CN213804426U - Tension setting device for flannelette - Google Patents

Abstract

The utility model belongs to the technical field of weaving equipment and specifically relates to a tension setting device for cotton flannel is related to, including the frame, be equipped with tension assembly, correction subassembly and draw the material subassembly in proper order along cotton flannel direction of delivery in the frame, the correction subassembly includes a plurality of correction rollers that set up from top to bottom in turn, draws the material subassembly including drawing the material roller and setting up the nip roll on drawing the material roller. This application has the effect that improves the design quality of cotton flannel after high temperature treatment.

Description

Tension setting device for flannelette

Technical Field

The application relates to the field of textile equipment, in particular to a tension setting device for flannelette.

Background

The flannelette is a cotton fabric with a smooth and fluffy surface after napping, and more fluff is generated by a needle hole napping process on the surface of the fabric.

The prior flannelette needs to be ironed and shaped in the production process, water is sprinkled or the flannelette is padded with wet cloth during ironing, and the fibers are lubricated, expanded and stretched by utilizing the lubricating action of water molecules, enter a preset arrangement position quickly and are shaped under the action of heat.

In view of the above-mentioned related technologies, the inventors believe that the flannelette after high-temperature treatment is easy to shrink after the temperature is reduced, so as to generate deformation, thereby affecting the molding quality.

SUMMERY OF THE UTILITY MODEL

In order to improve the design quality of cotton flannel after high temperature treatment, this application provides a tension setting device for cotton flannel.

The application provides a tension setting device for flannelette adopts following technical scheme:

the utility model provides a tension setting device for cotton flannel, includes the frame, be equipped with tension subassembly, correction subassembly and draw the material subassembly in proper order along cotton flannel direction of delivery in the frame, correction subassembly includes a plurality of correction rollers that set up from top to bottom in turn, draw the material subassembly including drawing the material roller and setting up the nip roll on drawing the material roller.

Through adopting above-mentioned technical scheme, draw the material subassembly and pull the cotton flannel and carry forward, tension on the cotton flannel is adjusted to tension subassembly, makes the cotton flannel be in the tensioning state. The correcting rollers press the flannelette, and press and shape folds on the flannelette. This scheme can carry out physics to the cotton flannel after the high temperature treatment and press the design to make the cotton flannel obtain good design quality.

Optionally, the tension assembly includes a first tension roller and a second tension roller, the first tension roller is located above the second tension roller, and the second tension roller is close to the correcting assembly.

Through adopting above-mentioned technical scheme, the cotton flannel walks around first tension roller and second tension roller in proper order, removes second tension roller, adjusts the degree that second tension roller pressed the cotton flannel to adjust the tension on the cotton flannel.

Optionally, a sliding groove and a bearing seat sliding in the sliding groove are formed in the frame, and the second tension roller is arranged in the bearing seat in a penetrating mode.

Through adopting above-mentioned technical scheme, when adjusting the tension on the cotton flannel, make the bearing frame remove in the spout, can adjust the position of second tension roller to realize the regulation of tension on the cotton flannel.

Optionally, the bearing seat is connected with a movable screw through a thread, and the movable screw penetrates through the frame.

By adopting the technical scheme, the movable screw rod is rotated, the movable screw rod rotates on the bearing seat, and the movable screw rod enables the bearing seat to move upwards or downwards, so that the position of the bearing seat is adjusted, namely the position of the second tension roller is adjusted.

Optionally, a flattening roller is further arranged between the tension assembly and the straightening assembly, and a flattening groove is formed in the flattening roller.

By adopting the technical scheme, the flannelette after the tension adjustment is flattened by the flattening roller, and the wrinkles on the surface of the flannelette are flattened.

Optionally, the flattening grooves are symmetrically arranged about the cross section of the middle part of the flattening roll.

By adopting the technical scheme, the flattening grooves exert transverse flattening force on the flannelette, and the flattening grooves are flattened from the middle part of the flannelette to the two ends.

