CN211545367U - Connect reason cloth subassembly of cloth machine - Google Patents

Abstract

The utility model discloses a cloth arranging component of a cloth receiving machine, which comprises at least two cloth arranging machines arranged at intervals, the cloth arranging machine comprises a cloth arranging clamp, a detection switch, a three-shaft sliding table, a first air cylinder and a second air cylinder, the three-shaft sliding table is provided with a fixed frame, the cloth arranging clamp comprises a first cloth arranging clamp and a second cloth arranging clamp, the first cloth arranging clamp is fixed on the fixed frame, the second cloth arranging clamp is far away from or close to the first cloth arranging clamp through the first air cylinder, the second cylinder is arranged on the fixed frame, the first cylinder is fixed at the output end of the second cylinder, the detection switch is arranged at the material clamping end of the first cloth arranging clamp, through the arrangement, the head end of the first cloth can be aligned with the tail end of the second cloth, compared with the existing manual alignment, the alignment precision and the alignment efficiency are greatly improved, and meanwhile, the risk of manually aligning the cloth can be avoided.

Description

Connect reason cloth subassembly of cloth machine

Technical Field

The utility model relates to a textile machinery's technical field, in particular to connect reason cloth subassembly of cloth machine.

Background

In the field of textile processing, in order to improve processing efficiency, the tail end of one roll of cloth is usually connected with the head and the tail end of another roll of cloth, so that the cloth can be continuously supplied to a production line, and the head and the tail ends of the rolls of cloth are generally sewn through manual needle threading. However, the width of the rolled cloth is generally 1-2.5 meters, a plurality of persons are required to unfold the edges of the cloth, the two rolls of cloth are sewn from one side to the other side after being aligned end to end, the two rolls of cloth are aligned end to end manually at present, and the alignment precision and the alignment efficiency are low due to manual alignment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a connect reason cloth subassembly of cloth machine can align and align precision and efficiency all higher to two rolls of cloth head and the tail, can avoid the artifical cloth that aligns to exist simultaneously and risk.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a connect reason cloth subassembly of cloth machine, includes the reason cloth machine that two at least intervals set up, reason cloth machine is including reason cloth clamp, detection switch, triaxial slip table, first cylinder and second cylinder, be equipped with the mount on the triaxial slip table, reason cloth clamp includes first reason cloth clamp and second reason cloth clamp, first reason cloth clamp is fixed and is located on the mount, second reason cloth clamp is kept away from or is close to first reason cloth clamp through first cylinder, the second cylinder is installed in the mount, first cylinder is fixed in the output of second cylinder, detection switch is used for detecting whether there is first cloth in first reason cloth clamp department.

Furthermore, a plurality of tooth-shaped grooves arranged at intervals are formed in the material clamping ends of the first cloth arranging clamp and the second cloth arranging clamp.

Further, the tooth-shaped groove is obliquely arranged.

Furthermore, the first cylinder is a rotary clamping cylinder, the first cylinder drives the second cloth arranging clamp to be close to the first cloth arranging clamp, a gap is reserved between the first cloth arranging clamp and the second cloth arranging clamp, and the first cloth is located between the first cloth arranging clamp and the second cloth arranging clamp.

Furthermore, the detection switches are two and are arranged on the first cloth arranging clamp at left and right intervals, and the detection switches are proximity switches.

A cloth arranging method of a cloth arranging component of a cloth splicing machine is characterized in that: the method comprises the following steps:

step 1: the first cylinder drives the second cloth arranging clamp to be far away from the first cloth arranging clamp and enables the second cloth arranging clamp to rotate relative to the first cloth arranging clamp, and the three-shaft sliding table drives the cloth arranging clamp to move;

step 2: when the detection switch detects a first cloth, the first cylinder drives the second cloth arranging clamp to be close to the first cloth arranging clamp and drives the second cloth arranging clamp to rotate to be aligned with the first cloth arranging clamp, so that a gap is reserved between the first cloth arranging clamp and the second cloth arranging clamp, and the first cloth is positioned between the first cloth arranging clamp and the second cloth arranging clamp;

and step 3: the two three-axis sliding tables drive the corresponding cloth arranging clamps to move along the two ends of the first cloth;

and 4, step 4: when the outer detection switch cannot detect the first cloth and the inner detection switch can detect the first cloth, the three-shaft sliding table stops moving to two ends of the first cloth;

and 5: the output end of the second air cylinder retracts to enable the cloth arranging clamp to clamp the first cloth;

step 6: the three-axis sliding table drives the first cloth to set the position.

