CN217399240U - Cloth dust removal and humidification device for environment-friendly spinning - Google Patents

Abstract

The utility model discloses a cloth dust removal humidification device for environmental protection weaving, which comprises a frame, wherein a front baffle, a rear baffle, a left baffle, a right baffle, an upper baffle, a middle baffle and a lower baffle are arranged on the frame, a pair of feeding conveying rollers, a pair of middle conveying rollers, a first guide roller, a second guide roller, a third guide roller, a fourth guide roller and a pair of discharging conveying rollers are sequentially arranged between the left baffle and the right baffle in a rotating way, and a pair of suction hoods are arranged between the upper baffle and the middle baffle; a first fan-shaped spray nozzle is installed on the upper portion of the rear baffle, and a second fan-shaped spray nozzle is installed on the upper portion of the lower baffle. The beneficial effects are that: the feeding conveying roller and the middle conveying roller convey the cloth, so that the cloth passes through a gap between the two vertically symmetrical dust hoods, and double-sided dust removal is performed on the cloth; the cloth is enabled to form an S-shaped movement track, the water mist sprayed by the first fan-shaped spray head and the second fan-shaped spray head wets the two sides of the cloth, and the wetting uniformity is good.

Description

Cloth dedusting and humidifying device for environment-friendly spinning

Technical Field

The utility model relates to a weaving cloth treatment facility field especially relates to a cloth dust removal humidification device for environmental protection weaving.

Background

The textile origin is a general name taken from spinning and weaving, but with the continuous development and perfection of a textile knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, the textile is not only produced by traditional hand spinning and weaving, but also produced by non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-web forming technology and the like, and is used for clothing, industry and decoration. Modern spinning therefore refers to a technique for the multi-scale structural processing of fibers or fiber assemblies. Ancient Chinese textile and printing and dyeing technology has a very long history, and ancient people have understood local materials in the early original society period in order to adapt to climate change, use natural resources as raw materials for textile and printing and dyeing and manufacture simple hand textile tools. Clothing, airbags and curtain carpets in daily life are products of textile and printing technologies.

In the textile production process of the cloth, in order to facilitate subsequent deep processing such as dyeing, printing, modeling and the like, dust and wool attached to the surface of the cloth in the weaving process need to be removed, and water needs to be sprayed on the surface of the cloth to moisten the cloth, so that the cloth processing equipment with the dust removal and moistening functions is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above problem that prior art exists, provide a cloth dust removal humidification device for environmental protection weaving.

For realizing above-mentioned technical purpose, reach above-mentioned technological effect, the utility model discloses a following technical scheme realizes:

a cloth dedusting and humidifying device for environment-friendly textiles comprises a frame, wherein a rectangular front baffle, a rectangular rear baffle, a rectangular left baffle, a rectangular right baffle, a rectangular upper baffle, a rectangular middle baffle and an L-shaped lower baffle are mounted on the frame, a strip-shaped feed inlet is formed in the middle of the front baffle, and a strip-shaped discharge outlet is formed in the lower part of the rear baffle; a pair of vertically symmetrical feeding conveying rollers, a pair of vertically symmetrical middle conveying rollers, a first guide roller, a second guide roller, a third guide roller, a fourth guide roller and a pair of vertically symmetrical discharging conveying rollers are sequentially and rotatably arranged between the left baffle and the right baffle according to the cloth moving direction, and a pair of vertically symmetrical dust hoods are arranged between the upper baffle and the middle baffle; n first fan-shaped spray heads which are uniformly distributed are arranged at the upper part of the rear baffle, and N second fan-shaped spray heads which are uniformly distributed are arranged at the upper part of the lower baffle; the double-output-shaft speed reducing motor is installed at the bottom of the frame, and a power output shaft of the double-output-shaft speed reducing motor drives the feeding conveying roller, the middle conveying roller, the first guide roller, the second guide roller, the third guide roller, the fourth guide roller and the discharging conveying roller to rotate through a transmission mechanism.

Further, a pair of vertically symmetrical static removing hairbrushes is arranged between the upper baffle and the middle baffle, and the static removing hairbrushes are positioned between the feeding conveying roller and the dust hood; the static removing brush comprises a rectangular conductive brush plate and a plurality of bundles of conductive brush wires, a plurality of hair planting holes which are arranged in a straight line are formed in the bottom end of the conductive brush plate, and one bundle of conductive brush wires is planted in each hair planting hole.

