CN213804425U - Tension setting device capable of achieving rapid cooling - Google Patents

Abstract

The application relates to the field of textile equipment, in particular to a tension shaping device capable of quickly cooling, which comprises a rack, wherein a cooling assembly, a first material pulling assembly, a tension assembly and a second material pulling assembly are sequentially arranged on the rack along the cloth conveying direction, the cooling assembly comprises a first supporting roller and a second supporting roller, and a blowing pipe is arranged between the first supporting roller and the second supporting roller; the tension assembly comprises a first tension roller and a second tension roller, and a movable adjusting tension roller is arranged between the first tension roller and the second tension roller. This application has the effect that can stereotype to the cloth after the high temperature treatment.

Description

Tension setting device capable of achieving rapid cooling

Technical Field

The application relates to the field of textile equipment, in particular to a tension setting device capable of quickly cooling.

Background

In the processing process of the cloth, ironing treatment is a common cloth processing procedure and mainly solves the problems of shrinkage prevention and wrinkle resistance on the cloth.

The existing cloth processing process needs ironing and shaping, water is sprinkled or wet cloth is padded on the cloth during ironing, so that the cloth is lubricated, expanded and stretched by an ironing piece and water molecules, enters a preset arrangement position quickly, is shaped under the action of heat, and is then subjected to tension treatment and rolling.

In view of the above-mentioned related art, the inventors have considered that the temperature of the fabric after the high-temperature treatment is high, and that the setting effect can be achieved in a short time after the tension treatment, but the fabric shrinks after the temperature is reduced, and the setting is unstable.

SUMMERY OF THE UTILITY MODEL

In order to finalize the design to the cloth after the high temperature treatment, the application provides a tension setting device of rapid cooling.

The application provides a pair of tension setting device of rapid cooling adopts following technical scheme:

a tension shaping device capable of quickly cooling comprises a rack, wherein a cooling assembly, a first material pulling assembly, a tension assembly and a second material pulling assembly are sequentially arranged on the rack along a cloth conveying direction, the cooling assembly comprises a first supporting roller and a second supporting roller, and a blowing pipe is arranged between the first supporting roller and the second supporting roller; the tension assembly comprises a first tension roller and a second tension roller, and a movable adjusting tension roller is arranged between the first tension roller and the second tension roller.

Through adopting above-mentioned technical scheme, first drawing material subassembly pulling cloth, the cloth is when the cooling subassembly, and the blowing pipe is bloied the cloth to the realization is to the cooling of cloth. The cloth after the cooling is pulled by the second material pulling assembly, the cloth passes through the tension assembly, the cloth is Z-shaped and sequentially passes through the first tension roller, the adjusting tension roller and the second tension roller, and the adjusting tension roller is moved to adjust the tension on the cloth. Through the cooling treatment of the cooling assembly and the tension adjustment of the tension assembly, the tension setting of the cloth is realized.

Optionally, a plurality of blowing holes are arranged on the blowing pipe, and the plurality of blowing holes are arranged side by side along the length direction of the blowing pipe.

Through adopting above-mentioned technical scheme, wind blows out from a plurality of wind eyes of blowing pipe, will blow even the arranging of eye on the blowing pipe, can blow off wind evenly, makes cloth homogeneous cooling everywhere.

Optionally, the two blowing pipes are in a group, and two blowing pipes in each group are arranged in an up-and-down symmetrical manner with respect to the cloth.

Through adopting above-mentioned technical scheme, blow simultaneously the top and the below of cloth, can be comparatively even cool down the processing to the cloth.

Optionally, the first material pulling assembly comprises a pair of supporting plates, a material pulling roller and a material pressing roller are arranged between the supporting plates, and the material pressing roller is located above the material pulling roller.

By adopting the technical scheme, the cloth is arranged between the material pressing roller and the material pulling roller in a penetrating mode, the material pressing roller presses the cloth on the material pulling roller, the friction force between the material pulling roller and the cloth is increased, the material pulling roller rotates, and the cloth is conveyed.

Optionally, each of the support plates is provided with a pressing mechanism, and the pressing mechanism pushes the material pressing roller to the material pulling roller.

By adopting the technical scheme, the pressing mechanism applies pressure to the material pressing roller, so that the material pressing roller presses the cloth on the material pulling roller.

Optionally, a flattening roller is further arranged between the first pulling component and the tension component, and a flattening groove is formed in the flattening roller.

Through adopting above-mentioned technical scheme, the edge of flattening recess exerts the flat power of flattening of level to the cloth to realize that the nip roll flattens the fold on the cloth.

