CN115999260A - Air cleaner filter core production line - Google Patents

Abstract

The invention relates to the field of production line automation, in particular to an air filter element production line. Including horizontal transportation device, horizontal transportation device includes top transport mechanism, double-deck support frame and bottom transport mechanism, and top transport mechanism and bottom transport mechanism all set up on double-deck support frame. According to the invention, through the structural design of the adjustable gluing mechanism, the rotary gluing can be performed through the rotation of the fourth motor in the gluing process, and in the process, the inclination angle of the fifth cylinder can be adjusted through the fourth cylinder, and the height of the gluing head can be adjusted through the fifth cylinder, so that the gluing is faster and more uniform, meanwhile, the adjustable gluing mechanism can adapt to the filter element processing requirements of different sizes, and the mechanical feeding can be performed through the structural design of the first feeding mechanism, the second feeding mechanism and the third feeding mechanism in use, so that the feeding and positioning are more accurate, and the working efficiency is improved.

Description

Air cleaner filter core production line

Technical Field

The invention relates to the field of production line automation, in particular to an air filter element production line.

Background

With the rapid development of society, regional atmospheric environmental problems with inhalable particulate matters (PM 10) and fine particulate matters (PM 2.5) as characteristic pollutants are increasingly prominent, and environmental protection purification products play an increasingly important role.

The following technical problems exist in the prior art: at present, many domestic air filter element manufacturers still mainly operate manually, and the automation level of a production line is generally not high due to process limitation, and most of the air filter element manufacturers are in a manual operation mode of a production line. The quality detection of the air filter element product is also finished by manpower, and the labor intensity is quite high. The method has the advantages of meeting the shortcomings of daily increase of labor cost, low production efficiency and high defective rate and strong market competition, and automatically upgrading the enterprise requirements.

Based on the above, a production line of the filter element of the air filter is provided, and a new solution is provided for solving the technical problems.

Disclosure of Invention

The invention aims to provide an air filter element production line, which aims at the technical problems in the background technology in general.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides an air cleaner filter core production line, includes horizontal transportation device, horizontal transportation device includes top transport mechanism, double-deck support frame and bottom transport mechanism, top transport mechanism with bottom transport mechanism all sets up on the double-deck support frame, top transport mechanism is located bottom transport mechanism's top;

The feeding station comprises a first feeding mechanism, a second feeding mechanism and a third feeding mechanism, wherein the first feeding mechanism is used for feeding paper frames, the second feeding mechanism is used for feeding activated carbon nets, the third feeding mechanism is used for feeding filter cotton grids, the first feeding mechanism, the second feeding mechanism and the third feeding mechanism are all arranged on one side of the top conveying mechanism, the first feeding mechanism is arranged at one end of the second feeding mechanism, and the third feeding mechanism is arranged at one end, far away from the first feeding mechanism, of the second feeding mechanism;

the three manual work positions are arranged on one side, close to the first feeding mechanism, of the top conveying mechanism, and are respectively arranged on one side of the first feeding mechanism, one side of the second feeding mechanism and one side of the third feeding mechanism and are respectively positioned below the first feeding mechanism, the second feeding mechanism and the third feeding mechanism;

800, the adjustable gluing mechanism is arranged on one side, far away from the first feeding mechanism, of the top conveying mechanism and is positioned between the first feeding mechanism and the second feeding mechanism, and the adjustable gluing mechanism is used for gluing the inside of the paper frame;

The profiling mechanism is arranged on one side of the top conveying mechanism, close to the third feeding mechanism, and is positioned at one end, far away from the second feeding mechanism, of the third feeding mechanism;

the edge covering mechanism is arranged at one side of the top conveying mechanism away from the profiling mechanism and is positioned at one end of the profiling mechanism away from the third feeding mechanism;

the quality detection mechanism is arranged on one side of the top conveying mechanism, which is close to the profiling mechanism, and is positioned at one end of the edge covering mechanism, which is far away from the profiling mechanism;

the bearing clamping mechanism is arranged at the top of the top conveying mechanism and moves along with the movement of the top conveying mechanism;

the vertical conveying device comprises two lifting conveying mechanisms, and the two lifting conveying mechanisms are respectively arranged at the front end and the rear end of the top conveying mechanism and the front end and the rear end of the bottom conveying mechanism.

Further, the top transport mechanism and the bottom of bottom transport mechanism are fixedly connected through a plurality of double-deck support frames, the top transport mechanism comprises a plurality of middle transport rollers, two second side auxiliary movement strips and two conveying installation frames, the two conveying installation frames are respectively fixed on two sides of the tops of the plurality of double-deck support frames, a plurality of middle transport rollers are rotationally connected between the two conveying installation frames, the outer sides of one sides of the plurality of middle transport rollers are connected through first transmission connection strips, the tops of the two conveying installation frames, which are close to each other, are fixedly connected with second side auxiliary movement strips, wherein the bottom of one conveying installation frame is fixedly connected with a top transport motor, the output end of the top transport motor is connected with two middle transport rollers through a second transmission chain, and the top transport motor is used for providing power for the movement of a plurality of middle transport rollers;

The bottom transport mechanism is fixed at the bottom of the double-layer support frame, a bottom transport motor is arranged at the bottom of the bottom transport mechanism and used for providing power for the work of the bottom transport mechanism.

Further, first feed mechanism second feed mechanism with third feed mechanism all is including shifting conveying mechanism, it all includes the conveying mounting bracket that shifts to shift conveying mechanism, it fixes at one of them to shift conveying mounting bracket the top of conveying mounting bracket, the first mounting panel of top fixedly connected with of the one end of conveying mounting bracket that shifts, U-shaped guide way has been seted up to the one end of first mounting panel, the inboard sliding connection of U-shaped guide way has first connecting block, first connecting block is close to the outside of first mounting panel one end and is located first mounting panel with sliding connection has annular drive strip between the first connecting block, the bottom fixedly connected with adsorption cylinder of first connecting block, the both sides of adsorption cylinder bottom all are provided with the suction nozzle, first mounting panel is close to the bottom fixedly connected with second slide rail of first connecting block one end, the outside sliding connection of second slide rail has two-sided connection slider, first slide rail is located two-sided connection slider and two-sided motor and two-sided connection have annular drive strip between first mounting panel and the first end, first slide rail and first end fixedly connected with first end, first slide rail and second end fixedly connected with keep away from.

