CN115106589B - Processing production system for air conditioner filter screen - Google Patents

Abstract

The invention belongs to the technical field of air conditioner filter screen processing equipment, in particular to a processing production system for an air conditioner filter screen, which comprises a rack, a mesh feeding device, a mesh cutting device, a mesh bag forming circular cutting device and an assembling and compacting device, wherein the processing steps of the filter screen comprise: firstly, placing mesh cloth in a mesh cloth feeding device, and placing a copper bush mesh frame in the mesh frame feeding device; step two, carrying out annular cutting on the mesh by a mesh cutting device so as to obtain circular mesh; step three, carrying out forming processing on the circular mesh cloth in a mesh bag forming annular device to obtain a filter mesh bag, and carrying out trimming treatment on the edge of a bag opening of the filter mesh bag; and fourthly, placing the bag mouth end of the filter net bag on the copper bush net rack by the assembling and pressing device, and extruding and deforming the copper bush net rack. The invention has high automation degree, can effectively save labor cost, has high processing efficiency, and is stable and reliable in connection of the mesh cloth and the copper sleeve net rack.

Description

Processing production system for air conditioner filter screen

Technical field:

the invention belongs to the technical field of air conditioner filter screen processing equipment, and particularly relates to a processing production system for an air conditioner filter screen.

The background technology is as follows:

The existing cold and hot medium circulation system of the air conditioner is additionally provided with a throttle valve to realize the throttle purpose, and a filter screen is arranged in the throttle valve and consists of a filter screen bag and a copper sleeve net frame sleeved at the mouth end of the filter screen bag. At present, the production and processing of filter screen all is by manual operation, needs the manual work to tailor the screen cloth promptly to the screen cloth suit that will cut off is on the sleeve rack, is fixed screen cloth and sleeve rack connection through the extruded mode at last, and its cost of labor is big, waste time and energy, inefficiency not only, and the screen cloth is not stable enough with the connection of copper sheathing rack simultaneously, takes place the separation easily when using.

The invention comprises the following steps:

The invention aims to provide a processing and production system for an air conditioner filter screen, which has high automation degree, can effectively save labor cost, has high processing efficiency, and is stable and reliable in connection of mesh cloth and a copper sleeve mesh frame.

The invention is realized in the following way:

A processing production system for an air conditioner filter screen comprises a frame, a mesh feeding device, a mesh frame feeding device, a mesh cutting device, a mesh bag forming circular cutting device and an assembling and compacting device which are arranged on the frame,

The filter screen comprises a filter screen bag and a copper sleeve net frame sleeved at the mouth end of the filter screen bag, and the processing steps of the filter screen comprise:

Firstly, placing screen cloth in a screen cloth feeding device, conveying the screen cloth to a screen cloth cutting device by the screen cloth feeding device, and simultaneously, placing a copper bush net frame in the net frame feeding device, and conveying the copper bush net frame to an assembling and compacting device by the net frame feeding device;

step two, carrying out annular cutting on the mesh by a mesh cutting device so as to obtain circular mesh;

step three, the mesh bag forming circular cutting device receives the circular mesh cloth on the mesh cloth cutting device, the circular mesh cloth is formed in the mesh bag forming circular device to obtain a bag-shaped filter mesh bag, and the mesh bag forming circular device performs edge cutting treatment on the edge of the bag opening of the filter mesh bag;

And fourthly, transferring the filter mesh bag into an assembling and pressing device by the mesh bag forming circular cutting device, placing the mouth end of the filter mesh bag on the copper mesh frame by the assembling and pressing device, and extruding and deforming the copper mesh frame to realize connection and fixation between the copper mesh frame and the filter mesh bag.

In the processing and production system for the air conditioner filter screen, the assembling and compressing device comprises an assembling component for assembling the copper bush net rack and the filter screen bag and a compressing component for compressing and deforming the copper bush net rack.

