CN210765951U - Device for shaping cloth - Google Patents

Abstract

The utility model provides a device for cloth is stereotyped belongs to textile sector. It includes the frame, the frame on swing joint have a plurality of place in proper order and can be along frame horizontal direction reciprocating motion's sideslip piece all around along the frame horizontal direction, the top in every sideslip piece all rotates and is connected with the transverse stretching axle, every sideslip piece with one side be equipped with frame swing joint and can be along frame axial reciprocating motion's vertical piece all around, the top of every vertical piece all rotates and is connected with vertical stretching axle. The utility model has the advantages of the utility model provides a horizontal stretching axle can be along frame horizontal direction reciprocating motion all around, and vertical stretching axle can be along frame axial reciprocating motion all around to change the difference in height and the horizontal distance between horizontal stretching axle and the vertical stretching axle that corresponds, different tension demands when can satisfying different cloth and stereotype.

Description

Device for shaping cloth

Technical Field

The utility model belongs to the textile sector especially relates to a device for cloth is stereotyped.

Background

Because the kind of cloth is different, therefore the elasticity of cloth is also different, and in prior art, the rigidity of the design axle for the cloth is stereotyped is motionless, leads to the design axle can't satisfy different cloth when stereotypeing different tension demands, leads to the cloth design effect poor.

For example, chinese patent document discloses a cloth setting machine [ patent application No.: CN201620932696.6], which comprises a fixed frame, two metal contacts and two squeeze rolls, wherein the two metal contacts are arranged between the two metal contacts, the squeeze rolls are arranged in a way of being tangent to the outer surfaces of the metal contacts, the fixed frame is provided with a lead, the lead is connected with the metal contacts, the metal contacts are provided with a rotating rod, the metal contacts are rotationally connected with the fixed frame through the rotating rod, the rotating rod is provided with a torsion spring for the metal contacts to move towards the squeeze rolls, the metal contacts are also provided with limit posts, the fixed frame is provided with arc limit grooves for the limit posts to slide, the metal contacts are made of metal materials, the surfaces of the metal contacts are smooth, the surface of cloth can not be scratched, static electricity is effectively led, and the cloth is all contradicted between metal contact and squeeze roll at the in-process that removes to metal contact and squeeze roll have also played the design effect to the cloth, improve the design effect. But the device can not satisfy different tension requirements when different fabrics are shaped, resulting in poor fabric shaping effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a device for cloth is stereotyped.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a device for cloth is stereotyped, includes the frame, the frame on swing joint have a plurality of place in proper order and can be along frame horizontal direction reciprocating motion's sideslip piece around the frame horizontal direction, top in every sideslip piece all rotates and is connected with the transverse stretching axle, same one side of every sideslip piece be equipped with frame swing joint and can be along frame axial reciprocating motion's vertical piece around, the top of every vertical piece all rotates and is connected with vertical stretching axle.

In the device for setting the cloth, two opposite connecting shafts are rotatably connected in each transverse moving block and each vertical block, the transverse stretching shaft and the vertical stretching shaft penetrate through the corresponding two connecting shafts and are rotatably connected with the connecting shafts, the vertical stretching shaft of the transverse stretching shaft and the corresponding connecting shafts are coaxially arranged, anti-skidding shafts which are arranged on the connecting shafts and are rotatably connected with the connecting shafts are arranged at two ends of each transverse stretching shaft and two ends of each vertical stretching shaft, and the anti-skidding shafts are abutted to the corresponding transverse stretching shafts or the corresponding vertical stretching shafts.

In the above-mentioned device for setting the fabric, the anti-slip shaft corresponding to each transverse stretching shaft is located at the lower side of the transverse stretching shaft, and the anti-slip shaft corresponding to each vertical stretching shaft is located at the upper side of the vertical stretching shaft.

In the device for shaping the cloth, the connecting shaft is movably connected with the thickness adjusting block, the thickness adjusting block is rotatably connected with the corresponding anti-slip shaft, and the thickness adjusting block can reciprocate back and forth along the connecting shaft so as to be close to or far away from the corresponding transverse stretching shaft or vertical stretching shaft.

