CN111286876B

CN111286876B - Material clamping mechanism for computer quilter

Info

Publication number: CN111286876B
Application number: CN202010301224.1A
Authority: CN
Inventors: 辛海勇
Original assignee: Taizhou Funaijie Automation Co ltd
Current assignee: Taizhou Funaijie Automation Co ltd
Priority date: 2020-04-16
Filing date: 2020-04-16
Publication date: 2021-10-22
Anticipated expiration: 2040-04-16
Also published as: CN111286876A; WO2021208246A1

Abstract

The invention discloses a material clamping mechanism for a computer quilter, which comprises a frame, wherein the frame is formed by welding and fixing four transverse beams; the inner side walls of the four transverse beams are all fixed with a long extending bottom plate, and the top surfaces of the side parts of the long extending bottom plates are provided with a plurality of extending clamping parts extending upwards; the outer side wall of the transverse beam is fixedly provided with a plurality of pneumatic fixing plates, the bottom surfaces of the pneumatic fixing plates are fixedly provided with a compressing cylinder, a push rod of the compressing cylinder penetrates through the pneumatic fixing plates and is fixedly provided with lifting blocks, all the lifting blocks of the same transverse beam are fixed on the bottom surface of the same lifting plate, and the lifting plate is positioned right above the corresponding transverse beam. The invention can automatically clamp the edge of the material to be processed, has high efficiency and good effect, realizes connection by pressing the belt through the connecting pressing block, adopts a connection mode, can disassemble the belt fixing block from the frame, can be used as a common fixed frame, and has wide application range.

Description

Material clamping mechanism for computer quilter

Technical Field

The invention relates to the technical field of textile machinery equipment, in particular to a material clamping mechanism for a computerized quilting machine.

Background

The computerized quilting machine is a device for controlling the running of the quilting machine by a computer, and can quilt quilts, sleeping bags, bedspreads, curtains and the like, in the existing computerized quilting machine, materials to be processed such as the quilts, the sleeping bags, the bedspreads, the curtains and the like are generally clamped on a frame, the existing frame is generally provided with a plurality of clamps, the edges of the materials to be processed are manually pressed on the clamps for processing by manpower, and the clamps are manually fixed one by one, so that the quilting machine is very troublesome, low in efficiency and poor in effect.

Meanwhile, in some computer quilting machines, the frame needs to be installed on a belt, the frame moves forward and backward or leftward and rightward through the belt, the belt is fixed with the frame, the belt and the frame are fixed by bolts in the conventional mode, and the end parts of the bolts need to penetrate through the belt, so that the strength of the belt is reduced, and the service life of the belt is influenced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a material clamping mechanism for a computer quilter, which can automatically clamp the edge of a material to be processed, has high efficiency and good effect, and can realize connection by connecting a pressing block to press a belt.

The scheme for solving the technical problems is as follows:

a material clamping mechanism for a computer quilter comprises a frame, wherein the frame is formed by welding and fixing four transverse beams;

the inner side walls of the four transverse beams are all fixed with a long extending bottom plate, and the top surfaces of the side parts of the long extending bottom plates are provided with a plurality of extending clamping parts extending upwards;

the lateral wall of the transverse beam is fixed with a plurality of pneumatic fixing plates, the bottom surfaces of the pneumatic fixing plates are fixed with compressing cylinders, push rods of the compressing cylinders penetrate through the pneumatic fixing plates and are fixed with lifting blocks, all the lifting blocks of the same transverse beam are fixed on the bottom surface of the same lifting plate, the lifting plate is located right above the corresponding transverse beam, one side of the lifting plate is located above the long extending bottom plate, the bottom surface of one side of the lifting plate is provided with an upper extending portion extending downwards, and the lateral wall of the upper extending portion is close to the inner lateral wall of the extending clamping portion.

A plurality of tooth-shaped grooves are formed in the outer side wall of the upper extending portion, and a plurality of tooth-shaped protrusions are formed on the inner side wall, corresponding to the outer side wall of the upper extending portion, of the extending clamping portion.

The shaping of limit portion top surface of microscler extension bottom plate has a plurality of mounting grooves, and the bottom shaping that extends the clamping part has the level portion of bending, and the plug bush of level portion of bending is in the mounting groove and through bolt fixed connection on microscler top surface that extends the bottom plate.

The bottom surface of the transverse beam on the left side and the right side of the frame is fixed with a belt fixing block, and the middle part of the belt fixing block is provided with a belt installation through groove.

The middle part of the bottom plate of belt fixed block has the installation and leads to the groove, and the bottom surface middle part of belt fixed block roof has the little ladder through-hole of the big upper portion diameter of lower part diameter, and fixing bolt's rotation portion plug bush is in the big diameter section in the lower part of ladder through-hole, and fixing bolt's screw rod portion plug bush is in the bottom connecting block that the spiro union was equipped with on the bottom plate of transverse beam in the little diameter section in upper portion of ladder through-hole, and fixing bolt's rotation portion presses on the top surface of the big diameter section in lower part of ladder through-hole.

