CN221320370U - Brushing device for textile fabrics - Google Patents

Abstract

The application relates to a brushing device for textiles, which comprises a machine body and a brushing roller, wherein the brushing roller is rotationally connected with the machine body and is arranged on the feeding side of the machine body, the machine body is connected with a beating assembly, the beating assembly is used for beating the textiles and is arranged on the discharging side of the machine body, an air suction assembly is arranged below the beating assembly, and the air suction assembly is used for sucking the textiles. The application has the following effects: the broken velvet attached to the surface of the fabric can be reduced, so that the quality of the fabric is improved.

Description

Brushing device for textile fabrics

Technical Field

The application relates to the field of brushing machines, in particular to a brushing device for textiles.

Background

Currently, brushing machines are generally referred to as devices for processing textiles. In the textile industry, brushing machines are mainly used for surface treatment of fabrics, in which the fibres on the surface of the fabric are raised by means of rotating brush wheels or rollers, so that a soft fluffy effect is obtained. The treatment can improve the hand feeling and the appearance of the fabric, so that the fabric is more suitable for manufacturing clothes, bedclothes and the like. Brushing machines are widely used in textile processing plants and in the clothing manufacturing industry.

In a cloth brushing machine, the treated fabric surface becomes soft and comfortable, and the three-dimensional sense and the touch feeling of the fabric are increased. The treatment method can be applied to various fabrics made of different materials, including cotton, wool, terylene and the like.

The utility model of China with the application number of CN202320664156.4 discloses a plush fabric brushing machine, which comprises a workbench, wherein a through groove is formed in the top of the workbench, a driving roller is arranged at the upper end of an inner cavity of the through groove, the right end of the driving roller is movably connected with the inner wall of the workbench through a bearing, a brushing disc is fixedly connected to the surface of the driving roller, the top of the brushing disc extends to the inner cavity of the through groove and is movably connected with the inner cavity of the through groove, and a scraping plate is fixedly connected to the upper end of the inner cavity of the workbench; according to the utility model, the scraping plate is arranged, so that the effect of cleaning the broken velvet attached to the surface of the bristle disc is achieved, the bristle disc can be cleaned effectively, the broken velvet attached to the surface of the bristle disc is prevented from affecting the bristle operation of cloth, and the working efficiency of the bristle operation is effectively improved.

When the brushing machine is used for brushing the fabric, the fibers on the surface of the fabric can be erected and brushed out of the flock attached to the surface of the fabric, but part of the flock can be adsorbed to the surface of the fabric again, so that the quality of the fabric is affected.

Disclosure of utility model

In order to reduce the broken down attached to the surface of the fabric and to improve the quality of the fabric, the application provides a brushing device for the fabric.

The application provides a brushing device for textile fabrics, which adopts the following technical scheme:

The utility model provides a brushing device for fabric, includes organism and brushing roller, brushing roller with the organism rotate be connected and set up in the feed side of organism, the organism is connected with and beats the subassembly, beat the subassembly be used for beating the fabric and set up in the ejection of compact side of organism, beat the subassembly below be provided with the subassembly that induced drafts, the subassembly that induced drafts is used for the fabric to induced draft.

Through adopting above-mentioned technical scheme, after the fabric gets into the organism, the brush hair roller carries out the brush hair to the fabric, can stand up the fibre on fabric surface, and the fabric is carried to the subassembly department of patting after the brush hair, and the subassembly of patting can patting the fabric, can be with adsorbing the partial broken string and the impurity of fabric surface and patting down, and the subassembly of induced drafting can absorb broken string and impurity, and the fabric after patting exports from the organism to this reducible broken string that adheres to on fabric surface, and then improves fabric quality.

Preferably, the beating component comprises a driving piece, a rotating rod and a plurality of beating rollers, the length direction of the rotating rod is consistent with the width direction of the fabric, the driving piece is connected with the rotating rod, the driving piece is used for driving the rotating rod to rotate, the length direction of each beating roller is consistent with the length direction of the rotating rod, the beating rollers are distributed along the circumference of the rotating rod at equal angular intervals, a disc is sleeved on the rotating rod, and each beating roller is connected with the disc.

Through adopting above-mentioned technical scheme, the driving piece drive dwang rotates, and the dwang drives each and beats the roller and rotate, and each beats the roller and in order to beat the fabric surface with this, and each beats the roller and is connected with the dwang through the disc, can improve the connection stability of beating roller and dwang to this can improve the efficiency that the roller was beaten to the beating fabric.