Furthermore, the detection switches are two and are arranged on the first cloth arranging clamp at left and right intervals, and the detection switches are proximity switches.

To sum up, the utility model discloses following beneficial effect has:

the utility model provides a connect reason cloth subassembly of cloth machine should reason cloth subassembly be two sets of in connect the cloth machine, wherein the tail end of second cloth is pressed from both sides to a set of reason cloth subassembly, and the head end of first cloth is pressed from both sides to another set of reason cloth subassembly, and two sets of reason cloth subassemblies cooperate and are used for aligning the tail end of second cloth and the head end of first cloth, reason cloth subassembly specifically operate as follows: the first cylinder is the on-state during the initial, and when detection switch detected the cloth, first cylinder was rotatory and is returned to the normal position, made first reason cloth press from both sides and second reason cloth press from both sides and reach the tight state of clamp in advance, triaxial slip table drive reason cloth press from both sides to the motion of cloth both ends, when the detection switch in the outside can not detect the cloth that cloth and inboard detection switch can detect, triaxial slip table stops to the both ends motion of cloth, and the output of first cylinder is returned and is made reason cloth press from both sides tight cloth, and will the cloth drive is to setting for the position.

Drawings

FIG. 1 is a schematic view of the overall structure of a cloth receiving machine;

FIG. 2 is a schematic view of the mounting of the frame of the cloth receiving machine;

FIG. 3 is a schematic view of the installation of the beam of the cloth receiving machine;

FIG. 4 is a cross-sectional view of the cloth receiving machine;

FIG. 5 is an enlarged view of the point A of the present invention;

FIG. 6 is a schematic structural view of the cloth outlet end of the cloth receiving machine;

FIG. 7 is a schematic view of a first perspective of a seam assembly of the splicing machine;

FIG. 8 is a schematic view of a second perspective of the seam assembly of the splicing machine;

fig. 9 is a schematic structural view of the cloth arranging assembly of the present invention;

fig. 10 is an enlarged view of the utility model at the position B;

FIG. 11 is a schematic view of the installation of the hold-down assembly and the clamping assembly of the splicing machine;

fig. 12 is a cross-sectional view of the arm of the cloth joining machine.

In the figure: 1. a frame; 11. a conveyor belt; 12. a drum; 13. a channel; 14. a placing groove; 2. a cloth outlet end; 21. a cloth guiding frame; 211. a swing arm; 212. a drive roll; 213. a driven roller; 22. a yaw assembly; 221. a deflection wheel; 222. a connecting rod; 23. a second fabric; 3. a material placing end; 31. a first fabric; 32. a drive roller; 33. an auxiliary roller; 34. a limiting plate; 4. a seaming assembly; 41. pasting a material plate; 42. a seaming machine; 421. a base plate; 43. a cross beam; 44. a slipping component; 45. a slide plate; 5. a cloth tidying component; 51. arranging a cloth clamp; 511. a first fabric arranging clamp; 512. a second cloth tidying clamp; 513. a toothed groove; 52. a detection switch; 53. a three-axis sliding table; 54. a fixed mount; 55. a first cylinder; 56. a second cylinder; 6. a compression assembly; 61. a pressing cylinder; 62. a guide bar; 63. layering; 7. a uniform distribution assembly; 71. a cloth homogenizing wheel; 711. an elastic strip; 72. a drive motor; 8. a material clamping component; 81. a cross bar; 82. a support frame; 83. a support arm; 84. a cloth clamping mouth; 85. an inductive switch; 86. an air blowing groove; 87. a push cylinder; 9. a feeding assembly; 91. a feeding roller; 92. a material lifting machine; 93. and a material guide frame.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1-12, a reason cloth subassembly of cloth receiving machine, including the reason cloth machine that two at least intervals set up, the utility model discloses well every reason cloth subassembly 5 is the reason cloth machine that two intervals set up, reason cloth machine is including the reason cloth clamp 51 that can be open mode or press from both sides the material state, locate and be used for detecting or whether have the detection switch 52 of cloth and the triaxial slip table 53 of drive reason cloth clamp 51 motion on the reason cloth clamp 51, be equipped with mount 54 on the triaxial slip table 53, reason cloth clamp 51 includes first reason cloth clamp 511 and second reason cloth clamp 512, first reason cloth clamp 511 is located on mount 54, second reason cloth clamp 512 is close to or keeps away from first reason cloth clamp 511 through first cylinder 55.

