CN115569444A

CN115569444A - Press-connecting assembly device for filter press-connecting filter screen assembly

Info

Publication number: CN115569444A
Application number: CN202211418392.4A
Authority: CN
Inventors: 安琪; 闫道坤; 牛庆玲; 郑万江; 徐长松; 任俊豪; 王玉喜; 郭江涛; 李昊阳; 闫正军
Original assignee: Xinxiang Lifeierte Filter Co ltd
Current assignee: Xinxiang Lifeierte Filter Co ltd
Priority date: 2022-11-14
Filing date: 2022-11-14
Publication date: 2023-01-06

Abstract

The invention relates to an assembling device, in particular to a crimping assembling device for a filter screen component in filter crimping. Including lower casing, filter screen, filter cloth and last casing, the internal screw thread that is equipped with of lower casing is fixed the filter screen on lower casing through glue, has put the filter cloth on the filter screen, goes up the casing and passes through threaded connection and the fixed filter screen subassembly that forms of casing down. The filter press-connection filter screen component can be conveniently assembled and disassembled, the disassembly component can be conveniently replaced or cleaned under the condition that filter cloth is dirty, and the filter screen can be conveniently cleaned.

Description

Press-connecting assembly device for filter press-connecting filter screen assembly

Technical Field

The invention relates to an assembling device, in particular to a crimping assembling device for a filter screen component in filter crimping.

Background

The filter screen is also called as an air filter screen, the air filter screen is divided into four types of coarse effect, medium effect, sub-high effect and high efficiency, different numbers of air filters are arranged in a pipeline according to the air volume, and the filter section is arranged in a centralized air conditioning system to filter dust particles in the air fed into the room so as to achieve the high quality of the air in the room and the vehicle. The air filter screen comprises a square filter screen, a circular filter screen and the like.

At present, high-efficient filter screen adopts the manual work to assemble usually, and at first the manual work will assemble the lower casing of filter screen and carry out the rubber coating, then artifical installation filter screen and place the filter cloth, at last the manual work will go up the casing and screw up the completion equipment with lower casing, manual assembly high-efficient filter screen waste time and energy, to the production efficiency end. Therefore, the invention provides a crimping assembly device of a filter crimping filter screen assembly, which can automatically perform gluing assembly and compact filter screen fixing.

Disclosure of Invention

In order to overcome the technical problems of the prior art, the invention aims to provide a crimping and assembling device for a filter crimping and filtering screen assembly, which can automatically perform gluing assembly and compacting filtering screen fixation.

The technical scheme of the invention is as follows: the device comprises an assembly table, a first mounting frame, an anti-slip strip, a material receiving port, a material receiving shaft and an intermittent rotary table, wherein the first mounting frame is arranged in the middle of the assembly table, a groove is formed in the first mounting frame, the anti-slip strip is arranged on the groove wall of the first mounting frame, the material receiving port is arranged on the first mounting frame and is communicated with the groove, the material receiving shaft is rotatably connected to the material receiving port, the intermittent rotary table is arranged in the first mounting frame, the intermittent rotary table further comprises a straight gear, a first motor and a gear lacking, the intermittent rotary table is rotatably connected to the groove of the first mounting frame, the edge of the intermittent rotary table is in contact with the anti-slip strip, the material receiving groove of the intermittent rotary table is communicated with the material receiving port, a rotating shaft at the lower part of the intermittent rotary table penetrates through the first mounting frame and is connected with the straight gear, the first motor is provided with the gear lacking the gear, the gear lacking the straight gear is meshed with the straight gear, the first motor drives the lacking the gear to rotate, the filter cloth is rotatably driven by the mechanism, the filter cloth rotatably driving mechanism, the filter cloth rotatably drives the filter cloth rotatably arranged on the intermittent rotary table, the first mounting frame, the filter cloth rotatably fixed on the first mounting frame, the filter cloth rotatably connected to a filter cloth rotatably arranged on the intermittent rotary table, the filter cloth rotatably connected with a filter cloth rotatably arranged on the intermittent rotary table, the intermittent rotary mechanism, the filter cloth rotatably arranged on the intermittent rotary table, the filter cloth rotatably arranged on the filter cloth rotatably arranged mechanism, the intermittent rotary table, the filter cloth rotatably connected with a filter cloth rotatably arranged on the intermittent rotary table, the first mounting frame, the filter cloth rotatably arranged on the first mounting frame, the filter cloth rotatably arranged mechanism, the filter cloth fixedly connected mechanism, carry out the compaction through compaction mechanism with the filter screen with glue on the casing down and fix, remove spiral cover mechanism and locate first mounting bracket one side, remove spiral cover mechanism and be used for carrying out the upper cover with last casing and casing down and screw up.

Furthermore, the number of the feeding mechanisms is three, one feeding mechanism is located on the left side of the first mounting frame and is a lower shell feeding mechanism, the other feeding mechanism is located on the right portion of the rear side of the first mounting frame and is a filter cloth feeding mechanism, and the last feeding mechanism is located on the right portion of the front side of the first mounting frame and is an upper shell feeding mechanism.

Further, feeding mechanism includes driving frame, axis of rotation, dysmorphism frame, bracing piece, second cylinder, swing span and stirs the post, connects the driving frame on the assembly bench, rotates on the driving frame and connects a plurality of axis of rotation, connects the dysmorphism frame on the driving frame, and the rigid coupling bracing piece is gone up to the dysmorphism frame, rotates on the bracing piece and connects the swing span, and special-shaped shelf location second cylinder, the flexible end and swing span one side of second cylinder are articulated, and the post is stirred to the equal symmetry rigid coupling in both ends around the swing span.