Furthermore, a pair of vertically symmetrical partition plates are arranged between the upper baffle plate and the middle baffle plate, and the partition plates are positioned behind the middle conveying roller; and two opposite sides of the partition plates are provided with mounting grooves with T-shaped cross sections, and silica gel strips are mounted in the mounting grooves.

The dust hood comprises a rectangular box-shaped hood body, a plurality of hose connectors communicated with a cavity inside the hood body are fixedly connected to the top of the hood body, hose through holes coaxial with the hose connectors are formed in the upper baffle and the middle baffle, a plurality of screws perpendicular to the hood body are fixedly connected to the top of the hood body, the screws are sleeved in the through holes in the upper baffle or the middle baffle, and two check nuts clamping the upper baffle or the middle baffle are screwed on the screws.

The utility model has the advantages that: the feeding conveying roller and the middle conveying roller convey the cloth, so that the cloth passes through a gap between the two vertically symmetrical dust hoods, and double-sided dust removal is performed on the cloth; the middle conveying roller is matched with the discharging conveying roller, so that the cloth sequentially crosses the first guide roller, the second guide roller, the third guide roller and the fourth guide roller, the cloth is enabled to form an S-shaped movement track, the two sides of the cloth are wetted by water mist sprayed by the first fan-shaped spray head and the second fan-shaped spray head, and the wetting uniformity is good.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic perspective view of a first viewing angle of the cloth dust removing and humidifying device of the present invention;

FIG. 2 is a schematic perspective view of a second viewing angle of the cloth dust removing and humidifying device of the present invention;

FIG. 3 is a schematic structural view of the cloth dust removing and humidifying device of the present invention after the right side plate and the unilateral transmission mechanism are removed;

FIG. 4 is a schematic structural view of the electrostatic brush of the present invention;

FIG. 5 is a schematic structural view of the middle partition plate of the present invention;

FIG. 6 is a schematic structural view of a dust hood according to the present invention;

fig. 7 is a schematic structural view of the upper baffle plate of the present invention.

The reference numbers in the figures illustrate: cloth 100, a frame 1, a front baffle 2, a rear baffle 3, a left baffle 4, a right baffle 5, an upper baffle 6, a middle baffle 7, a lower baffle 8, a feed inlet 9, a discharge outlet 10, a feed conveying roller 11, a middle conveying roller 12, a first guide roller 13, a second guide roller 14, a third guide roller 15, a fourth guide roller 16, a discharge conveying roller 17, a dust hood 18, a first fan-shaped nozzle 19, a second fan-shaped nozzle 20, a double-output shaft speed reducing motor 21, an electrostatic eliminating brush 22, a conductive brush plate 23, a conductive brush wire 24, a partition plate 25, a mounting groove 26, a silica gel strip 27, a driving shaft 28, a driven shaft 29, a first driving gear 30, a second driving gear 31, a third driving gear 32, a first driven gear 33, a second driven gear 34, a third driven gear 35, a first synchronous belt transmission pair 36, a second synchronous belt transmission pair 37, a third synchronous belt transmission pair 38, a fourth synchronous belt transmission pair 39, a first synchronous belt transmission pair 32, a second synchronous belt transmission pair 30, a second synchronous belt pair 32, a third synchronous belt transmission pair, a third synchronous transmission pair, a fourth synchronous transmission pair, a fifth synchronous belt transmission pair 40, a sixth synchronous belt transmission pair 41, a seventh synchronous belt transmission pair 42, an eighth synchronous belt transmission pair 43, a cover body 44, a hose connector 45, a hose through hole 46, a screw 48, a screw through hole 49 and a locknut 50.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1 to 7, a cloth dust removing and humidifying device for environment-friendly textile comprises a frame 1, wherein a rectangular front baffle 2, a rectangular rear baffle 3, a rectangular left baffle 4, a rectangular right baffle 5, a rectangular upper baffle 6, a rectangular middle baffle 7 and an L-shaped lower baffle 8 are mounted on the frame 1, the front baffle 2, the rear baffle 3, the left baffle 4, the right baffle 5, the upper baffle 6, the middle baffle 7 and the lower baffle 8 enclose a J-shaped cloth processing cavity together, a strip-shaped feed inlet 9 is arranged in the middle of the front baffle 2, and a strip-shaped discharge outlet 10 is arranged at the lower part of the rear baffle 3; a pair of vertically symmetrical feeding conveying rollers 11, a pair of vertically symmetrical middle conveying rollers 12, a first guide roller 13, a second guide roller 14, a third guide roller 15, a fourth guide roller 16 and a pair of vertically symmetrical discharging conveying rollers 17 are sequentially and rotatably arranged between the left baffle 4 and the right baffle 5 according to the movement direction of the cloth 100, the feeding conveying rollers 11, the middle conveying rollers 12, the first guide roller 13, the second guide roller 14, the third guide roller 15, the fourth guide roller 16 and the discharging conveying rollers 17 enable the cloth to form an S-shaped movement track in the cloth processing cavity, a pair of vertically symmetrical dust hoods 18 are arranged between the upper baffle 6 and the middle baffle 7, each dust hood 18 comprises a rectangular box-shaped cover body 44, the top of each cover body 44 is fixedly connected with a plurality of hose connectors 45 communicated with the inner cavity of the cover body, and hose through holes 46 coaxial with the hose connectors 45 are arranged on the upper baffle 6 and the middle baffle 7, the top end of the cover body 44 is fixedly connected with a plurality of screws 48 vertical to the cover body, the screws 48 are sleeved in screw through holes 49 on the upper baffle 6 or the middle baffle 7, and each screw 48 is screwed with two locknuts 50 for clamping the upper baffle 6 or the middle baffle 7.