Further, adjustable rubber coating mechanism includes the rubber coating support frame, the top fixedly connected with rubber coating mounting bracket of rubber coating support frame, the top fixedly connected with fourth motor of rubber coating mounting bracket, the output of fourth motor runs through the rotatory mounting panel of rubber coating mounting bracket fixedly connected with, rotatory mounting panel is located the middle part at top transport mechanism top, the equal threaded connection in both sides of rotatory mounting panel bottom has the connecting rod, two the equal fixedly connected with fourth cylinder in one side that the connecting rod kept away from each other, two the output of fourth cylinder all runs through and is located same one side the connecting rod and fixedly connected with regulation installation piece, two the inboard of regulation installation piece is equal fixedly connected with fifth cylinder, two the output of fifth cylinder all is connected with the rubber coating head.

Further, the profiling mechanism includes the profiling support frame, the top fixedly connected with profiling mounting bracket of profiling support frame, the first jacking cylinder of top fixedly connected with of profiling mounting bracket, the output of first jacking cylinder runs through profiling mounting bracket fixedly connected with profiling mounting panel, the top equipartition fixedly connected with four first jacking guide rails of profiling mounting panel, four the top of first jacking guide rail all runs through profiling mounting bracket just with profiling mounting bracket sliding connection, the bottom fixedly connected with of profiling mounting panel a plurality of buffering telescopic links, a plurality of the bottom fixedly connected with profiled sheeting of buffering telescopic link, a plurality of the equal sliding connection in the outside of buffering telescopic link has first buffer spring, a plurality of first buffer spring's top all with profiling mounting panel fixedly connected with, a plurality of first buffer spring's bottom all with profiled sheeting fixed connection.

Further, the mechanism of borduring includes the mounting bracket of borduring, the bottom fixedly connected with mounting panel of borduring of mounting bracket, the mounting panel of borduring is located the middle part at top transport mechanism top, horizontal pressure subassembly and vertical pressure subassembly are all installed to the both ends and the both sides of mounting panel bottom of borduring, horizontal pressure subassembly includes horizontal work mounting bracket, first cylinder and horizontal layering, the both ends and the both sides of mounting panel bottom of borduring all fixedly connected with horizontal work mounting bracket, the bottom of horizontal work mounting bracket all fixedly connected with first cylinder, the output of first cylinder all runs through the horizontal work mounting bracket that is located its top and fixedly connected with horizontal layering, horizontal layering with horizontal work mounting bracket sliding connection; the vertical pressure component comprises a second buffer spring, a vertical work mounting frame, a second air cylinder, a vertical pressing block and a vertical pressing strip, wherein the two ends and two sides of the bottom of the edge covering mounting plate are fixedly connected with the vertical work mounting frame, the second air cylinder is fixedly connected with the inner side of the vertical work mounting frame, the output end of the second air cylinder is fixedly connected with the vertical pressing block, the vertical pressing block is in sliding connection with the vertical work mounting frame, the bottom of the vertical pressing block is fixedly connected with the second buffer spring, the bottom of the second buffer spring is fixedly connected with the vertical pressing strip, and the vertical pressing strip is in sliding connection with the second air cylinder.

Further, quality testing mechanism includes the quality testing mounting bracket, the one end fixedly connected with third motor of quality testing mounting bracket, the outside sliding connection at quality testing mounting bracket top has the lateral movement mounting panel, the top fixedly connected with third cylinder of lateral movement mounting panel, the output fixedly connected with vertical movement mounting panel of third cylinder, vertical movement mounting panel with lateral movement mounting panel sliding connection, one side of vertical movement mounting panel just is located the middle part at top transport mechanism top is provided with a plurality of visual detector, the one end fixedly connected with substandard product siren at quality testing mounting bracket top.

Further, bear fixture including follow-up motion board, splint, sixth cylinder and motion auxiliary bearing, the equal fixedly connected with sixth cylinder in both ends of follow-up motion board bottom, the equal sliding connection in both ends at follow-up motion board top has splint, two the bottom of splint all runs through follow-up motion board and respectively with be located the output fixed connection of sixth cylinder of same one end, four end angle departments of follow-up motion board bottom all rotate and are connected with motion auxiliary bearing.

Further, lift transport mechanism includes first driving belt and outside mounting bracket, one side sliding connection of outside mounting bracket has the lift mounting bracket, the equal fixedly connected with of both sides of lift mounting bracket bottom carries the support frame, two the equal fixedly connected with first side auxiliary movement strip in top that the support frame is close to one side each other carries the support frame one side that is close to each other respectively with be located two that is same one side carry the support frame one side that is close to each other in same vertical plane, two it is connected with a plurality of first conveying rollers to rotate between the support frame to carry, a plurality of the outside of first conveying roller one side is passed through first driving belt and is connected, the lift mounting bracket bottom is kept away from the one end fixedly connected with first limiting plate of carrying the mounting bracket, the bottom fixedly connected with first motor of lift mounting bracket, the output of first motor is connected with driving belt, driving belt is two wherein one side of first conveying roller is connected with, the one end fixedly connected with spacing cylinder of first limiting plate is kept away from to the lift mounting bracket bottom, spacing cylinder's output is connected with spacing subassembly.

Further, the lifting transportation mechanism further comprises a lifting hydraulic cylinder, the outer mounting frame is close to the lifting hydraulic cylinder fixedly connected with the bottom of one side of the lifting mounting frame, the output end of the lifting hydraulic cylinder is fixedly connected with a first connecting frame, the first connecting frame is fixedly connected with the lifting mounting frame, the outer mounting frame is close to the lifting sensor fixedly connected with the two ends of the middle of one side of the lifting mounting frame, and the two ends of the top of the lifting mounting frame are provided with induction plates.

It can be clearly seen that the technical problems to be solved by the present application must be solved by the above-mentioned technical solutions of the present application.

Meanwhile, through the technical scheme, the invention has at least the following beneficial effects:

1. according to the invention, through the structural design of the top conveying mechanism and the two lifting conveying mechanisms, the carrying clamping mechanism can be circularly conveyed during use, so that the working efficiency can be improved.

2. According to the invention, through the structural design of the adjustable gluing mechanism, the rotary gluing can be performed through the rotation of the fourth motor in the gluing process, and in the process, the inclination angle of the fifth cylinder can be adjusted through the fourth cylinder, and the height of the gluing head can be adjusted through the fifth cylinder, so that the gluing is faster and more uniform, meanwhile, the processing requirements of filter elements with different sizes can be met, and the adaptability in use is increased.

3. According to the invention, through the structural design of the first feeding mechanism, the second feeding mechanism and the third feeding mechanism, feeding can be performed through machinery in use, so that feeding and positioning are more accurate, and meanwhile, the manual labor intensity is reduced, and the working efficiency is improved.

