CN117802725A - Loop pile cutting device for weaving woollen blanket - Google Patents

Abstract

The invention relates to the technical field of textile equipment, in particular to a loop-cutting velvet device for weaving a sheep blanket, which comprises a circulating velvet cover arranged on the outer side of the loop-cutting velvet device, wherein the circulating velvet cover is used for circularly collecting velvet, the circulating velvet cover comprises a stable lifting cover, the stable lifting cover is sleeved on the outer side of the loop-cutting velvet device, a spiral air suction device and an electrostatic adsorption layer are arranged in the stable lifting cover, a friction collecting device is arranged between the spiral air suction device and the electrostatic adsorption layer, the friction collecting device is fixedly connected with a spiral air suction wall, the collecting end of the friction collecting device is in contact with the inner wall of the electrostatic adsorption layer, a downward-pressing steady-flow rail is arranged on the outer side of the stable lifting cover, and the output end of the downward-pressing steady-flow rail extends to the stable lifting cover.

Description

Loop pile cutting device for weaving woollen blanket

Technical Field

The invention relates to the technical field of textile equipment, in particular to a loop-cutting velvet device for weaving a woollen blanket.

Background

The wool blanket is a blanket woven by using wool as a raw material, and the cutting loop is a weaving mode combining a pile loop process and a pile cutting process, so that the characteristics of tidy and uniform pile loops and moderate and smooth blanket surface can be maintained, different patterns can be manufactured by using the pile cutting process, and the attractiveness of the product is improved.

In the prior art, when cutting the fine hair of circle fine hair device at high speed, can produce tiny garrulous batting when the fine hair of circle is cut off again, and the batting can flow in the air by the influence of ambient wind, and a large amount of battings fall to cutting the inside life that can cause reduction equipment of circle fine hair device, and the batting of cutting still need carry out the extravagant manpower of secondary clearance on the woollen blanket, still can influence operational environment when the batting flows in the sky simultaneously, exists certain potential safety hazard.

Disclosure of Invention

Aiming at the problems, the loop pile cutting device for weaving the woollen blanket is provided, the service life of equipment can be effectively prolonged by avoiding pile diffusion through the cyclic filtering pile cover, and the working environment is improved.

In order to solve the problems in the prior art, the invention provides a loop pile cutting device for weaving a woollen blanket, which comprises a circulating pile filtering cover arranged on the outer side of the loop pile cutting device, wherein the circulating pile filtering cover is used for circularly collecting piles, the circulating pile filtering cover comprises a stable lifting cover, the stable lifting cover is sleeved on the outer side of the loop pile cutting device, a spiral air suction device and an electrostatic adsorption layer are arranged in the stable lifting cover, a friction collecting device is arranged between the spiral air suction device and the electrostatic adsorption layer and fixedly connected with a spiral air suction wall, the collecting end of the friction collecting device is in contact with the inner wall of the electrostatic adsorption layer, a downward-pressing steady flow rail is further arranged on the outer side of the stable lifting cover, and the output end of the downward-pressing steady flow rail extends to the stable lifting cover.

Preferably, the stable lifting cover comprises a mounting base, a mounting bracket is arranged above the mounting base, a limiting guide rod and a falling-preventing guide rod are arranged between the mounting bracket and the mounting base, a lifting mounting cover is slidably arranged on the limiting guide rod and the falling-preventing guide rod, a plurality of air outlets are formed in the outer side portion of the lifting mounting cover, a winding machine is further arranged on the mounting bracket, a hoisting rope is arranged on the winding machine, and one end, away from the winding machine, of the hoisting rope is connected with the lifting mounting cover.

Preferably, the anti-falling guide rod is arranged between the mounting bracket and the mounting base, a telescopic cavity is arranged in the anti-falling guide rod, a plurality of expansion sliding rails are arranged on the side wall of the anti-falling guide rod, telescopic sliding blocks are arranged in the expansion sliding rails, first guide angles are respectively arranged at the upper end and the lower end of the outer sides of the telescopic sliding blocks, second guide angles are arranged at the inner upper end sides of the telescopic sliding blocks, a telescopic inserting rod is further arranged in the telescopic cavity, and the anti-falling guide rod further comprises a linear driver for driving the telescopic inserting rod to move in a telescopic mode.