First cylinder 55 is the rotary clamping cylinder, be equipped with second cylinder 56 on the mount 54, first cylinder 55 is fixed in the output of second cylinder 56, detection switch 52 is two and controls the interval and locate first reason cloth clamp 511, the utility model discloses in detection switch 52 is proximity switch.

The material clamping ends of the first cloth arranging clamp 511 and the second cloth arranging clamp 512 are provided with a plurality of tooth-shaped grooves 513 arranged at intervals, the tooth-shaped grooves 513 are arranged in an inclined mode, when the output end of the second air cylinder 56 returns to the original position, the cloth arranging clamp 51 is in a clamping state, the clamping force of the cloth arranging clamp 51 is improved through the arrangement of the inclined tooth-shaped grooves 513, and the clamping effect of the cloth arranging clamp 51 is better.

A cloth arranging method of a cloth arranging component of a cloth splicing machine comprises the following steps:

step 1: the first air cylinder 55 drives the second cloth arranging clamp 512 to be far away from the first cloth arranging clamp 511 and enables the second cloth arranging clamp 512 to rotate relative to the first cloth arranging clamp 511, and the three-shaft sliding table 53 drives the cloth arranging clamp 51 to move;

step 2: when the detection switch 52 detects the first cloth 31, the first cylinder 55 drives the second cloth arranging clamp 512 to approach the first cloth arranging clamp 511 and drives the second cloth arranging clamp 512 to rotate to align with the first cloth arranging clamp 511, so that a gap is left between the first cloth arranging clamp 511 and the second cloth arranging clamp 512 and the first cloth 31 is located between the first cloth arranging clamp 511 and the second cloth arranging clamp 512;

and step 3: the two three-axis sliding tables 53 drive the corresponding cloth arranging clamps 51 to move along the two ends of the first cloth 31;

and 4, step 4: when the outer detection switch 52 does not detect the first fabric 31 and the inner detection switch 52 can detect the first fabric 31, the three-axis sliding table 53 stops moving to the two ends of the first fabric 31;

and 5: the output end of the second cylinder 56 retracts, so that the cloth arranging clamp 51 clamps the first cloth 31;

step 6: the three-axis slide table 53 drives the first cloth 31 to a set position.

The utility model discloses in the setting position is first cloth 31 laminating flitch 41.

The cloth arranging assembly 5 near one side of the cloth outlet end 2 clamps the second cloth 23 and pulls the second cloth 23 to be attached to the material attaching plate 41, the cloth arranging assembly 5 near one side of the material placing end 3 clamps the first cloth 31 and drives the first cloth 31 to be aligned with the second cloth 23, and the second cloth 23 and the first cloth 31 are pressed on the material attaching plate 41 through the pressing assembly 6.

A cloth splicing machine comprises a rack 1, a cloth outlet end 2 used for guiding a second cloth 23, a material placing end 3 used for placing a first cloth 31, and a seaming assembly 4, two cloth arranging assemblies 5 and a pressing assembly 6 which are arranged between the rack 1, wherein the seaming assembly 4 comprises a pasting plate 41 and a seaming machine 42 capable of sliding in the length direction of the pasting plate 41, the seaming machine 42 is used for sewing and connecting the tail end of the second cloth 23 and the head end of the first cloth 31, the cloth arranging assemblies 5 are two groups, one group of cloth arranging assemblies 5 are used for clamping the second cloth 23 and pulling the second cloth 23 to the pasting plate 41, the other group of cloth arranging assemblies 5 are used for clamping the first cloth 31 and aligning and jointing the first cloth 31 and the second cloth 23, the pressing assembly 6 presses the second cloth 23 and the first cloth 31 to the pasting plate 41, one side of the seaming machine 42 is provided with a cloth homogenizing assembly 7 used for flattening the edges of the second cloth 23 and the first cloth 31, even cloth subassembly 7 includes even cloth wheel 71 and the rotatory driving motor 72 of even cloth wheel 71 of drive, the utility model discloses in even cloth wheel 71 is two, even cloth wheel 71 includes a plurality of elastic strips 711 of circumference equipartition.

Seam subassembly 4 includes fixed mounting crossbeam 43 between frame 1, the one side of crossbeam 43 is located to flitch 41, the subassembly 44 that slides that two sets of intervals set up is installed to the opposite side of crossbeam 43, the utility model discloses well subassembly 44 that slides locates the slider on the slide rail for the slide rail with sliding, seam machine 42 is installed on the slider through shifting board 45, seam machine 42 sewing end is located one side of flitch 41, backing plate 421 on seam machine 42 flushes with flitch 41, the both ends of crossbeam 43 are rotated and are equipped with the gear cingulum, shifting board 45 extends there is the connecting plate of fixed connection in the cingulum, one side of crossbeam 43 is equipped with the gear motor of drive gear cingulum motion.