4. According to the invention, through the structural design of the quality detection mechanism, the quality detection of the semi-finished product can be carried out after the processing is finished, and unqualified workpieces are identified to enter the next working cycle, so that the processing quality is improved.

5. According to the invention, through the structural design of the lifting conveying mechanism, the processed products are circularly conveyed during processing, so that the manual labor intensity is reduced, and the conveying efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic illustration of the present invention;

FIG. 2 is a schematic view of the lift transport mechanism of the present invention;

FIG. 3 is a schematic view of a first conveyor roller, drive belt and first drive belt of the present invention;

FIG. 4 is a schematic diagram of a jacking sensor and jacking cylinder of the present invention;

FIG. 5 is a schematic view of a first feeding mechanism according to the present invention;

FIG. 6 is a schematic diagram of an adjustable glue mechanism of the present invention;

FIG. 7 is a schematic view of a profiling mechanism of the present invention;

FIG. 8 is a schematic view of an edge covering mechanism according to the present invention;

FIG. 9 is a schematic view of a lateral work mount and a vertical work mount of the present invention;

FIG. 10 is a schematic view of a load-bearing clamping mechanism according to the present invention;

FIG. 11 is a schematic diagram of a mass detection mechanism of the present invention;

fig. 12 is a schematic view of the top transport mechanism of the present invention.

In the figure: 100. a lifting transport mechanism; 200. a first feeding mechanism; 300. a second feeding mechanism; 400. a third feeding mechanism; 500. a profiling mechanism; 600. an edge covering mechanism; 700. a quality detection mechanism; 800. an adjustable glue mechanism; 900. a top transport mechanism; 950. a bottom transport mechanism; 2220. a manual work position; 1220. a load bearing clamping mechanism; 101. a first motor; 102. lifting the mounting frame; 103. a first connection frame; 104. jacking a hydraulic cylinder; 105. a first limiting plate; 106. jacking up the sensor; 107. conveying a supporting frame; 108. a limit cylinder; 109. a limit component; 110. a first conveying roller; 111. a drive belt; 112. a first drive belt; 113. a first side auxiliary movement bar; 114. an external mounting rack; 201. a deflection conveying installation frame; 202. a first mounting plate; 203. a second motor; 204. an annular driving bar; 205. a first connection block; 206. a first slide rail; 207. a second slide rail; 208. an adsorption cylinder; 209. the two sides are connected with the sliding blocks; 501. profiling supporting frames; 502. profiling mounting frames; 503. a first jacking cylinder; 504. a first lifting guide rail; 505. profiling mounting plates; 506. a contoured plate; 507. a first buffer spring; 508. a buffer telescopic rod; 601. edge-covering mounting rack; 602. a binding mounting plate; 603. a transverse work mounting rack; 604. a first cylinder; 605. a transverse pressing bar; 606. a second buffer spring; 607. a vertical work mounting rack; 608. a second cylinder; 609. vertical pressing blocks; 610. vertical pressing strips; 701. quality inspection mounting frame; 702. a transversely moving mounting plate; 703. a third cylinder; 704. a vertically moving mounting plate; 705. a third motor; 706. a visual detector; 707. a defective alarm; 801. a gluing support frame; 802. gluing the mounting frame; 803. a fourth motor; 804. rotating the mounting plate; 805. a connecting rod; 806. a fourth cylinder; 807. adjusting the mounting block; 808. a fifth cylinder; 809. a glue spreading head; 901. a top transport motor; 902. an intermediate transport roller; 903. a second side auxiliary movement bar; 904. a double-layer support frame; 905. a transport mount; 951. a bottom transport motor; 1201. a follower plate; 1202. a clamping plate; 1203. a sixth cylinder; 1204. and a motion auxiliary bearing.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1:

referring to fig. 1-12, an air cleaner cartridge production line comprises a horizontal transport device, wherein the horizontal transport device comprises a top transport mechanism 900, a double-layer support frame 904 and a bottom transport mechanism 950, the top transport mechanism 900 and the bottom transport mechanism 950 are both arranged on the double-layer support frame 904, the top transport mechanism 900 is positioned above the bottom transport mechanism 950, and the top transport mechanism 900 is used for product transport of the whole processing production line;

the feeding station comprises a first feeding mechanism 200, a second feeding mechanism 300 and a third feeding mechanism 400, wherein the first feeding mechanism 200 is used for feeding paper frames, the second feeding mechanism 300 is used for feeding activated carbon nets, the third feeding mechanism 400 is used for feeding filter cotton grids, the first feeding mechanism 200, the second feeding mechanism 300 and the third feeding mechanism 400 are arranged on one side of the top conveying mechanism 900, the first feeding mechanism 200 is arranged at one end of the second feeding mechanism 300, the third feeding mechanism 400 is arranged at one end, far away from the first feeding mechanism 200, of the second feeding mechanism 300, the feeding station is a U-shaped feeding station, objects on one side of the U shape can be accurately placed at the other end, circulation is formed, and feeding efficiency is improved;

Three manual work positions 2220, wherein the three manual work positions 2220 are all arranged on one side of the top transport mechanism 900, which is close to the first feeding mechanism 200, the three manual work positions 2220 are respectively arranged on one side of the first feeding mechanism 200, the second feeding mechanism 300 and the third feeding mechanism 400, and are respectively positioned below the first feeding mechanism 200, the second feeding mechanism 300 and the third feeding mechanism 400, and when in operation, the three manual work positions 2220 positioned on one side are all finished by one person;

the adjustable gluing mechanism 800 is arranged on one side of the top conveying mechanism 900 away from the first feeding mechanism 200 and between the first feeding mechanism 200 and the second feeding mechanism 300, and the adjustable gluing mechanism 800 is used for gluing the inside of the paper frame;

the profiling mechanism 500 is arranged on one side of the top conveying mechanism 900 close to the third feeding mechanism 400 and is positioned at one end of the third feeding mechanism 400 far away from the second feeding mechanism 300, and the profiling mechanism 500 is used for profiling paper frames;

the edge covering mechanism 600 is arranged on one side of the top conveying mechanism 900 away from the profiling mechanism 500 and is positioned at one end of the profiling mechanism 500 away from the third feeding mechanism 400, and the edge covering mechanism 600 is used for profiling and edge covering four sides of a paper frame;