Optionally, the material pulling assembly comprises a pair of support plates fixed on the frame, and the material pulling roller and the material pressing roller are both located between the pair of support plates; and each supporting plate is provided with a pressing mechanism for applying pressure to the material pressing roller.

By adopting the technical scheme, the flannelette is pressed on the pulling roll by the pressing roll, the pulling roll rotates, and the pulling roll drives the flannelette to be conveyed forwards through friction force.

Optionally, a rubber blanket is sleeved on the pulling roller.

Through adopting above-mentioned technical scheme, the rubber cloth further increases the frictional force between pulling material roller and the cotton flannel, reduces the condition of skidding, is convenient for pull the cotton flannel.

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

1. through the arrangement of the flattening rollers and the plurality of correction rollers, the flattening rollers apply transverse flattening force to the flannelette to flatten transverse wrinkles of the flannelette, and the plurality of correction rollers flatten longitudinal wrinkles of the flannelette, so that the tension shaping of the flannelette is realized;

2. through the setting of tension assembly, the cotton flannel walks around first tension roller and second tension roller in proper order, removes the second tension roller, adjusts the degree that the cotton flannel was pressed to the second tension roller to adjust the tension on the cotton flannel.

Drawings

Fig. 1 is an overall schematic view of a tension setting device for lint 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 tension assembly; 3. flattening rollers; 4. a corrective component; 5. pulling the material assembly; 6. a hold-down mechanism; 11. a vertical plate; 12. a chute; 21. a first tension roller; 22. a second tension roller; 23. a bearing seat; 24. connecting angle plates; 241. a horizontal portion; 2411. a first threaded hole; 242. a vertical portion; 25. abutting against the angle plate; 26. moving the screw; 27. an abutment spring; 31. flattening the groove; 41. a leveling roller; 51. a support plate; 52. pulling a material roller; 521. a blanket; 53. a nip roll; 54. a bearing end mount; 55. a sliding groove; 56. a drive motor; 61. a support block; 611. a second threaded hole; 62. a hold down bar; 63. compressing the spring.

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 for flannelette. Referring to fig. 1, the tension setting device for flannelette comprises a frame 1, wherein the frame 1 comprises a pair of vertical plates 11, a tension assembly 2, a correction assembly 4 and a pulling assembly 5 are sequentially arranged on the frame 1 along the flannelette conveying direction, and the tension assembly 2, the correction assembly 4 and the pulling assembly 5 are all located between the vertical plates 11. Wherein, draw material subassembly 5 pulling cotton flannel and carry forward, tension on the cotton flannel is adjusted to tension subassembly 2, makes the cotton flannel be in tension state, and correction subassembly 4 presses the flattening to the fold on the cotton flannel to reach the effect of stereotyping.

Referring to fig. 1, the tension assembly 2 includes a first tension roller 21 and a second tension roller 22, the first tension roller 21 being positioned above the second tension roller 22, the second tension roller 22 being disposed adjacent to the correcting assembly 4. Two ends of the first tension roller 21 are respectively arranged on the corresponding vertical plates 11 in a penetrating way, the second tension roller 22 can move on the machine frame 1, and the surfaces of the first tension roller 21 and the second tension roller 22 are smooth. When the tension of the flannelette is adjusted, the flannelette sequentially rounds a first tension roller 21 and a second tension roller 22 from top to bottom, the flannelette is arranged in a Z shape in a penetrating mode, and the second tension roller 22 moves up and down to adjust the tension of the flannelette.

Referring to fig. 1 and 2, each vertical plate 11 has a sliding slot 12 at a position close to the second tension roller 22, each vertical plate 11 is further provided with a bearing seat 23 capable of sliding in the sliding slot 12, two ends of the second tension roller 22 are inserted into the corresponding bearing seats 23, and the second tension roller 22 can move up and down by the vertical sliding of the bearing seats 23.