Preferably, the rotating rod is provided with a first inner cavity, the beating roller is provided with a second inner cavity, the first inner cavity is communicated with the second inner cavity through a gas pipe, the beating roller is provided with a plurality of gas outlet holes, the gas outlet holes are communicated with the second inner cavity, the gas outlet holes are uniformly distributed at intervals along the length direction of the beating roller, and the first inner cavity is communicated with an air supply pump.

Through adopting above-mentioned technical scheme, the air feed pump is to the air feed in the first inner chamber, and the gas in the first inner chamber is through gas-supply pipe input second inner chamber, and the gas in the second inner chamber can be through each venthole output to this can make the roll of beating blow the fabric when beating the fabric, so can blow down the impurity that adheres to the fabric surface.

Preferably, the machine body is connected with a lifting assembly, the rotating rod is connected with the lifting assembly, and the lifting assembly is used for moving the rotating rod along the vertical direction.

Through adopting above-mentioned technical scheme, lifting unit liftable dwang, dwang can drive the roll that beats and go up and down to this adjustable roll that beats degree to the fabric that beats has improved the flexibility of beating the roll.

Preferably, the lifting assembly comprises a threaded rod, a guide rod and lifting blocks, wherein the threaded rod is vertically arranged on the guide rod and located on two sides of the rotating rod, the threaded rod is connected with a servo motor, one end of the lifting block is sleeved with the threaded rod in a threaded mode, the other end of the lifting block is sleeved with the guide rod in a sliding mode, and one end of the rotating rod is connected with the lifting block in a rotating mode.

Through adopting above-mentioned technical scheme, servo motor can drive the threaded rod and just reverse, and the threaded rod can drive the lifter along the guide bar and go up and down, and the lifter can drive the dwang and go up and down to this can make the roll of beating go up and down, and then the adjustable roll of beating is to the degree of beating of fabric.

Preferably, each of the flapping rollers is connected with the rotating rod through a static network, and the length direction of the static network is consistent with the length direction of the flapping roller.

Through adopting above-mentioned technical scheme, when beating the roller and beating the fabric surface, the garrulous fine hair that the fabric surface drops and impurity accessible electrostatic network adsorb, can avoid garrulous fine hair that drops and impurity to adsorb the fabric surface again to the greatest extent to this can improve the cleaning efficiency to the fabric.

Preferably, two brush plates are arranged in the machine body, the two brush plates are distributed at intervals and are parallel to each other, and the two brush plates move along the vertical direction.

Through adopting above-mentioned technical scheme, two brush boards when removing, can make an electrostatic network penetrate between two brush boards, the brush board can be to electrostatic network clearance to this can brush down the garrulous fine hair and the impurity of adhering to on the electrostatic network, and then can improve the adsorption efficiency of electrostatic network, and the dwang drives and beats the roller and rotate, and two brush boards can clear up each electrostatic network in proper order.

Preferably, the air suction assembly comprises an air suction cover and a negative pressure source, the length direction of the air suction cover is consistent with the width direction of the fabric, the air suction cover is arranged below the beating assembly, and the negative pressure source is communicated with the air suction cover.

By adopting the technical scheme, the negative pressure source can absorb and remove the broken velvet and impurities which are beaten by the beating component through the air suction cover, so that the broken velvet and impurities in the machine body can be reduced, and the broken velvet and impurities can be prevented from being reattached to the fabric as much as possible.

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

1. After the fabric enters the machine body, the brushing roller brushes the fabric, fibers on the surface of the fabric can be erected, the fabric is conveyed to the beating assembly after brushing, the beating assembly can beat the fabric, partial broken velvet and impurities adsorbed to the surface of the fabric can be beaten down, the air suction assembly can absorb the broken velvet and the impurities, and the beaten fabric is output from the machine body, so that broken velvet attached to the surface of the fabric can be reduced, and the quality of the fabric is improved;

2. The driving piece drives the rotating rod to rotate, the rotating rod drives each beating roller to rotate, each beating roller can sequentially beat the surface of the fabric, each beating roller is connected with the rotating rod through the disc, the connection stability of the beating roller and the rotating rod can be improved, and therefore the efficiency of the beating roller for beating the fabric can be improved;

3. The air supply pump supplies air to the first inner cavity, the air in the first inner cavity is input into the second inner cavity through the air pipe, and the air in the second inner cavity can be output through each air outlet hole, so that the beating roller can blow air to the fabric when beating the fabric, and impurities attached to the surface of the fabric can be blown down.

Drawings

Fig. 1 is a schematic view showing the overall structure of a bristle device for textile according to an embodiment of the present application.