Preferably, the spiral air suction device comprises a plurality of first rotating mounting rings which are arranged in the lifting mounting cover, a plurality of strip-shaped fan blades are arranged on the first rotating mounting rings, a transmission gear is further arranged on the rotating mounting rings, the spiral air suction device further comprises a rotary driver which is arranged on the outer side of the lifting mounting cover, a driving gear is arranged at the output end of the rotary driver, and the driving gear is meshed with the transmission gear.

Preferably, the electrostatic adsorption layer comprises electrostatic cloth, a plurality of air holes are formed in the electrostatic cloth, and a plurality of limiting inserting rods are arranged on the outer side of the electrostatic cloth.

Preferably, the friction collecting device comprises a plurality of second rotating mounting rings which are arranged on the outer sides of the first rotating mounting rings, the second rotating mounting rings are provided with inclined mounting openings, friction collecting mechanisms are arranged in the inclined mounting openings, collecting ends of the friction collecting mechanisms are in interference with the inner parts of the electrostatic adsorption layers, and plush collecting boxes are further arranged on the friction collecting mechanisms.

Preferably, the friction collecting mechanism comprises a mounting rail mounted on the second rotating mounting ring, a mounting bayonet is arranged at the top of the mounting rail, a rotating mounting rod and a driving shaft are mounted in the mounting rail, a friction belt is sleeved on the rotating mounting rod and the driving shaft, a hairbrush is arranged on the outer side of the friction belt, the driving shaft penetrates through the mounting rail to extend outwards, a transmission friction wheel is mounted at the extending end of the driving shaft, and the friction collecting mechanism further comprises a friction rail mounted at the bottom of the lifting mounting cover.

Preferably, the plush collecting box is clamped and installed in an installation bayonet of the installation rail, a plurality of inclined scraping plates are arranged at a feed inlet of the plush collecting box, a material outlet is arranged at the bottom of the plush collecting box, and a plugging cover plate is installed on the material outlet.

Preferably, the pushing-down steady flow rail comprises a plurality of wind guide rails arranged on the air outlet of the lifting installation cover, a rotating sliding rail is arranged on the wind guide rail, a uniform wind wheel is arranged in the rotating sliding rail, a plurality of uniform wind blades are arranged on the uniform wind wheel, and an inclined wind deflector is arranged in the uniform wind wheel.

Preferably, the circulating filter velvet cover further comprises a velvet cleaning inserting plate in the friction collecting device, the velvet cleaning inserting plate comprises a handheld handle, a vertical inserting strip is arranged on the handheld handle, and a plurality of groups of inclined hairbrushes are arranged on the inserting strip.

Compared with the prior art, the invention has the beneficial effects that:

the spiral induced draft device rotates and drives the friction collection device simultaneously and rotates synchronously, the friction collection device rotates and rubs with the inner wall of the static adsorption layer, static adsorption layer generates static electricity through the friction surface, the spiral induced draft device rotates and enables airflow below the pile cutting device to flow to the inside of the stable lifting cover, the spiral induced draft device blows the sucked airflow to the static adsorption layer, the static adsorption layer can filter air, the static adsorption layer can effectively adsorb broken piles through static, the broken piles cannot flow along with air, meanwhile, the air can enter the downward-pressing steady flow rail through the static adsorption layer, the downward-pressing steady flow rail conveys flowing air downwards from the top of the stable lifting cover to form circularly flowing air, the friction collection device can collect the pile collected by the static adsorption layer when contacting, the service life of pile diffusion improving equipment is effectively avoided, and meanwhile, the working environment is improved.

Drawings

Fig. 1 is a perspective view of a loop pile cutting device for weaving a sheepskin.

Fig. 2 is a plan sectional view of a loop pile cutting device for weaving a sheepskin.

Fig. 3 is a plan cut-away perspective view of a loop pile cutting device for weaving a sheepskin.