Optionally, the rack includes a pair of vertically arranged vertical plates, a moving assembly is disposed at a position of each vertical plate close to the tension adjusting roller, each moving assembly includes a moving groove disposed on the corresponding vertical plate and a moving bearing seat disposed in the moving groove, and two ends of the tension adjusting roller are respectively inserted into the corresponding moving bearing seats.

Through adopting above-mentioned technical scheme, when needs carry out tension to the cloth and adjust, will remove the bearing frame and slide in the shifting chute, remove the bearing frame and drive and adjust the tension roller and remove, adjust the tension roller pulling cloth to realize the regulation of tension on the cloth.

Optionally, each movable bearing seat is provided with a connecting angle plate, the vertical plate is provided with a movable screw rod at a position close to the corresponding movable groove, a first end of the movable screw rod is in threaded connection with the connecting angle plate, and a second end of the movable screw rod is abutted to the vertical plate.

Through adopting above-mentioned technical scheme, rotatory removal screw rod, removal screw rod passes through the screw thread effect and drives the connection scute and rise or descend to the removal of realization regulation tension roller.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cooling assembly is arranged between the tension assemblies and is used for cooling the cloth before the cloth is subjected to tension setting, so that the cloth is cooled, the condition that the tension of the tension assemblies is adjusted and then is cooled and shrunk is reduced, and the setting effect is improved;

2. through set up the nip roll before tension assembly, the edge of flat recess of exhibition applys the flat power of level to the cloth to realize that the nip roll is flat with the fold exhibition on the cloth, reduce the condition of cloth surface fold, improve the cloth design effect.

Drawings

Fig. 1 is an overall schematic view of a rapid cooling tension setting device according to an embodiment of the present application;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic structural view of a nip roll;

fig. 4 is an enlarged view at B in fig. 1.

Description of reference numerals: 1. a frame; 2. a cooling assembly; 3. a first pulling assembly; 4. flattening rollers; 5. a tension assembly; 6. a second pulling assembly; 11. a vertical plate; 21. a first support roller; 22. a second support roller; 23. a blowpipe; 231. blowing eyes; 24. an upper horizontal pipe; 25. a lower transverse pipe; 26. a blower; 31. a support plate; 311. a chute; 312. a sliding bearing seat; 32. a nip roll; 33. pulling a material roller; 34. a drive motor; 35. a hold-down mechanism; 351. a horizontal bar; 352. a threaded hole; 353. abutting against the screw; 354. an abutment spring; 41. flattening the groove; 51. a first tension roller; 52. a second tension roller; 53. adjusting the tension roller; 54. a moving assembly; 541. a moving groove; 542. moving the bearing seat; 543. connecting angle plates; 544. abutting against the angle plate; 545. moving the screw; 546. the spring is pressed tightly.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses tension setting device of rapid cooling. Referring to fig. 1, the tension setting device includes frame 1, and frame 1 includes a pair of vertical riser 11 of vertical setting, is equipped with cooling module 2, first drawing material subassembly 3, tension module 5 and second drawing material subassembly 6 along cloth direction of delivery between a pair of riser 11 in proper order. Wherein, first drawing material subassembly 3 pulling cloth through cooling subassembly 2, cooling subassembly 2 cools down the cloth after the high temperature treatment, and the second draws material subassembly 6 pulling cloth through tension assembly 5, and tension on the cloth is adjusted to tension assembly 5, carries out leveling to the cloth.

Referring to fig. 1, cooling assembly 2 includes first backup roll 21 and second backup roll 22, and first backup roll 21 and the equal level setting of second backup roll 22, first backup roll 21 and second backup roll 22 set gradually along cloth direction of delivery, and first backup roll 21 and second backup roll 22's both ends are all worn to establish on the lateral wall that corresponds riser 11 through the bearing, and the cloth is carried forward on first backup roll 21 and second backup roll 22.

Referring to fig. 1, a plurality of blowpipes 23 are provided between the first support roller 21 and the second support roller 22, two blowpipes 23 are provided in one set, the two blowpipes 23 in each set are provided vertically symmetrically with respect to the cloth, and the blowpipes 23 of the plurality of sets are provided side by side in the cloth conveying direction. A plurality of blowing holes 231 are formed in each blowing pipe 23, and the blowing holes 231 are arranged side by side along the length direction of the blowing pipe 23. Each blowpipe 23 is arranged horizontally, and both ends of each blowpipe 23 are arranged on the opposite vertical plates 11 in a penetrating manner.