Further, the rubber coating mechanism includes first support frame, the slide, first cylinder, the second motor, electronic balladeur train, electric slide bar, glue case and electronic rubber coating head, the first support frame of first mounting bracket below symmetry rigid coupling, it is equipped with the slide to slide in the first support frame, install first cylinder on the assembly bench, the flexible end and the slide rigid coupling of first cylinder, the second motor is installed to the slide below, the output shaft of second motor passes the slide and is connected with electronic balladeur train, the last symmetry sliding connection electric slide bar of electric slide bar, the case is glued in the installation of electric slide bar upper end, be equipped with electronic rubber coating head on the electric slide bar, glue in the glue case passes through rubber tube and electronic rubber coating head intercommunication.

Further, intermittent type unloading mechanism includes the second support frame, holds a section of thick bamboo, third motor, first flange and second flange, and the rigid coupling second support frame on the first mounting bracket, the installation holds a section of thick bamboo on the second support frame, and second support frame lower part installation third motor, first flange of rigid coupling and second flange on the output shaft of third motor, first flange and the crisscross setting of second flange.

Further, the filter cloth transport mechanism includes first backup pad, first locating plate, first slide rail frame, first electronic slider, the extrusion pole, the third cylinder, first clamp plate, pin type sucking disc and compacting mechanism, the first backup pad of first mounting bracket rigid coupling, first backup pad is connected with feeding mechanism, be equipped with first locating plate on the first backup pad, first backup pad one side rigid coupling first slide rail frame, sliding connection first electronic slider in the first slide rail frame, first electronic slider one side rigid coupling extrusion pole, first electronic slider below rigid coupling third cylinder, the first clamp plate of flexible end rigid coupling of third cylinder, first clamp plate lower extreme rigid coupling pin type sucking disc, the slide rail of first slide rail frame slides and is equipped with compacting mechanism, compacting mechanism is used for carrying out the compaction with the filter screen and glue on the lower casing fixedly.

Further, the compacting mechanism comprises a fixing frame, a first spring, a sliding frame, a first sliding block, a connecting plate, a compression spring, a sleeve, a second spring, a sheath shaft sliding rod, a second pressing plate and a compacting plate, the front side and the rear side of the first sliding rail frame are symmetrically connected with the fixing frame, the sliding frame is connected in the fixing frame in a sliding mode, the sliding frame is connected with the fixing frame through the first spring, the first sliding block is arranged in the sliding rail of the first sliding rail frame in a sliding mode, the front side of the first sliding block is fixedly connected with the connecting plate, the compression spring is connected between the connecting plate and the first sliding rail frame, the first sliding block is connected with the Fang Gujie sleeve, the sheath shaft sliding rod is connected in the sleeve in a sliding mode, the second spring is arranged between the sheath shaft sliding rod and the sleeve, the second pressing plate is arranged on the lower portion of the sheath shaft sliding rod, and the lower end of the sheath shaft sliding rod is fixedly connected with the compacting plate.

Further, it includes the second backup pad to remove spiral cover mechanism, the second locating plate, the second slide rail frame, the electronic slider of second, the fourth cylinder, the second mounting bracket, the fourth motor, screw the frame and screw the sucking disc, first mounting bracket one side rigid coupling second backup pad, feeding mechanism is connected to second backup pad one side, be equipped with the second locating plate in the second backup pad, rigid coupling second slide rail frame on the assembly bench, the electronic slider of sliding connection second in the slide rail of second slide rail frame, the fourth cylinder is installed to the electronic slider lower extreme of second, the flexible end rigid coupling second mounting bracket of fourth cylinder, the fourth motor is installed to second mounting bracket lower extreme, the output shaft rigid coupling of fourth motor is screwed the frame, it is equipped with the sucking disc to screw the frame below, it is equipped with the spout to screw the frame top, second mounting bracket lower extreme sliding connection is in the spout of frame top of screwing.

Furthermore, one side of the lower shell in the intermittent rotary table is in contact with the anti-slip strips, so that when the upper shell and the lower shell are screwed up, the lower shell is prevented from rotating, and the upper cover is conveniently screwed up.

The invention has the beneficial effects that: 1: the filter press-connection filter screen component can be conveniently assembled and disassembled, the disassembly component can be conveniently replaced or cleaned under the condition that filter cloth is dirty, and the filter screen can be conveniently cleaned.

2: the transmission frame is obliquely arranged, so that the lower shell can move downwards on the rotating shaft, the lower shell can be conveyed into the material receiving groove in the intermittent rotary table through the upper shell feeding mechanism, the filter cloth and the upper shell can be conveyed through the filter cloth feeding mechanism and the upper shell feeding mechanism, the first motor is driven to rotate to drive the gear lacking wheel to rotate, the gear lacking wheel rotates to drive the straight gear to rotate, and the straight gear rotates to drive the intermittent rotary table to rotate by one fourth, so that the intermittent rotation function is realized.

3: according to the invention, the first cylinder is driven to enable the electric gluing head to be level with the position of the lower shell, which needs gluing, the electric slide bar is driven to move towards two sides, the electric gluing head is enabled to be in contact with the position of the lower shell, which needs gluing, then the second motor is driven to rotate to drive the electric sliding frame, the electric slide bar, the glue box and the electric gluing head to rotate, meanwhile, the electric gluing head is opened to evenly glue the position of the lower shell, which needs gluing, and the filter screen is subjected to intermittent blanking through the intermittent blanking mechanism.

