CN115055370B

CN115055370B - Alloy screen cloth production manufacturing processing equipment

Info

Publication number: CN115055370B
Application number: CN202210895956.7A
Authority: CN
Inventors: 余文渊
Original assignee: Jishan County Sensheng Coal Preparation Technology Co ltd
Current assignee: Jishan County Sensheng Coal Preparation Technology Co ltd
Priority date: 2022-07-27
Filing date: 2022-07-27
Publication date: 2024-03-01
Anticipated expiration: 2042-07-27
Also published as: CN115055370A

Abstract

The invention belongs to the technical field of processing screens, and particularly relates to alloy screen production and manufacturing processing equipment, which comprises a workbench, wherein two vertical plates are arranged on the workbench, a rolling cutting roller is rotatably arranged between the two vertical plates, and a rolling cutting assembly is arranged on the rolling cutting roller; the vertical plate is provided with a rolling motor, and the front and rear of the vertical plate are respectively provided with a pressing mechanism; a polishing rotating shaft is rotatably arranged on the workbench, and a grinding disc is fixedly arranged at the top end of the polishing rotating shaft; the surface of the workbench is provided with a collecting mechanism. According to the invention, aiming at the processing alloy screen, after the alloy screen is rolled and cut, the polishing mechanism polishes burrs on the back surface of the screen, meanwhile, the collecting mechanism can collect the polished burrs, and the polished burrs are transferred into the strip-shaped conveying groove through the annular material collecting plate and conveyed into the material collecting box through the conveying belt and the hairbrush, so that the automatic collecting function is completed.

Description

Alloy screen cloth production manufacturing processing equipment

Technical Field

The invention belongs to the technical field of screen processing, and particularly relates to alloy screen production, manufacturing and processing equipment.

Background

The screen mesh is a net-shaped product with grading and screening functions on object particles, the alloy screen mesh is manufactured by weaving alloy wires or perforating an alloy plate, and compared with the traditional screen mesh, the alloy screen mesh has the advantages of high strength, high hardness, difficult corrosion and the like, and is widely applied to the fields of metallurgy, coal, rubber, petroleum, chemical industry, pharmacy, automobile, glass manufacturing and the like.

When an alloy screen is manufactured by punching an alloy plate, most of the current processing equipment can only open screen holes with uniform intervals and the same size on the alloy plate, so that the density and the aperture size of the screen holes cannot be adjusted at the same time, and the processing applicability is poor; and can produce the burr at the sieve mesh back when the trompil, polish the in-process of burr to the sieve mesh edge, the piece that produces can remain on the workstation and be difficult to the clearance.

Disclosure of Invention

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides an alloy screen cloth production manufacturing processing equipment, which comprises a workbench, the workstation is from the back forward install respectively and is rolled cutting mechanism, grinding machanism and collection mechanism, it includes two vertical boards to roll cutting mechanism, two vertical boards are fixed mounting respectively in workstation rear end both sides, slidable mounting has the slider on the vertical board, rotate between two sliders and install the roll cutting roller, one of them vertical board one side is installed and is used for driving roll cutting roller pivoted roll cutting motor, four roll cutting strip type grooves have evenly been seted up on roll cutting roller surface, roll cutting roller axial slidable mounting has detachable roll cutting bar piece on roll cutting strip type groove, roll cutting assembly is evenly installed on roll cutting bar piece surface, and also evenly install roll cutting assembly on roll cutting roller periphery.

The polishing mechanism comprises a plurality of polishing disc rotating shafts, the polishing disc rotating shafts are uniformly arranged on the workbench, polishing motors for driving the polishing disc rotating shafts to rotate are arranged below the workbench corresponding to the positions of each polishing disc rotating shaft, and the polishing disc is arranged at the top end of each polishing disc rotating shaft.

