CN114014049A - Screen cloth machine and production process thereof - Google Patents

Abstract

The invention discloses a mesh fabric machine and a production process thereof, and the mesh fabric machine comprises a manipulator and a mesh fabric conveying device, wherein the mesh fabric conveying device is used for conveying mesh fabric to the position of the manipulator; the mesh conveying device comprises a mesh supporting mechanism for supporting the planar mesh into a cylindrical shape; the feeding mechanism is used for conveying the screen cloth to the screen supporting mechanism and then conveying the screen cloth and the screen supporting mechanism to the position of a manipulator; and the melt-cutting mechanism is arranged between the net supporting mechanism and the manipulator and is used for cutting off the strip-shaped net cloth. The net cloth strip is pulled to the support rod along the guide roller through the feeding mechanism, then the sheet net cloth is supported into a cylindrical shape by the net supporting mechanism, then the cylindrical net cloth is moved to the mechanical arm by the feeding mechanism, and finally the net cloth is cut into sections by the fusion cutting mechanism.

Description

Screen cloth machine and production process thereof

Technical Field

The invention relates to filter screen production equipment, in particular to a screen cloth machine and a production process thereof.

Background

The medical columnar filter screen comprises screen cloth and a plastic support, and the tubular screen cloth is placed in a mold core and is integrally injection-molded with the plastic support in the generation process.

At present, the production process in the market is to cut mesh strips into sections, then manually sleeve tubular mesh on a mechanical arm, and then send the mesh into a mold core by the mechanical arm to complete the integral injection molding with a plastic support. The mesh strip cutting machine is adopted for cutting and manually sleeving the mesh, so that the generation efficiency is low, and the cost is high.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a screen cloth machine for fully automatically placing screen cloth.

In order to achieve the purpose, the invention provides the following technical scheme:

the mesh cloth machine comprises a manipulator and a mesh cloth conveying device, wherein the mesh cloth conveying device is used for conveying mesh cloth to the position of the manipulator;

the mesh conveying device comprises

The net supporting mechanism is used for supporting the plane net cloth into a cylindrical shape;

the feeding mechanism is used for conveying the screen cloth to the screen supporting mechanism and then conveying the screen cloth and the screen supporting mechanism to the position of a manipulator;

and the melt-cutting mechanism is arranged between the net supporting mechanism and the manipulator and is used for cutting off the strip-shaped net cloth.

The invention is further configured to: the net supporting mechanism comprises a supporting rod, an outer pipe and a cylindrical magnetic seat, one end of the supporting rod is cylindrical, the other end of the supporting rod is flat or conical, and the magnetic seat is fixed in the outer pipe;

the magnetic support is characterized in that a first positioning magnetic ring and a second positioning magnetic ring are arranged on the support rod at intervals, a first suspension magnetic ring and a second suspension magnetic ring are arranged on the magnetic support at intervals, and the support rod is suspended in the magnetic support through mutual matching of the first positioning magnetic ring, the second positioning magnetic ring, the first suspension magnetic ring and the second suspension magnetic ring.

The invention is further configured to: feeding mechanism includes screen cloth centre gripping subassembly, screen cloth centre gripping subassembly includes interlock frame, punch holder and lower plate, the vaulting pole alternates between punch holder and lower plate, punch holder and lower plate are all through fixing the interlock cylinder drive on the interlock frame for the screen cloth of tight cover on the vaulting pole of clamp.

The invention is further configured to: feeding mechanism includes pay-off direction subassembly, pay-off direction subassembly includes material roller, relaxation frame, presses net support and a plurality of guide roll, and the net cloth strip of winding on the material roller draws to the vaulting pole along a plurality of guide roll on, the setting of relaxation frame near the material roller, and the screen cloth passes from the bottom of relaxation frame and pressure net support, it has the relaxation cylinder that is used for pushing down the screen cloth to install on the relaxation frame, press and install the pressure net cylinder that is used for pressing the fixed screen cloth on the net support.

The invention is further configured to: the feeding mechanism comprises a linear module, and the articulator is fixed on a sliding block in the linear module.

The invention is further configured to: the fusion cutting mechanism comprises a first bridge column, a second bridge column and a fusion cutting cylinder for driving the first bridge column and the second bridge column to ascend and descend, and an electric heating wire is connected between the first bridge column and the second bridge column.

