CN217732179U - Deviation correcting device for garment fabric compounding machine - Google Patents

Abstract

The utility model relates to a deviation correcting device field indicates a deviation correcting device for garment materials compounding machine especially. Including control module, drive module, determine module, cloth feeding and flattening roller assembly, the axle subassembly of rectifying and go out cloth flattening roller assembly that sets gradually along garment materials direction of delivery, the garment materials between axle subassembly and the cloth flattening roller assembly of rectifying passes through determine module and detects the offset through determine module, wherein drive module with rectify a shaft subassembly drive and be connected to the drive of drive axle subassembly of rectifying extends its axial direction and removes in order to realize rectifying, wherein control module is respectively with drive module and determine module communication connection. After the deviation of the garment material occurs, the detection assembly sends the detection data to the control module for detection and processing, then the control module can calculate the deviation direction and the deviation distance of the garment material, and then the control module controls the driving module to drive the deviation correction shaft to move in the direction corresponding to the deviation correction shaft so as to realize deviation correction, the whole structure is simple, and automatic deviation correction can be realized.

Description

Deviation correcting device for garment fabric compounding machine

Technical Field

The utility model relates to a deviation correcting device field indicates a deviation correcting device for garment materials compounding machine especially.

Background

The garment fabric needs to be fully flattened during rolling, unfolding or other operation steps so as to prevent lamination and avoid quality influence caused by unevenness. When the garment material is conveyed on the conveying roller, due to different tension of each part of the garment material and different friction force with the conveying roller, the speed of each position of the garment material is different in the contact process of the garment material and the conveying roller, and the deviation phenomenon is easy to occur.

Disclosure of Invention

In order to solve the problem, the utility model provides a deviation correcting device for garment materials compounding machine realizes automatic rectifying through determine module.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a deviation correcting device for garment materials compounding machine, includes control module, drive module, determine module, along cloth feeding flat roller assembly, the axle subassembly of rectifying and play flat roller assembly that garment materials direction of transfer set gradually, the garment materials that rectify between axle subassembly and the play cloth flat roller assembly passes through determine module and detects the offset through determine module, wherein drive module with rectify the axle subassembly drive and be connected to the drive is rectified the axle subassembly and is extended its axial direction and remove in order to realize rectifying, wherein control module respectively with drive module and determine module communication connection.

Furthermore, the detection assembly comprises a first detection plate arranged on the right side of the garment material and extending along the width direction of the garment material, and a second detection plate located on the left side of the garment material and extending along the width direction of the garment material, a cloth walking channel is arranged between the first detection plate and the second detection plate, a plurality of photoelectric transmitters are arranged on the first detection plate along the axial direction of the first detection plate, and a plurality of photoelectric receivers aligned with the photoelectric transmitters are arranged on the second detection plate along the axial direction of the second detection plate.

Further, still include bearing support, the bearing of rectifying, wherein the axle subassembly of rectifying includes that two that set up from top to bottom rectify the axle, and every both ends of rectifying the axle are assembled on bearing support through the bearing activity of rectifying respectively, and wherein drive module is including promoting the cylinder, should promote cylinder and bearing support drive connection to make two axle along self axial displacement of rectifying.

Furthermore, the number of the pushing cylinders is two, wherein the two pushing cylinders are respectively in driving connection with two sides of the bearing support, and the output ends of the two pushing cylinders alternately perform pushing-out actions.

Further, still include fixed bolster, push rod, wherein the both sides of fixed bolster all seted up with the axial same spout of rectifying a deviation, wherein the one end of push rod is provided with the slider and assembles on the spout through this slider, the other end and the bearing bracket of push rod are connected simultaneously, the output and the push rod drive of promotion cylinder are connected.

Furthermore, the lateral wall of rectifying the off-axis evenly is provided with a plurality of bumps.

Further, the cloth feeding and spreading roller assembly comprises a first driving motor, a second driving motor, a first synchronous belt, a second synchronous belt, a third synchronous belt, a first spreading roller, a second spreading roller and a third spreading roller; wherein first nip roll, second nip roll, third nip roll are arranged from top to bottom, and the second nip roll is located the right side of first nip roll and third nip roll, and wherein first driving motor drives first nip roll clockwise rotation through first synchronous belt, and second driving motor drives second nip roll counter-clockwise rotation through the synchronous belt of second, and is connected through the linkage of third synchronous belt between first nip roll and the third nip roll, third nip roll is along clockwise rotation.