The collecting mechanism comprises a ring-shaped collecting plate, the ring-shaped collecting plate is fixedly connected to the rotating shaft of the grinding disc through a connecting rod, the bottom of the ring-shaped collecting plate is attached to the workbench, the inner ring of the ring-shaped collecting plate is aligned with the edge of the grinding disc, a plurality of discharging holes are uniformly formed in the bottom of the ring-shaped collecting plate along the circumferential direction of the ring-shaped collecting plate, strip-shaped conveying grooves located below the ring-shaped collecting plates are respectively formed in the workbench, and the notch of each strip-shaped conveying groove extends to the side wall of the workbench.

The rolling cutting roller is characterized in that a pressing column is respectively arranged on the front side and the rear side of the rolling cutting roller, a bearing plate is fixedly arranged on the vertical plate at the position corresponding to the end part of each pressing column, pressing sliding blocks are fixedly arranged on the two sides of each pressing column, and the pressing sliding blocks are connected with the bearing plates through springs.

The upper parts of the two vertical plates are rotatably provided with strip-shaped baffles.

The rolling cutting roller is provided with a clamping groove at one end of the rolling cutting strip-shaped groove, a spring is arranged at the bottom of the clamping groove, and a buckle is connected above the spring.

The rolling and cutting assembly comprises a containing groove, a bidirectional threaded rod, two limiting rods, an outer annular rolling and cutting barrel and an inner annular rolling and cutting barrel, the bottom of the containing groove is rotationally provided with the bidirectional threaded rod, the limiting rods are arranged at the bottom of the containing groove and distributed on two sides of the bidirectional threaded rod respectively, the outer annular rolling and cutting barrel and the inner annular rolling and cutting barrel are mounted on the two limiting rods in a sliding mode, the inner annular rolling and cutting barrel and the outer annular rolling and cutting barrel are connected with the bidirectional threaded rod in a threaded mode respectively, and the inner annular rolling and cutting barrel is located inside the outer annular rolling and cutting barrel.

The motor groove has been seted up to workstation side, installs conveying motor in the motor groove, and conveying motor's output fixed mounting has the output axis of rotation, and the output axis of rotation runs through each bar conveyer groove, and the equal fixed mounting in position of the notch that corresponds every bar conveyer groove in the output axis of rotation has the driving shaft, and the driven shaft is all rotated to the position that corresponds annular material collecting plate on the bar conveyer groove, is connected through the conveyer belt between driven shaft and the driving shaft.

The workbench side is provided with a receiving box corresponding to the position of the strip-shaped conveying groove, the receiving box side is provided with a brush motor, the output end of the brush motor is fixedly provided with a brush rotating shaft, the brush rotating shaft penetrates through the whole receiving box, and the brush rotating shaft is fixedly provided with a brush corresponding to the position of the conveying belt.

The polishing device comprises a polishing mechanism, a tensioning assembly, a polishing mechanism and a polishing mechanism, wherein the polishing mechanism is characterized in that the polishing mechanism is provided with a tensioning assembly front and back, the tensioning assembly comprises two fixing tables, two tensioning fixing blocks, two tensioning sliding blocks and two tensioning rotating shafts, the fixing tables are respectively arranged on two sides of the polishing mechanism, the tensioning fixing blocks are fixedly arranged on the lower portions of the fixing tables, the upper portions of the fixing tables are in sliding fit with the tensioning sliding blocks, springs are arranged between the tensioning sliding blocks and the fixing tables, the tensioning rotating shafts are respectively rotatably arranged between the tensioning fixing blocks on two sides of the polishing mechanism and between the tensioning sliding blocks, and the positions of the two tensioning rotating shafts are corresponding and parallel to each other.

The waste bin is arranged under the rolling cutting roller on the table surface of the workbench, the waste plate is rotatably arranged on the waste bin wall, and the waste buckle matched with the waste plate is rotatably arranged on the bottom surface of the workbench.

The invention has at least the following beneficial effects: (1) The invention aims at processing alloy screen cloth, and before the alloy screen cloth is rolled, the mesh density and the mesh size can be adjusted by drawing out the strip-shaped rolling cutting strip on the rolling cutting mechanism and adjusting the rolling cutting assembly in the rolling cutting mechanism.