4: according to the invention, the third cylinder moves downwards to drive the needle type sucker to suck up the filter cloth, the sliding frame is pressed downwards by the first pressing plate, the sliding frame is pressed downwards by the second pressing plate to drive the compacting plate to move downwards to press the filter screen, so that the filter screen and the lower shell are more firmly adhered by glue, the first electric slider is driven to drive the extrusion rod to move leftwards, the extrusion rod extrudes the connecting plate to move leftwards, so that the compacting mechanism is not compacting, when the needle type sucker is positioned above the lower shell, the first electric slider is driven to drive the third cylinder to move leftwards, so that the needle type sucker is positioned above the lower shell, and the needle type sucker is driven to place the filter cloth on the filter screen of the lower shell for assembly.

5: according to the invention, the screwing sucker moves downwards to suck the upper shell on the second supporting plate by driving the fourth cylinder to extend out, and the fourth cylinder, the second mounting frame, the fourth motor, the screwing frame and the screwing sucker are driven to move by the second electric slider, so that the upper shell and the lower shell are screwed tightly to be assembled.

6: according to the invention, the anti-slip strips are arranged on the groove wall of the first mounting frame, the lower shell is positioned in the material receiving groove in the intermittent turntable, one side of the lower shell is in contact with the anti-slip strips, and the anti-slip strips can prevent the lower shell from rotating in the material receiving groove.

Drawings

FIG. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic structural view of the first mounting bracket of the present invention.

Fig. 4 is a schematic perspective view of the feeding mechanism of the lower housing according to the present invention.

Fig. 5 is a partial structural schematic view of the feeding mechanism of the present invention.

FIG. 6 is a schematic structural view of an intermittent turntable and a glue coating mechanism of the invention.

Fig. 7 is a schematic perspective view of the intermittent rotary table of the present invention.

Fig. 8 is a schematic perspective view of the glue spreading mechanism of the present invention.

Fig. 9 is a schematic perspective view of the intermittent blanking mechanism of the present invention.

FIG. 10 is a schematic view of a filter cloth feeding mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a filter cloth conveying mechanism according to the present invention.

Fig. 12 is a schematic cross-sectional view of a compactor mechanism according to the present invention.

Fig. 13 is a schematic structural view of the feeding mechanism of the upper shell of the present invention.

Fig. 14 is a first partial structural schematic view of the moving cap screwing mechanism of the invention.

FIG. 15 is a second partial structural view of the moving cap screwing mechanism of the present invention.

Fig. 16 is a schematic view of a screen assembly according to the present invention.

In the reference symbols: a lower shell, B filter screen, C filter cloth, D upper shell, 1 assembly table, 2 first mounting rack, 201 groove, 202 antislip strip, 203 receiving port, 204 receiving shaft, 205 gluing hole, 3 intermittent turntable, 301 receiving groove, 302 straight gear, 303 first motor, 304 missing gear, 4 first support rack, 401 sliding plate, 402 first air cylinder, 403 second motor, 404 electric sliding rack, 405 electric sliding rod, 406 glue box, 407 electric gluing head, 5 transmission rack, 501 rotation shaft, 502 special-shaped rack, 503 support rod, 504 second air cylinder, 505 swing rack, 506 toggle column, 6 second support rack, 601 containing cylinder, 602 third motor, 603 first convex plate, 604 second convex plate, 701 first supporting plate, 702 first locating plate, 703 first slide rail frame, 704 first electric slide block, 705 extrusion rod, 706 third air cylinder, 707 first pressing plate, 708 needle type sucking disc, 801 fixed frame, 802 first spring, 803 sliding frame, 804 first slide block, 805 connecting plate, 806 compression spring, 807 sleeve, 808 second spring, 809 sheath shaft slide rod, 810 second pressing plate, 811 compacted plate, 9 second supporting plate, 901 second locating plate, 902 second slide rail frame, 903 second electric slide block, 904 fourth air cylinder, 905 second mounting frame, 906 fourth electric motor, 907 screwing frame, 908 sliding groove, 909 screwing sucking disc.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The utility model provides a cross filter press-connection filter screen subassembly, as shown in fig. 16, including lower casing A, filter screen B, filter cloth C and last casing D, be equipped with the screw thread in the casing A down, fix filter screen B on casing A down through glue, put on the filter screen B rather than matching suitable filter cloth C, it is fixed with casing A down through threaded connection to go up casing D, through twisting upper casing D and casing A separation down, it can wash or change to take out filter cloth C, can also wash filter screen B, can place filter cloth C on filter screen B after the washing is accomplished, it fixes with casing A down to move upper casing D through twisting, so, realized conveniently dismantling and change filter cloth C, can clear up filter screen B's filter screen subassembly.