The quality detection mechanism 700, the quality detection mechanism 700 is arranged at one side of the top transport mechanism 900 close to the profiling mechanism 500 and is positioned at one end of the edge covering mechanism 600 away from the profiling mechanism 500, and the quality detection mechanism 700 is used for detecting the quality of the processed product;

the bearing clamping mechanism 1220, the bearing clamping mechanism 1220 is arranged at the top of the top conveying mechanism 900 and moves along with the movement of the top conveying mechanism 900, and the bearing clamping mechanism 1220 is used for conveying the bearing processed product;

the vertical transportation device comprises two lifting transportation mechanisms 100, wherein the two lifting transportation mechanisms 100 are respectively arranged at the front end and the rear end of the top transportation mechanism 900 and the bottom transportation mechanism 950, and the lifting transportation mechanisms 100 are used for carrying out lifting conveying and descending conveying work on the bearing clamping mechanisms 1220;

referring to fig. 1 and 12, bottoms of a top transport mechanism 900 and a bottom transport mechanism 950 are fixedly connected through a plurality of double-layer supporting frames 904, the top transport mechanism 900 comprises a plurality of middle transport rollers 902, two second side auxiliary moving strips 903 and two transport mounting frames 905, the two transport mounting frames 905 are respectively fixed on two sides of the tops of the plurality of double-layer supporting frames 904, the plurality of middle transport rollers 902 are rotatably connected between the two transport mounting frames 905, the outer sides of one sides of the plurality of middle transport rollers 902 are connected through a first transmission connecting strip, the tops of the two transport mounting frames 905 close to each other are fixedly connected with the second side auxiliary moving strips 903, the bottom of one transport mounting frame 905 is fixedly connected with a top transport motor 901, the output end of the top transport motor 901 is connected with the two middle transport rollers 902 through a second transmission chain, the top transport motor 901 is used for providing power for the movement of the plurality of middle transport rollers 902, when in operation, the top transport motor 901 and the bottom transport motor 951 are simultaneously started, and the top transport motor 901 drives the plurality of middle transport rollers 902 to simultaneously rotate through the first transmission chain and the second transmission chain 1220, so that in the processing and carrying the clamping mechanism are carried out in a processing process;

The bottom transportation mechanism 950 is fixed at the bottom of the double-layer support frame 904, a bottom transportation motor 951 is arranged at the bottom of the bottom transportation mechanism 950, the bottom transportation motor 951 is used for providing power for the operation of the bottom transportation mechanism 950, the bottom transportation motor 951 drives the bottom transportation mechanism 950 to operate, so that the transportation direction of the bottom transportation mechanism 950 is opposite to that of the top transportation mechanism 900, in the process of transporting the bearing clamping mechanism 1220, the second side auxiliary movement strip 903 is always in contact with two sides of the bearing clamping mechanism 1220 so as to carry out auxiliary movement, and meanwhile, the two ends of the second side auxiliary movement strip 903 are obliquely arranged, so that the process of entering the top transportation mechanism 900 from the lifting transportation mechanism 100 is smoother, and the situation that the bearing clamping mechanism 1220 is blocked when entering the top transportation mechanism 900 or the top of the bottom transportation mechanism 950 from the lifting transportation mechanism 100 is effectively reduced;

referring to fig. 5, the first feeding mechanism 200, the second feeding mechanism 300 and the third feeding mechanism 400 each comprise a displacement conveying mechanism, each displacement conveying mechanism comprises a displacement conveying installation frame 201, the displacement conveying installation frame 201 is fixed at the top of one conveying installation frame 905, the top of one end of the displacement conveying installation frame 201 is fixedly connected with a first mounting plate 202, one end of the first mounting plate 202 is provided with a U-shaped guide groove, the inner side of the U-shaped guide groove is slidingly connected with a first connecting block 205, the first connecting block 205 is close to the outer side of one end of the first mounting plate 202 and is positioned between the first mounting plate 202 and the first connecting block 205 and is slidingly connected with an annular driving bar 204, the bottom of the first connecting block 205 is fixedly connected with a first sliding rail 206, the bottom of the first sliding rail 206 is fixedly connected with an adsorption cylinder 208, two sides of the bottom of the adsorption cylinder 208 are provided with suction nozzles, the bottom of the first mounting plate 202 near one end of the first connecting block 205 is fixedly connected with a second sliding rail 207, the outer side of the second sliding rail 207 is slidingly connected with a double-sided connecting sliding block 209, the first sliding rail 206 is positioned on the inner side of the double-sided connecting sliding block 209 and is slidingly connected with the double-sided connecting sliding block 209, the double-sided connecting sliding block 209 is positioned between the second sliding rail 207 and the first sliding rail 206, one end of the first mounting plate 202 far away from the first sliding rail 206 is fixedly connected with a second motor 203, the output end of the second motor 203 penetrates through the first mounting plate 202 and is fixedly connected with the bottom of the annular driving bar 204, when in operation, the second motor 203 is started to drive the annular driving bar 204 to rotate, the annular driving bar 204 is driven to drive the first connecting block 205 to move, the first sliding rail 206 is driven to move, the adsorption cylinder 208 is driven to move to the upper part of a manual work position 2220 on one side of the first feeding mechanism 200, the paper frame positioned at the top is sucked, then the second motor 203 drives the annular driving bar 204 to rotate reversely, so that the adsorption cylinder 208 moves to the top of the bearing and clamping mechanism 1220 at the top of the top conveying mechanism 900, the adsorption cylinder 208 loosens the paper frame, in the process, the U-shaped groove plays a role in guiding the movement of the adsorption cylinder 208 through the first connecting block 205 and the first sliding rail 206, the double-sided connecting sliding block 209 plays a role in guiding the movement of the adsorption cylinder 208 through the first sliding rail 206, and the second sliding rail 207 plays a role in guiding the double-sided connecting sliding block 209;

Referring to fig. 6, the adjustable gluing mechanism 800 includes a gluing support frame 801, a gluing mounting frame 802 is fixedly connected to the top of the gluing support frame 801, a fourth motor 803 is fixedly connected to the top of the gluing mounting frame 802, an output end of the fourth motor 803 penetrates through the gluing mounting frame 802 and is fixedly connected with a rotary mounting plate 804, the rotary mounting plate 804 is positioned in the middle of the top conveying mechanism 900, two sides of the bottom of the rotary mounting plate 804 are respectively connected with a connecting rod 805 in a threaded manner, one side, away from each other, of the two connecting rods 805 is respectively fixedly connected with a fourth air cylinder 806, output ends of the two fourth air cylinders 806 respectively penetrate through the connecting rods 805 positioned on the same side and are respectively fixedly connected with an adjusting mounting block 807, inner sides of the two adjusting mounting blocks 807 respectively are respectively fixedly connected with a fifth air cylinder 808, output ends of the two fifth air cylinders 808 respectively are respectively connected with a gluing head 809, the distance between the two fourth air cylinders 806 can be adjusted by rotating the connecting rod 805, when the fourth air cylinders 806 are started, the adjusting installation blocks 807 can be driven to rotate, so that the inclination angle of the adjusting installation blocks 807 is adjusted, when the device works, the fourth motor 803 is started, the rotating installation plates 804 are driven to rotate, the rotating installation plates 804 drive the two gluing heads 809 to rotate, and then glue the inside of the paper frame, in the process, the fourth air cylinders 806 drive the adjusting installation blocks 807 to rotate, and then drive the fifth air cylinders 808 to rotate, and further the fifth air cylinders 808 drive the gluing heads 809 to rotate, and meanwhile, the fifth air cylinders 808 are started to drive the gluing heads 809 to perform adaptive telescopic movement, so that the distance between the two gluing heads 809 gradually becomes larger in the gluing process, and the inside of the paper frame is evenly glued;