In the device for shaping the cloth, a thickness adjusting cavity corresponding to the thickness adjusting block is arranged in each connecting shaft, the thickness adjusting block is located in the corresponding thickness adjusting cavity and movably connected with the thickness adjusting cavity, and a squeezing spring is arranged between the end face of the thickness adjusting block, far away from the corresponding transverse stretching shaft or vertical stretching shaft, and the inner wall of the thickness adjusting cavity.

In the device for setting the cloth, the connecting shaft extends outwards to form the corresponding transverse moving block or the corresponding vertical block, the connecting shaft is meshed with the swinging wheel arranged on the transverse moving block or the vertical block, and the swinging wheel is provided with the swinging rod.

In the device for setting the cloth, one end of the transverse moving block is movably connected with the base, the other end of the transverse moving block upwards extends out of the base, the part of each transverse moving block extending out of the base is movably connected with the stabilizing plate, the stabilizing plate is arranged along the horizontal direction and fixedly connected with the base, and the transverse moving block can reciprocate back and forth in the stabilizing plate along the horizontal direction so as to be close to or far away from the corresponding vertical block.

In the device for setting the cloth, each stabilizing plate is provided with a transverse moving rotating motor, an output shaft of each transverse moving rotating motor penetrates through the corresponding transverse moving block and is in threaded connection with the transverse moving block, a vertical moving rotating motor arranged in the base is arranged right below each vertical block, and an output shaft of each vertical moving rotating motor is in threaded connection with the corresponding vertical block.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a horizontal stretching axle among can be along frame horizontal direction reciprocating motion all around, vertical stretching axle can be along frame axial reciprocating motion all around to change the difference in height and the horizontal distance between horizontal stretching axle and the vertical stretching axle that corresponds, different tension demands when can satisfying different cloth and stereotype.

2. The utility model discloses a both ends of every transverse stretching axle and vertical stretching axle all are equipped with a setting on the connecting axle and rotate the anti-skidding axle of being connected with this connecting axle, anti-skidding axle offset with the transverse stretching axle or the vertical stretching axle that correspond, can prevent that the cloth from taking place the fold at the design in-process.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view A-A of FIG. 1;

fig. 3 is a schematic cross-sectional view of B-B in fig. 1.

In the figure: the device comprises a machine base 10, a transverse moving block 11, a transverse stretching shaft 12, a vertical block 13, a vertical stretching shaft 14, a connecting shaft 15, an anti-skidding shaft 16, a thickness adjusting block 17, a thickness adjusting cavity 18, a squeezing spring 19, a swinging wheel 20, a swinging rod 21, a stabilizing plate 22, a transverse moving rotating motor 23 and a vertical moving rotating motor 24.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-3, a device for setting cloth comprises a base 10, wherein the base 10 is movably connected with a plurality of traverse blocks 11 which are sequentially arranged along the horizontal direction of the base 10 and can reciprocate back and forth along the horizontal direction of the base 10, the top of each traverse block 11 is rotatably connected with a transverse stretching shaft 12, the same side of each traverse block 11 is provided with a vertical block 13 which is movably connected with the base 10 and can reciprocate back and forth along the axial direction of the base 10, and the top of each vertical block 13 is rotatably connected with a vertical stretching shaft 14.

Because the types of the cloth materials are different, the elasticity of the cloth materials is also different, and in the prior art, the position of the shaping shaft for shaping the cloth materials is fixed, so that the shaping shaft can not meet different tension requirements during shaping the cloth materials, and the shaping effect of the cloth materials is poor, therefore, in the present example, the cloth materials sequentially bypass the transverse stretching shaft 12 and the vertical stretching shaft 14 along the horizontal direction of the machine base 10, the vertical block 13 moves up and down along the vertical direction of the machine base 10 according to the different tension requirements during shaping of different cloth materials, so as to change the height difference between the transverse stretching shaft 12 and the corresponding vertical stretching shaft 14, in addition, the transverse moving block 11 can also move along the horizontal direction of the machine base 10, so as to change the horizontal distance between the transverse stretching shaft 12 and the corresponding vertical stretching shaft 14,

therefore, the tension applied to the fabric during shaping is changed, and when the height difference between the transverse stretching shaft 12 and the corresponding vertical stretching shaft 14 is larger and the horizontal distance is smaller, the tension applied to the fabric is larger, so that different tension requirements during shaping of different fabrics can be met.