In the processing and producing system for the air conditioner filter screen, the mesh bag forming circular cutting device comprises a first feeding rotating arm and a second feeding rotating arm, wherein the first feeding rotating arm is rotatably connected to the frame, the second feeding rotating arm is positioned above the first feeding rotating arm, the first feeding rotating arm is partially overlapped with the second feeding rotating arm in rotation range, the first feeding rotating arm can rotate to the mesh cutting device, the second feeding rotating arm can rotate to the assembly component, forming through holes are formed in two ends of the first feeding rotating arm and the second feeding rotating arm, a feeding push rod capable of pushing circular mesh cloth into the forming through holes of the first feeding rotating arm is arranged on the mesh cutting device, the circular mesh cloth is formed in the forming through holes in a forming mode, the edge of a bag opening of the filter mesh bag is positioned outside the forming through holes, an annular cutter is arranged at the lower edge of the forming through holes of the first feeding rotating arm, the circular cutting feed rod slides vertically on the frame and can be inserted into the forming through holes of the first feeding rotating arm and matched with the annular cutter so as to cut edges of the bag opening of the filter mesh bag, and the circular cutting feed rod slides upwards to push the filter mesh bag to the forming through holes of the second feeding rotating arm.

In the processing production system for the air conditioner filter screen, the screen cloth cutting device comprises a cutter seat arranged on the frame and an annular cutter head which is arranged right below the cutter seat and can move up and down, the screen cloth is arranged between the cutter seat and the annular cutter head, the feeding push rod is slidably connected to the axis of the annular cutter head, and the cutter seat is provided with a feeding through hole through which the feeding push rod pushes the screen cloth to pass through and slide.

In the processing production system for the air conditioner filter screen, the screen cloth loading attachment is including setting up the reel subassembly in the frame and being located the feeding roller subassembly of reel subassembly front side, and reel subassembly and feeding roller subassembly are located the front and back both sides of screen cloth cutting device respectively, and feeding roller subassembly is including the lateral shifting seat of lateral sliding connection in the frame, and lateral shifting seat rotates and is connected with upper feeding roller and lower feeding roller that distributes about and the opposite rotation direction, the screen cloth is rolled up and rotates on the reel subassembly, and the outer end of screen cloth runs through screen cloth cutting device and is located between upper feeding roller and the lower feeding roller, drives the outer end of screen cloth outside the removal by upper feeding roller and lower feeding roller.

In the processing and production system for the air conditioner filter screen, the assembly component comprises an upper assembly rod and a lower assembly rod which are lifted and slide on the frame and are opposite in upper and lower positions, a first positioning column is arranged at the center of the end face of the lower assembly rod, the copper bush net rack on the net rack feeding device is transferred and sleeved on the first positioning column, the shaping through hole of the feeding rotary arm II can rotate between the upper assembly rod and the lower assembly rod, and the upper assembly rod and the lower assembly rod can both run through and slide in the shaping through hole of the feeding rotary arm II.

In the processing production system for the air conditioner filter screen, the net rack feeding device is a feeding vibration disc, the lifting seat is arranged on the frame in a lifting manner, the feeding slideway is arranged on the lifting seat, the discharging end of the feeding vibration disc corresponds to the feeding end of the feeding slideway, the lifting seat is provided with a pushing cylinder, the telescopic end of the pushing cylinder can push the copper bush net rack to move from the feeding end of the feeding slideway to the discharging end of the copper bush net rack, the assembling and compressing device further comprises a clamp assembly, and the clamp assembly can clamp the copper bush net rack at the discharging end of the feeding slideway and transfer the copper bush net rack to the assembling assembly and clamp the copper bush net rack on the assembling assembly and transfer the copper bush net rack to the compressing assembly.

In the processing production system for the air conditioner filter screen, the clamp assembly comprises a clamp sliding rail arranged on the frame, a thumb cylinder is connected to the clamp sliding rail in a sliding manner, and clamping jaws are sleeved at two ends of the thumb cylinder.

In the above-mentioned processing production system for air conditioner filter screen, compress tightly the subassembly including setting up the processing sill bar in the frame and being located the processing sill bar directly over and can the relative extrusion headstock of oscilaltion, the terminal surface center department of processing sill bar is provided with reference column two, has seted up on the bottom surface of extrusion headstock and can carry out the shrink extrusion's of shrink mouth die orifice to the copper sheathing rack of suit on reference column two.

In the processing production system for the air conditioner filter screen, a discharging slideway is arranged on the frame outside the pressing component, and the clamp component can clamp the copper bush net rack on the pressing component and transfer the copper bush net rack to the discharging slideway.