Fig. 2 is a top view of a bristle device for textile fabrics according to an embodiment of the present application.

Fig. 3 is a schematic cross-sectional view taken along the line A-A in fig. 2.

Fig. 4 is a schematic view showing a part of a bristle setting for a textile according to an embodiment of the present application.

Reference numerals illustrate:

100. a body; 101. a bristle roller;

200. Beating the assembly; 201. a driving member; 202. a rotating lever; 203. beating the roller; 204. a disc; 205. a gas pipe; 206. an air outlet hole; 207. a static network;

300. An air suction assembly; 301. an air suction cover; 302. a negative pressure source;

400. An air supply pump;

500. a lifting assembly; 501. a threaded rod; 502. a guide rod; 503. a lifting block; 504. a servo motor;

600. And brushing the plate.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a brushing device for textile fabrics. Referring to fig. 1, 2 and 3, a brushing device for textiles includes a machine body 100, a brushing roller 101, a beating assembly 200 and an air suction assembly 300, wherein the brushing roller 101, the beating assembly 200 and the air suction assembly 300 are all positioned in the machine body 100, after a textile is input into the machine body 100, the brushing roller 101 is used for brushing the textile, the beating assembly 200 is used for beating the textile to beat down broken velvet and impurities attached to the textile, the air suction assembly 300 is used for sucking and removing the broken velvet and impurities, the beaten textile is output from the machine body 100, so that broken velvet attached to the surface of the textile can be reduced, and the quality of the textile is improved.

Referring to fig. 3, the machine body 100 has a rectangular parallelepiped shape, one end of which is a feed side, and the other end of which is a discharge side. The bristle roll 101 is located on the feeding side of the machine body 100, and the beating assembly 200 and the air suction assembly 300 are both located on the discharging side of the machine body 100. The bristle roll 101 has a length direction consistent with the fabric width direction and is rotatably connected to the machine body 100.

Referring to fig. 3 and 4, the flapping assembly 200 includes a rotation rod 202, a flapping roller 203, and a driving member 201, wherein the driving member 201 adopts a motor, an output shaft of the motor is connected with one end of the rotation rod 202, and the motor can drive the rotation rod 202 to rotate. The length direction of the rotating rod 202 is consistent with the length direction of the brushing roller 101, the rotating rod 202 is provided with a first inner cavity, the first inner cavity is communicated with an air supply pump 400, the air supply pump 400 is communicated with the first inner cavity through a pipeline, the pipeline is a hose, one end of the pipeline is spliced with one end of the rotating rod 202, and the rotating rod 202 is rotationally connected with the pipeline.

The rotating rod 202 both ends all overlap and are equipped with disc 204, in this embodiment, the roll 203 of beating has four and length direction and rotating rod 202 length direction unanimity, four roll 203 of beating are along the equidistant angular interval distribution of rotating rod 202 circumference, and the both ends of roll 203 of beating are connected with two discs 204 respectively, roll 203 of beating is provided with the second inner chamber, a plurality of ventholes 206 have been seted up to roll 203 of beating one side of keeping away from rotating rod 202, each venthole 206 is along beating roll 203 length direction even interval distribution, venthole 206 and second inner chamber intercommunication. The flapping roller 203 is connected with the rotating rod 202 through an air pipe 205, two ends of the air pipe 205 are respectively connected with the middle part of the flapping roller 203 and the middle part of the rotating rod 202, and two ends of the air pipe 205 are respectively communicated with the first inner cavity and the second inner cavity.

An electrostatic net 207 is arranged between each flapping roller 203 and the rotating rod 202, the length direction of the electrostatic net 207 is consistent with the length direction of the rotating rod 202, and two ends of the electrostatic net 207 along the width direction are respectively connected with the flapping rollers 203 and the rotating rod 202. Two brush plates 600 are arranged in the machine body 100, the two brush plates 600 are located at the top of the machine body 100, the brush plates 600 are vertically arranged, the length direction of the brush plates 600 is consistent with that of the rotating rod 202, the two brush plates 600 are arranged at intervals and are parallel to each other, the two brush plates 600 are connected with air cylinders, the air cylinders move the two brush plates 600 along the vertical direction, the two brush plates 600 move to two sides of the electrostatic net 207, and the electrostatic net 207 can be cleaned.