Each transverse moving block 11 and each vertical block 13 are rotatably connected with two opposite connecting shafts 15, the transverse stretching shaft 12 and the vertical stretching shaft 14 penetrate through the corresponding two connecting shafts 15 and are rotatably connected with the connecting shafts 15, the vertical stretching shaft 14 of the transverse stretching shaft 12 and the corresponding connecting shafts 15 are coaxially arranged, two ends of each transverse stretching shaft 12 and each vertical stretching shaft 14 are respectively provided with an anti-skidding shaft 16 which is arranged on the connecting shafts 15 and is rotatably connected with the connecting shafts 15, and the anti-skidding shafts 16 are abutted to the corresponding transverse stretching shafts 12 or the corresponding vertical stretching shafts 14.

In this example, when the fabric is stretched and shaped by the plurality of transverse stretching shafts 12 and the plurality of vertical stretching shafts 14, the fabric may move on the transverse stretching shafts 12 and the vertical stretching shafts 14 in a transmission manner, in the moving process of the fabric, the anti-slip shafts 16 may limit the fabric between the transverse stretching shafts 12 or the vertical stretching shafts 14 corresponding to the anti-slip shafts 16 and the anti-slip shafts 16, and the anti-slip shafts 16 may rotate along their axes, so as not to obstruct the movement of the fabric, in addition, after the horizontal distance and the height difference between the transverse stretching shafts 12 and the corresponding vertical stretching shafts 14 are changed, the fabric winds around the transverse stretching shafts 12 or the vertical stretching shafts 14 to move to a certain extent, at this time, the connecting shaft 15 rotates to drive the anti-slip shafts 16 to move to the position where the fabric is tangent to and offset from the transverse stretching shafts 12 or the vertical stretching shafts 14, so as to prevent the anti-slip shafts 16 from extruding the fabric.

The antiskid shaft 16 corresponding to each transverse stretching shaft 12 is positioned at the lower side of the transverse stretching shaft 12, and the antiskid shaft 16 corresponding to each vertical stretching shaft 14 is positioned at the upper side of the vertical stretching shaft 14.

In this example, the cloth is wound from the bottom of each transverse stretching shaft 12 and the top of each vertical stretching shaft 14.

The connecting shaft 15 on swing joint have a thickness adjusting block 17, thickness adjusting block 17 rotate with the antiskid axle 16 that corresponds and be connected, just thereby thickness adjusting block 17 can be along connecting shaft 15 reciprocating motion front and back near or keep away from corresponding horizontal stretching axle 12 or vertical stretching axle 14.

In the in-process of stereotyping different cloth, different cloth has different thickness, if the distance between antiskid axle 16 and horizontal tensile axle 12 or the vertical tensile axle 14 is unchangeable, can make antiskid axle 16 extrusion cloth and hinder the removal of cloth when the cloth that the stereotyping is thick, can lead to antiskid axle 16 and cloth contactless when the thin cloth of stereotyping, can make the cloth take place the fold at the stereotyping cloth in-process, consequently in this example, the distance between antiskid axle 16 and the horizontal tensile axle 12 or the vertical tensile axle 14 that correspond can be adjusted to the thickness of root cloth.

A thickness adjusting cavity 18 corresponding to the thickness adjusting block 17 is arranged in each connecting shaft 15, the thickness adjusting block 17 is positioned in the corresponding thickness adjusting cavity 18 and is movably connected with the thickness adjusting cavity 18, and a squeezing spring 19 is arranged between the end face of the thickness adjusting block 17 far away from the corresponding transverse stretching shaft 12 or vertical stretching shaft 14 and the inner wall of the thickness adjusting cavity 18.