Compared with the prior art, the invention has the outstanding advantages that:

According to the invention, the mesh cloth and the copper sleeve mesh frame are respectively placed on the mesh cloth feeding device and the mesh frame feeding device, the mesh cloth is conveyed to the mesh cloth cutting device by the mesh cloth feeding device, and the copper sleeve mesh frame is conveyed to the assembling and compacting device by the mesh frame feeding device, so that the mesh cloth cutting device can automatically carry out annular cutting on the mesh cloth, the circular mesh cloth is shaped into a filter mesh bag by the mesh bag forming annular cutting device, and meanwhile, the filter mesh bag is subjected to trimming treatment, and the assembling and compacting device can automatically assemble the filter mesh bag on the copper sleeve mesh frame and carry out extrusion deformation on the copper sleeve mesh frame, thereby realizing the connection and fixation of the filter mesh bag and the copper sleeve mesh frame.

Description of the drawings:

FIG. 1 is an overall schematic of the present invention;

FIG. 2 is a schematic view of a web feeding apparatus and a web cutting apparatus according to the present invention;

FIG. 3 is a schematic view of a web cutting apparatus of the present invention;

FIG. 4 is a schematic view of a mesh bag forming circular cutting device of the present invention;

FIG. 5 is a schematic view of a rack loading device and assembly components of the present invention;

Fig. 6 is a schematic view of a compression assembly of the present invention.

In the figure: 1. a frame; 2. a feeding rotating arm I; 3. a feeding rotating arm II; 4. shaping the through holes; 5. an annular cutter; 6. a circular cutting feeding rod; 7. a cutter holder; 8. an annular cutter head; 9. a spool assembly; 10. a lateral movement seat; 11. an upper feeding roller; 12. a lower feeding roller; 13. an upper assembly rod; 14. a lower assembly bar; 15. A feeding vibration disc; 16. a lifting seat; 17. a feeding slideway; 18. a pushing cylinder; 19. a clamp slide rail; 20. A thumb cylinder; 21. a clamping jaw; 22. processing a bottom rod; 23. extruding the headstock; 24. and a discharging slideway.

The specific embodiment is as follows:

the invention is further described below with reference to the specific examples, see fig. 1-5:

a processing production system for an air conditioner filter screen comprises a frame 1, a mesh feeding device, a mesh cutting device, a mesh bag forming circular cutting device and an assembling and compacting device which are arranged on the frame 1,

The filter screen comprises filter screen bag and the copper sheathing rack of ring cover in the sack end department of filter screen bag, and wherein the copper sheathing rack is ring structure, has seted up the connection annular in the inner circle of copper sheathing rack, and the sack end of filter screen bag is placed on the connection annular, makes the notch of connection annular closed through extrusion copper sheathing rack, and then realizes the fixed connection between filter screen bag and the copper sheathing rack.

The processing steps of the filter screen comprise:

Firstly, placing screen cloth in a screen cloth feeding device, conveying the screen cloth to a screen cloth cutting device by the screen cloth feeding device, and simultaneously, placing a copper bush net frame in the net frame feeding device, and conveying the copper bush net frame to an assembling and compacting device by the net frame feeding device;

step two, carrying out annular cutting on the mesh by a mesh cutting device so as to obtain circular mesh;

step three, the mesh bag forming circular cutting device receives the circular mesh cloth on the mesh cloth cutting device, the circular mesh cloth is formed in the mesh bag forming circular device to obtain a bag-shaped filter mesh bag, and the mesh bag forming circular device performs edge cutting treatment on the edge of the bag opening of the filter mesh bag;

And fourthly, transferring the filter mesh bag into an assembling and pressing device by the mesh bag forming circular cutting device, placing the mouth end of the filter mesh bag on the copper mesh frame by the assembling and pressing device, and extruding and deforming the copper mesh frame to realize connection and fixation between the copper mesh frame and the filter mesh bag.