Fig. 4 is a plan cut-away perspective view of a fall arrest guide in a loop pile cutting device for weaving sheepskin.

Fig. 5 is a partial enlarged view at a in fig. 4.

Fig. 6 is a perspective view of a friction collecting device in a loop pile cutting device for weaving a sheepskin.

Fig. 7 is a schematic perspective view of a part of the mechanism of a loop pile cutting device for weaving a sheepskin.

Fig. 8 is a partial enlarged view of B in fig. 7.

Fig. 9 is a perspective view of an electrostatic adsorbing layer in a loop pile cutting device for weaving a sheepskin.

Fig. 10 is an exploded view of a friction collecting mechanism and pile collecting box in a pile cutting device for weaving a sheepskin.

Fig. 11 is a perspective view of a pile collecting box in a pile cutting device for weaving a sheepskin.

Fig. 12 is a perspective view of a pile cleaning insert plate in a pile cutting device for weaving sheepskin.

The reference numerals in the figures are:

1-a stable lifting cover; 11-mounting a base; 12-mounting a bracket; 13-limiting guide rods; 14-a fall protection guide rod; 141-a telescopic cavity; 142-expanding the slide rail; 143-a telescopic slide; 144-first lead angle; 145-second lead angle; 146-telescoping plunger rod; 147-linear drive; 15-lifting the mounting cover; 16-winding equipment; 17-hoisting ropes; 2-spiral air suction device; 21-a first rotatable mounting ring; 22-fan blades; 23-a transmission gear; 24-a rotary drive; 25-a drive gear; 3-an electrostatic adsorption layer; 31-limiting the plug-in rod; 32-electrostatic cloth; 4-friction collecting device; 41-a second rotatable mounting ring; 42-friction collection mechanism; 421—mounting rails; 422-turning the mounting bar; 423-drive shaft; 424-friction belt; 425-a drive friction wheel; 426—friction rail; 43-lint collecting box; 431-inclined scraper; 432-plugging the cover plate; 5-pressing down the steady flow rail; 51-an air guide rail; 52-rotating the slide rail; 53-homogenizing the wind wheel; 54-inclined air deflectors; 61-a hand-held grip; 62-inserting strips; 63-inclined brushes.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 12, a loop pile cutting device for weaving a sheepskin, including installing the circulation of cutting the loop pile device outside and worrying the loop pile, the circulation worrying the loop pile is used for the circulation to collect the pile, the circulation worrying the loop pile includes stable lift cover 1, stable lift cover 1 cover is established in the outside of cutting the loop pile device, stable lift cover 1 internally mounted has spiral induced draft device 2 and electrostatic adsorption layer 3, install friction collection device 4 between spiral induced draft device 2 and the electrostatic adsorption layer 3, friction collection device 4 and cyclone wall fixed connection, friction collection device 4's collection end is contradicted with electrostatic adsorption layer 3's inner wall, stable lift cover 1 outside still installs and pushes down stationary flow rail 5, push down stationary flow rail 5's output to stable lift cover 1 extension.

The loop pile device can last the coil of cutting the woollen blanket many times at the during operation, the sheep coil can produce when being cut and can produce garrulous pile, garrulous pile can fall along with the air from loop pile device below, when loop pile device is cutting the coil of woollen blanket, stable lift cover 1 descends to the lower extreme zone position of loop pile device, stable lift cover 1 can shield the lower extreme zone of loop pile device, make outside air current unable to interfere the air current of loop pile device below, effectually avoid garrulous pile diffusion, stable lift cover 1 moves to the loop pile device below, the staff starts spiral suction device 2, the friction collection device 4 is driven simultaneously to rotate when the spiral suction device 2 rotates, friction collection device 4 can rub with the inner wall of static adsorption layer 3 when rotating, static adsorption layer 3 can produce static through the friction surface, spiral suction device 2 rotates and can make the inside flow of air current orientation stable lift cover 1 below the loop pile device, spiral suction device 2 blows the air current of inhaling to static adsorption layer 3, static adsorption layer 3 can filter the air current to the air current, the static adsorption layer 3 can flow down through the static suction device 3 and can flow down the steady flow to the steady flow through the static current collection device 5 when the static current flows down from the static current collection device, can flow down the static current collection device 5 and the static current can flow down the static current collection device is down, the static current collection device is down through the static current collection device is down, the static current is down through the static current collection device is down.