As shown in fig. 1-15, a crimping assembly device for filter crimping filter screen assemblies comprises an assembly table 1, a first mounting frame 2, an anti-slip strip 202, a material receiving port 203, a material receiving shaft 204 and an intermittent rotary table, wherein the first mounting frame 2 is arranged in the middle of the assembly table 1, a groove 201 is formed in the first mounting frame 2, the anti-slip strip 202 is arranged on the wall of the groove 201 of the first mounting frame 2, the material receiving port 203 is formed in the first mounting frame 2, the material receiving port 203 is communicated with the groove 201, the material receiving port 203 is rotatably connected with the two material receiving shafts 204, the intermittent rotary table is arranged in the first mounting frame 2, the intermittent rotary table further comprises a straight gear 302, a first motor 303 and a gear-lacking 304, the intermittent rotary table 3 is rotatably connected with the groove 201 of the first mounting frame 2, the edge of the intermittent rotary table 3 is contacted with the anti-slip strip 202, a material receiving groove 301 is formed in the intermittent rotary table 3, the material receiving groove 301 of the intermittent rotary table 3 is communicated with the material receiving port 203, a rotating shaft at the lower part of the intermittent rotary table 3 passes through the first mounting frame 2 to be connected with the straight gear 302, a first motor 303 is mounted on the first mounting frame 2, a missing gear 304 is arranged on the first motor 303, the missing gear 304 is meshed with the straight gear 302, the first motor 303 is driven to drive the missing gear 304 to rotate, the missing gear 304 rotates to drive the straight gear 302 to rotate by one fourth, the straight gear 302 rotates to drive the intermittent rotary table 3 to rotate by one fourth through the rotating shaft, a feeding mechanism, a gluing mechanism, an intermittent blanking mechanism, a filter cloth conveying mechanism, a compacting mechanism and a movable rotary cover mechanism are sequentially arranged along the circumferential direction of the intermittent rotary table 3, the feeding mechanism is arranged on the assembly table 1, the feeding mechanism is used for conveying a lower shell, a filter cloth and an upper shell, the gluing mechanism is arranged below the first mounting frame 2, the gluing mechanism is used for gluing the lower shell, a filter screen is convenient to fix, and the intermittent blanking mechanism is fixedly connected with the first mounting frame 2, intermittent type unloading mechanism is used for the intermittent type to carry out the unloading with the filter screen, filter cloth transport mechanism locates 2 one sides of first mounting bracket, filter cloth transport mechanism is used for snatching the filter cloth and places the assembly on the filter screen, on compaction mechanism located filter cloth transport mechanism, when snatching the filter cloth, it is fixed with the gluey on filter screen and the lower casing of going up to carry out the compaction through compaction mechanism, remove spiral cover mechanism and locate 2 one sides of first mounting bracket, it is used for carrying out the upper cover with the lower casing and screws up to remove spiral cover mechanism.

As shown in fig. 1 and 2, the number of the feeding mechanisms is three, one of the feeding mechanisms is located on the left side of the first mounting frame 2 and is a lower shell feeding mechanism, the other feeding mechanism is located on the right part of the rear side of the first mounting frame 2 and is a filter cloth feeding mechanism, and the last feeding mechanism is located on the right part of the front side of the first mounting frame 2 and is an upper shell feeding mechanism.

As shown in fig. 4 and 5, the feeding mechanism includes a transmission frame 5, a rotation shaft 501, a special-shaped frame 502, a support rod 503, a second cylinder 504, a swing frame 505 and a toggle column 506, the transmission frame 5 is fixedly connected to the assembly table 1, the transmission frame 5 is rotatably connected to a plurality of rotation shafts 501, the transmission frame 5 is fixedly connected to the special-shaped frame 502, the support rod 502 is fixedly connected to the support rod 503, the swing frame 505 is rotatably connected to the support rod 503, the second cylinder 504 is mounted on the special-shaped frame 502, the telescopic end of the second cylinder 504 is hinged to the upper portion of the swing frame 505, and the toggle column 506 is symmetrically fixedly connected to the front end and the rear end of the swing frame 505.

As shown in fig. 6 and 8, the glue coating mechanism includes a first support frame 4, a sliding plate 401, a first cylinder 402, a second motor 403, an electric sliding frame 404, an electric sliding rod 405, a glue box 406 and an electric glue coating head 407, the first support frame 4 is symmetrically and fixedly connected below the first support frame 2, the sliding plate 401 is slidably connected in the first support frame 4, the first cylinder 402 is installed on the assembly table 1, the telescopic end of the first cylinder 402 is fixedly connected with the sliding plate 401, the second motor 403 is installed below the sliding plate 401, the output shaft of the second motor 403 passes through the upper side of the sliding plate 401 to be connected with the electric sliding frame 404, the electric sliding frame 404 is symmetrically and slidably connected with the electric sliding rod 405, the glue box 406 is installed at the upper end of the electric sliding rod 405, the two electric glue coating heads 407 are installed on the electric sliding rod 405, and the glue in the glue box 406 is communicated with the electric glue coating head 407 through a glue tube.

As shown in fig. 9, the intermittent discharging mechanism includes a second supporting frame 6, a containing cylinder 601, a third motor 602, a first convex plate 603 and a second convex plate 604, the second supporting frame 6 is fixedly connected to the middle portion of the rear side of the first mounting frame 2, the containing cylinder 601 is installed at the front portion of the second supporting frame 6, the third motor 602 is installed at the lower portion of the second supporting frame 6, the first convex plate 603 and the second convex plate 604 are fixedly connected to an output shaft of the third motor 602, the first convex plate 603 and the second convex plate 604 are arranged in a staggered manner, when the first convex plate 603 contacts with a filter screen under the containing cylinder 601, the first convex plate 603 blocks the filter screen, when the first convex plate 603 does not contact with the filter screen under the containing cylinder 601, the filter screen drops out one, and when the second convex plate 603 contacts with the filter screen under the containing cylinder 601, the second convex plate 603 blocks the filter screen.