The mesh cloth and the copper sleeve mesh frame are respectively placed on the mesh cloth feeding device and the mesh frame feeding device, the mesh cloth feeding device conveys the mesh cloth to the mesh cloth cutting device, and the mesh frame feeding device conveys the copper sleeve mesh frame to the assembling and compacting device, so that the mesh cloth cutting device can automatically carry out annular cutting on the mesh cloth, the circular mesh cloth is shaped into a filter mesh bag through the mesh bag forming annular cutting device, meanwhile, the filter mesh bag is subjected to edge cutting treatment, the assembling and compacting device can automatically assemble the filter mesh bag on the copper sleeve mesh frame and squeeze and deform the copper sleeve mesh frame, further, the connection and the fixation of the filter mesh bag and the copper sleeve mesh frame are realized, the automation degree is high, the labor cost can be effectively saved, the processing efficiency is high, and the connection of the mesh cloth and the copper sleeve mesh frame is stable and reliable.

Wherein, in order to realize the equipment to filter screen bag and copper sheathing rack and to the extrusion deformation of copper sheathing rack, in this embodiment, equipment closing device is including the equipment subassembly that is used for equipment copper sheathing rack and filter screen bag and be used for carrying out extrusion deformation's to the copper sheathing rack hold-down subassembly.

Still further, in order to make the circular screen cloth that the screen cloth cutting device cut can be received to the screen cloth shaping ring cutting device, can carry the filter screen bag to assemble closing device's equipment subassembly simultaneously in, its screen bag shaping ring cutting device adopts concrete structure: the mesh bag forming circular cutting device comprises a first feeding rotating arm 2 and a second feeding rotating arm 3, wherein the first feeding rotating arm 2 is rotatably connected to the frame 1, the second feeding rotating arm 3 is positioned above the first feeding rotating arm 2, the first feeding rotating arm 2 is partially overlapped with the second feeding rotating arm 3 in rotation range, the first feeding rotating arm 2 can rotate to a mesh cloth cutting device, the second feeding rotating arm 3 can rotate to an assembly component, shaping through holes 4 are formed in two ends of the first feeding rotating arm 2 and the second feeding rotating arm 3, a feeding push rod capable of pushing circular mesh cloth into the shaping through holes 4 of the first feeding rotating arm 2 is arranged on the mesh cloth cutting device, the circular mesh cloth is shaped in the shaping through holes 4 to form the filter mesh bag, and the edge of a bag mouth of the filter mesh bag is positioned outside the shaping through holes 4;

Meanwhile, in order to be able to carry out trimming treatment on the edge of the bag mouth of the filter mesh bag, an annular cutter 5 is arranged at the lower edge of the shaping through hole 4 of the first feeding rotary arm 2, an annular cutting feed rod 6 is vertically slid on the frame 1, the annular cutting feed rod 6 is upwardly slid to be inserted into the shaping through hole 4 of the first feeding rotary arm 2 and matched with the annular cutter 5 so as to realize trimming on the edge of the bag mouth of the filter mesh bag, and the annular cutting feed rod 6 is continuously upwardly slid to push the filter mesh bag to one shaping through hole 4 of the second feeding rotary arm 3.

The actual working flow of the net bag forming circular cutting device is as follows: after the mesh cutting device performs circular cutting on the mesh to form circular mesh, the feeding push rod moves upwards to push the circular mesh to enter the shaping through hole 4 of the first feeding rotating arm 2, then the circular mesh forms a bag-shaped filter mesh bag in the shaping through hole 4, meanwhile, the first feeding rotating arm 2 rotates to drive the filter mesh bag to move to the position right above the circular cutting feeding rod 6, at the moment, the shaping through hole 4 of the second feeding rotating arm 3 is opposite to the shaping through hole 4 of the first feeding rotating arm 2 up and down, the circular cutting feeding rod 6 moves upwards to be matched with the circular cutter 5 to realize edge cutting treatment on the edge of the bag opening of the filter mesh bag, meanwhile, the circular cutting feeding rod 6 continues to move upwards to push the filter mesh bag to enter the shaping through hole 4 of the second feeding rotating arm 3, and finally, the second feeding rotating arm 3 rotates to drive the filter mesh bag to move to an assembly component of the assembly pressing device.