Put the longitudinal section of material end 3 and be sunken column structure, it can drive first cloth 31 and rotate and extend the head end of first cloth 31 to the below of putting material end 3 to put material end 3, the lower extreme of putting material end 3 is the drive roller 32 that two symmetries set up, and the both sides of two drive rollers 32 are equipped with a plurality of auxiliary rollers 33, be equipped with the gear motor that drives the motion of drive roller 32 in the frame 1, the auxiliary roller 33 on right side can be replaced with the baffle.

Two limiting plates 34 are mounted on the upper-end auxiliary roller 33, the limiting version can slide and be fixed relative to the length direction of the auxiliary roller 33 and is used for limiting the first cloth 31, and a plurality of lightening holes are formed in the limiting plates 34.

It is equipped with material clamping component 8 to put the below of material end 3, material clamping component 8 is used for pressing from both sides the edge of getting first cloth 31 and pushes down it to reason cloth clamp 51, material clamping component 8 is including being fixed in horizontal pole 81 on frame 1, the interval is equipped with two sets of support frames 82 on the horizontal pole 81, material clamping component 8 includes the support frame 82 that two sets of intervals set up, it has support arm 83 to articulate on the support frame 82, the upper end of support arm 83 is equipped with can open or closed press from both sides cloth mouth 84, be equipped with inductive switch 85 in pressing from both sides cloth mouth 84, it blows the gas blow groove 86 in pressing from both sides cloth mouth 84 to be equipped with the edge of first cloth 31 of accessible air current on the cloth clamping mouth 84, the lower extreme of support arm 83 articulates there is the promotion cylinder 87 that can be with support arm 83 pivoted downwards, promotion cylinder 87 passes through the fixing.

The pressing assembly 6 comprises a pressing cylinder 61 arranged at the lower end of the cross rod 81, guide rods 62 arranged on two sides of the pressing cylinder 61, and a pressing strip 63 connecting the output end of the pressing cylinder 61 and the guide rods 62.

The lower extreme of seam subassembly 4 is equipped with conveyer belt 11, conveyer belt 11 is used for carrying the cylinder 12 that falls from putting material end 3, one side of frame 1 is equipped with passageway 13, cylinder 12 is used for coiling first cloth 31, and when first cloth 31 was wound up, cylinder 12 fell from putting material end 3 to drive cylinder 12 to conveyer belt 11 through reason cloth subassembly 5, conveyer belt 11 transports cylinder 12 from passageway 13, and then replaces the manual work to take out cylinder 12 from putting material end 3, has both improved efficiency and has avoided the artifical potential safety hazard of getting the material again.

The cloth discharging end 2 comprises a cloth guiding frame 21 and a deflection assembly 22 for driving the cloth guiding frame 21 to perform deflection motion, the cloth guiding frame 21 comprises a swing arm 211, and a driving roller 212 arranged on the swing arm 211 and a plurality of driven rollers 213 arranged in parallel with the driving roller 212, a speed reduction motor for driving the driving roller 212 to move is arranged on the machine frame 1, the deflection assembly 22 comprises a deflection balance wheel 221 and a connecting rod 222, two ends of the connecting rod 222 are respectively connected with the deflection balance wheel 221 and the swing arm 211, the connecting rod 222 is connected to the non-center of the deflection balance wheel 221, and the driving roller 212 and the deflection balance wheel 221 are driven by a gear belt.

The automatic cloth receiving machine further comprises a feeding assembly 9 used for feeding the first cloth 31, the feeding assembly 9 comprises a plurality of feeding rollers 91 arranged at intervals, a material lifting machine 92 used for lifting the first cloth 31 and a material guide frame 93 used for guiding the first cloth 31 to the material placing end 3, the feeding assembly 9 is independent of the machine frame 1, and the distance between the feeding assembly 9 and the machine frame 1 can be adjusted.

And a transmission roller is respectively arranged between the cloth outlet end 2 and the seam component 4 and between the material placing end 3 and the seam component 4.