As shown in fig. 10 and 11, the filter cloth conveying mechanism includes a first support plate 701, a first positioning plate 702, a first slide rail frame 703, a first electric slider 704, an extrusion rod 705, a third cylinder 706, a first press plate 707 and a needle type suction cup 708, the middle part of the right side of the first mounting frame 2 is fixedly connected with the first support plate 701, the rear side of the first support plate 701 is connected with the feeding mechanism, the first positioning plate 702 is fixedly connected on the first support plate 701, the right side of the first support plate 701 is fixedly connected with the first slide rail frame 703, the first electric slider 704 is slidably connected in the first slide rail frame 703, the extrusion rod 705 is fixedly connected on the front side of the first electric slider 704, the third cylinder 706 is fixedly connected below the first electric slider 704, the telescopic end of the third cylinder 706 is fixedly connected with the first press plate 707, and the needle type suction cup 708 is installed at the lower end of the first press plate 707.

As shown in fig. 10 and 12, the compacting mechanism includes a fixed frame 801, a first spring 802, a sliding frame 803, a first slider 804, a connecting plate 805, a compression spring 806, a sleeve 807, a second spring 808, a sheath shaft sliding rod 809, a second pressing plate 810 and a compacting plate 811, the fixed frame 801 is symmetrically connected to the front and back sides of the first slider 703, the sliding frame 803 is connected to the fixed frame 801 in a sliding manner, the sliding frame 803 is connected to the fixed frame 801 through the first spring 802, the first slider 804 is slidably disposed in a sliding rail of the first slider 703, the connecting plate 805 is fixedly connected to the front side of the first slider 804, the compression spring 806 is connected between the connecting plate 805 and the left portion of the first slider 703, the sleeve 807 is fixedly connected to the lower portion of the first slider 804, the sheath shaft sliding rod 809 is slidably connected to the sleeve 807, the second spring 808 is disposed between the sheath shaft sliding rod 809 and the sleeve 807, the second pressing plate 810 is disposed on the lower portion of the sheath shaft sliding rod 809, the second pressing plate 810 is disposed below the sliding frame 803, and the compacting plate 811 is disposed on the lower end of the sheath shaft sliding rod 809.

As shown in fig. 13, 14 and 15, the movable cap screwing mechanism includes a second supporting plate 9, a second positioning plate 901, a second sliding rail frame 902, a second electric slider 903, a fourth cylinder 904, a second mounting frame 905, a fourth motor 906, a screwing frame 907 and a screwing suction cup 909, the middle part of the front side of the first mounting frame 2 is fixedly connected with the second supporting plate 9, the right side of the second supporting plate 9 is connected with the feeding mechanism, the second positioning plate 901 is fixedly connected to the second supporting plate 9, the middle part of the front side of the assembly table 1 is fixedly connected with the second sliding rail frame 902, the second electric slider 903 is slidably connected to the sliding rail of the second sliding rail frame 902, the fourth cylinder 904 is mounted at the lower end of the second electric slider 903, the telescopic end of the fourth cylinder 904 is fixedly connected with the second mounting frame 905, the fourth motor 906 is mounted at the lower end 905 of the second mounting frame, the screwing output shaft of the fourth motor 906 is fixedly connected to the screwing frame 907, the suction cup 909 is arranged below the screwing frame 907, a chute 908 is arranged above the screwing frame 907, and the lower end of the second sliding connection is connected to the chute 908 above the screwing frame 907.

As shown in fig. 1, one side of the lower housing in the intermittent rotary disk 3 is in contact with the cleat 202.

Firstly, sequentially placing a plurality of lower shells on a rotating shaft 501 on a transmission frame 5, placing a filter screen in a containing cylinder 601, sequentially placing a plurality of filter cloths on the rotating shaft 501 on the transmission frame 5, and sequentially placing an upper shell on the rotating shaft 501 of the transmission frame 5;

when the assembly is carried out, the transmission frame 5 is arranged obliquely, so that the lower shell, the filter cloth and the upper shell move downwards on the rotating shaft 501, the second cylinder 504 is driven to move downwards to drive the swing frame 505 to swing left and right, when the second cylinder 504 drives the swing frame 505 to move downwards, the left part of the swing frame 505 drives the toggle column 506 to move downwards, so that the lower shell, the filter cloth and the upper shell do not move downwards, when the second cylinder 504 drives the swing frame 505 to move upwards, the right part of the swing frame 505 drives the toggle column 506 to move upwards, the lower shell, the filter cloth and the upper shell on the transmission frame 5 move downwards through the rotating shaft 501, wherein the lower shell slides into the material receiving groove 301 in the intermittent turntable 3 through the rotating shaft 501 and the material receiving shaft 204 on the material receiving port 203, so that the feeding function of the lower shell is realized, and the feeding function of the filter cloth and the upper shell is also realized;

when the intermittent turntable moves the lower shell to the position above the gluing hole 205, because the gluing hole 205 is correspondingly communicated with the material receiving groove 301, the first air cylinder 402 is driven to extend out to drive the sliding plate 401, the second motor 403, the electric sliding frame 404, the electric sliding rod 405, the glue box 406 and the electric gluing head 407 to move upwards, the electric gluing head 407 is aligned with the position of the lower shell needing gluing through the gluing hole 205 and the material receiving groove 301, the electric sliding rod 405 is driven to move towards two sides, the electric gluing head 407 is driven to contact with the position of the lower shell needing gluing, then the second motor 403 is driven to rotate to drive the electric sliding frame 404, the electric sliding rod 405, the glue box 406 and the electric gluing head 407 to rotate, the electric gluing head 407 is opened at the moment, the position of the lower shell needing gluing is glued, after the gluing is finished, the second motor 403 and the electric gluing head 407 are closed, and the steps are realized, the electric gluing head 407 is driven to rotate uniformly by driving the first air cylinder 402 to align with the position of the electric gluing head 407, the position of the lower shell needing gluing, the electric sliding rod 403 is driven to rotate, and the electric gluing head 407 and the electric gluing head 406 is driven to rotate;