Referring to fig. 2, each bearing support 23 is provided with a connection angle plate 24, and each connection angle plate 24 is arranged on the side wall of the bearing support 23 facing away from the second tension roller 22. The connection gusset 24 includes a vertical portion 242 and a horizontal portion 241, the vertical portion 242 being welded to a side wall of the corresponding bearing housing 23, and the horizontal portion 241 being provided with a first screw hole 2411. The outer side wall of each vertical plate 11 is provided with a butt angle plate 25 corresponding to the connecting angle plate 24, the butt angle plate 25 is arranged below the corresponding connecting angle plate 24, and each butt angle plate 25 is provided with a through hole. A moving screw 26 is further arranged between each bearing seat 23 and the vertical plate 11, the top of the moving screw 26 penetrates through the first threaded hole 2411 and is connected to the connection angle plate 24 in a threaded manner, the bottom of the moving screw 26 penetrates through a through hole on the abutting angle plate 25, and the bottom of the moving screw 26 abuts against the bottom of the abutting angle plate 25. The movable screw 26 is fitted with an abutment spring 27, the tip of the abutment spring 27 abuts against the bottom of the connection gusset 24, and the bottom of the abutment spring 27 abuts against the top of the abutment gusset 25. When the position of the second tension roller 22 is adjusted, the movable screw 26 is rotated, the connecting angle plate 24 is lifted or lowered under the action of the movable screw, and the bearing seat 23 is lifted or lowered along with the connecting angle plate 24, so that the position of the second tension roller 22 is adjusted.

Referring to fig. 1 and 3, a flattening roller 3 is further arranged between the tension assembly 2 and the straightening assembly 4, and the flattening roller 3 can flatten wrinkles on the flannelette. Specifically, the two ends of the flattening roller 3 are respectively penetrated through the corresponding vertical plates 11 through bearings, the circumferential outer surface of the flattening roller 3 is provided with a flattening groove 31, the flattening groove 31 extends from one end of the flattening roller 3 to the other end, the flattening groove 31 is spirally arranged, and the flattening groove 31 is symmetrically arranged relative to the cross section of the middle part of the flattening roller 3. When the flattening roller 3 flattens the flannelette, the edge of the flattening groove 31 applies horizontal flattening force to the two ends of the flannelette, so that the folds on the flannelette are flattened.

Referring to fig. 1, the correcting assembly 4 includes a plurality of correcting rollers 41, the plurality of correcting rollers 41 are alternately arranged up and down, the surface of each correcting roller 41 is smooth, and both ends of each correcting roller 41 are respectively arranged on the corresponding vertical plate 11 through bearings. When the flannelette passes through the correcting component 4, the correcting rollers 41 roll, and when the correcting rollers 41 roll, the flattened flannelette is pressed, so that the wrinkle part in the flannelette is soft, and the wrinkle part in the flannelette is not wrinkled, thereby achieving the shaping effect.

Referring to fig. 1, the material pulling assembly 5 includes a pair of support plates 51, a material pulling roller 52 and a material pressing roller 53 located above the material pulling roller 52 are further disposed between the pair of support plates 51, each support plate 51 is fixed on the corresponding vertical plate 11 through a bolt, during material pulling, the flannelette is inserted between the material pulling roller 52 and the material pressing roller 53, the material pulling roller 52 rotates, and the flannelette is conveyed forward by using friction force. Specifically, both ends of the pulling roll 52 are respectively penetrated through the corresponding supporting plate 51 through bearings, one end of the pulling roll 52 extends out of the corresponding supporting plate 51 and is connected with a driving motor 56, and the driving motor 56 is fixed on the side wall of the corresponding supporting plate 51. The material pulling roller 52 is sleeved with a rubber blanket 521 to increase the friction force between the material pulling roller 52 and the flannelette, so that the material pulling is facilitated.