Referring to fig. 7, a profiling mechanism 500 includes a profiling support frame 501, a profiling installation frame 502 is fixedly connected to the top of the profiling support frame 501, a first jacking air cylinder 503 is fixedly connected to the top of the profiling installation frame 502, an output end of the first jacking air cylinder 503 penetrates through the profiling installation frame 502 and is fixedly connected with a profiling installation plate 505, four first jacking guide rails 504 are uniformly distributed on the top of the profiling installation plate 505 and are fixedly connected with the top of the profiling installation plate 505, a plurality of buffer telescopic rods 508 are fixedly connected to the bottom of the profiling installation plate 505, a profiled plate 506 is fixedly connected to the bottom of the plurality of buffer telescopic rods 508, first buffer springs 507 are uniformly connected to the outer sides of the plurality of buffer telescopic rods 508 in a sliding manner, the tops of the plurality of first buffer springs 507 are uniformly connected with the profiling installation plate 505, the bottoms of the plurality of first buffer springs 507 are uniformly connected with the profiled plate 506, when the profiling installation plate 505 drives the profiling installation plate 506 to move downwards and is contacted with a paper frame to be pressed, the top of the profiled plate 506 moves upwards by a small section, so that the profiled plate 506 performs a small section of displacement, the profiled plate 506 performs a buffering motion, and generates a buffer telescopic motion in the process of the first buffer telescopic rods 506 and generates a buffer compression elastic force in the compression process by the compression process of the profiled plate 506, and generates a buffer elastic force in the compression process of the buffer telescopic rods 506 when the buffer telescopic rods do not generates a compression elastic force in the compression process by the profiled frame;

Referring to fig. 8-9, the binding mechanism 600 includes a binding mounting frame 601, a binding mounting plate 602 is fixedly connected to the bottom of the binding mounting frame 601, the binding mounting plate 602 is located in the middle of the top transport mechanism 900, two ends and two sides of the bottom of the binding mounting plate 602 are respectively provided with a transverse pressure component and a vertical pressure component, the transverse pressure component includes a transverse working mounting frame 603, a first cylinder 604 and a transverse pressing strip 605, two ends and two sides of the bottom of the binding mounting plate 602 are respectively fixedly connected with the transverse working mounting frame 603, the bottom of the transverse working mounting frame 603 is respectively fixedly connected with the first cylinder 604, and the output end of the first cylinder 604 penetrates through the transverse working mounting frame 603 located at the top of the first cylinder and is fixedly connected with the transverse pressing strip 605, and the transverse pressing strip 605 is in sliding connection with the transverse working mounting frame 603; the vertical pressure assembly comprises a second buffer spring 606, a vertical working installation frame 607, a second air cylinder 608, a vertical pressing block 609 and a vertical pressing strip 610, wherein the two ends and two sides of the bottom of the edge covering installation plate 602 are fixedly connected with the vertical working installation frame 607, the inner side of the vertical working installation frame 607 is fixedly connected with the second air cylinder 608, the output end of the second air cylinder 608 is fixedly connected with the vertical pressing block 609, the vertical pressing block 609 is in sliding connection with the vertical working installation frame 607, the bottom of the vertical pressing block 609 is fixedly connected with the second buffer spring 606, the bottom of the second buffer spring 606 is fixedly connected with a vertical pressing strip 610, the vertical pressing strip 610 is in sliding connection with the second air cylinder 608, the second air cylinder 608 drives the second buffer spring 606 to move downwards through the vertical pressing block 609 during operation, so that the vertical pressing strip 610 is driven to move downwards, the vertical pressing strip 610 can receive the reaction force of a paper frame when contacting the top of the paper frame, and the vertical pressing strip 610 transmits the force to the second buffer spring 606 to compress the paper frame, so that the reaction force received by the vertical pressing strip 610 can be unloaded and buffered, and the paper frame can be protected;

Referring to fig. 11, a quality inspection mechanism 700 includes a quality inspection mounting frame 701, one end of the quality inspection mounting frame 701 is fixedly connected with a third motor 705, the outside of the top of the quality inspection mounting frame 701 is slidably connected with a transverse movement mounting plate 702, the top of the transverse movement mounting plate 702 is fixedly connected with a third cylinder 703, the output end of the third cylinder 703 is fixedly connected with a vertical movement mounting plate 704, the vertical movement mounting plate 704 is slidably connected with the transverse movement mounting plate 702, one side of the vertical movement mounting plate 704 and the middle of the top transportation mechanism 900 are provided with a plurality of visual detectors 706, one end of the top of the quality inspection mounting frame 701 is fixedly connected with a defective product alarm 707, the visual detectors 706 detect processed paper frames, qualified defective product alarms 707 can give out qualified alarm sounds, workers near the quality inspection mechanism 700 take out qualified products from the top transportation mechanism 900, the unqualified product alarms 707 can give out unqualified alarm sounds, the third motor 705 provides power for the movement of the transverse movement mounting plate 702, the transverse movement mounting plate 702 can move horizontally along the inspection mounting frame 701, thus the visual detectors 706 are driven to move horizontally, and the vertical movement of the air cylinder 706 is driven to move vertically and move vertically, thereby the quality inspection mounting frame is driven to move vertically and move vertically 706;