when the glue coating is finished, the third motor 602 is driven to rotate to drive the first convex plate 603 and the second convex plate 604 to rotate, when the first convex plate 603 is not in contact with the filter screen below the containing cylinder 601, one filter screen falls onto the lower shell, and meanwhile, the second convex plate 604 keeps off the filter screen below the containing cylinder 601, so that the intermittent filter screen discharging is realized;

when the intermittent turntable drives the lower shell with the upper filter screen to move to the position of the filter cloth conveying mechanism, the filter cloth feeding mechanism intermittently conveys the filter cloth to a first support plate 701, the filter cloth is positioned through a first positioning plate 702, simultaneously, a third air cylinder 706 is driven to extend downwards to drive a first pressing plate 707 and a needle type sucker 708 to move downwards, the needle type sucker 708 drives the filter cloth to be sucked, when the first pressing plate 707 moves downwards to press a sliding frame 803 to move downwards, a first spring 802 stretches at the moment, the sliding frame 803 moves downwards to press a second pressing plate 810 to move downwards, the second pressing plate 810 drives a sheath shaft sliding rod 809 and a compacting plate 811 to move downwards, the second spring 808 stretches at the moment, the compacting plate 811 moves downwards to press the filter screen, so that the filter screen is more firmly adhered to the lower shell through glue, and when the needle type sucker 708 sucks the filter cloth, the third air cylinder 706 is driven to contract to drive the first pressing plate 707 and the needle type suction cup 708 to move upwards for resetting, at the same time, the first spring 802 contracts to drive the sliding frame 803 to reset, the second spring 808 contracts to drive the second pressing plate 810, the sheath shaft sliding rod 809 and the compacting plate 811 to reset, at the same time, the first electric sliding block 704 is driven to move leftwards to drive the extrusion rod 705, the third air cylinder 706, the first pressing plate 707 and the needle type suction cup 708 to move leftwards, the extrusion rod 705 moves leftwards to extrude the connection plate 805 to move leftwards, the connection plate 805 moves leftwards to compress the compression spring 806, at the same time, the connection plate 805 moves leftwards to drive the first sliding block 804, the sleeve 807, the second spring 808, the sheath shaft sliding rod 809, the second pressing plate 810 and the compacting plate 811 to move leftwards, when the needle type suction cup 708 is positioned above the filter screen of the lower shell, the third air cylinder 706 is driven to extend downwards to move to drive the first pressing plate 707 and the needle type suction cup 708 to move downwards to place the filter cloth on the filter screen, the first pressing plate 707 moves downwards to press the sliding frame 803 to move downwards, at the moment, the first spring 802 stretches, after the filter cloth is placed on the filter screen, the third air cylinder 706 is driven to contract to drive the first pressing plate 707 and the needle type suction disc 708 to move upwards to reset, at the moment, the first spring 802 contracts to drive the sliding frame 803 to reset, the downward movement through the third air cylinder 706 is realized, the needle type suction disc 708 is driven to suck the filter cloth upwards, meanwhile, the sliding frame 803 is pressed downwards through the first pressing plate 707 to press the sliding frame 803, the sliding frame 803 drives the compacting plate 811 to move downwards through the second pressing plate 810 to press the filter screen, so that the filter screen is more firmly adhered to the lower shell through glue, the first electric sliding block 704 is driven to drive the extruding rod 704 to move leftwards, the extruding rod 705 extrudes the connecting plate to move leftwards, the compacting mechanism is not compacted, when the needle type suction disc 708 is positioned above the lower shell, the third air cylinder 706 is driven to move leftwards by the first electric sliding block 704 to drive the needle type suction disc 705 to place the filter cloth on the filter screen of the lower shell to assemble through the needle type suction disc 805.

When the intermittent turntable drives the lower shell to be assembled with the filter screen and the filter cloth to move to the position of the movable cover screwing mechanism, the upper shell feeding mechanism intermittently conveys the upper shell to the second supporting plate 9, the upper shell is positioned by the second positioning plate 901, at the moment, the fourth cylinder 904 is driven to extend out to drive the second mounting rack 905, the fourth motor 906, the screwing rack 907 and the screwing sucker 909 to move downwards, the screwing sucker 909 sucks the upper shell on the second supporting plate 9, after the sucking is finished, the fourth cylinder 904 is driven to shrink to drive the second mounting rack 905, the fourth motor 906, the screwing rack 907 and the screwing sucker 909 to move upwards, the second electric slider 903 is driven to drive the fourth cylinder 904, the second mounting rack 905, the fourth motor 906, the screwing rack 907 and the screwing sucker 909 to move backwards, and when the screwing sucker 909 is positioned above the lower shell, the fourth cylinder is driven to extend out to drive the second mounting rack 904, the fourth motor 906, the screwing rack 907 and the screwing sucker 909 to move downwards, the screwing sucker 909 moves downwards to enable the upper shell to be in contact with the threads of the lower shell, meanwhile, the fourth motor 906 is driven to rotate to drive the screwing rack 907 to rotate, the screwing rack 907 rotates to drive the upper shell to rotate through the screwing sucker 909, so that the upper shell and the lower shell are screwed tightly, after assembly is completed, the second electric slider 903 is driven to drive the fourth cylinder 904, the second mounting rack 905, the fourth motor 906, the screwing rack 907 and the screwing sucker 909 to move forwards, the fourth cylinder 904 is driven to drive the second mounting rack 905, the fourth motor 906, the screwing rack 907 and the screwing sucker 909 to move downwards, the screwing sucker 909 places the assembled filter into the collection box, and then the second electric slider 903 is driven to reset, so that the screwing sucker 909 is driven by the fourth cylinder 904 to suck the upper shell, the second electric slider 903 drives the fourth cylinder 904 to suck the screwing sucker 909, and the second electric slider 903 to reset, the second mounting rack 905, the fourth motor 906, the screwing rack 907 and the screwing sucker 909 move, so that the upper shell and the lower shell are screwed tightly to be assembled.