Two adjusting bolts are connected to the top plate of the belt fixing block in a threaded mode, the top ends of the two adjusting bolts extend out of the top face of the bottom plate of the belt fixing block and are fixed with connecting pressing blocks, and the connecting pressing blocks are located in the installation through grooves.

The utility model discloses a horizontal beam's of fixing bolt, including horizontal beam, bottom connecting block, vertical portion plug bush, the end spiro union of the screw rod portion of fixing bolt is in the screw hole that has of the bottom surface shaping of vertical portion, the bottom connecting block of horizontal beam, and the bottom connecting block of horizontal beam is pressed on the top surface of the bottom plate of horizontal beam, and the vertical portion plug bush that has of the middle part bottom surface shaping of bottom connecting block is in vertical through hole, and the screw hole that has of the bottom surface shaping of vertical portion is connected to the tip spiro union of fixing bolt.

The invention has the following outstanding effects: compared with the prior art, it can be with the automatic centre gripping of limit portion of treating the processing material, and its is efficient, and is effectual, and it compresses tightly the belt through connecting the compact heap and realizes connecting moreover, and its connected mode, the belt fixed block can be lifted off to the frame moreover, uses as ordinary fixed frame, and application range is wide.

Drawings

FIG. 1 is a schematic view of a partial structure of the present invention;

FIG. 2 is an enlarged view of a portion of the present invention;

fig. 3 is a partial cross-sectional view at the transverse beam of the present invention.

Detailed Description

In the embodiment, as shown in fig. 1 to 3, a material clamping mechanism for a computerized quilting machine comprises a frame 10, wherein the frame 10 is formed by welding and fixing four transverse beams 11;

a long extension bottom plate 12 is fixed on the inner side walls of the four transverse beams 11, and a plurality of extension clamping parts 13 extending upwards are arranged on the top surfaces of the side parts of the long extension bottom plate 12;

a plurality of pneumatic fixing plates 14 are fixed on the outer side wall of the transverse beam 11, a pressing cylinder 15 is fixed on the bottom surface of each pneumatic fixing plate 14, a push rod of each pressing cylinder 15 penetrates through each pneumatic fixing plate 14 and is fixed with a lifting block 16, all the lifting blocks 16 of the same transverse beam 11 are fixed on the bottom surface of the same lifting plate 17, each lifting plate 17 is located right above the corresponding transverse beam 11, one side of each lifting plate 17 is located above the long extending bottom plate 12, an upper extending portion 18 extending downwards is arranged on the bottom surface of one side of each lifting plate 17, and the outer side wall of each upper extending portion 18 is close to the inner side wall of the corresponding extending clamping portion 13.

Furthermore, a plurality of tooth-shaped grooves 181 are formed on the outer side wall of the upper extension portion 18, and a plurality of tooth-shaped protrusions 131 are formed on the inner side wall of the extension clamping portion 13 corresponding to the outer side wall of the upper extension portion 18.

Furthermore, a plurality of mounting grooves 121 are formed on the top surface of the edge of the elongated extension bottom plate 12, a horizontal bending portion 132 is formed at the bottom of the extension clamping portion 13, and the horizontal bending portion 132 is inserted into the mounting grooves 121 and fixedly connected to the top surface of the elongated extension bottom plate 12 by bolts.

Further, belt fixing blocks 20 are fixed to the bottom surfaces of the transverse beams 11 on the left and right sides of the frame 10, and a belt installation through groove 21 is formed in the middle of each belt fixing block 20.

Further, the middle part of the bottom plate of the belt fixing block 20 is provided with an installation through groove 22, the bottom surface middle part of the top plate of the belt fixing block 20 is provided with a stepped through hole with a large upper part diameter and a small lower part diameter, the rotating part of the fixing bolt 23 is inserted in the large lower part diameter section of the stepped through hole, the screw part of the fixing bolt 23 is inserted in the small upper part diameter section of the stepped through hole and screwed in the bottom connecting block 30 arranged on the bottom plate of the transverse beam 11, and the rotating part of the fixing bolt 23 is pressed on the top surface of the large lower part diameter section of the stepped through hole.

Furthermore, two adjusting bolts 24 are screwed on a top plate of the belt fixing block 20, top ends of the two adjusting bolts 24 extend out of the top surface of the bottom plate of the belt fixing block 20 and are fixed with connecting and pressing blocks 25, and the connecting and pressing blocks 25 are located in the installation through grooves 22.

Further, a vertical through hole 19 is formed in the bottom plate of the transverse beam 11, the bottom connecting block 30 is pressed against the top surface of the bottom plate of the transverse beam 11, a vertical portion 31 formed in the bottom surface of the middle portion of the bottom connecting block 30 is inserted into the vertical through hole 19, and the end portion of the screw portion of the fixing bolt 23 is screwed into a screw hole formed in the bottom surface of the vertical portion 31.

An inner spline groove is formed in the inner side wall of the vertical through hole 19, an outer spline protrusion is formed on the outer side wall of the vertical portion 31, and the outer spline protrusion is inserted and sleeved in the inner spline groove.