Referring to fig. 1, an upper horizontal pipe 24 and a lower horizontal pipe 25 are arranged on the outer side wall of one of the vertical plates 11, the upper horizontal pipe 24 is located above the fabric, the lower horizontal pipe 25 is located below the fabric, one ends of the plurality of blowpipes 23 located above the fabric, which are close to the upper horizontal pipe 24, pass through the corresponding vertical plate 11 and communicate with the upper horizontal pipe 24, one ends of the plurality of blowpipes 23 located below the fabric, which are close to the lower horizontal pipe 25, pass through the corresponding vertical plate 11 and communicate with the lower horizontal pipe 25, the upper horizontal pipe 24 and the lower horizontal pipe 25 are connected along the tail end of the fabric conveying direction, and a blower 26 is arranged at the tail end of the upper horizontal pipe 24 connected. When the cloth is cooled, the blower 26 blows air into the upper horizontal tube 24 and the lower horizontal tube 25 respectively, the air is blown out from the blowing holes 231 of the blowing tubes 23, and the air flow blows and hits the cloth, so that the cooling treatment of the cloth is realized.

Referring to fig. 1 and 2, the first pulling assembly 3 and the second pulling assembly 6 have the same structure, and the first pulling assembly 3 is taken as an example. The first material pulling assembly 3 comprises a pair of supporting plates 31, and each supporting plate 31 is fixed on the corresponding vertical plate 11 through a bolt. A nip roll 32 and a pulling roll 33 are sequentially arranged between the pair of supporting plates 31 from top to bottom, cloth is arranged between the nip roll 32 and the pulling roll 33 in a penetrating manner, two ends of the pulling roll 33 are arranged on the corresponding supporting plates 31 in a penetrating manner through bearings, one end of the pulling roll 33 penetrates through the corresponding supporting plate 31 and is connected with a driving motor 34, and the driving motor 34 is fixed on the side wall of the corresponding supporting plate 31. Each support plate 31 is provided with a sliding groove 311 with an upward opening and a sliding bearing seat 312 sliding in the sliding groove 311, two ends of each nip roll 32 are respectively arranged in the corresponding sliding bearing seats 312 in a penetrating manner, and the distance between the nip roll 32 and the pulling roll 33 can be adjusted by the sliding bearing seats 312 sliding up and down in the sliding groove 311.

Referring to fig. 2, each supporting plate 31 is provided with a pressing mechanism 35, and each pressing mechanism 35 applies downward pressure to the nip roll 32, so that the nip roll 32 presses the cloth against the pulling roll 33. Hold-down mechanism 35 is including fixing the horizontal bar 351 at the support plate 31 top, offers the communicating screw hole 352 with spout 311 on the horizontal bar 351, wears to be equipped with butt screw 353 on the horizontal bar 351, and butt screw 353 and screw hole 352 are with threaded connection, and the bottom of butt screw 353 stretches into in the spout 311. An abutting spring 354 is arranged between the abutting screw 353 and the corresponding sliding bearing seat 312, the top of the abutting spring 354 abuts against the bottom of the abutting screw 353, and the bottom of the abutting spring 354 abuts against the top of the corresponding sliding bearing seat 312.

Referring to fig. 1 and 3, a flattening roller 4 is further arranged between the first material pulling assembly 3 and the tension assembly 5, two ends of the flattening roller 4 are respectively arranged on the corresponding vertical plates 11 in a penetrating manner through bearings, a flattening groove 41 is formed in the flattening roller 4, and the edge of the flattening groove 41 can apply horizontal flattening force to the cloth, so that the cloth passing through the flattening roller 4 is flattened.

Referring to fig. 1, the tension assembly 5 includes a first tension roller 51 and a second tension roller 52 located below the first tension roller 51, the first tension roller 51 and the second tension roller 52 are both horizontally disposed, and both ends of the first tension roller 51 and the second tension roller 52 are respectively penetrated on the corresponding vertical plate 11 through bearings.