Referring to fig. 1 and 2, the stable lifting cover 1 comprises a mounting base 11, a mounting bracket 12 is arranged above the mounting base 11, a limit guide rod 13 and a falling-preventing guide rod 14 are mounted between the mounting bracket 12 and the mounting base 11, a lifting mounting cover 15 is slidably mounted on the limit guide rod 13 and the falling-preventing guide rod 14, a plurality of air outlets are arranged on the outer side of the lifting mounting cover 15, a winding machine is further mounted on the mounting bracket 12, a lifting rope 17 is mounted on the winding machine, and one end, far away from the winding machine, of the lifting rope 17 is connected with the lifting mounting cover 15.

When the loop pile cutting device cuts the loops of the woollen blanket, a worker drives the lifting rope 17 to descend through the winding machine, the lifting installation cover 15 can be driven to descend along the limiting guide rod 13 and the anti-falling guide rod 14 when the lifting rope 17 descends, the lifting installation cover 15 and the anti-falling guide rod 14 can effectively ensure the lifting stability of the lifting installation cover 15, the lifting installation cover 15 descends to drive the spiral air suction device 2, the electrostatic adsorption layer 3, the friction collecting device 4 and the downward-pressing steady flow rail 5 to move to a designated working area, the lifting installation cover 15 can effectively shield the outer side of the loop pile cutting device, external air flow cannot interfere with the air flow below the loop pile cutting device, the influence of broken pile diffusion on the working environment is effectively avoided, and meanwhile, the worker is prevented from contacting the lower side of the loop pile cutting device, and the production safety is effectively improved.

When the loop velvet cutting device needs to replace internal materials, the winding machine lifts the lifting installation cover 15 through the lifting rope 17 so as to facilitate the replacement of workers, and the anti-falling guide rod 14 can fix the lifting installation cover 15 when the lifting installation cover 15 is lifted, so that the falling is effectively avoided, and the safety of work is improved.

Referring to fig. 2, 4 and 5, the anti-falling guide rod 14 is installed between the installation support 12 and the installation base 11, a telescopic hollow cavity 141 is installed in the anti-falling guide rod 14, a plurality of expansion sliding rails 142 are arranged on the side wall of the anti-falling guide rod 14, telescopic sliding blocks 143 are installed in the inner parts of the expansion sliding rails 142, first guide angles 144 are respectively arranged at the upper end and the lower end of the outer side of each telescopic sliding block 143, a second guide angle 145 is arranged at the inner upper end side of each telescopic sliding block 143, a telescopic inserting rod 146 is further installed in the telescopic hollow cavity 141, and the anti-falling guide rod 14 further comprises a linear driver 147 for driving the telescopic inserting rod 146 to move in a telescopic manner.

The linear driver 147 is preferably an electric push rod, when the loop velvet cutting device needs to replace internal materials, the winding machine lifts the lifting installation cover 15 through the lifting rope 17 so as to facilitate replacement of workers, when the lifting installation cover 15 is in a lifting state, the electric push rod pushes the telescopic inserting rod 146 to extend towards the telescopic sliding block 143 along the telescopic hollow cavity 141, when the abutting end of the telescopic inserting rod 146 abuts against the second guide angles 145 of the telescopic sliding blocks 143, the telescopic sliding block 143 can extend towards the side wall of the anti-falling guide rod 14 in an expanding mode, the telescopic sliding block 143 can effectively block the lifting installation cover 15 from descending when expanding, personnel damage caused by falling is avoided, when the lifting installation cover 15 needs to descend, the telescopic inserting rod 146 can retract and reset to cancel the abutting of the telescopic sliding block 143, and when the lifting installation cover 15 descends along the anti-falling guide rod 14, the telescopic sliding block 143 is pushed to retract towards the inside of the expanding sliding rail 142, so that the lifting installation cover 15 slides smoothly.