A pair of vertically symmetrical static removing brushes 22 is installed between the upper baffle 6 and the middle baffle 7, and the static removing brushes 22 are positioned between the feeding conveying roller 11 and the dust hood 18. The static eliminating brush 22 comprises a rectangular conductive brush plate 23 and a plurality of bundles of conductive brush wires 24, wherein the bottom end of the conductive brush plate 23 is provided with a plurality of hair planting holes which are arranged in a straight line, and each hair planting hole is implanted with one bundle of conductive brush wires 24. The conductive brush plate 23 is grounded by a wire, and static electricity on the cloth 100 is removed by the static electricity removing brush, so that dust and lint are prevented from being adsorbed by the static electricity, and the dust and lint are absorbed and removed.

A pair of vertically symmetrical partition plates 25 are installed between the upper baffle 6 and the middle baffle 7, and the partition plates 25 are positioned behind the middle conveying roller 12. The opposite sides of the two partition plates 25 are provided with mounting grooves 26 with T-shaped cross sections, and silica gel strips 27 are mounted in the mounting grooves 26, so that hard friction between the cloth 100 and the partition plates 25 is avoided, and abrasion of the cloth 100 is reduced.

The upper part of the rear baffle 3 is provided with three first fan-shaped nozzles 19 which are uniformly distributed, the upper part of the lower baffle 8 is provided with three second fan-shaped nozzles 20 which are uniformly distributed, the first fan-shaped nozzles 19 and the second fan-shaped nozzles 20 are communicated with the water outlet of the booster pump through water pipes, the water inlet of the booster pump is communicated with the water tank, and the booster pump pumps water in the water tank to the first fan-shaped nozzles 19 and the second fan-shaped nozzles 20 and then sprays the water; the bottom of the frame 1 is provided with a double-output-shaft speed reducing motor 21, and a power output shaft of the double-output-shaft speed reducing motor 21 drives the feeding conveying roller 11, the middle conveying roller 12, the first guide roller 13, the second guide roller 14, the third guide roller 15, the fourth guide roller 16 and the discharging conveying roller 17 to rotate through a transmission mechanism.

The transmission mechanism comprises a driving shaft 28, a driven shaft 29, a first driving gear 30, a second driving gear 31, a third driving gear 32, a first driven gear 33, a second driven gear 34, a third driven gear 35, a first synchronous belt transmission pair 36, a second synchronous belt transmission pair 37, a third synchronous belt transmission pair 38, a fourth synchronous belt transmission pair 39, a fifth synchronous belt transmission pair 40, a sixth synchronous belt transmission pair 41, a seventh synchronous belt transmission pair 42 and an eighth synchronous belt transmission pair 43, a driving shaft 28 and a driven shaft 29 are rotatably mounted at the front part of the left baffle plate 4, a driving shaft 28 and a driven shaft 29 are also rotatably mounted at the front part of the right baffle plate 5, and a power output shaft of the double-output-shaft speed reducing motor 21 is connected with the driving shaft 28 through a coupler;