Further, the first flattening roll, the second flattening roll and the third flattening roll have the same structure, wherein the circumferential surface of the first flattening roll is provided with a positive spiral groove and a negative spiral groove which is opposite to the rotation direction of the positive spiral groove, the number of the positive spiral groove and the number of the negative spiral groove are equal, the positive spiral groove and the negative spiral groove are symmetrical about the center of the flattening roll, and the positive spiral groove and the negative spiral groove are inclined towards the center of the flattening roll; wherein the junction of positive spiral groove and reverse spiral groove constitutes an arrow structure, and the arrow structure of first nip roll and third nip roll is towards the left side, and the arrow structure of second nip roll is towards the right.

The beneficial effects of the utility model reside in that:

1. the deviation of clothing material between axle and the advancing cloth exhibition plain-barreled roll is rectified in this application realization detection through determine module, after clothing material takes place the deviation, determine module will detect data (distance data) and send control module detection process, then control module then can calculate the direction of clothing material skew and the distance of skew, and then control module control drive module drive rectify the axle and prolong the corresponding direction removal in order to realize rectifying, overall structure is simple, and can realize automatic rectifying.

2. Be provided with first nip roll, second nip roll, third nip roll in this application, and every sets up positive spiral groove and anti-spiral groove for it paves to garment materials's quick expansion to advance the cloth nip roll, so that the processing on next step of garment materials of carrying on more rapidly.

3. The deviation correcting device is applied to a garment fabric compounding machine, can be used for flattening the garment fabric before compounding, and facilitates the compounding work of a next station; meanwhile, the key point of the deviation correcting device is to ensure that the garment material is conveyed in an accurate direction in the conveying process, and deviation correction can be realized after deviation occurs.

Drawings

Fig. 1 is a schematic structural diagram of the deviation rectifying device of the present application.

FIG. 2 is a schematic structural view of a deskew shaft assembly.

Fig. 3 is a schematic structural view of the first nip roll and the second nip roll.

Fig. 4 is a schematic view of the working principle of the first nip roll, the second nip roll and the third nip roll.

The reference numbers illustrate: the device comprises a first flattening roll 11, a positive spiral groove 111, a negative spiral groove 112, an arrow structure 113, a second flattening roll 12, a third flattening roll 13, a first driving motor 14, a second driving motor 15, a first synchronous belt 16, a third synchronous belt 17, a second synchronous belt 18, a deviation correcting shaft assembly 2, a deviation correcting shaft 21, a salient point 211, a bearing support 22, a pushing cylinder 23, a fixing support 24, a sliding chute 241, a push rod 25, a sliding block 251, a first detection plate 31, a photoelectric emitter 32, a second detection plate 33, a photoelectric receiver 34 and a cloth discharging flattening roll assembly 4.

Detailed Description

Please refer to fig. 1-4, the utility model discloses a deviation correcting device for garment materials compounding machine, including control module, drive module, detection module, cloth feeding and flattening roller assembly, deviation correcting shaft assembly 2 and cloth discharging and flattening roller assembly 4 that set gradually along garment materials direction of transfer, garment materials between deviation correcting shaft assembly 2 and the cloth discharging and flattening roller assembly 4 pass through detection module and detect the offset through detection module, wherein drive module and deviation correcting shaft assembly 2 drive connection to drive deviation correcting shaft assembly 2 and extend its axial direction and remove in order to realize rectifying, wherein control module respectively with drive module and detection module communication connection.

Realize detecting the offset of the garment materials between the axle 21 and the cloth feeding and spreading roller of rectifying through the determine module in this application, after garment materials takes place the offset, determine module will detect data (distance data) and send to control module detection and processing, then control module then can calculate the direction of garment materials skew and the distance of skew, and then control module control drive module drive rectify axle 21 and prolong the corresponding direction removal in order to realize rectifying, overall structure is simple, and can realize automatic rectifying.

The deviation correcting device is applied to a garment fabric compounding machine, can be used for flattening the garment fabric before compounding and is convenient for compounding work at a later station; meanwhile, the key point of the deviation correcting device is that the accurate direction transmission is kept in the transportation process of the garment material, and the deviation correction can be realized after deviation occurs.