(2) According to the invention, aiming at the processing alloy screen, after the alloy screen is rolled and cut, the polishing mechanism polishes burrs on the back surface of the screen, meanwhile, the collecting mechanism can collect the polished burrs, and the polished burrs are transferred into the strip-shaped conveying groove through the annular material collecting plate and conveyed into the material collecting box through the conveying belt and the hairbrush, so that the automatic collecting function is completed.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic view of a first perspective structure of an apparatus for manufacturing an alloy screen according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic view at a in fig. 1.

Fig. 3 is a schematic view of the structure of the clamping groove, the clamping buckle and the roll-cut strip block.

Fig. 4 is a schematic structural view of a bi-directional threaded rod, an outer annular slitting roller and an inner annular slitting roller.

Fig. 5 is a schematic perspective view of a top view of an apparatus for manufacturing an alloy screen according to an embodiment of the present invention.

Fig. 6 is a schematic structural view of the annular receiving plate, the discharge hole and the strip-shaped conveying groove.

Fig. 7 is a schematic view of the structure of the conveying rotation shaft, the driving shaft, and the conveyor belt.

Fig. 8 is a schematic view showing a bottom view perspective structure of an alloy screen manufacturing and processing apparatus according to an embodiment of the present invention.

In the figure: 1. a work table; 101. a waste tank; 102. a waste plate; 103. waste material buckle; 2. a roll cutting mechanism; 201. a vertical plate; 202. a slide block; 203. a roll cutting roller; 2031. a clamping groove; 2032. a buckle; 204. a roll-cutting motor; 205. rolling and cutting strip-shaped grooves; 206. rolling and cutting the strip-shaped blocks; 207. a roll cutting assembly; 2071. a receiving groove; 2072. a two-way threaded rod; 2073. a limit rod; 2074. an outer ring type roll cutting cylinder; 2075. an inner ring type roll cutting cylinder; 208. a compression column; 2081. a pressing slide block; 209. a pressure bearing plate; 210. a strip-shaped baffle; 3. a polishing mechanism; 301. a millstone rotating shaft; 302. polishing a motor; 303. grinding disc; 304. a tensioning assembly; 3041. a fixed table; 3042. tensioning the fixed block; 3043. tensioning the sliding block; 3044. tensioning the rotating shaft; 4. a collection mechanism; 401. a ring-shaped material receiving plate; 402. a discharge hole; 403. a strip-shaped conveying groove; 4031. a receiving box; 4032. a brush motor; 4033. a brush rotation shaft; 4034. a brush; 404. a motor slot; 405. a conveying motor; 406. an output rotation shaft; 407. a driving shaft; 408. a driven shaft; 409. a conveyor belt.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

As shown in fig. 1, fig. 3, fig. 4, fig. 5 and fig. 8, the present embodiment provides an alloy screen manufacturing processing device, which comprises a workbench 1, the workbench 1 is installed respectively from the back to the front and is rolled cutting mechanism 2, grinding mechanism 3 and collection mechanism 4, the rolling cutting mechanism 2 includes two vertical boards 201, two vertical boards 201 are fixed mounting respectively in workstation 1 rear end both sides, slidable mounting has slider 202 on the vertical board 201, roll cutting roller 203 is installed in the rotation between two sliders 202, roll cutting motor 204 that is used for driving roll cutting roller 203 pivoted is installed to one side of one of them vertical board 201, bar baffle 210 is installed in the rotation of two vertical board 201 upper portions. The front side and the rear side of the slitting roller 203 are respectively provided with a compression column 208, the position of the vertical plate 201 corresponding to the end part of each compression column 208 is fixedly provided with a compression plate 209, the two sides of each compression column 208 are fixedly provided with compression sliding blocks 2081, and the compression sliding blocks 2081 are connected with the compression plates 209 through springs. Four slitting bars 205 are evenly arranged on the surface of the slitting roller 203, a clamping groove 2031 is arranged at one end of the slitting bar 205 on the slitting roller 203, a spring is arranged at the bottom of the clamping groove 2031, and a buckle 2032 is connected above the spring. A detachable slitting bar 206 is slidably mounted on the slitting bar groove 205 along the axial direction of the slitting roller 203, and the slitting assembly 207 is uniformly mounted on the surface of the slitting bar 206 and the slitting assembly 207 is uniformly mounted on the circumferential surface of the slitting roller 203. The hobbing assembly 207 comprises a containing groove 2071, a bidirectional threaded rod 2072, two limiting rods 2073, an outer ring type hobbing barrel 2074 and an inner ring type hobbing barrel 2075, wherein the bidirectional threaded rod 2072 is rotatably installed at the bottom of the containing groove 2071, the limiting rods 2073 are respectively arranged at the bottom of the containing groove 2071 and distributed on two sides of the bidirectional threaded rod 2072, the outer ring type hobbing barrel 2074 and the inner ring type hobbing barrel 2075 are jointly and slidably installed on the two limiting rods 2073, the inner ring type hobbing barrel 2075 and the outer ring type hobbing barrel 2074 are respectively in threaded connection with the bidirectional threaded rod 2072, the inner ring type hobbing barrel 2075 is positioned in the outer ring type hobbing barrel 2074, a waste groove 101 is formed under the hobbing roller 203 in a table top, a waste plate 102 is rotatably installed on the waste groove 101 wall, and a waste buckle 103 matched with the waste plate 102 is rotatably installed on the bottom surface of the workbench 1.