Referring to fig. 1 to 3, the spiral suction device 2 includes a plurality of first rotating mounting rings 21 mounted inside the lifting mounting cover 15, a plurality of strip-shaped blades 22 are mounted on the first rotating mounting rings 21, a transmission gear 23 is further mounted on the rotating mounting rings, the spiral suction device 2 further includes a rotating driver 24 mounted outside the lifting mounting cover 15, a driving gear 25 is mounted on an output end of the rotating driver 24, and the driving gear 25 is meshed with the transmission gear 23.

The rotary driver 24 is preferably a servo motor, when the air in the lifting installation cover 15 needs to flow to the electrostatic adsorption layer 3, the driving gear 25 is driven to rotate by the servo motor, the driving gear 23 is driven to synchronously rotate when the driving gear 25 rotates, the first rotary installation ring 21 is driven to synchronously rotate when the driving gear 23 rotates, the first rotary installation ring 21 rotates to synchronously rotate a plurality of strip-shaped fan blades 22, the strip-shaped fan blades 22 can enable the air flow in the lifting installation cover 15 to flow in a diffusing manner, and the flowing air flow is effectively contacted with the electrostatic adsorption layer 3.

Referring to fig. 2 and 9, the electrostatic adsorption layer 3 includes an electrostatic cloth 32, a plurality of air holes are formed in the electrostatic cloth 32, and a plurality of limiting inserting rods 31 are installed on the outer side of the electrostatic cloth 32.

The electrostatic cloth 32 is preferably made of synthetic fiber materials such as terylene, nylon, acrylic and the like, static electricity is generated on the surface of the electrostatic cloth 32 through friction, the electrostatic cloth 32 generated on the surface of the electrostatic cloth 32 has a certain adsorption force, a plurality of air holes on the electrostatic cloth 32 are used for flowing air, if plush exists in the air, the air can be effectively adsorbed and filtered, a plurality of limit inserting rods 31 on the outer side of the electrostatic cloth 32 are used for being installed on the lifting installation cover 15, and the electrostatic cloth 32 forms a ring shape in the lifting installation cover 15.

Referring to fig. 2 and 6, the friction collecting device 4 includes a plurality of second rotating mounting rings 41 mounted on the outer side of the first rotating mounting ring 21, an inclined mounting opening is provided on the second rotating mounting ring 41, a friction collecting mechanism 42 is mounted in the inclined mounting opening, a collecting end of the friction collecting mechanism 42 is abutted against the inside of the electrostatic adsorbing layer 3, and a lint collecting box 43 is further mounted on the friction collecting mechanism 42.

The inclined mounting opening on the second rotating mounting ring 41 is used for obliquely mounting the friction collecting mechanism 42, the second rotating mounting ring 41 is connected with the first rotating mounting ring 21, the second rotating mounting ring 41 can drive the first rotating mounting ring 21 to synchronously rotate when rotating, the second rotating mounting ring 41 can drive the friction collecting mechanism 42 to rotate when rotating, the friction collecting mechanism 42 can rub the surface of the electrostatic adsorption layer 3 when rotating, static electricity is generated on the surface of the electrostatic adsorption layer 3, static electricity on the surface of the electrostatic adsorption layer 3 can adsorb lint in filtered air, the lint attached to the surface of the electrostatic adsorption layer 3 can be collected by the friction collecting mechanism 42 when contacting with the friction collecting mechanism 42, and the collected lint can be conveyed into the lint collecting box 43 by the friction collecting mechanism 42 to be collected and stored.

Referring to fig. 6, 7, 8 and 10, the friction collecting mechanism 42 includes a mounting rail 421 mounted on the second rotary mounting ring 41, a mounting bayonet is provided at the top of the mounting rail 421, a rotary mounting rod 422 and a driving shaft 423 are mounted inside the mounting rail 421, a friction belt 424 is sleeved on the rotary mounting rod 422 and the driving shaft 423, a brush is provided on the outside of the friction belt 424, the driving shaft 423 extends outwards through the mounting rail 421, a transmission friction wheel 425 is mounted at the extending end of the driving shaft 423, and the friction collecting mechanism 42 further includes a friction rail 426 mounted at the bottom of the lifting mounting cover 15.