Further, the detecting component comprises a first detecting plate 31 arranged on the right side of the garment material and extending along the width direction of the garment material, and a second detecting plate 33 located on the left side of the garment material and extending along the width direction of the garment material, a cloth feeding channel is arranged between the first detecting plate 31 and the second detecting plate 33, a plurality of photoelectric emitters 32 are arranged on the first detecting plate 31 along the axial direction of the first detecting plate, and a plurality of photoelectric receivers 34 aligned with the photoelectric emitters 32 are arranged on the second detecting plate 33 along the axial direction of the second detecting plate. In this embodiment, the plurality of photoelectric emitters 32 and the plurality of photoelectric receivers 34 are used to detect the position of the clothing material, and when the clothing material deviates to a certain direction, the photoelectric receivers 34 in the direction are shielded, so that the corresponding data can be transmitted to the control module, the control module can know the real-time position of the clothing material, and then the control module can drive the deviation rectifying shaft assembly 2 to move along the axial direction thereof according to the corresponding data to realize deviation rectification.

Further, still include bearing support 22, the bearing of rectifying, wherein the axle assembly 2 of rectifying includes that two set up about rectify the axle 21, and every both ends of rectifying axle 21 are assembled on bearing support 22 through the bearing activity of rectifying respectively, and wherein drive module is including promoting cylinder 23, should promote cylinder 23 and bearing support 22 drive connection to make two axle 21 of rectifying along self axial displacement. In this embodiment, two deviation correcting shafts 21 are arranged and then are tightly pressed with the garment material.

Further, the number of the pushing cylinders 23 is two, wherein the two pushing cylinders 23 are respectively in driving connection with two sides of the bearing support 22, and the output ends of the two pushing cylinders 23 perform an alternate pushing-out action. In order to guarantee the correction accuracy and the stress stability of the deviation correction shaft 21, two pushing cylinders 23 are arranged, one pushing cylinder 23 realizes pushing action, the other pushing cylinder 23 realizes pull-back operation, and therefore synchronous displacement action of the two deviation correction shafts 21 can be guaranteed.

Further, the device also comprises a fixed support 24 and a push rod 25, wherein both sides of the fixed support 24 are provided with sliding grooves 241 which are the same as the axial direction of the deviation rectifying shaft 21, one end of the push rod 25 is provided with a sliding block 251 and is assembled on the sliding groove 241 through the sliding block 251, the other end of the push rod 25 is connected with the bearing support 22, and the output end of the push cylinder 23 is in driving connection with the push rod 25. In order to facilitate the pushing or pulling action of the pushing cylinder 23, in the present embodiment, the deviation rectifying shaft 21 can be pushed or pulled more conveniently by the cooperation between the pushing rod 25 and the pushing cylinder 23.

Further, a plurality of convex points 211 are uniformly arranged on the outer side wall of the deviation rectifying shaft 21, and the two convex points 211 on the deviation rectifying shaft 21 can avoid the slipping between the deviation rectifying shaft 21 and the garment material, so that the deviation rectifying shaft 21 can be ensured to compress the garment material.

Further, the cloth feeding and spreading roller assembly comprises a first driving motor 14, a second driving motor 15, a first synchronous belt 16, a second synchronous belt 18, a third synchronous belt 17, a first spreading roller 11, a second spreading roller 12 and a third spreading roller 13; wherein first nip roll 11, second nip roll 12, third nip roll 13 are arranged from top to bottom, and second nip roll 12 is located the right side of first nip roll 11 and third nip roll 13, wherein first driving motor 14 drives first nip roll 11 clockwise rotation through first synchronous belt 16, and second driving motor 15 drives second nip roll 12 anticlockwise rotation through second synchronous belt 18, and passes through third synchronous belt 17 linkage connection between first nip roll 11 and the third nip roll 13, third nip roll 13 is along clockwise rotation.

Further, the first nip roll 11, the second nip roll 12 and the third nip roll 13 have the same structure, wherein the circumferential surface of the first nip roll 11 is provided with a forward spiral groove 111 and a reverse spiral groove 112 opposite to the rotation direction of the forward spiral groove 111, the number of the forward spiral groove 111 and the reverse spiral groove 112 is equal and symmetrical about the center of the nip roll, and the forward spiral groove 111 and the reverse spiral groove 112 are both inclined toward the center of the nip roll; the junction of the forward spiral groove 111 and the reverse spiral groove 112 forms an arrow structure 113, the arrow structures 113 of the first nip roll 11 and the third nip roll 13 face to the left, and the arrow structures 113 of the second nip roll 12 face to the right. The cloth feeding flattening rollers drive the garment fabric to be conveyed, and meanwhile, the garment fabric is flattened along two ends of each flattening roller through the forward spiral grooves 111 and the reverse spiral grooves 112 in each flattening roller, so that the wrinkling phenomenon of the roller surface when the roller surface is in contact with the garment fabric can be avoided.