In this example, when shaping cloth materials with different thicknesses, the cloth materials are inserted into the anti-slip shaft 16 and the corresponding transverse stretching shaft 12 or vertical stretching shaft 14, and the pushing spring 19 can be pressed according to the thickness of the cloth materials, so that the thickness adjusting block 17 carries the anti-slip shaft 16 to move away from the corresponding transverse stretching shaft 12 or vertical stretching shaft 14.

The connecting shaft 15 extends outwards to form a corresponding transverse moving block 11 or vertical block 13, a swinging wheel 20 arranged on the transverse moving block 11 or vertical block 13 is meshed on the connecting shaft 15, and a swinging rod 21 is arranged on the swinging wheel 20.

After the horizontal distance and the height difference between the transverse stretching shaft 12 and the corresponding vertical stretching shaft 14 are changed, when the cloth winds on the transverse stretching shaft 12 or the vertical stretching shaft 14 and moves to a certain extent, the swinging rod 21 is rotated by hands, the swinging wheel 20 drives the connecting shaft 15 to rotate, so that the anti-skid shaft 16 is driven to move to the position where the cloth is tangent and offset with the transverse stretching shaft 12 or the vertical stretching shaft 14, and the anti-skid shaft 16 is prevented from extruding the cloth.

One end of the transverse moving block 11 is movably connected with the machine base 10, the other end of the transverse moving block 11 upwards extends out of the machine base 10, a part of each transverse moving block 11 extending out of the machine base 10 is movably connected with a stabilizing plate 22, the stabilizing plates 22 are arranged along the horizontal direction, the stabilizing plates 22 are fixedly connected with the machine base 10, and the transverse moving blocks 11 can reciprocate back and forth in the stabilizing plates 22 along the horizontal direction so as to be close to or far away from the corresponding vertical blocks 13.

Since the traverse block 11 is long and only the bottom of the traverse block 11 is connected to the base 10, it is easy to cause unstable center of gravity to tilt during the movement of the traverse block 11 to cause a setting failure, and therefore, in this example, the stabilizing plate 22 is disposed near the axial middle position of the traverse block 11 for stabilizing the movement of the traverse block 11.

A transverse moving rotating motor 23 is arranged on each stabilizing plate 22, an output shaft of each transverse moving rotating motor 23 penetrates through the corresponding transverse moving block 11 and is in threaded connection with the transverse moving block 11, a vertical moving rotating motor 24 arranged in the machine base 10 is arranged right below each vertical block 13, and an output shaft of each vertical moving rotating motor 24 is in threaded connection with the corresponding vertical block 13.

In this example, the traverse rotating motor 23 rotates to drive the output shaft thereof to rotate, thereby reciprocating the traverse block 11 back and forth in the horizontal direction of the housing 10, and the vertical rotating motor 24 rotates to drive the output shaft thereof to rotate, thereby reciprocating the vertical block 13 back and forth in the axial direction of the housing 10.

The principle of the utility model is that: the cloth bypasses the transverse stretching shaft 12 and the vertical stretching shaft 14 in turn along the horizontal direction of the base 10 and alternately bypasses the transverse stretching shaft 12 and the vertical stretching shaft 14, according to the requirements of different tensions of different cloths in the setting process, the transverse moving rotating motor 23 rotates and drives the output shaft of the transverse moving motor to rotate, so that the transverse moving block 11 reciprocates back and forth along the horizontal direction of the base 10, the vertical moving rotating motor 24 rotates and drives the output shaft of the vertical moving motor to rotate, so that the vertical block 13 reciprocates back and forth along the axial direction of the base 10, the height difference and the horizontal distance between the transverse stretching shaft 12 and the corresponding vertical stretching shaft 14 are changed, the tension applied to the cloth in the setting process is changed, and when the height difference between the transverse stretching shaft 12 and the corresponding vertical stretching shaft 14 is larger and the horizontal distance is smaller, the tension applied to the cloth is larger.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although used more herein: the base 10, the traverse block 11, the traverse shaft 12, the vertical block 13, the vertical shaft 14, the connecting shaft 15, the anti-slip shaft 16, the thickness adjusting block 17, the thickness adjusting chamber 18, the pushing spring 19, the oscillating wheel 20, the oscillating rod 21, the stabilizing plate 22, the traverse rotating motor 23, the vertical rotating motor 24, etc., which terms are used only for convenience of describing and explaining the essence of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (8)