Referring to fig. 10, the carrying and clamping mechanism 1220 includes a follower plate 1201, clamping plates 1202, a sixth cylinder 1203 and a motion auxiliary bearing 1204, wherein both ends of the bottom of the follower plate 1201 are fixedly connected with the sixth cylinder 1203, both ends of the top of the follower plate 1201 are slidably connected with the clamping plates 1202, the bottoms of the two clamping plates 1202 penetrate through the follower plate 1201 and are respectively fixedly connected with the output ends of the sixth cylinder 1203 at the same end, the four corners of the bottom of the follower plate 1201 are respectively and rotatably connected with the motion auxiliary bearing 1204, and when the carrying and clamping mechanism 1220 moves, the motion auxiliary bearing 1204 is always in contact with the inner wall of the second side auxiliary motion strip 903, so as to assist in carrying the motion of the clamping mechanism 1220;

referring to fig. 2-4, the lifting transport mechanism 100 includes a first driving belt 112 and an outer mounting frame 114, one side of the outer mounting frame 114 is slidably connected with a lifting mounting frame 102, two sides of the bottom of the lifting mounting frame 102 are fixedly connected with a conveying support frame 107, the tops of two sides of the two conveying support frames 107, which are close to each other, are fixedly connected with a first side auxiliary movement bar 113, one side of the two conveying support frames 107, which is close to each other, is located in the same vertical plane with one side of the two conveying mounting frames 905, which is located on the same side, a plurality of first conveying rollers 110 are rotatably connected between the two conveying support frames 107, the outer sides of one sides of the plurality of first conveying rollers 110 are connected through the first driving belt 112, one end of the bottom of the lifting mounting frame 102, which is far away from the conveying mounting frame 905, is fixedly connected with a first limiting plate 105, the bottom of the lifting mounting frame 102 is fixedly connected with a first motor 101, the output end of the first motor 101 is connected with a driving belt 111, the driving belt 111 is connected with one side of two first conveying rollers 110, one end of the bottom of the lifting installation frame 102, which is far away from the first limiting plate 105, is fixedly connected with a limiting cylinder 108, the output end of the limiting cylinder 108 is connected with a limiting assembly 109, when the bearing clamping mechanism 1220 moves between the two first side auxiliary moving strips 113 and contacts the first limiting plate 105, the limiting cylinder 108 is started to drive the limiting assembly 109 to rise so as to limit the bearing clamping mechanism 1220, when the lifting installation frame 102 moves to a required position, the limiting cylinder 108 is started to drive the limiting assembly 109 to descend, the limiting of the bearing clamping mechanism 1220 is canceled, then the first motor 101 is started to drive the plurality of first conveying rollers 110 to rotate through the driving belt 111 and the first driving belt 112, thereby transporting the load-bearing clamping mechanism 1220;

Referring to fig. 2-4, the lifting transport mechanism 100 further includes a lifting hydraulic cylinder 104, the bottom of the outer mounting frame 114 near one side of the lifting mounting frame 102 is fixedly connected with the lifting hydraulic cylinder 104, the output end of the lifting hydraulic cylinder 104 is fixedly connected with a first connecting frame 103, the first connecting frame 103 is fixedly connected with the lifting mounting frame 102, two ends of the outer mounting frame 114 near one side middle of the lifting mounting frame 102 are fixedly connected with lifting sensors 106, two ends of the top of the lifting mounting frame 102 are provided with induction plates, the lifting hydraulic cylinder 104 is started, the lifting mounting frame 102 can be driven to move through the first connecting frame 103, so that the bearing clamping mechanism 1220 is driven to perform lifting motion, when the induction plates at the top of the lifting mounting frame 102 contact the bottom of the lifting sensors 106, the lifting sensors 106 generate electric signals to send out commands, and the lifting hydraulic cylinder 104 stops.

From the above, it can be seen that:

the implementation process of the technical scheme is as follows:

during processing, a worker near the first feeding mechanism 200 puts a paper frame above a manual work position 2220 on one side of the first feeding mechanism 200, then the second motor 203 is started to drive the annular driving strip 204 to rotate, so that the annular driving strip 204 drives the first connecting block 205 to move, and then drives the first sliding rail 206 to move, and further drives the adsorption cylinder 208 to move, the adsorption cylinder 208 moves above the manual work position 2220 on one side of the first feeding mechanism 200 to suck the paper frame on the topmost part, then the second motor 203 drives the annular driving strip 204 to rotate reversely, so that the adsorption cylinder 208 moves to the top of the bearing and clamping mechanism 1220 on the top of the top conveying mechanism 900, and the adsorption cylinder 208 loosens the paper frame;

In this process, the two sixth cylinders 1203 are started, the output ends of the sixth cylinders 1203 drive the clamping plates 1202 to move in the direction away from each other, when the paper frame is placed on top of the follower plate 1201, the output ends of the two sixth cylinders 1203 drive the two clamping plates 1202 to move in the direction close to each other, then clamp the paper frame, and finally the adsorption cylinder 208 releases the paper frame;

then, the top conveying mechanism 900 continues to drive the bearing clamping mechanism 1220 to move, when the bearing clamping mechanism 1220 moves below the adjustable gluing mechanism 800, the fourth motor 803 is started to drive the rotary mounting plate 804 to rotate, the rotary mounting plate 804 drives the two gluing heads 809 to rotate so as to glue the inside of the paper frame, in the process, the fourth cylinder 806 drives the adjusting mounting block 807 to rotate so as to drive the fifth cylinder 808 to rotate, the fifth cylinder 808 drives the gluing heads 809 to rotate, and meanwhile, the fifth cylinder 808 is started to drive the gluing heads 809 to perform adaptive telescopic movement, so that the distance between the two gluing heads 809 gradually increases in the gluing process, and the inside of the paper frame is evenly glued;

after the gluing is finished, the top conveying mechanism 900 continues to drive the bearing clamping mechanism 1220 to move, when the bearing clamping mechanism 1220 moves below the second feeding mechanism 300, the second feeding mechanism 300 is used for placing the activated carbon net into the paper frame at the top of the 1-position-shifting conveying installation frame 201, then the top conveying mechanism 900 continues to drive the bearing clamping mechanism 1220 to move, when the bearing clamping mechanism 1220 moves below the third feeding mechanism 400, the movement is stopped, and the third feeding mechanism 400 is used for placing the filter cotton grids into the paper frame; then the top conveying mechanism 900 continues to drive the bearing and clamping mechanism 1220 to move, and when the bearing and clamping mechanism 1220 moves below the profiling mechanism 500, the first jacking air cylinder 503 is started to drive the profiling mounting plate 505 to move downwards, and further drive the profiling plate 506 to move downwards, so that the paper frame added with the filter cotton lattice and the activated carbon net is profiled;