Referring to fig. 4, each support plate 51 is provided with a pressing mechanism 6, and the pressing mechanism 6 applies pressure to the nip roller 53, so that the nip roller 53 presses the lint on the pulling roller 52, and the friction between the lint and the pulling roller 52 is increased, thereby facilitating the transportation of the lint. Specifically, each support plate 51 is provided with a sliding groove 55 with an upward opening, a bearing end seat 54 is arranged in each sliding groove 55, and two ends of the nip roll 53 are respectively arranged in the corresponding bearing end seats 54 in a penetrating manner. The pressing mechanism 6 includes a supporting block 61 disposed on the supporting plate 51, the supporting block 61 is located above the corresponding sliding groove 55, a second threaded hole 611 communicated with the sliding groove 55 is formed in the supporting block 61, a pressing rod 62 is further disposed on the supporting block 61, the pressing rod 62 is connected with the second threaded hole 611 through a thread, the bottom of the pressing rod 62 extends into the sliding groove 55, a pressing spring 63 is further disposed between the pressing rod 62 and the corresponding bearing end seat 54, the top of the pressing spring 63 abuts against the bottom of the corresponding pressing rod 62, and the bottom of the pressing spring 63 abuts against the corresponding bearing end seat 54. When the lint is pressed, the pressing rod 62 is rotated, the bottom of the pressing rod 62 moves downward, the pressing spring 63 compresses, and the pressing spring 63 applies downward pressure to the bearing end seat 54, so that the pressure roller 53 presses the lint against the pull roller 52.

The implementation principle of the embodiment is as follows: the pressing rod 62 is rotated to enable the material pressing roller 53 to press the flannelette on the material pulling roller 52, the driving motor 56 is started, the driving motor 56 drives the material pulling roller 52 to rotate, and the material pulling roller 52 conveys the flannelette forwards through friction force. When the flannelette passes through the tension assembly 2, the flannelette sequentially rounds the first tension roller 21 and the second tension roller 22, and the position of the second tension roller 22 is adjusted to adjust the tension on the flannelette and straighten longitudinal wrinkles on the flannelette. When the flannelette passes through the flattening roller 3, the flattening roller 3 flattens the transverse fold of the flannelette, the flattened flannelette passes through the correcting component 4, the plurality of correcting rollers 41 press the flannelette, and the fold position on the flannelette is pressed to be loosened, so that the fold position is not folded, and the effect of setting the tension is achieved.

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 for flannelette which characterized in that: the automatic material pulling machine comprises a frame (1), wherein a tension component (2), a correcting component (4) and a material pulling component (5) are sequentially arranged on the frame (1) along the flannelette conveying direction, the correcting component (4) comprises a plurality of correcting rollers (41) which are alternately arranged from top to bottom, and the material pulling component (5) comprises a material pulling roller (52) and a material pressing roller (53) arranged on the material pulling roller (52).

2. A tension setting device for lint as claimed in claim 1, wherein: the tension assembly (2) comprises a first tension roller (21) and a second tension roller (22), the first tension roller (21) is located above the second tension roller (22), and the second tension roller (22) is close to the correcting assembly (4).

3. A tension setting device for lint as claimed in claim 2, wherein: the frame (1) is provided with a sliding chute (12) and a bearing seat (23) sliding in the sliding chute (12), and the second tension roller (22) is arranged in the bearing seat (23) in a penetrating mode.

4. A tension setting device for lint as claimed in claim 3, wherein: the bearing seat (23) is connected with a movable screw rod (26) through threads, and the movable screw rod (26) penetrates through the rack (1).

5. A tension setting device for lint as claimed in claim 1, wherein: still be equipped with nip roll (3) between tension component (2) and correction component (4), be equipped with flat recess (31) of exhibition on nip roll (3).

6. A tension setting device for flannelette according to claim 5, wherein: the flattening grooves (31) are symmetrically arranged relative to the cross section of the middle part of the flattening roller (3).

7. A tension setting device for lint as claimed in claim 1, wherein: the material pulling assembly (5) comprises a pair of supporting plates (51) fixed on the rack (1), and the material pulling roller (52) and the material pressing roller (53) are both positioned between the pair of supporting plates (51); and each supporting plate (51) is provided with a pressing mechanism (6) for applying pressure to the nip roll (53).

8. A tension setting device for lint as claimed in claim 1, wherein: the material pulling roller (52) is sleeved with a rubber blanket (521).

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