The invention has the advantages that the mesh strip is pulled to the support rod along the guide roller by the feeding mechanism, then the sheet mesh is supported into a cylindrical shape by the mesh supporting mechanism, then the cylindrical mesh is mechanically moved to the mechanical arm by the feeding mechanism, and finally the mesh is cut into sections by the fusion cutting mechanism, so that the full-automatic operation is realized, the efficiency is high, and the production cost is also reduced.

Aiming at the defects in the prior art, the invention aims to provide a production process of an automatic feeding mesh cloth for fully automatically placing the mesh cloth, which is simple and convenient to operate and reduces the cost.

In order to achieve the purpose, the invention provides the following technical scheme:

a process for preparing the composite material of glass fibre,

during the first secondary production, manually drawing the mesh cloth strips on the material roller to the position of the support rod along the guide roller, and sleeving the flat or conical end of the mesh cloth strips on the support rod;

the net pressing cylinder compresses and fixes the net cloth, and after the net cloth is pressed by the relaxation cylinder to discharge the material roller, a piston rod of the net pressing cylinder and a piston rod of the relaxation cylinder contract together or one by one;

the upper plate and the lower plate are folded to drive the screen cloth to move towards the direction of the manipulator, the standby manipulator clamps the screen cloth, the fusion cutting motor pushes the first bridge column and the second bridge column to ascend, and the screen cloth strip is fused by the heating wire between the first bridge column and the second bridge column.

The invention is further configured to: the mechanical arm is provided with an inserted bar, and before the mesh on the support bar is moved to the inserted bar, the mechanical arm inserts one end of the inserted bar into the support bar.

The net cloth strip is pulled to the position of the support rod manually only at the beginning, and the net cloth strip is fused by the electric heating wire, so that the phenomenon that the thread head is clamped between the inserted rod and the support rod to influence the generation continuity is avoided.

Drawings

FIG. 1 is a general assembly view of the web machine of the present invention;

FIG. 2 is a schematic view of a net supporting mechanism;

FIG. 3 is a schematic view of a web clamping assembly;

FIG. 4 is a schematic view of a melt-cutting mechanism.

In the figure: 1. a stay bar; 2. a magnetic base; 3. a first positioning magnetic ring; 4. a second positioning magnetic ring; 5. a first suspension magnet ring; 6. a second suspension magnet ring; 7. an articulator; 8. an upper splint; 9. a lower splint; 10. an occlusion cylinder; 11. a material roller; 12. a relaxation frame; 13. a net pressing bracket; 14. a guide roller; 15. a relaxation cylinder; 16. a net pressing cylinder; 17. a linear module; 18. a first bridge post; 19. a second bridge post; 20. a melt cutting cylinder; 21. an electric heating wire; 22. a manipulator; 23. and (4) inserting the rod.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

It is noted that, unless otherwise indicated, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the present invention, unless stated to the contrary, the use of the terms "upper and lower" are generally used with respect to the orientation shown in the drawings, or with respect to the vertical, vertical or gravitational direction; likewise, for ease of understanding and description, "left and right" are generally to the left and right as shown in the drawings; "inner and outer" refer to the inner and outer relative to the profile of the respective member itself, but the above directional terms are not intended to limit the present invention.

According to fig. 1, a web machine comprises a robot 22 and further comprises a web transport device for transporting a web to the robot 22; the mesh conveying device comprises a mesh supporting mechanism, a feeding mechanism and a melt cutting mechanism. The feeding mechanism conveys the mesh strips to the mesh supporting mechanism, the flat mesh is supported into a cylindrical shape through the mesh supporting mechanism, then the feeding mechanism moves the mesh supporting mechanism to the position of the manipulator 22, and finally the mesh strips are cut into sections through the melt cutting mechanism. The full-automatic operation, the efficiency is improved, and the production cost is reduced.

As shown in fig. 2, the net supporting mechanism includes a supporting rod 1, an outer tube and a cylindrical magnetic base 2, one end of the supporting rod 1 is set to be cylindrical, the other end is set to be flat or conical, a first positioning magnetic ring 3 and a second positioning magnetic ring 4 are arranged on the supporting rod 1 at intervals, the magnetic base 2 is sleeved outside the supporting rod 1, a first suspension magnetic ring 5 and a second suspension magnetic ring 6 are arranged on the magnetic base 2 at intervals, the supporting rod 1 is suspended in the magnetic base 2 through the first positioning magnetic ring 3, the second positioning magnetic ring 4, the first suspension magnetic ring 5 and the second suspension magnetic ring 6 in a mutually matched manner, and a net cloth strip passes through a gap between the magnetic base 2 and the supporting rod 1. Prop the net mechanism and set up to a plurality ofly, a plurality of net mechanisms of propping are arranged into one and are listed as, prop a plurality of net cloth strips once, further improve work efficiency. The outer tube can adopt the slat to replace, has seted up a plurality of through-hole along its length direction on the slat, a plurality of magnetic support 2 install one by one in the through-hole can, when the one end of vaulting pole 1 sets up to the platykurtic, the cylindric circular arc transition of this end and the other end.