After the profiling is finished, the top conveying mechanism 900 continues to drive the bearing clamping mechanism 1220 to move, and when the bearing clamping mechanism 1220 moves below the edge covering mechanism 600, the second air cylinder 608 and the first air cylinder 604 are started, the first air cylinder 604 drives the four transverse pressing strips 605 to move towards the directions close to each other, so that the four sides of the paper frame are profiled, the second air cylinder 608 drives the vertical pressing strips 609 to move downwards, and further drives the vertical pressing strips 610 to move downwards, so that the two ends and two sides of the top of the paper frame are compacted;

after the edge covering mechanism 600 works, the top conveying mechanism 900 continues to drive the bearing clamping mechanism 1220 to move, when the bearing clamping mechanism 1220 moves below the quality detecting mechanism 700, the movement is stopped, the processed paper frame is detected through the visual detector 706, the qualified alarm 707 can sound a qualified alarm, a worker near the quality detecting mechanism 700 takes the qualified product out of the top conveying mechanism 900, the unqualified alarm 707 can sound a unqualified alarm, and the defective product continues to enter the next cycle.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The production line of the air filter element is characterized by comprising a horizontal conveying device, wherein the horizontal conveying device comprises a top conveying mechanism (900), a double-layer supporting frame (904) and a bottom conveying mechanism (950), the top conveying mechanism (900) and the bottom conveying mechanism (950) are arranged on the double-layer supporting frame (904), and the top conveying mechanism (900) is positioned above the bottom conveying mechanism (950);

the feeding station comprises a first feeding mechanism (200), a second feeding mechanism (300) and a third feeding mechanism (400), wherein the first feeding mechanism (200) is used for feeding paper frames, the second feeding mechanism (300) is used for feeding activated carbon nets, the third feeding mechanism (400) is used for feeding filter cotton grids, the first feeding mechanism (200), the second feeding mechanism (300) and the third feeding mechanism (400) are all arranged on one side of the top conveying mechanism (900), the first feeding mechanism (200) is arranged at one end of the second feeding mechanism (300), and the third feeding mechanism (400) is arranged at one end, far away from the first feeding mechanism (200), of the second feeding mechanism (300).

Three manual work positions (2220), wherein the three manual work positions (2220) are all arranged on one side, close to the first feeding mechanism (200), of the top conveying mechanism (900), and the three manual work positions (2220) are respectively arranged on one sides of the first feeding mechanism (200), the second feeding mechanism (300) and the third feeding mechanism (400) and are respectively positioned below the first feeding mechanism (200), the second feeding mechanism (300) and the third feeding mechanism (400);

The adjustable gluing mechanism (800) is arranged on one side, far away from the first feeding mechanism (200), of the top conveying mechanism (900) and is positioned between the first feeding mechanism (200) and the second feeding mechanism (300), and the adjustable gluing mechanism (800) is used for gluing the inside of the paper frame;

the profiling mechanism (500) is arranged on one side, close to the third feeding mechanism (400), of the top conveying mechanism (900) and is positioned at one end, far away from the second feeding mechanism (300), of the third feeding mechanism (400);

the edge covering mechanism (600) is arranged on one side, far away from the profiling mechanism (500), of the top conveying mechanism (900) and is positioned at one end, far away from the third feeding mechanism (400), of the profiling mechanism (500);

the quality detection mechanism (700) is arranged on one side of the top conveying mechanism (900) close to the profiling mechanism (500) and is positioned at one end of the edge covering mechanism (600) away from the profiling mechanism (500);

a load bearing clamp mechanism (1220), the load bearing clamp mechanism (1220) being disposed atop the top transport mechanism (900) and moving with movement of the top transport mechanism (900);

The vertical conveying device comprises two lifting conveying mechanisms (100), wherein the two lifting conveying mechanisms (100) are respectively arranged at the front end and the rear end of the top conveying mechanism (900) and the front end and the rear end of the bottom conveying mechanism (950).

2. An air cleaner cartridge production line according to claim 1, wherein the top transport mechanism (900) and the bottom of the bottom transport mechanism (950) are fixedly connected through a plurality of double-layer supporting frames (904), the top transport mechanism (900) comprises a plurality of middle transport rollers (902), two second side auxiliary movement bars (903) and two transport mounting frames (905), the two transport mounting frames (905) are respectively fixed on two sides of the tops of the plurality of double-layer supporting frames (904), a plurality of middle transport rollers (902) are rotatably connected between the two transport mounting frames (905), the outer sides of one side of the plurality of middle transport rollers (902) are connected through a first transmission connecting bar, the tops of the two transport mounting frames (905) close to each other are fixedly connected with a second side auxiliary movement bar (903), the bottom of one transport mounting frame (905) is fixedly connected with a top transport motor (901), the output end of the top transport motor (901) is connected with the two middle transport rollers (902) through a second transmission chain, and the top transport motor (901) is used for providing power for the movement of the plurality of middle transport rollers (902);

The bottom transport mechanism (950) is fixed at the bottom of the double-layer support frame (904), a bottom transport motor (951) is arranged at the bottom of the bottom transport mechanism (950), and the bottom transport motor (951) is used for providing power for the operation of the bottom transport mechanism (950).

3. The air cleaner filter element production line according to claim 2, wherein the first feeding mechanism (200), the second feeding mechanism (300) and the third feeding mechanism (400) comprise displacement conveying mechanisms, the displacement conveying mechanisms comprise displacement conveying installation frames (201), the displacement conveying installation frames (201) are fixed at the top of one conveying installation frame (905), a first installation plate (202) is fixedly connected to the top of one end of each displacement conveying installation frame (201), a U-shaped guide groove is formed in one end of each first installation plate (202), a first connecting block (205) is connected to the inner side of each U-shaped guide groove in a sliding mode, the first connecting block (205) is close to the outer side of one end of each first installation plate (202) and is located between each first installation plate (202) and each first connecting block (205) in a sliding mode, a first sliding rail (206) is fixedly connected to the bottom of each first connecting block (205), a first air cylinder (208) is fixedly connected to the bottom of each first connecting block (207), a first suction nozzle (209) is connected to the bottom of each first connecting block (205), the first sliding rail (206) is located the inboard of two-sided connection slider (209) and with two-sided connection slider (209) sliding connection, two-sided connection slider (209) are located second sliding rail (207) with between first sliding rail (206), first mounting panel (202) are kept away from one end fixedly connected with second motor (203) of first sliding rail (206), the output of second motor (203) runs through first mounting panel (202) and with the bottom fixed connection of annular drive strip (204).