In the initial state, the alloy plate is tiled on the upper surface of the workbench 1 and directionally moves under the action of an external conveying device, the compaction is carried out through the compaction column 208, the rolling and cutting motor 204 drives the rolling and cutting roller 203 to rotate, the plate and the rolling and cutting roller 203 move synchronously and have the same linear speed, the density degree of the rolling and cutting holes can be changed by withdrawing the rolling and cutting bar 206 before rolling and cutting, the rolling and cutting assembly 207 on the rolling and cutting roller 203 cuts the plate in the rotating process, the bidirectional threaded rod 2072 is manually rotated, when the bidirectional threaded rod 2072 is externally rotated, the outer annular rolling and cutting cylinder 2074 moves downwards, the inner annular rolling and cutting cylinder 2075 moves upwards, the aperture of the cutting holes is reduced, the aperture of the cutting holes can be increased, and similarly, when the outer annular rolling and cutting cylinder 2074 and the inner annular rolling and cutting cylinder 2075 are flush, the rolling and cutting assembly 207 does not participate in the cutting holes, so that the density degree and the aperture size of the meshes in the cutting holes are changed; the cut Kong Suipian left after the hole is cut falls into the scrap box receptacle 101, and when the roll 203 is finished, the scrap buckle 103 can be turned to open the scrap plate 102 and clear the cut Kong Suipian left during the work.

As shown in fig. 1, 2, 5 and 6, the polishing mechanism 3 includes a plurality of polishing disc rotating shafts 301, the plurality of polishing disc rotating shafts 301 are uniformly mounted on the workbench 1, a polishing motor 302 for driving the polishing disc rotating shafts 301 to rotate is mounted below the workbench 1 corresponding to the position of each polishing disc rotating shaft 301, and a polishing disc 303 is mounted at the top end of each polishing disc rotating shaft 301. The polishing mechanism 3 is provided with a tensioning assembly 304 respectively at the front and the rear, the tensioning assembly 304 comprises two fixed tables 3041, two tensioning fixed blocks 3042, two tensioning sliding blocks 3043 and two tensioning rotating shafts 3044, the fixed tables 3041 are respectively arranged at the two sides of the workbench 1, the tensioning fixed blocks 3042 are fixedly arranged at the lower part of the fixed tables 3041, the upper part of the fixed tables 3041 is in sliding fit with the tensioning sliding blocks 3043, springs are arranged between the tensioning sliding blocks 3043 and the fixed tables 3041, the tensioning rotating shafts 3044 are rotatably arranged between the tensioning fixed blocks 3042 at the two sides of the workbench 1 and between the tensioning sliding blocks 3043, and the positions of the two tensioning rotating shafts 3044 are corresponding and parallel to each other.