A cloth connecting method of a cloth connecting machine comprises the following steps:

step 1: the cloth arranging component 5 close to the cloth outlet end 2 clamps the edge of the second cloth 23, drives the cloth arranging clamp 51 to two sides of the second cloth 23 through the three-axis sliding table 53, and attaches the second cloth 23 to the material sticking plate 41;

step 2: the feeding assembly 9 transports the first cloth 31 to the material placing end 3;

and step 3: the material placing end 3 drives the first cloth 31 to rotate, and the edge of the first cloth 31 is blown into the cloth clamping nozzle 84 through the air blowing groove 86 by air flow;

and 4, step 4: the material clamping assembly 8 pulls the edge of the first cloth 31 down to the cloth arranging assembly 5 below the material clamping assembly, when the detection switch 52 detects the first cloth 31, the cloth arranging clamp 51 clamps the first cloth 31, the cloth clamping mouth 84 loosens the first cloth 31, the cloth arranging clamp 51 is driven to two sides of the first cloth 31 through the three-axis sliding table 53, and the first cloth 31 is aligned and attached to the second cloth 23;

and 5: the pressing component 6 presses the second cloth 23 and the first cloth 31, and the cloth arranging clamp 51 is loosened and retreated;

step 6: the seaming assembly 4 slides along the length direction of the material sticking plate 41, the edge of the second cloth 23 and the edge of the first cloth 31 are flattened by the cloth evening assembly 7, and the edge of the second cloth 23 and the edge of the first cloth 31 after the exhibition is sewn by the seaming machine 42.

The two ends of the rack 1 are provided with the arrangement grooves 14, the two ends of the cross beam 43 are arranged in the arrangement grooves 14, and the seaming machine 42 and the uniform distribution assembly 7 on the seaming assembly 4 are both positioned in the arrangement grooves 14 between the step 1 and the step 5, so that the arrangement assembly 5 can slide conveniently.

In the step 4, the fabric arranging clamp 51 is driven to two sides of the first fabric 31 through the three-axis sliding table 53, specifically, when the outer-end detection switch 52 cannot detect the first fabric 31 and the inner-end detection switch 52 can detect the first fabric 31.

The basic working principle of the automatic cloth receiving machine is as follows: seam subassembly 4 slides along flitch 41 length direction, even cloth subassembly 7 is along with seam subassembly 4 together slides and with the 23 tail ends of second cloth and the 31 head end showpiece of first cloth of laminating, and then 23 tail ends of second cloth and the 31 head end of first cloth can get into the seam region of seam machine 42 smoothly, seam machine 42 sews up along seam subassembly 4 direction of sliding in proper order with the edge of the second cloth 23 behind the showpiece and first cloth 31, it beats a roll phenomenon to have solved lapping cloth head and tail ends, lead to the difficult seam region's that gets into seam machine 42 problem of two lapping cloth head and tail ends, improved this cloth efficiency that connects and connect the cloth quality.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (5)

1. The utility model provides a connect reason cloth subassembly of cloth machine which characterized in that: including the reason cloth machine that two at least intervals set up, reason cloth machine presss from both sides (51), detection switch (52), triaxial slip table (53), first cylinder (55) and second cylinder (56) including reason cloth, be equipped with mount (54) on triaxial slip table (53), reason cloth presss from both sides (51) including first reason cloth clamp (511) and second reason cloth clamp (512), first reason cloth clamp (511) are fixed to be located on mount (54), second reason cloth clamp (512) are kept away from or are close to first reason cloth clamp (511) through first cylinder (55), second cylinder (56) are installed in mount (54), first cylinder (55) are fixed in the output of second cylinder (56), detection switch (52) are used for detecting whether first reason cloth clamp (511) have first cloth (31) to handle.

2. The fabric arranging assembly of a fabric splicing machine according to claim 1, wherein: the material clamping ends of the first cloth arranging clamp (511) and the second cloth arranging clamp (512) are provided with a plurality of tooth-shaped grooves (513) which are arranged at intervals.

3. The fabric arranging assembly of a fabric splicing machine according to claim 2, wherein: the tooth-shaped groove (513) is obliquely arranged.

4. The fabric arranging assembly of a fabric splicing machine according to claim 1, wherein: the first air cylinder (55) is a rotary clamping air cylinder, the first air cylinder (55) drives the second cloth arranging clamp (512) to be close to the first cloth arranging clamp (511), a gap is reserved between the first cloth arranging clamp (511) and the second cloth arranging clamp (512), and the first cloth (31) is located between the first cloth arranging clamp (511) and the second cloth arranging clamp (512).

5. The fabric arranging assembly of a fabric splicing machine according to claim 1, wherein: the two detection switches (52) are arranged on the first cloth arranging clamp (511) at intervals from left to right, and the detection switches (52) are proximity switches.

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