According to fig. 3, the feeding mechanism comprises a mesh clamping assembly and a linear module 17, the mesh clamping assembly comprises an articulator 7, an upper clamp plate 8 and a lower clamp plate 9, a support rod 1 penetrates between the upper clamp plate 8 and the lower clamp plate 9, and the upper clamp plate 8 and the lower clamp plate 9 are both driven by an occlusion cylinder 10 fixed on the articulator 7 and used for clamping mesh sleeved on the support rod 1. The occluding frame 7 is arranged in a square shape, the upper clamping plate 8 and the lower clamping plate 9 are both arranged on the inner side of the occluding frame 7, the structure is compact, and the assembly is convenient. The articulator 7 is fixed on the slider in the straight line module 17, moves the mesh clamping assembly to the manipulator 22 position through the straight line module 17.

Continuing to show in fig. 1, feeding mechanism includes the pay-off direction subassembly, and the pay-off direction subassembly includes material roller 11, relaxation frame 12, presses net support 13 and a plurality of guide roll 14, and the net cloth strip that twines on material roller 11 is drawn to vaulting pole 1 along a plurality of guide roll 14 on, and relaxation frame 12 is close to material roller 11 and sets up, and the net cloth passes from the bottom of relaxation frame 12 and pressure net support 13, installs the relaxation cylinder 15 that is used for pushing down the net cloth on the relaxation frame 12, presses to install the pressure net cylinder 16 that is used for pressing the fixed net cloth on the net support 13.

An upper finger clamp is installed on the upper clamping plate 8, a lower finger clamp is installed on the lower clamping plate 9, the upper finger clamp and the lower finger clamp are folded to be in contact with the mesh on the supporting rod 1, the mesh feeding motion is driven through friction force between the upper finger clamp, the lower finger clamp and the mesh, therefore, the mesh strip needs to be kept in a loose state, the loose state is completed through matching of the mesh pressing support 13 and the relaxation frame 12, the mesh pressing cylinder 16 on the mesh pressing support 13 presses and fixes the mesh strip, the relaxation cylinder 15 on the relaxation frame 12 presses the mesh downwards, in the process, the material roller 11 discharges materials, the strip between the material roller 11 and the mesh pressing support 13 is in a free falling state, and therefore the mesh feeding motion is driven by the upper finger clamp and the lower finger clamp, the mesh only receives resistance force formed by the self gravity of the mesh, and the resistance value is small.

According to fig. 4, the melt-cutting mechanism includes a first bridge column 18, a second bridge column 19 and a melt-cutting cylinder 20 for driving the first bridge column 18 and the second bridge column 19 to ascend and descend, and an electric heating wire 21 is connected between the first bridge column 18 and the second bridge column 19. Cut off the screen cloth strip through heating wire 21, long-time the use, still can cut off the screen cloth strip fast, avoid like cutter permanent use back blunting phenomenon, moreover, avoid cutting off the position again and appear the end of a thread, the guarantee screen cloth incision is neat.

During the first secondary production, manually drawing the mesh strips on the material roller 11 to the position of the support rod 1 along the guide roller 14, and sleeving the flat or conical end of the mesh strip on the support rod 1; the net pressing cylinder 16 compresses and fixes the net cloth, and after the relaxation cylinder 15 presses the net cloth to discharge the material from the material roller 11, a piston rod of the net pressing cylinder 16 and a piston rod of the relaxation cylinder 15 contract together or one by one; the upper clamping plate 8 and the lower clamping plate 9 are folded to drive the mesh to move towards the manipulator 22, after the manipulator 22 clamps the mesh, the fusion cutting motor pushes the first bridge column 18 and the second bridge column 19 to ascend, and the mesh strip is fused by the heating wire 21 between the first bridge column 18 and the second bridge column 19. The insertion rod 23 is attached to the robot 22, and before the mesh cloth on the strut 1 is moved to the insertion rod 23, the precursor robot 22 inserts one end of the insertion rod 23 on the robot into the strut 1 so that the insertion rod 23 is coaxial with the strut 1.