And in order to make can carry out annular cutting in order to obtain circular screen cloth to the screen cloth, screen cloth cutting device is including setting up cutter saddle 7 on frame 1 and being located cutter saddle 7 and can lifting movement's annular cutter 5 head under, wherein, annular cutter 5 head is circular protruding structure, and its bottom surface cooperation with cutter saddle 7 is in order to realize the circular cutting to the screen cloth, and in order to make the material loading push rod can push to the design through-hole 4 of pay-off rocking arm one 2 in circular screen cloth's centre of a circle department, the screen cloth is located between cutter saddle 7 and the annular cutter 5 head, material loading push rod sliding connection is on the axis of annular cutter 5 head, has seted up on the cutter saddle 7 and has gone up the material loading push rod and has promoted the material loading through-hole that the screen cloth runs through the slip.

Meanwhile, in order to be convenient for the screen cloth can be continuously towards the feeding in screen cloth cutting device, in order to ensure that whole equipment can continue processing, production, in addition, consider that the whole width of screen cloth is great, in order to effectively tailor the screen cloth, reduce the waste material volume that the screen cloth was tailorred, screen cloth loading attachment is including setting up the reel subassembly 9 on frame 1, and being located the feeding roller subassembly of reel subassembly 9 front side, and reel subassembly 9 and feeding roller subassembly are located the front and back both sides of screen cloth cutting device respectively, feeding roller subassembly is including lateral shifting seat 10 of lateral shifting connection on frame 1, lateral shifting seat 10 rotates and is connected with upper feeding roller 11 and lower feeding roller 12 that distributes from top to bottom and the rotation opposite direction, the screen cloth is around rolling up and rotates on reel subassembly 9, and the outer end of screen cloth runs through screen cloth cutting device, and is located between upper feeding roller 11 and the lower feeding roller 12, by upper feeding roller 11 and lower feeding roller 12 drive the outer end outside of screen cloth.

Wherein, in order to place the filter pocket in the design through-hole 4 of pay-off rocking arm two 3 in the annular of connection of copper sheathing rack, the equipment subassembly is including going up equipment pole 13 and lower equipment pole 14 that the lift slides on frame 1 and upper and lower position is relative, and the terminal surface center department of lower equipment pole 14 is equipped with reference column one, just copper sheathing rack transfer and cover on rack loading attachment establish on reference column one, the design through-hole 4 of pay-off rocking arm two 3 can rotate to between equipment pole 13 and the lower equipment pole 14, go up equipment pole 13 and lower equipment pole 14 homoenergetic run through the slip in the design through-hole 4 of pay-off rocking arm two 3.

Namely, the specific workflow of the assembly component is as follows: firstly, a copper sleeve net rack is sleeved on a first positioning column, a lower assembly rod 14 drives the positioning column to move upwards to penetrate into a shaping through hole 4 of a second feeding rotating arm 3, then the bag mouth end of a filter net bag in the shaping through hole 4 is inserted into a connecting ring groove of the copper sleeve net rack, then an upper assembly rod 13 presses down and abuts against the first positioning column, namely the center of the filter net bag is clamped between the upper assembly rod 13 and the first positioning column, and then the upper assembly rod 13 and the lower assembly rod 14 move downwards together, so that the filter net bag can be separated from the shaping through hole 4.

Still further, in order to make copper sheathing rack can be placed one by one and carry out subsequent processing in the equipment subassembly, rack loading attachment is material loading vibration dish 15, frame 1 goes up and down to remove to have lifting seat 16, has seted up feeding slide 17 on the lifting seat 16, and the discharge end of material loading vibration dish 15 corresponds with the feed end position of feeding slide 17, is equipped with on the lifting seat 16 and pushes away material cylinder 18, and pushes away the flexible end of material cylinder 18 and can promote the copper sheathing rack to remove to its discharge end from the feed end of feeding slide 17, equipment closing device still includes the anchor clamps subassembly, and the anchor clamps subassembly can press from both sides the copper sheathing rack of getting feeding slide 17 discharge end department and shift to on the equipment subassembly to and can press from both sides the copper sheathing rack of getting on the equipment subassembly and shift to on the closing device.

Moreover, the fixture assembly may adopt a common manipulator structure in the market, and in this embodiment, the fixture assembly adopts a specific structure as follows: the clamp assembly comprises a clamp sliding rail 19 arranged on the frame 1, a thumb cylinder 20 is connected to the clamp sliding rail 19 in a sliding manner, and clamping jaws 21 are sleeved at two ends of the thumb cylinder 20.