After the plate is cut by the roll cutting roller 203, the cut hole part of the screen plate is conveyed by an external conveying device, the screen plate passes through between two tensioning rotating shafts 3044 on one side and also passes through between two tensioning rotating shafts 3044 on the other side, a spring above the fixed table 3041 can apply downward pressure to the tensioning sliding block 3043, the tensioning sliding block 3043 drives the tensioning rotating shafts 3044 above to press the screen plate on the tensioning rotating shafts 3044 below, the effect of tensioning the screen is achieved, the screen is in a horizontal state, the grinding motor 302 can drive the grinding disc rotating shaft 301 to rotate, the grinding disc 303 fixedly mounted on the grinding disc rotating shaft 301 also rotates, and burrs on the back of the screen are ground.

As shown in fig. 1, fig. 2, fig. 5, fig. 6 and fig. 7, the collecting mechanism 4 comprises a ring-shaped collecting plate 401, the ring-shaped collecting plate 401 is fixedly connected to the grinding disc rotating shaft 301 through a connecting rod, the bottom of the ring-shaped collecting plate 401 is attached to the workbench 1, the inner ring of the ring-shaped collecting plate 401 is aligned with the edge of the grinding disc 303, a plurality of discharging holes 402 are uniformly formed in the bottom of the ring-shaped collecting plate 401 along the circumferential direction of the ring-shaped collecting plate, strip-shaped conveying grooves 403 located below the ring-shaped collecting plates 401 are respectively formed in the workbench 1, and the notch of each strip-shaped conveying groove 403 extends to the side wall of the workbench 1. The motor groove 404 has been seted up to workstation 1 side, installs the transport motor 405 in the motor groove 404, and the output fixed mounting of transport motor 405 has output axis of rotation 406, and output axis of rotation 406 runs through each bar conveyer groove 403, and the equal fixed mounting in position of the notch that corresponds every bar conveyer groove 403 on the output axis of rotation 406 has driving shaft 407, and the equal rotation in position that corresponds annular material collecting plate 401 on the bar conveyer groove 403 installs driven shaft 408, is connected through conveyer belt 409 between driven shaft 408 and the driving shaft 407. The workbench 1 side is provided with a receiving box 4031 corresponding to the position of the strip-shaped conveying groove 403, the receiving box 4031 side is provided with a brush motor 4032, the output end of the brush motor 4032 is fixedly provided with a brush rotating shaft 4033, the brush rotating shaft 4033 penetrates through the whole receiving box 4031, and the brush rotating shaft 4033 is fixedly provided with a brush 4034 corresponding to the position of the conveying belt 409.

When the grinding motor 302 drives the grinding disc 303 to grind, the burr chips ground in the grinding process can fall on the annular collecting plate 401, the grinding disc rotating shaft 301 drives the connecting rod to rotate so as to drive the annular collecting plate 401 below the grinding disc 303 to rotate, the collected burr chips can synchronously move with the annular collecting plate 401 due to the fact that the annular collecting plate 401 is attached to the surface of the workbench 1, when the annular collecting plate 401 rotates to the position of the strip-shaped conveying groove 403, the collected burr chips can fall into the strip-shaped conveying groove 403 through the discharging hole 402, at the moment, the conveying motor 405 drives the driving shaft 407 to rotate through the output rotating shaft 406, so that the driving belt 409 and the driven shaft 408 are driven to rotate, the burr chips falling into the strip-shaped conveying groove 403 are conveyed to the notch of the strip-shaped conveying groove 403 by the driving belt 409, meanwhile, the brush rotating shaft 4032 drives the brush 4033 to rotate so as to drive the brushes 4034 of the notch of each strip-shaped conveying groove 403 to operate, and the burrs of the notch of the strip-shaped conveying groove 403 are collected into the collecting box 4031.