Because the recess 201 wall of first mounting bracket 2 is equipped with antislip strip 202, lower casing is located the intermittent type carousel 3 connect the silo 301 in, one side and the antislip strip 202 contact of lower casing, rotate when fourth motor 906 and drive and screw frame 907 and rotate, it drives the upper casing through the sucking disc 909 of screwing to screw frame 907 to rotate, make upper casing and lower casing screw up and accomplish the assembly, antislip strip 202 can make lower casing can not connect the silo 301 internal rotation, antislip strip 202 has played and has prevented casing pivoted effect down.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims

1. A compression joint assembly device of a filter press-joint filter screen assembly comprises an assembly table (1), and is characterized by further comprising a first mounting frame (2), anti-slip strips (202), a material receiving port (203), a material receiving shaft (204) and an intermittent rotary table, wherein the first mounting frame (2) is arranged in the middle of the assembly table (1), a groove (201) is formed in the first mounting frame (2), the anti-slip strips (202) are arranged on the wall of the groove (201) of the first mounting frame (2), the material receiving port (203) is formed in the first mounting frame (2), the material receiving port (203) is communicated with the groove (201), the material receiving shaft (204) is rotatably connected to the material receiving port (203), the intermittent rotary table (3) is rotatably connected into the groove (201) of the first mounting frame (2), the edge of the intermittent rotary table (3) is contacted with the anti-slip strips (202), a material receiving groove (301) is formed in the intermittent rotary table (3), the material receiving groove (301) of the intermittent rotary table (3) is communicated with the material receiving port (203), a feeding mechanism, an intermittent rotary press-joint filter cloth conveying mechanism and a glue coating mechanism are arranged on the lower shell and a glue coating mechanism for conveying the filter cloth conveying mechanism, and a glue coating mechanism are arranged on the lower shell, make things convenient for the filter screen to fix, the first mounting bracket of intermittent type unloading mechanism rigid coupling (2), intermittent type unloading mechanism is used for the intermittent type to carry out the unloading with the filter screen, filter cloth transport mechanism locates first mounting bracket (2) one side, filter cloth transport mechanism is used for snatching the filter cloth and carries out the equipment assembly on placing the filter screen, compacting mechanism locates on the filter cloth transport mechanism, when snatching the filter cloth, it is fixed with the gluey compaction that carries out on filter screen and the lower casing through compacting mechanism, remove spiral cover mechanism and locate first mounting bracket (2) one side, it is used for carrying out the upper cover with last casing and lower casing and screws up to remove spiral cover mechanism.

2. A filter press-fit assembly apparatus for filter press-fit screen assemblies according to claim 1, wherein the number of feed mechanisms is three, one feed mechanism is located on the left side of the first mounting frame (2) and is a lower housing feed mechanism, another feed mechanism is located on the right rear side of the first mounting frame (2) and is a filter cloth feed mechanism, and the last feed mechanism is located on the right front side of the first mounting frame (2) and is an upper housing feed mechanism.

3. The filter press-connection filter screen assembly press-connection assembly device of claim 2, wherein the feeding mechanism comprises a transmission frame (5), a rotating shaft (501), a special-shaped frame (502), a supporting rod (503), a second cylinder (504), a swing frame (505) and a toggle column (506), the transmission frame (5) is connected to the assembly table (1), the transmission frame (5) is connected with the rotating shafts (501) in a rotating mode, the special-shaped frame (502) is connected to the transmission frame (5), the supporting rod (503) is fixedly connected to the special-shaped frame (502), the swing frame (505) is connected to the supporting rod (503) in a rotating mode, the second cylinder (504) is mounted on the special-shaped frame (502), the telescopic end of the second cylinder (504) is hinged to one side of the swing frame (505), and the toggle column (506) is symmetrically fixedly connected to the front end and the rear end of the swing frame (505).

4. The press-connection assembling device for the filter press-connection filter screen assembly according to claim 1, wherein the glue coating mechanism comprises a first support frame (4), a sliding plate (401), a first air cylinder (402), a second motor (403), an electric sliding frame (404), an electric sliding rod (405), a glue box (406) and an electric glue coating head (407), the first support frame (4) is symmetrically and fixedly connected below the first mounting frame (2), the sliding plate (401) is arranged in the first support frame (4) in a sliding manner, the first air cylinder (402) is arranged on the assembling table (1), the telescopic end of the first air cylinder (402) is fixedly connected with the sliding plate (401), the second motor (403) is arranged below the sliding plate (401), the output shaft of the second motor (403) penetrates through the sliding plate (401) to be connected with the electric sliding frame (404), the electric sliding rod (405) is symmetrically and slidably connected to the electric sliding frame (404), the glue box (406) is arranged at the upper end of the electric sliding rod (405), the electric glue coating head (407) is arranged on the electric sliding rod (405), and the glue coating head (407) is communicated with the glue coating head (407) through the glue in the glue coating box (406).