the first driving gear 30 is arranged on the driving shaft 28 in an interference mode, the first driven gear 33 is arranged on the driven shaft 29 in an interference mode, and the first driving gear 30 is meshed with the first driven gear 33;

the second driving gear 31 is arranged at the head of one feeding conveying roller 11 in an interference manner, the second driven gear 34 is arranged at the head of the other feeding conveying roller 11 in an interference manner, and the second driving gear 31 is meshed with the second driven gear 34;

the third driving gear 32 is arranged at the head of one discharge conveying roller 17 in an interference manner, the third driven gear 35 is arranged at the head of the other discharge conveying roller 17 in an interference manner, and the third driving gear 32 is meshed with the third driven gear 35;

the driving shaft 28 is in transmission connection with one feeding conveying roller 11 through a first synchronous belt transmission pair 36, the two feeding conveying rollers 11 are in transmission connection with two middle conveying rollers 12 through a second synchronous belt transmission pair 37 and a third synchronous belt transmission pair 38 respectively, one middle conveying roller is in transmission connection with a first guide roller 13 through a fourth synchronous belt transmission pair 39, and the first guide roller 13 is in transmission connection with a second guide roller 14 through a fifth synchronous belt transmission pair 40;

driven shaft 29 and fourth guide roller 16 are connected through the transmission of the vice 41 transmission of sixth synchronous belt drive, and fourth guide roller 16 is connected with the transmission of third guide roller 15 through the vice 42 transmission of seventh synchronous belt drive, and fourth guide roller 16 is connected with one of them ejection of compact conveying roller 17 transmission through the vice 43 transmission of eighth synchronous belt drive.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a cloth dust removal humidification device for environmental protection weaving which characterized in that: the device comprises a frame, wherein a rectangular front baffle, a rectangular rear baffle, a rectangular left baffle, a rectangular right baffle, a rectangular upper baffle, a rectangular middle baffle and an L-shaped lower baffle are arranged on the frame; a pair of vertically symmetrical feeding conveying rollers, a pair of vertically symmetrical middle conveying rollers, a first guide roller, a second guide roller, a third guide roller, a fourth guide roller and a pair of vertically symmetrical discharging conveying rollers are sequentially and rotatably arranged between the left baffle and the right baffle according to the cloth movement direction, and a pair of vertically symmetrical dust hoods are arranged between the upper baffle and the middle baffle; n first fan-shaped spray heads which are uniformly distributed are arranged at the upper part of the rear baffle, and N second fan-shaped spray heads which are uniformly distributed are arranged at the upper part of the lower baffle; the double-output-shaft speed reducing motor is installed at the bottom of the frame, and a power output shaft of the double-output-shaft speed reducing motor drives the feeding conveying roller, the middle conveying roller, the first guide roller, the second guide roller, the third guide roller, the fourth guide roller and the discharging conveying roller to rotate through a transmission mechanism.

2. The cloth dedusting and humidifying device of claim 1, wherein: a pair of vertically symmetrical static removing hairbrushes is installed between the upper baffle and the middle baffle, and the static removing hairbrushes are located between the feeding conveying roller and the dust hood.

3. The cloth dedusting and humidifying device of claim 2, wherein: the static removing brush comprises a rectangular conductive brush plate and a plurality of bundles of conductive brush wires, a plurality of hair planting holes which are arranged in a straight line are formed in the bottom end of the conductive brush plate, and one bundle of conductive brush wires is planted in each hair planting hole.

4. The cloth dedusting and humidifying device of claim 1, wherein: a pair of vertically symmetrical partition plates are arranged between the upper baffle and the middle baffle, and the partition plates are positioned behind the middle conveying roller.

5. The cloth dedusting and humidifying device of claim 4, wherein: and two opposite sides of the partition plates are provided with mounting grooves with T-shaped cross sections, and silica gel strips are mounted in the mounting grooves.

6. The cloth dedusting and humidifying device of claim 1, wherein: the dust hood includes the box-like cover body of rectangle, the top rigid coupling of the cover body has a plurality of hose connectors that are linked together with the internal cavity of cover, be equipped with the circular through-hole coaxial with the hose connector on last baffle and the well baffle, the top rigid coupling of the cover body has the screw rod of the many perpendicular to covers the body, the screw rod cover is in the screw rod through-hole on last baffle or well baffle, every the spiro union has two lock nuts that press from both sides tight last baffle or well baffle on the screw rod.

Images