single belts is larger than the width of the laser emitted by the laser emitter (6).

3. The supporting plate micropore processing equipment for the solid material bottle according to claim 1 is characterized in that two racks (9) are fixedly arranged on the movable groove plate (3), the two racks (9) are respectively positioned at positions close to the end parts on the movable groove plate (3), the two racks (9) are opposite in direction, the two racks (9) are respectively and slidably penetrated through the fixed groove plate (2), two rotating columns (10) are rotatably arranged on the bottom plate (1), the two rotating columns (10) are symmetrical in position, a tooth structure is respectively arranged on the outer circumferential wall of each rotating column (10), the two racks (9) are respectively meshed with the tooth structures on the two rotating columns (10), two sliding grooves (11) are arranged on the bottom plate (1), a movable plate (12) is slidably arranged in the two sliding grooves (11), a spring (13) is arranged between one end of each of the two arc-shaped movable plates (12) and the inner wall of the corresponding sliding groove (11), one end of each of the two arc-shaped movable plates (12) is fixedly provided with a toothed plate (14), each toothed plate is meshed with the corresponding tooth structure on the rotating column (10), two guide plates (12) are respectively and two guide plates (15) are symmetrically arranged at the same end of each fixed guide plate (12), and two guide plates (15) are symmetrically arranged at the same end of each guide plate.

4. The pallet micro-hole machining equipment for the solid material bottle according to claim 1, it is characterized in that two groups of mounting racks (16) are arranged on the bottom plate (1), rollers (17) are respectively arranged on the two groups of mounting racks (16) in a rotating way, the conveyer belt (7) is sleeved on the two rollers (17) in a transmission way, one of the rollers (17) is coaxially provided with a connecting shaft (18), one end, back to the roller (17), of the connecting shaft (18) is fixedly provided with a circular plate (19), one end, back to the connecting shaft (18), of the circular plate (19) is uniformly provided with a plurality of swinging blocks (20) in a circumferential shape, a square hole (21) is formed in the bottom plate (1), a rotating shaft (22) is arranged in the square hole (21) in a rotating mode, the rotating shaft (22) penetrates through the front wall of the bottom plate (1), a rotating plate (23) is fixedly sleeved on the rotating shaft (22), the rotating plate (23) is located in the square hole (21), a swinging rod (24) is fixedly arranged on the outer wall of the circumference of the rotating plate (23), the swinging rod (24) is located between two adjacent swinging blocks (20) in the plurality of swinging blocks (20) when the swinging rod (24) is located at the topmost end, a mounting plate (25) is fixedly arranged at the front end of the bottom plate (1), a motor (26) is fixedly arranged at the top end of the mounting plate (25), and the rotating shaft (22) is in transmission connection with the output end of the motor (26).

5. The support plate micro-hole machining equipment for the solid material bottle according to claim 1 is characterized in that two support plates (27) are fixedly arranged on the side wall of the bottom plate (1), stand columns (28) are fixedly arranged on the two support plates (27), limiting plates (29) are fixedly arranged at the top ends of the two stand columns (28), and the limiting plates (29) are positioned above the conveying belt (7).

6. The supporting plate micropore machining equipment for the solid material bottle according to claim 3, wherein two guide columns (30) are arranged in the chute (11), and the moving plate (12) is slidably sleeved on the two guide columns (30).

7. The supporting plate micropore processing equipment for the solid material bottle according to claim 1 is characterized in that two supporting columns (31) are arranged on the bottom plate (1), one ends of the two supporting columns (31) back to the bottom plate (1) are fixedly connected with the bottom end of the fixed groove plate (2), and the two supporting columns (31) are respectively positioned on two sides of the conveying belt (7).

8. The supporting plate micropore machining equipment for the solid material bottle according to claim 1, further comprising a clamping pin (32), wherein a clamping groove (33) is arranged at the middle position of the fixed groove plate (2), a clamping hole (34) is arranged on the connecting block (4) which is located at the middle of the fixed groove plate (2), the clamping hole (34) is aligned with the clamping groove (33), and the clamping pin (32) sequentially penetrates through the clamping hole (34) and the clamping groove (33).