The working process of the alloy screen production, manufacturing and processing equipment in the embodiment is as follows:

firstly, the alloy plate is paved on the upper surface of the workbench 1, the alloy plate moves directionally under the action of an external conveying device, the conveyed plate continuously moves and is pressed by a pressing column 208, a rolling and cutting motor 204 drives a rolling and cutting roller 203 to rotate, the conveyed plate continuously moves, the rolling and cutting assembly 207 is the same as the linear speed of the whole process that the plate is contacted and separated, and the rolling and cutting assembly 207 on the rolling and cutting roller 203 cuts holes on the alloy plate in the rotating process.

When the alloy plate is rolled, the degree of the density of the rolling cutting holes can be changed by extracting the rolling cutting bar blocks 206, the bidirectional threaded rod 2072 can be manually rotated, the hole cutting aperture can be reduced, the hole cutting aperture can be increased in the same way, and when the outer ring type rolling cutting cylinder 2074 and the inner ring type rolling cutting cylinder 2075 are flush, the rolling cutting assembly 207 does not participate in hole cutting, so that the degree of the density and the mesh aperture size in hole cutting are changed.

The screen panel passes through between two tensioning pivot 3044 on one side through outside conveyor effect, again passes equally and tensioning between two tensioning pivot 3044 on the opposite side, and grinding motor 302 can drive mill pivot 301 rotation, and the mill 303 of fixed mounting on mill pivot 301 also can rotate thereupon, polishes the processing to the screen back burr after tensioning.

When polishing to alloy screen cloth, the burr piece of polishing in-process of polishing can drop on the annular collecting plate 401, and the burr piece of collecting can drop in bar conveyer trough 403 through discharge port 402, moves bar conveyer trough 403 notch through conveyer belt 409, is collected the burr piece again and is received in the magazine 4031 by brush 4034.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an alloy screen cloth production manufacturing processing equipment, includes workstation (1), and roll cutting mechanism (2), grinding machanism (3) and collection mechanism (4) are installed respectively from the back to the front in workstation (1), its characterized in that: the rolling and cutting mechanism (2) comprises two vertical plates (201), wherein the two vertical plates (201) are respectively and fixedly arranged at two sides of the rear end of the workbench (1), sliding blocks (202) are slidably arranged on the vertical plates (201), a rolling and cutting roller (203) is rotatably arranged between the two sliding blocks (202), rolling and cutting motors (204) for driving the rolling and cutting roller (203) to rotate are arranged at one side of one vertical plate (201), four rolling and cutting strip-shaped grooves (205) are uniformly formed in the surface of the rolling and cutting roller (203), detachable rolling and cutting strip-shaped blocks (206) are axially and slidably arranged on the rolling and cutting strip-shaped grooves (205) along the rolling and cutting roller (203), rolling and cutting components (207) are uniformly arranged on the surface of the rolling and cutting strip-shaped blocks (206);

the polishing mechanism (3) comprises a plurality of polishing disc rotating shafts (301), the plurality of polishing disc rotating shafts (301) are uniformly arranged on the workbench (1), polishing motors (302) for driving the polishing disc rotating shafts (301) to rotate are arranged below the workbench (1) corresponding to the positions of each polishing disc rotating shaft (301), and polishing discs (303) are arranged at the top ends of the polishing disc rotating shafts (301);

the collecting mechanism (4) comprises a ring-shaped collecting plate (401), the ring-shaped collecting plate (401) is fixedly connected to the grinding disc rotating shaft (301) through a connecting rod, the bottom of the ring-shaped collecting plate (401) is attached to the workbench (1), the inner ring of the ring-shaped collecting plate (401) is aligned with the edge of the grinding disc (303), a plurality of discharging holes (402) are uniformly formed in the bottom of the ring-shaped collecting plate (401) along the circumferential direction of the ring-shaped collecting plate, strip-shaped conveying grooves (403) located below the ring-shaped collecting plates (401) are respectively formed in the workbench (1), and the notch of each strip-shaped conveying groove (403) extends to the side wall of the workbench (1);

the hobbing assembly (207) comprises a containing groove (2071), a bidirectional threaded rod (2072), two limiting rods (2073), an outer annular hobbing barrel (2074) and an inner annular hobbing barrel (2075), the bottom of the containing groove (2071) is rotationally provided with the bidirectional threaded rod (2072), limiting rods (2073) are respectively arranged on two sides of the bidirectional threaded rod (2072) and located at the bottom of the containing groove (2071), the outer annular hobbing barrel (2074) and the inner annular hobbing barrel (2075) are jointly and slidably arranged on the two limiting rods (2073), the inner annular hobbing barrel (2075) and the outer annular hobbing barrel (2074) are respectively in threaded connection with the bidirectional threaded rod (2072), and the inner annular hobbing barrel (2075) is located inside the outer annular hobbing barrel (2074).