The second rotating mounting ring 41 rotates to drive the mounting rail 421 to rotate along with the mounting rail 421, the driving shaft 423 is driven to synchronously rotate when the mounting rail 421 rotates, the driving shaft 423 is driven to rotate by friction between the driving friction wheel 425 and the friction wheel when the driving shaft 423 rotates, the driving shaft 423 rotates to rotate, the driving shaft 423 rotates to synchronously rotate the friction belt 424, the mounting rod 422 rotates to enable the friction belt 424 to collide with the surface of the electrostatic adsorption layer 3 when the driving shaft 423 rotates, friction force is generated when the friction belt 424 collides with the electrostatic adsorption layer 3, static electricity is generated by the electrostatic adsorption layer 3, a layer of hairbrush on the surface of the friction belt 424 is cleaned when the friction belt 424 rubs with the electrostatic adsorption layer 3, and meanwhile, the cleaned plush is conveyed into the plush collecting box 43 to be stored when the friction belt 424 rotates.

Referring to fig. 10 and 11, the lint collecting box 43 is mounted in a bayonet of the mounting rail 421 in a clamping manner, a plurality of inclined scraping plates 431 are arranged at a feed inlet of the lint collecting box 43, a material outlet is formed in the bottom of the lint collecting box 43, and a blocking cover plate 432 is mounted on the material outlet.

One layer of hairbrush on the surface of the friction belt 424 can be cleaned when being rubbed with the electrostatic adsorption layer 3, meanwhile, the cleaned plush can be conveyed to the inclined scraping plate 431 when the friction belt 424 rotates, the inclined scraping plate 431 can scrape the plush on the hairbrush when being rubbed with the hairbrush on the surface of the friction belt 424, the scraped plush can fall into the plush collecting box 43, a material removing opening at the bottom of the plush collecting box 43 is convenient for a worker to clean the plush stored in the plush collecting box 43, and the plugging cover plate 432 is used for plugging the material removing opening.

Referring to fig. 1 to 3, the downward-pressing steady flow rail 5 includes a plurality of air guide rails 51 installed on the air outlet of the lifting installation cover 15, a rotating slide rail 52 is installed on the air guide rails 51, a uniform wind wheel is arranged in the rotating slide rail 52, a plurality of uniform wind blades are arranged on the uniform wind wheel, and an inclined air guide plate 54 is arranged in the uniform wind wheel.

The air guide rail 51 is arranged at the air outlet position of the lifting installation cover 15, when the spiral air suction device 2 blows sucked air flow to the electrostatic adsorption layer 3, the electrostatic adsorption layer 3 can filter air, the electrostatic adsorption layer 3 can effectively adsorb broken wool through static electricity, the broken wool cannot flow along with the air, meanwhile, the air can penetrate through the electrostatic adsorption layer 3 and enter the air guide rail 51, the air guide rail 51 conveys the flowing air flow into the rotating sliding rail 52, the air flow entering the rotating sliding rail 52 can flow out to the inclined air guide plate 54 through the uniform fan blades of the uniform fan wheel, the uniform fan blades can rotate when the uniform fan blades flow air, the air flow can uniformly spirally spread when the uniform fan wheel rotates, the inclined air guide plate 54 can enable the flowing air flow to flow downwards in an inclined mode, circulating flowing air pressure is formed, the air flow flowing downwards in an inclined mode can enable the wool to not to flow upwards, and the wool is effectively prevented from being spread.

Referring to fig. 12, the circulating filter cover further includes a cleaning board inside the friction collecting device 4, the cleaning board includes a handle 61, a vertical inserting strip 62 is installed on the handle 61, and a plurality of groups of inclined brushes 63 are arranged on the inserting strip 62.