Referring to fig. 1 and 4, a movable position adjusting tension roller 53 is further provided between the first tension roller 51 and the second tension roller 52. Specifically, the position of the outer side wall of each vertical plate 11 close to the tension adjusting roller 53 is further provided with a moving assembly 54, the moving assembly 54 comprises a moving groove 541 formed in the outer side wall of the vertical plate 11 and a moving bearing seat 542 sliding in the moving groove 541, two ends of the tension adjusting roller 53 are respectively arranged in the corresponding moving bearing seats 542 in a penetrating manner, and the position of the tension adjusting roller 53 can be adjusted by adjusting the position of the moving bearing seat 542. A connecting angle plate 543 is further welded on the outer side wall of each movable bearing seat 542, the connecting angle plate 543 is bent, a supporting angle plate 544 corresponding to the connecting angle plate 543 is further welded on each vertical plate 11, and the supporting angle plate 544 is close to the bottom of the movable groove 541. The connection angle plate 543 is provided with a threaded connection hole, the abutting angle plate 544 is provided with a through hole, the vertical plate 11 is further provided with a moving screw 545 at a position close to the corresponding moving groove 541, a first end of the moving screw 545 penetrates through the connection angle plate 543, the moving screw 545 is in threaded connection with the threaded connection hole, and a second end of the moving screw 545 penetrates through the through hole of the abutting angle plate 544 and abuts against the bottom of the abutting angle plate 544. The moving screw 545 is further sleeved with a pressing spring 546, the top of the pressing spring 546 abuts against the bottom of the connecting angle plate 543, and the bottom of the pressing spring 546 abuts against the top of the abutting angle plate 544. By rotating the moving screw 545, the connecting angle plate 543 moves on the moving screw 545, and the connecting angle plate 543 moves upward or downward, thereby moving the tension adjusting roller 53.

The implementation principle of the embodiment is as follows: the first material pulling assembly 3 pulls the cloth to be conveyed forwards, and the cloth passes through the cooling assembly 2. When the temperature is reduced, the blower 26 is started, the air blown from the blower 26 flows along the upper horizontal pipe 24 and the lower horizontal pipe 25, and is blown out from the blowing holes 231 of the blowing pipes 23, and the air is blown onto the fabric from above and below the fabric, so that the fabric is cooled. The cooled cloth passes through the flattening roller 4, and the folds on the cloth are flattened by the flattening grooves 41. The second material pulling assembly 6 pulls the flattened cloth, the cloth passes through the first tension roller 51, the adjusting tension roller 53 and the second tension roller 52 in sequence, the adjusting tension roller 53 is moved, and the tension on the cloth is adjusted to a proper degree, so that the tension setting of the cloth is realized.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a tension setting device of rapid cooling which characterized in that: the cloth cooling device comprises a rack (1), wherein a cooling assembly (2), a first pulling assembly (3), a tension assembly (5) and a second pulling assembly (6) are sequentially arranged on the rack (1) along the cloth conveying direction, the cooling assembly (2) comprises a first supporting roller (21) and a second supporting roller (22), and a blowing pipe (23) is arranged between the first supporting roller (21) and the second supporting roller (22); the tension assembly (5) comprises a first tension roller (51) and a second tension roller (52), and a movable adjusting tension roller (53) is arranged between the first tension roller (51) and the second tension roller (52).

2. A rapid cooling tension setting device as defined in claim 1, wherein: the blowing pipe (23) is provided with a plurality of blowing holes (231), and the blowing holes (231) are arranged side by side along the length direction of the blowing pipe (23).

3. A rapid cooling tension setting device as defined in claim 1, wherein: the two air blowing pipes (23) are in one group, and the two air blowing pipes (23) in each group are arranged in an up-and-down symmetrical mode relative to the cloth.

4. A rapid cooling tension setting device as defined in claim 1, wherein: the first material pulling assembly (3) comprises a pair of supporting plates (31), a material pulling roller (33) and a material pressing roller (32) are arranged between the supporting plates (31), and the material pressing roller (32) is located above the material pulling roller (33).

5. A rapid cooling tension setting device as defined in claim 4, wherein: each supporting plate (31) is provided with a pressing mechanism (35), and the pressing mechanism (35) enables the material pressing roller (32) to be abutted to the material pulling roller (33).

6. A rapid cooling tension setting device as defined in claim 1, wherein: still be equipped with nip roll (4) between first drawing material subassembly (3) and tension component (5), be equipped with on nip roll (4) and flatten recess (41).

7. A rapid cooling tension setting device as defined in claim 1, wherein: the frame (1) includes a pair of vertical board (11) of vertical setting, each the position that vertical board (11) is close to regulation tension roller (53) all is equipped with removal subassembly (54), each removal subassembly (54) all including setting up shifting chute (541) on corresponding vertical board (11) and setting up shifting bearing seat (542) in shifting chute (541), the both ends of adjusting tension roller (53) are worn to establish respectively in corresponding shifting bearing seat (542).

8. A rapid cooling tension setting device as in claim 7, wherein: each movable bearing seat (542) is provided with a connecting angle plate (543), the position of the vertical plate (11) close to the corresponding movable groove (541) is provided with a movable screw (545), the first end of the movable screw (545) is in threaded connection with the connecting angle plate (543), and the second end of the movable screw (545) is abutted to the vertical plate (11).

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