The lifter 202 both ends all are connected with lifting unit 500, lifting unit 500 includes threaded rod 501, guide bar 502 and lifter 503, threaded rod 501 length direction, guide bar 502 length direction all set up along vertical direction, threaded rod 501, guide bar 502 interval set up, the lifter 202 tip is located between threaded rod 501, the guide bar 502, lifter 503 one end thread bush is established on threaded rod 501, lifter 503 other end slip cover is established on guide bar 502, lifter 202 tip inserts lifter 503 and rotates with lifter 503 to be connected, the casing of motor is connected with lifter 503.

The air suction assembly 300 is located below the flapping roller 203, the air suction assembly 300 comprises an air suction cover 301 and a negative pressure source 302, the length direction of the air suction cover 301 is consistent with the length direction of the flapping roller 203, an opening faces the flapping roller 203, the negative pressure source 302 adopts a vacuum pump, and the negative pressure source 302 is communicated with the air suction cover 301.

The embodiment of the application provides a bristle device for textile fabrics, which is implemented by the following principles: the fabric is brushed from the feeding side of the machine body 100 into the machine body 100, the brushing roller 101 brushes one face of the fabric facing downwards, the fabric bypasses the upper part of the rotating rod 202, the rotating rod 202 rotates to drive the beating rollers 203 to rotate, the beating rollers 203 beat one face of the fabric facing downwards in sequence, broken velvet and impurities beaten from the fabric can be adsorbed by the electrostatic network 207 and sucked and removed by the suction hood 301, and the beaten fabric is output from the discharging side of the machine body 100, so that broken velvet attached to the surface of the fabric can be reduced, and the quality of the fabric is improved.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. A bristle arrangement for a textile, characterized in that: including organism (100) and brush hair roller (101), brush hair roller (101) with organism (100) rotate connect and set up in the feed side of organism (100), organism (100) are connected with and pat subassembly (200), beat subassembly (200) be used for clapping the fabric and set up in the ejection of compact side of organism (100), beat subassembly (200) below and be provided with subassembly (300) induced drafts, subassembly (300) are used for the fabric induced drafts.

2. A brushing device for textile fabrics as claimed in claim 1, wherein: the utility model provides a novel fabric beating device, including subassembly (200) are patted, including driving piece (201), dwang (202) and a plurality of flapping roller (203), dwang (202) length direction is unanimous with fabric width direction, driving piece (201) with dwang (202) are connected, driving piece (201) are used for the drive dwang (202) rotate, each flapping roller (203) length direction all with dwang (202) length direction is unanimous and each flapping roller (203) are followed dwang (202) circumference equiangular interval distributes, dwang (202) cover is equipped with disc (204), each flapping roller (203) all with disc (204) are connected.

3. A brushing device for a textile as claimed in claim 2, wherein: the utility model discloses a rotary rod, including pivoted lever (202), pivoted roller (203), air supply pump (400) are provided with first inner chamber, pivoted roller (203) are provided with the second inner chamber, first inner chamber pass through gas-supply pipe (205) with second inner chamber intercommunication, a plurality of ventholes (206) have been seted up to pivoted roller (203), venthole (206) with second inner chamber intercommunication, each venthole (206) are followed pivoted roller (203) length direction evenly spaced distributes, first inner chamber intercommunication has air supply pump (400).

4. A brushing device for a textile as claimed in claim 2, wherein: the machine body (100) is connected with a lifting assembly (500), the rotating rod (202) is connected with the lifting assembly (500), and the lifting assembly (500) is used for moving the rotating rod (202) along the vertical direction.

5. The bristle device for textile fabrics according to claim 4, wherein: lifting assembly (500) are including threaded rod (501), guide bar (502) and lifter (503), threaded rod (501) guide bar (502) all vertical setting just are located lifter (202) both sides, threaded rod (501) are connected with servo motor (504), lifter (503) one end thread bush is located threaded rod (501), lifter (503) other end slip bush is located guide bar (502), lifter (202) one end with lifter (503) rotate and are connected.

6. A brushing device for a textile as claimed in claim 2, wherein: each flapping roller (203) is connected with the rotating rod (202) through a static electricity network (207), and the length direction of the static electricity network (207) is consistent with the length direction of the flapping rollers (203).

7. The bristle device for textile fabrics according to claim 6, wherein: two brush plates (600) are arranged in the machine body (100), the two brush plates (600) are distributed at intervals and are parallel to each other, and the two brush plates (600) move along the vertical direction.

8. A brushing device for textile fabrics as claimed in claim 1, wherein: the air suction assembly (300) comprises an air suction cover (301) and a negative pressure source (302), the length direction of the air suction cover (301) is consistent with the width direction of the fabric, the air suction cover (301) is covered below the beating assembly (200), and the negative pressure source (302) is communicated with the air suction cover (301).