The pile collecting box 43 collects the pile for a long time, a large amount of pile can be accumulated in the pile collecting box 43, when a worker needs to clean the pile in the pile collecting box 43 periodically, the worker lifts the lifting installation cover 15, then the plugging cover 432 at the bottom of the pile collecting box 43 is opened, after the plugging cover 432 is opened, the worker inserts the inserting strip 62 into the stripping opening of the pile collecting box 43 through the handheld handle 61, the inserting strip 62 is pulled out from the stripping opening of the pile collecting box 43 after being inserted, and the inclined hairbrushes 63 on the inserting strip 62 can clean the pile in the pile collecting box 43, so that the pile in the pile collecting box 43 can be cleaned effectively and quickly.

The specific working principle is as follows:

the loop cutting device can continuously cut loops of the woollen blanket for many times when working, broken wool can be generated when the woollen loop is cut, the broken wool can fall along with air from the lower part of the loop cutting device, when the loop cutting device is cutting the loops of the woollen blanket, the stable lifting cover 1 descends to the lower end area position of the loop cutting device, the stable lifting cover 1 shields the lower end area of the loop cutting device, so that external air flow can not interfere with air flow below the loop cutting device, the broken wool is effectively prevented from diffusing, when the stable lifting cover 1 moves below the loop cutting device, a worker starts the spiral air suction device 2, the spiral air suction device 2 rotates and simultaneously drives the friction collecting device 4 to synchronously rotate, the friction collecting device 4 rotates and rubs with the inner wall of the electrostatic adsorption layer 3, static adsorption layer 3 can produce static through friction surface, spiral induced draft device 2 rotates and can make the air current of cutting circle fine hair device below to stable lift cover 1's inside flow, spiral induced draft device 2 blows the air current of inhaling to static adsorption layer 3, static adsorption layer 3 can filter the air, static adsorption layer 3 can effectually adsorb garrulous fine hair through static, garrulous fine hair can not flow along with the air, air can pass static adsorption layer 3 simultaneously and enter into push down stationary flow rail 5, push down stationary flow rail 5 again with the air that flows downwards from stable lift cover 1 top, form circulation flow's air, friction collection device 4 can collect when contacting the fine hair that static adsorption layer 3 collected, effectually avoid the fine hair diffusion to improve equipment's life, improve operational environment simultaneously.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims (10)

1. The utility model provides a cut circle fine hair device for weaving sheep woollen blanket, including installing the circulation of cutting the circle fine hair device outside and worrying the fine hair cover, circulation worry the fine hair cover and be used for the circulation to collect the fine hair, a serial communication port, the circulation is worried fine hair cover and is including stabilizing lift cover (1), the outside at cutting the circle fine hair device is established to stable lift cover (1) cover, the internally mounted of stable lift cover (1) has spiral induced draft device (2) and electrostatic adsorption layer (3), install friction collection device (4) between spiral induced draft device (2) and the electrostatic adsorption layer (3), friction collection device (4) are with whirlwind wall fixed connection, the collecting end of friction collection device (4) is contradicted with the inner wall of electrostatic adsorption layer (3), steady flow rail (5) is still installed in the stability lift cover (1) outside, the output of pushing down steady flow rail (5) extends to stable lift cover (1).

2. The loop pile cutting device for weaving sheepskin according to claim 1, characterized in that the stable lifting cover (1) comprises a mounting base (11), a mounting bracket (12) is arranged above the mounting base (11), a limiting guide rod (13) and a falling-preventing guide rod (14) are arranged between the mounting bracket (12) and the mounting base (11), a lifting mounting cover (15) is slidably arranged on the limiting guide rod (13) and the falling-preventing guide rod (14), a plurality of air outlets are arranged on the outer side part of the lifting mounting cover (15), a winding machine is further arranged on the mounting bracket (12), a lifting rope (17) is arranged on the winding machine, and one end, far away from the winding machine, of the lifting rope (17) is connected with the lifting mounting cover (15).