The generation process is simple and convenient to operate, only the mesh strip needs to be manually pulled to the position of the support rod 1 at the beginning, and the mesh strip is fused by the heating wire 21, so that the phenomenon that the thread end is clamped between the inserted rod 23 and the support rod 1 to influence the generation continuity is avoided.

It is to be understood that the above-described embodiments are only a few, but not all, embodiments of the present invention. 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.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise, and it should be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. The utility model provides a screen cloth machine, includes manipulator (22), characterized by: the device also comprises a mesh conveying device which is used for conveying the mesh to the position of the mechanical arm (22);

the mesh conveying device comprises

The net supporting mechanism is used for supporting the plane net cloth into a cylindrical shape;

the feeding mechanism is used for conveying the screen cloth to the screen supporting mechanism and then conveying the screen cloth and the screen supporting mechanism to the position of the manipulator (22);

and the melt-cutting mechanism is arranged between the net supporting mechanism and the manipulator (22) and is used for cutting the strip-shaped net cloth.

2. The web machine of claim 1, wherein: the net supporting mechanism comprises a supporting rod (1), an outer pipe and a cylindrical magnetic seat (2), one end of the supporting rod (1) is cylindrical, the other end of the supporting rod is flat or conical, and the magnetic seat (2) is fixed in the outer pipe;

the magnetic suspension support is characterized in that a first positioning magnetic ring (3) and a second positioning magnetic ring (4) are arranged on the support rod (1) at intervals, a first suspension magnetic ring (5) and a second suspension magnetic ring (6) are arranged on the magnetic base (2) at intervals, and the support rod (1) is mutually matched and suspended in the magnetic base (2) through the first positioning magnetic ring (3), the second positioning magnetic ring (4), the first suspension magnetic ring (5) and the second suspension magnetic ring (6).

3. The web machine of claim 2, wherein: feeding mechanism includes screen cloth centre gripping subassembly, screen cloth centre gripping subassembly includes interlock frame (7), punch holder (8) and lower plate (9), vaulting pole (1) alternates between punch holder (8) and lower plate (9), punch holder (8) and lower plate (9) are all driven through interlock cylinder (10) of fixing on interlock frame (7) for the screen cloth of tight cover on vaulting pole (1) of clamp.

4. The web machine of claim 3, wherein: feeding mechanism includes pay-off direction subassembly, pay-off direction subassembly includes material roller (11), relaxation frame (12), presses net support (13) and a plurality of guide roll (14), and the net cloth strip of winding on material roller (11) draws to vaulting pole (1) along a plurality of guide roll (14), relaxation frame (12) are close to material roller (11) and set up, and the screen cloth passes from the bottom of relaxation frame (12) and pressing net support (13), install relaxation cylinder (15) that are used for pushing down the screen cloth on relaxation frame (12), press to install on net support (13) and be used for pressing the net cylinder (16) of pressing the fixed screen cloth of fastening.

5. The web machine of claim 4, wherein: the feeding mechanism comprises a linear module (17), and the articulator (7) is fixed on a sliding block in the linear module (17).

6. The web machine of claim 5, wherein: the fusion cutting mechanism comprises a first bridge column (18), a second bridge column (19) and a fusion cutting cylinder (20) used for driving the first bridge column (18) and the second bridge column (19) to ascend and descend, and an electric heating wire (21) is connected between the first bridge column (18) and the second bridge column (19).

7. A process for producing a web machine according to claim 1, characterized in that:

during the first time of production, the mesh strip on the material roller (11) is manually pulled to the position of the support rod (1) along the guide roller (14), and the flat or conical end of the mesh strip is sleeved on the support rod (1);

the net pressing cylinder (16) compresses and fixes the net cloth, and after the net cloth is pressed down by the relaxation cylinder (15) to discharge the material roller (11), a piston rod of the net pressing cylinder (16) and a piston rod of the relaxation cylinder (15) contract together or one by one;

the upper clamping plate (8) and the lower clamping plate (9) are folded to drive the mesh to move towards the direction of the manipulator (22), the standby manipulator (22) clamps the mesh, the fusion cutting motor pushes the first bridge column (18) and the second bridge column (19) to ascend, and the mesh strip is fused by the heating wire (21) between the first bridge column (18) and the second bridge column (19).

8. The process according to claim 7, characterized in that: the inserting rods (23) are installed on the mechanical hand (22), and before the mesh cloth on the support rods (1) is moved onto the inserting rods (23), the prior mechanical hand (22) inserts one ends of the inserting rods (23) into the support rods (1).

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