The above embodiments are only described as preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (8)

1. The utility model provides a deviation correcting device for garment materials compounding machine which characterized in that: the cloth feeding and flattening roller assembly, the deviation rectifying shaft assembly and the cloth discharging and flattening roller assembly are sequentially arranged along the conveying direction of the garment material, the garment material between the deviation rectifying shaft assembly and the cloth discharging and flattening roller assembly passes through the detection assembly and detects the deviation through the detection assembly, the driving module is in driving connection with the deviation rectifying shaft assembly and drives the deviation rectifying shaft assembly to move along the axial direction of the deviation rectifying shaft assembly so as to realize deviation rectification, and the control module is in communication connection with the driving module and the detection assembly respectively.

2. The deviation rectifying device for the garment material compounding machine according to claim 1, characterized in that: the detection assembly comprises a first detection plate and a second detection plate, the first detection plate is arranged on the right side of the garment material and extends along the width direction of the garment material, the second detection plate is located on the left side of the garment material and extends along the width direction of the garment material, a cloth walking channel is arranged between the first detection plate and the second detection plate, a plurality of photoelectric transmitters are arranged on the first detection plate in the axial direction of the first detection plate, and a plurality of photoelectric receivers aligned with the photoelectric transmitters are arranged on the second detection plate in the axial direction of the second detection plate.

3. The deviation rectifying device for the garment material compounding machine according to claim 1, characterized in that: still include bearing support, the bearing of rectifying, wherein the axle subassembly of rectifying includes two axle of rectifying that set up from top to bottom, and every both ends of rectifying the axle are assembled on bearing support through the bearing activity of rectifying respectively, and wherein drive module is including promoting the cylinder, should promote the cylinder and be connected with the bearing support drive to make two axles of rectifying along self axial displacement.

4. The deviation rectifying device for a clothing material compounding machine as claimed in claim 3, wherein: the number of the pushing cylinders is two, wherein the two pushing cylinders are respectively in driving connection with two sides of the bearing support, and the output ends of the two pushing cylinders alternately perform pushing-out actions.

5. The deviation rectifying device for a clothing material compounding machine as claimed in claim 4, wherein: still include fixed bolster, push rod, wherein the both sides of fixed bolster all seted up with the same spout of the axle axial of rectifying, wherein the one end of push rod is provided with the slider and assembles on the spout through this slider, the other end and the bearing bracket connection of push rod simultaneously, the output and the push rod drive of promotion cylinder are connected.

6. The deviation rectifying device for a clothing material compounding machine as claimed in claim 3, wherein: the lateral wall of rectifying the off-axis evenly is provided with a plurality of bumps.

7. The deviation rectifying device for a garment material compounding machine as claimed in claim 1, wherein: the cloth feeding and spreading roller assembly comprises a first driving motor, a second driving motor, a first synchronous belt, a second synchronous belt, a third synchronous belt, a first spreading roller, a second spreading roller and a third spreading roller; wherein first nip roll, second nip roll, third nip roll are arranged from top to bottom, and the second nip roll is located the right side of first nip roll and third nip roll, and wherein first driving motor drives first nip roll clockwise rotation through first synchronous belt, and second driving motor drives second nip roll anticlockwise rotation through the synchronous belt of second, and is connected through the linkage of third synchronous belt between first nip roll and the third nip roll, third nip roll is along clockwise rotation.

8. The deviation rectifying device for a clothing material compounding machine as claimed in claim 7, wherein: the first flattening roll, the second flattening roll and the third flattening roll are identical in structure, wherein a positive spiral groove and a negative spiral groove opposite to the positive spiral groove in rotation direction are formed in the circumferential surface of the first flattening roll, the number of the positive spiral groove and the number of the negative spiral groove are equal, the positive spiral groove and the negative spiral groove are symmetrical about the center of the flattening roll, and the positive spiral groove and the negative spiral groove are inclined towards the center of the flattening roll; wherein the junction of positive spiral groove and reverse spiral groove constitutes an arrow structure, and the arrow structure of first nip roll and third nip roll is towards the left side, and the arrow structure of second nip roll is towards the right.

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