3. The loop pile cutting device for weaving a sheepskin according to claim 2, characterized in that, anti-falling guide rod (14) is installed between installing support (12) and installing base (11), the internally mounted of anti-falling guide rod (14) has flexible cavity (141), the lateral wall of anti-falling guide rod (14) is equipped with a plurality of expansion slide rails (142), flexible slider (143) are all installed to the inside of expansion slide rail (142), the upper and lower both ends in the outside of flexible slider (143) are equipped with first guide angle (144) respectively, the interior upper end side of flexible slider (143) is equipped with second guide angle (145), flexible inserted bar (146) is still installed to the inside of flexible cavity (141), anti-falling guide rod (14) still includes linear drive (147) of the flexible removal of drive flexible inserted bar (146).

4. A loop pile cutting device for weaving a sheepskin according to claim 2, characterized in that the spiral suction device (2) comprises a plurality of first rotating mounting rings (21) mounted inside the lifting mounting cover (15), a plurality of strip-shaped blades (22) are mounted on the first rotating mounting rings (21), a transmission gear (23) is further mounted on the rotating mounting rings, the spiral suction device (2) further comprises a rotating driver (24) mounted outside the lifting mounting cover (15), a driving gear (25) is mounted on the output end of the rotating driver (24), and the driving gear (25) is meshed with the transmission gear (23).

5. The loop pile cutting device for weaving a sheepskin according to claim 4, characterized in that the electrostatic adsorption layer (3) comprises an electrostatic cloth (32), a plurality of ventilation holes are arranged on the electrostatic cloth (32), and a plurality of limit inserting rods (31) are arranged on the outer side of the electrostatic cloth (32).

6. The loop pile cutting device for weaving a sheepskin according to claim 4, characterized in that the friction collecting device (4) comprises a plurality of second rotating mounting rings (41) arranged outside the first rotating mounting rings (21), the second rotating mounting rings (41) are provided with inclined mounting openings, a friction collecting mechanism (42) is arranged in each inclined mounting opening, a collecting end of the friction collecting mechanism (42) is abutted against the inside of the electrostatic adsorption layer (3), and a pile collecting box (43) is further arranged on each friction collecting mechanism (42).

7. The loop pile cutting device for weaving a sheepskin according to claim 6, characterized in that the friction collecting mechanism (42) includes a mounting rail (421) mounted on the second rotating mounting ring (41), a mounting bayonet is provided at the top of the mounting rail (421), a rotating mounting rod (422) and a driving shaft (423) are mounted inside the mounting rail (421), a friction belt (424) is sleeved on the rotating mounting rod (422) and the driving shaft (423), a brush is provided at the outer side of the friction belt (424), the driving shaft (423) extends outwards through the mounting rail (421), a transmission friction wheel (425) is mounted at the extending end of the driving shaft (423), and the friction collecting mechanism (42) further includes a friction rail (426) mounted at the bottom of the lifting mounting cover (15).

8. The loop pile cutting device for weaving a sheepskin according to claim 6, characterized in that a pile collecting box (43) is mounted in a mounting bayonet of a mounting rail (421) in a clamping manner, a plurality of inclined scraping plates (431) are arranged at a feed inlet of the pile collecting box (43), a material outlet is arranged at the bottom of the pile collecting box (43), and a blocking cover plate (432) is mounted on the material outlet.

9. The loop pile cutting device for weaving a sheepskin according to claim 2, characterized in that the downward-pressing steady flow rail (5) comprises a plurality of air guide rails (51) arranged on an air outlet of the lifting installation cover (15), a rotating sliding rail (52) is arranged on the air guide rails (51), a uniform wind wheel is arranged in the rotating sliding rail (52), a plurality of uniform wind blades are arranged on the uniform wind wheel, and an inclined air deflector (54) is arranged in the uniform wind wheel.

10. The loop pile cutting device for weaving a sheepskin according to claim 1, characterized in that the circulating pile cover further comprises a pile cleaning insert plate inside the friction collecting device (4), the pile cleaning insert plate comprises a hand-held handle (61), a vertical inserting strip (62) is mounted on the hand-held handle (61), and a plurality of groups of inclined brushes (63) are arranged on the inserting strip (62).