5. The crimping and assembling device for the filter screen component according to claim 1, wherein the intermittent blanking mechanism comprises a second support frame (6), a containing cylinder (601), a third motor (602), a first convex plate (603) and a second convex plate (604), the second support frame (6) is fixedly connected to the first mounting frame (2), the containing cylinder (601) is mounted on the second support frame (6), the third motor (602) is mounted on the lower portion of the second support frame (6), the first convex plate (603) and the second convex plate (604) are fixedly connected to an output shaft of the third motor (602), and the first convex plate (603) and the second convex plate (604) are arranged in a staggered manner.

6. The press-connection assembling device for the filter press-connection filter screen assembly according to claim 1, wherein the filter cloth conveying mechanism comprises a first support plate (701), a first positioning plate (702), a first slide rail frame (703), a first electric slider (704), an extrusion rod (705), a third cylinder (706), a first pressing plate (707), a needle type suction cup (708) and a compacting mechanism, the first support frame (2) is fixedly connected with the first support plate (701), the first support plate (701) is connected with the feeding mechanism, the first positioning plate (702) is arranged on the first support plate (701), one side of the first support plate (701) is fixedly connected with the first slide rail frame (703), the first electric slider (704) is slidably connected with the first slide rail frame (703), the extrusion rod (705) is fixedly connected with one side of the first electric slider (704), the third cylinder (706) is fixedly connected with the lower part of the first electric slider (704), the telescopic end of the third cylinder (706) is fixedly connected with the first pressing plate (707), the lower end of the first electric slider (703) is fixedly connected with the needle type pressing plate (708), the sliding rail frame (703) is provided with the compacting mechanism for fixing the filter screen to the lower housing.

7. The press-connection assembling device for the filter press-connection filter screen assembly according to claim 6, wherein the compacting mechanism comprises a fixing frame (801), a first spring (802), a sliding frame (803), a first sliding block (804), a connecting plate (805), a compression spring (806), a sleeve (807), a second spring (808), a sheath shaft sliding rod (809), a second pressing plate (810) and a compacting plate (811), the front side and the rear side of the first sliding rail frame (703) are symmetrically connected with the fixing frame (801), the sliding frame (803) is in sliding connection with the fixing frame (801), the sliding frame (803) is connected with the fixing frame (801) through the first spring (802), the first sliding block (804) is arranged in the sliding rail of the first sliding rail frame (703), the first sliding block (804) is fixedly connected with the connecting plate (805) at the front side of the first sliding block (804), the compression spring (806) is connected with the first sliding rail frame (703) between the connecting plate (805) and the first sliding rail frame (804), the sleeve (807) is fixedly connected with the sleeve (807) in the sliding rail, the sliding rod (809) is connected with the sheath shaft (809), the lower end of the second sliding rod (809) is arranged on the lower end of the sheath shaft (809), and the lower end of the second sliding rod (809) is arranged on the sheath shaft (811).

8. The press-connection assembling device for the filter press-connection filter screen assembly according to claim 1, wherein the movable cover screwing mechanism comprises a second supporting plate (9), a second positioning plate (901), a second slide rail frame (902), a second electric slider (903), a fourth air cylinder (904), a second mounting frame (905), a fourth motor (906), a screw frame (907) and a screw sucking disc (909), the second supporting plate (9) is fixedly connected to one side of the first mounting frame (2), a feeding mechanism is connected to one side of the second supporting plate (9), a second positioning plate (901) is arranged on the second supporting plate (9), the second slide rail frame (902) is fixedly connected to the assembling table (1), the second electric slider (903) is slidably connected to a slide rail of the second slide rail frame (902), a fourth air cylinder (904) is arranged at the lower end of the second electric slider (903), a telescopic end of the fourth air cylinder (904) is fixedly connected to the second mounting frame (905), a fourth motor (906) is arranged at the lower end of the second mounting frame (905), an output shaft of the fourth motor (906) is fixedly connected to the screw frame (907), a lower end of the second sliding chute (908) is arranged above the screw frame (907), and a second sliding chute (908) is arranged below the screw sucking disc (907).

9. The press-connection assembling device for the filter press-connection filter screen assembly as claimed in claim 1, wherein the intermittent rotary table (3) further comprises a straight gear (302), a first motor (303) and a gear-lacking wheel (304), one side of a lower shell in the intermittent rotary table (3) is in contact with the anti-slip strip (202), when the upper shell and the lower shell are screwed up, the lower shell is prevented from rotating, the upper cover is convenient to screw up, a rotating shaft at the lower part of the intermittent rotary table (3) penetrates through the first mounting frame (2) to be connected with the straight gear (302), the first motor (303) is mounted on the first mounting frame (2), the gear-lacking wheel (304) is arranged on the first motor (303), the gear-lacking wheel (304) is meshed with the straight gear (302), the first motor (303) is driven to drive the gear-lacking wheel (304) to rotate, the gear (304) rotates to drive the straight gear (302) to rotate by one fourth, and the straight gear (302) rotates to drive the intermittent rotary table (3) by the rotating shaft.