In this embodiment, all the compressing cylinders 15 may be communicated with the control valve through the connecting air pipe, the control valve is communicated with the air pump or other air sources, and air intake or air discharge is realized through control of the control valve, so as to control lifting or lowering of the push rod of the compressing cylinder 15.

In the embodiment, when the device is used, the edge to be processed is located above the four long extending bottom plates 12, then the push rods of the corresponding pressing cylinders 15 retract, so that the lifting plate 17 descends, the edge to be processed is clamped between the extending clamping parts 13 of the upper extending part 18, and a plurality of tooth-shaped grooves 181 are formed on the outer side wall of the upper extending part 18, a plurality of tooth-shaped protrusions 131 are formed on the inner side walls, corresponding to the outer side walls of the extending clamping parts 13 and the upper extending part 18, friction force can be increased through the tooth-shaped grooves 181 and the tooth-shaped protrusions 131, so that the edge to be processed cannot slide out when being clamped between the extending clamping parts 13 and the upper extending part 18, the clamping effect is ensured, and the subsequent processing effect is improved.

The belt fixing blocks 20 are detachably mounted on the bottom surfaces of the corresponding transverse beams 11, the belt fixing blocks 20 can be dismounted when the frame is used as the fixed frame 10, the belt can be inserted into the mounting through grooves 22 when the frame is used as the movable frame 10, the connecting pressing blocks 25 are pressed on the belt by adjusting the adjusting bolts 24, the belt is fixed, the frame 10 can move along with the movement of the belt, and the belt fixing device is good in moving effect and high in efficiency.

Finally, the above embodiments are only for illustrating the present invention and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the scope of the present invention should be defined by the claims.

Claims

1. A material clamping mechanism for a computer quilter comprises a frame (10) and is characterized in that: the frame-shaped frame (10) is formed by welding and fixing four transverse beams (11);

the inner side walls of the four transverse beams (11) are all fixed with elongated extension bottom plates (12), and the top surfaces of the side parts of the elongated extension bottom plates (12) are provided with a plurality of upward extending clamping parts (13);

a plurality of pneumatic fixing plates (14) are fixed on the outer side wall of each transverse beam (11), a pressing cylinder (15) is fixed on the bottom surface of each pneumatic fixing plate (14), a push rod of each pressing cylinder (15) penetrates through each pneumatic fixing plate (14) and is fixed with a lifting block (16), all lifting blocks (16) of the same transverse beam (11) are fixed on the bottom surface of the same lifting plate (17), each lifting plate (17) is located right above the corresponding transverse beam (11), one side of each lifting plate (17) is located above the long extending bottom plate (12), an upper extending portion (18) extending downwards is arranged on the bottom surface of one side of each lifting plate (17), and the outer side wall of each upper extending portion (18) is close to the inner side wall of each extending clamping portion (13);

a belt fixing block (20) is fixed on the bottom surface of the transverse beam (11) on the left side and the right side of the frame (10), and a belt installation through groove (21) is formed in the middle of the belt fixing block (20);

the middle part of the bottom plate of the belt fixing block (20) is provided with an installation through groove (22), the middle part of the bottom surface of the top plate of the belt fixing block (20) is provided with a stepped through hole with a large lower diameter and a small upper diameter, the rotating part of the fixing bolt (23) is inserted and sleeved in the large lower diameter section of the stepped through hole, the screw part of the fixing bolt (23) is inserted and sleeved in the small upper diameter section of the stepped through hole and is in threaded connection with a bottom connecting block (30) arranged on the bottom plate of the transverse beam (11), and the rotating part of the fixing bolt (23) is pressed against the top surface of the large lower diameter section of the stepped through hole;

two adjusting bolts (24) are screwed on a top plate of the belt fixing block (20), the top ends of the two adjusting bolts (24) extend out of the top surface of a bottom plate of the belt fixing block (20) and are fixedly provided with connecting pressing blocks (25), and the connecting pressing blocks (25) are positioned in the installation through grooves (22);

vertical through holes (19) are formed in the bottom plate of the transverse beam (11), the bottom connecting block (30) is pressed on the top surface of the bottom plate of the transverse beam (11), vertical portions (31) formed in the middle bottom surface of the bottom connecting block (30) are inserted and sleeved in the vertical through holes (19), and the end portions of the screw rod portions of the fixing bolts (23) are screwed in screwed holes formed in the bottom surface of the vertical portions (31).

2. The material clamping mechanism for the computerized quilting machine of claim 1, wherein: a plurality of tooth-shaped grooves (181) are formed in the outer side wall of the upper extending portion (18), and a plurality of tooth-shaped protrusions (131) are formed in the inner side wall, corresponding to the outer side wall of the upper extending portion (18), of the extending clamping portion (13).

3. The material clamping mechanism for the computerized quilting machine of claim 1, wherein: the top surface of the edge of the long extension bottom plate (12) is provided with a plurality of mounting grooves (121), the bottom of the extension clamping part (13) is provided with a horizontal bending part (132), and the horizontal bending part (132) is inserted in the mounting grooves (121) and fixedly connected to the top surface of the long extension bottom plate (12) through bolts.