In order to extrude the copper bush net rack, so that the copper bush net rack deforms and is connected and fixed with the filter net bag, the compression assembly comprises a processing bottom rod 22 arranged on the frame 1 and an extrusion head seat 23 which is positioned right above the processing bottom rod 22 and can relatively lift up and down, a positioning column II is arranged at the center of the end face of the processing bottom rod 22, and a necking die hole capable of necking and extruding the copper bush net rack sleeved on the positioning column II is formed in the bottom surface of the extrusion head seat 23. The working flow is as follows: after the clamp assembly clamps and sleeves the copper bush net frame and the filter screen bag on the second positioning column, the extrusion head seat 23 is pressed down to enable the second positioning column, the filter screen bag and the copper bush net frame to be inserted into the necking die hole, the upper end face of the copper bush net frame is contracted inwards under the wall surface effect of the necking die hole, and then the copper bush net frame and the filter screen bag are connected and fixed, so that the filter screen processing of a finished product is completed.

In addition, in order to be convenient for with the filter screen of finished product from this equipment material return, be located be provided with ejection of compact slide 24 on the frame 1 in the compression assembly outside, the anchor clamps subassembly can press from both sides the copper sheathing rack that compresses tightly on the subassembly and shift to ejection of compact slide 24.

The above embodiment is only one of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention, therefore: all equivalent changes in shape, structure and principle of the invention should be covered in the scope of protection of the invention.

Claims (10)

1. A processing production system for air conditioner filter screen, its characterized in that: comprises a frame (1), a mesh feeding device, a mesh cutting device, a mesh bag forming circular cutting device and an assembling and compacting device which are arranged on the frame (1),

The filter screen comprises a filter screen bag and a copper sleeve net frame sleeved at the mouth end of the filter screen bag, and the processing steps of the filter screen comprise:

Firstly, placing screen cloth in a screen cloth feeding device, conveying the screen cloth to a screen cloth cutting device by the screen cloth feeding device, and simultaneously, placing a copper bush net frame in the net frame feeding device, and conveying the copper bush net frame to an assembling and compacting device by the net frame feeding device;

step two, carrying out annular cutting on the mesh by a mesh cutting device so as to obtain circular mesh;

step three, the mesh bag forming circular cutting device receives the circular mesh cloth on the mesh cloth cutting device, the circular mesh cloth is formed in the mesh bag forming circular device to obtain a bag-shaped filter mesh bag, and the mesh bag forming circular device performs edge cutting treatment on the edge of the bag opening of the filter mesh bag;

And fourthly, transferring the filter mesh bag into an assembling and pressing device by the mesh bag forming circular cutting device, placing the mouth end of the filter mesh bag on the copper mesh frame by the assembling and pressing device, and extruding and deforming the copper mesh frame to realize connection and fixation between the copper mesh frame and the filter mesh bag.

2. A process production system for an air conditioner filter according to claim 1, wherein: the assembling and compacting device comprises an assembling component for assembling the copper bush net rack and the filter net bag and a compacting component for extruding and deforming the copper bush net rack.

3. A process production system for an air conditioner filter according to claim 2, wherein: the net bag forming circular cutting device comprises a first feeding rotating arm (2) which is rotationally connected to a frame (1), and a second feeding rotating arm (3) which is located above the first feeding rotating arm (2), wherein the rotation range of the first feeding rotating arm (2) is partially overlapped with that of the second feeding rotating arm (3), the first feeding rotating arm (2) can rotate to a net cloth cutting device, the second feeding rotating arm (3) can rotate to an assembly component, forming through holes (4) are formed in two ends of the first feeding rotating arm (2) and the second feeding rotating arm (3), a feeding push rod which can push circular net cloth into the forming through holes (4) of the first feeding rotating arm (2) is arranged on the net cloth cutting device, the circular net cloth is formed in the forming through holes (4), the edge of a bag mouth of a filter net bag is located outside the forming through holes (4), an annular cutter (5) is arranged at the lower edge of the forming through holes (4) of the first feeding rotating arm (2), the circular cutter (6) can be inserted into the first feeding rotating arm (2) in an upward sliding mode along a vertical sliding mode, the forming through holes (4) can be matched with the annular cutter (4), and the edge of the first feeding rotating arm (4) can be matched with the forming through holes (4) in a continuous mode, and the edge of the first filtering net bag can be cut to the edge of the filter bag can be matched with the forming through holes (4.