2. The alloy screen manufacturing and processing device according to claim 1, wherein: the rolling cutting roller is characterized in that a pressing column (208) is respectively arranged on the front side and the rear side of the rolling cutting roller (203), a bearing plate (209) is fixedly arranged on the vertical plate (201) corresponding to the end portion of each pressing column (208), pressing sliding blocks (2081) are fixedly arranged on the two sides of each pressing column (208), and the pressing sliding blocks (2081) are connected with the bearing plates (209) through springs.

3. The alloy screen manufacturing and processing device according to claim 1, wherein: the upper parts of the two vertical plates (201) are rotatably provided with strip-shaped baffles (210).

4. The alloy screen manufacturing and processing device according to claim 1, wherein: a clamping groove (2031) is formed in one end of the rolling cutting roller (203) located at the rolling cutting strip-shaped groove (205), a spring is arranged at the bottom of the clamping groove (2031), and a buckle (2032) is connected above the spring.

5. The alloy screen manufacturing and processing device according to claim 1, wherein: motor groove (404) has been seted up to workstation (1) side, install in motor groove (404) transport motor (405), the output fixed mounting of transport motor (405) has output axis of rotation (406), output axis of rotation (406) run through each bar conveyer groove (403), all fixed mounting has driving shaft (407) in the position of the notch that corresponds every bar conveyer groove (403) on output axis of rotation (406), all rotate in the position that corresponds annular material collecting plate (401) on bar conveyer groove (403) and install driven shaft (408), be connected through conveyer belt (409) between driven shaft (408) and driving shaft (407).

6. The alloy screen manufacturing and processing device according to claim 5, wherein: a receiving box (4031) is arranged at the position, corresponding to the strip-shaped conveying groove (403), of the lateral side of the workbench (1), a brush motor (4032) is arranged at the lateral side of the receiving box (4031), a brush rotating shaft (4033) is fixedly arranged at the output end of the brush motor (4032), the brush rotating shaft (4033) penetrates through the whole receiving box (4031), and a brush (4034) is fixedly arranged at the position, corresponding to the conveying belt (409), of the brush rotating shaft (4033).

7. The alloy screen manufacturing and processing device according to claim 1, wherein: the polishing mechanism is characterized in that a tensioning assembly (304) is arranged in front of and behind the polishing mechanism (3), the tensioning assembly (304) comprises two fixed tables (3041), two tensioning fixed blocks (3042), two tensioning sliding blocks (3043) and two tensioning rotating shafts (3044), the fixed tables (3041) are respectively arranged on two sides of the workbench (1), the tensioning fixed blocks (3042) are fixedly arranged on the lower portion of the fixed tables (3041), the upper portion of the fixed tables (3041) is in sliding fit with the tensioning sliding blocks (3043), springs are arranged between the tensioning sliding blocks (3043) and the fixed tables (3041), the tensioning rotating shafts (3044) are rotatably arranged between the tensioning fixed blocks (3042) on two sides of the workbench (1) and between the tensioning sliding blocks (3043), and the positions of the two tensioning rotating shafts (3044) are corresponding and are parallel to each other.

8. The alloy screen manufacturing and processing device according to claim 1, wherein: waste material groove (101) is arranged on the table top of the workbench (1) under the roll cutting roller (203), waste material plates (102) are rotatably arranged on the walls of the waste material groove (101), and waste material buckles (103) matched with the waste material plates (102) are rotatably arranged on the bottom surface of the workbench (1).