1. The utility model provides a device for cloth design, includes frame (10), its characterized in that, frame (10) on swing joint have a plurality of place in proper order and can be along frame (10) horizontal direction reciprocating motion's sideslip piece (11) all around along frame (10) horizontal direction, top in every sideslip piece (11) all rotates and is connected with transverse stretching axle (12), the same one side of every sideslip piece (11) be equipped with frame (10) swing joint and can be along frame (10) axial reciprocating motion's vertical piece (13) all around, the top of every vertical piece (13) all rotates and is connected with vertical stretching axle (14).

2. The device for fabric sizing according to claim 1, wherein each of the traverse block (11) and the vertical block (13) is rotatably connected with two opposite connecting shafts (15), the transverse stretching shaft (12) and the vertical stretching shaft (14) penetrate through the corresponding two connecting shafts (15) and are rotatably connected with the connecting shafts (15), the vertical stretching shaft (14) of the transverse stretching shaft (12) and the corresponding connecting shafts (15) are coaxially arranged, two ends of each of the transverse stretching shaft (12) and the vertical stretching shaft (14) are respectively provided with an anti-slip shaft (16) which is arranged on the connecting shafts (15) and is rotatably connected with the connecting shafts (15), and the anti-slip shafts (16) are abutted against the corresponding transverse stretching shaft (12) or the corresponding vertical stretching shaft (14).

3. A cloth sizing device according to claim 2, wherein the non-slip shaft (16) corresponding to each transverse stretching shaft (12) is located at the lower side of the transverse stretching shaft (12), and the non-slip shaft (16) corresponding to each vertical stretching shaft (14) is located at the upper side of the vertical stretching shaft (14).

4. The cloth sizing device according to claim 2, wherein the connecting shaft (15) is movably connected with a thickness adjusting block (17), the thickness adjusting block (17) is rotatably connected with a corresponding anti-slip shaft (16), and the thickness adjusting block (17) can reciprocate back and forth along the connecting shaft (15) to be close to or far away from a corresponding transverse stretching shaft (12) or vertical stretching shaft (14).

5. The cloth sizing device according to claim 4, wherein a thickness adjusting cavity (18) corresponding to the thickness adjusting block (17) is arranged in each connecting shaft (15), the thickness adjusting block (17) is positioned in the corresponding thickness adjusting cavity (18) and movably connected with the thickness adjusting cavity (18), and a squeezing and pushing spring (19) is arranged between the end surface of the thickness adjusting block (17) far away from the corresponding transverse stretching shaft (12) or vertical stretching shaft (14) and the inner wall of the thickness adjusting cavity (18).

6. A device for cloth sizing according to claim 4 or 5, wherein the connecting shaft (15) extends outwards to form a corresponding traverse block (11) or vertical block (13), the connecting shaft (15) is engaged with a swing wheel (20) arranged on the traverse block (11) or vertical block (13), and the swing wheel (20) is provided with a swing rod (21).

7. A device for setting cloth according to claim 1, wherein one end of the traverse block (11) is movably connected with the base (10), and the other end of the traverse block (11) extends upwards out of the base (10), the part of each traverse block (11) extending out of the base (10) is movably connected with a stabilizing plate (22), the stabilizing plate (22) is placed along the horizontal direction and the stabilizing plate (22) is fixedly connected with the base (10), and the traverse block (11) can reciprocate back and forth in the stabilizing plate (22) along the horizontal direction so as to be close to or far away from the corresponding vertical block (13).

8. A device for setting cloth according to claim 7, characterized in that each stabilizing plate (22) is provided with a traverse rotating motor (23), the output shaft of the traverse rotating motor (23) penetrates through the corresponding traverse block (11) and is in threaded connection with the traverse block (11), a vertical rotating motor (24) arranged in the machine base (10) is arranged right below each vertical block (13), and the output shaft of the vertical rotating motor (24) is in threaded connection with the corresponding vertical block (13).

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