4. A process production system for an air conditioner filter according to claim 3, wherein: the screen cloth cutting device comprises a cutter seat (7) arranged on the frame (1) and an annular cutter head (8) which is arranged under the cutter seat (7) and can move up and down, the screen cloth is arranged between the cutter seat (7) and the annular cutter head (8), the feeding push rod is slidably connected on the axis of the annular cutter head (8), and the cutter seat (7) is provided with a feeding through hole through which the screen cloth is pushed by the feeding push rod to pass through and slide.

5. A process production system for an air conditioner filter according to claim 1 or 4, wherein: the screen cloth loading attachment is including setting up reel subassembly (9) on frame (1) and being located the pay-off roller subassembly of reel subassembly (9) front side, and reel subassembly (9) are located the front and back both sides of screen cloth cutting device respectively with the pay-off roller subassembly, and pay-off roller subassembly is including lateral shifting seat (10) of lateral sliding connection on frame (1), and lateral shifting seat (10) rotate be connected with upper pay-off roller (11) and lower pay-off roller (12) that distribute about and the rotation opposite direction, the screen cloth winds and rotate on reel subassembly (9), and the outer end of screen cloth runs through screen cloth cutting device and is located between upper pay-off roller (11) and lower pay-off roller (12), outwards removes by the outer end that upper pay-off roller (11) and lower pay-off roller (12) drove.

6. A process production system for an air conditioner filter according to claim 3, wherein: the assembly component comprises an upper assembly rod (13) and a lower assembly rod (14) which are arranged on the frame (1) in a lifting and sliding mode, the upper assembly rod (13) and the lower assembly rod (14) are opposite in upper and lower positions, a first positioning column is arranged at the center of the end face of the lower assembly rod (14), a copper bush net rack on the net rack feeding device is transferred and sleeved on the first positioning column, a shaping through hole (4) of the feeding rotary arm II (3) can rotate between the upper assembly rod (13) and the lower assembly rod (14), and both the upper assembly rod (13) and the lower assembly rod (14) can penetrate and slide in the shaping through hole (4) of the feeding rotary arm II (3).

7. A process production system for an air conditioner filter according to claim 2 or 6, wherein: the rack feeding device is characterized in that the rack feeding device is a feeding vibration disc (15), a lifting seat (16) is arranged on the rack (1) in a lifting manner, a feeding slideway (17) is arranged on the lifting seat (16), the discharge end of the feeding vibration disc (15) corresponds to the feeding end position of the feeding slideway (17), a pushing cylinder (18) is arranged on the lifting seat (16), the telescopic end of the pushing cylinder (18) can push a copper bush rack to move from the feeding end of the feeding slideway (17) to the discharge end of the copper bush rack, the assembling and compacting device further comprises a clamp assembly, and the clamp assembly can clamp the copper bush rack at the discharge end of the feeding slideway (17) and transfer the copper bush rack to the assembling assembly and the copper bush rack on the assembling assembly.

8. The process production system for an air conditioner filter according to claim 7, wherein: the clamp assembly comprises a clamp sliding rail (19) arranged on the frame (1), a thumb cylinder (20) is connected to the clamp sliding rail (19) in a sliding manner, and clamping jaws (21) are sleeved at two ends of the thumb cylinder (20).

9. A process production system for an air conditioner filter according to claim 2, wherein: the compression assembly comprises a processing bottom rod (22) arranged on the frame (1) and an extrusion head seat (23) which is arranged right above the processing bottom rod (22) and can relatively lift up and down, a positioning column II is arranged at the center of the end face of the processing bottom rod (22), and a necking die hole capable of necking and extruding the copper bush net rack sleeved on the positioning column II is formed in the bottom surface of the extrusion head seat (23).

10. The process production system for an air conditioner filter according to claim 7, wherein: the rack (1) positioned at the outer side of the compression assembly is provided with a discharge slideway (24), and the clamp assembly can clamp the copper sleeve net rack on the compression assembly and transfer the copper sleeve net rack to the discharge slideway (24).