4. The air cleaner filter element production line according to claim 1, wherein the adjustable gluing mechanism (800) comprises a gluing support frame (801), a gluing installation frame (802) is fixedly connected to the top of the gluing support frame (801), a fourth motor (803) is fixedly connected to the top of the gluing installation frame (802), an output end of the fourth motor (803) penetrates through the gluing installation frame (802) and is fixedly connected with a rotary installation plate (804), the rotary installation plate (804) is located in the middle of the top conveying mechanism (900), connecting rods (805) are connected to two sides of the bottom of the rotary installation plate (804) in a threaded mode, a fourth air cylinder (806) is fixedly connected to one side, away from each other, output ends of the two fourth air cylinders (806) penetrate through the connecting rods (805) located on the same side, and are fixedly connected with adjusting installation blocks (807), fifth air cylinders (808) are fixedly connected to the inner sides of the two adjusting installation blocks (807), and gluing heads (809) are connected to the output ends of the two fifth air cylinders (808).

5. The air cleaner filter element production line according to claim 1, wherein the profiling mechanism (500) comprises a profiling support frame (501), a profiling installation frame (502) is fixedly connected to the top of the profiling support frame (501), a first jacking cylinder (503) is fixedly connected to the top of the profiling installation frame (502), an output end of the first jacking cylinder (503) penetrates through a profiling installation plate (505) is fixedly connected to the profiling installation frame (502), four first jacking guide rails (504) are uniformly distributed on the top of the profiling installation plate (505), the tops of the four first jacking guide rails (504) penetrate through the profiling installation frame (502) and are in sliding connection with the profiling installation frame (502), a plurality of buffer telescopic rods (508) are fixedly connected to the bottom of the profiling installation plate (505), a plurality of buffer telescopic rods (508) are uniformly and slidingly connected with first buffer springs (507), and a plurality of first buffer springs (507) are uniformly connected to the bottom of the profiling installation plate (505).

6. The air cleaner filter element production line according to claim 1, wherein the edge covering mechanism (600) comprises an edge covering mounting frame (601), an edge covering mounting plate (602) is fixedly connected to the bottom of the edge covering mounting frame (601), the edge covering mounting plate (602) is located in the middle of the top conveying mechanism (900), transverse pressure components and vertical pressure components are mounted on two ends and two sides of the bottom of the edge covering mounting plate (602), the transverse pressure components comprise a transverse working mounting frame (603), first air cylinders (604) and transverse pressing strips (605), the transverse working mounting frame (603) is fixedly connected to two ends and two sides of the bottom of the edge covering mounting plate (602), the first air cylinders (604) are fixedly connected to the bottom of the transverse working mounting frame (603), the output ends of the first air cylinders (604) penetrate through the transverse working mounting frame (603) located at the top of the first air cylinders and are fixedly connected with the transverse pressing strips (605), and the transverse pressing strips (605) are in sliding connection with the transverse working mounting frame (603); the vertical pressure component comprises a second buffer spring (606), a vertical work mounting frame (607), a second air cylinder (608), a vertical pressing block (609) and a vertical pressing strip (610), wherein the two ends and two sides of the bottom of the edge-covering mounting plate (602) are fixedly connected with the vertical work mounting frame (607), the second air cylinder (608) is fixedly connected with the inner side of the vertical work mounting frame (607), the output end of the second air cylinder (608) is fixedly connected with the vertical pressing block (609), the vertical pressing block (609) is in sliding connection with the vertical work mounting frame (607), the bottom of the vertical pressing block (609) is fixedly connected with the second buffer spring (606), and the vertical pressing strip (610) is fixedly connected with the bottom of the second buffer spring (606) in sliding connection with the second air cylinder (608).

7. The air cleaner filter element production line according to claim 1, wherein the quality detection mechanism (700) comprises a quality inspection installation frame (701), one end of the quality inspection installation frame (701) is fixedly connected with a third motor (705), the outer side of the top of the quality inspection installation frame (701) is slidably connected with a transverse movement installation plate (702), the top of the transverse movement installation plate (702) is fixedly connected with a third air cylinder (703), the output end of the third air cylinder (703) is fixedly connected with a vertical movement installation plate (704), the vertical movement installation plate (704) is slidably connected with the transverse movement installation plate (702), one side of the vertical movement installation plate (704) and the middle part of the top transportation mechanism (900) are provided with a plurality of visual detectors (706), and one end of the top of the quality inspection installation frame (701) is fixedly connected with a defective alarm (707).

8. The air cleaner filter element production line according to claim 1, wherein the bearing clamping mechanism (1220) comprises a follow-up motion plate (1201), clamping plates (1202), a sixth air cylinder (1203) and a motion auxiliary bearing (1204), the six air cylinders (1203) are fixedly connected to two ends of the bottom of the follow-up motion plate (1201), the clamping plates (1202) are slidably connected to two ends of the top of the follow-up motion plate (1201), the bottoms of the two clamping plates (1202) penetrate through the follow-up motion plate (1201) and are fixedly connected with the output ends of the sixth air cylinders (1203) located at the same end respectively, and the motion auxiliary bearing (1204) is rotatably connected to four corners of the bottom of the follow-up motion plate (1201).

9. The air cleaner filter element production line according to claim 1, wherein the lifting and transporting mechanism (100) comprises a first transmission belt (112) and an outer mounting frame (114), one side of the outer mounting frame (114) is slidably connected with a lifting mounting frame (102), two sides of the bottom of the lifting mounting frame (102) are fixedly connected with a conveying support frame (107), the tops of two sides of the two conveying support frames (107) close to each other are fixedly connected with a first side auxiliary movement strip (113), one sides of the two conveying support frames (107) close to each other are respectively located in the same vertical plane with one sides of the two conveying support frames (905) close to each other, a plurality of first conveying rollers (110) are rotatably connected between the two conveying support frames (107), one sides of the plurality of first conveying rollers (110) are connected through the first transmission belt (112), one ends of the bottoms of the lifting mounting frame (102) far away from the conveying support frames (905) are fixedly connected with a first limiting plate (105), the bottoms of the lifting mounting frame (102) are fixedly connected with a first motor (101), the first ends of the first conveying support frame (101) are connected with the first conveying rollers (111), one end of the lifting installation frame (102) which is far away from the first limiting plate (105) is fixedly connected with a limiting cylinder (108), and the output end of the limiting cylinder (108) is connected with a limiting assembly (109).

10. The air cleaner filter element production line according to claim 9, wherein the lifting and transporting mechanism (100) further comprises a lifting hydraulic cylinder (104), the outer mounting frame (114) is close to the bottom of one side of the lifting mounting frame (102) and fixedly connected with the lifting hydraulic cylinder (104), the output end of the lifting hydraulic cylinder (104) is fixedly connected with a first connecting frame (103), the first connecting frame (103) is fixedly connected with the lifting mounting frame (102), the two ends of the outer mounting frame (114) close to the middle of one side of the lifting mounting frame (102) are fixedly connected with lifting sensors (106), and the two ends of the top of the lifting mounting frame (102) are provided with sensing pieces.

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