CN112575434B

CN112575434B - Clean environmental protection weaving machine

Info

Publication number: CN112575434B
Application number: CN202011424254.8A
Authority: CN
Inventors: 李秀华; 洪思宜
Original assignee: Zhejiang Jiayuan New Material Co ltd
Current assignee: Zhejiang Jiayuan New Material Co ltd
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2022-12-20
Anticipated expiration: 2040-12-08
Also published as: CN112575434A

Abstract

The invention discloses a clean and environment-friendly textile machine in the technical field of textile equipment, which is provided with a negative pressure port and a shell adsorption port, so that flying dust generated in the processing process of the textile machine can be attracted and collected, the flying dust is prevented from winding the textile machine, the service life of the textile machine is greatly prolonged, meanwhile, the flying dust is prevented from flying and leaking, operators are prevented from sucking the flying dust, the protection of the operators is greatly improved, and the body of the operators is prevented from being damaged.

Description

Clean environmental protection weaving machine

Technical Field

The invention belongs to the technical field of textile equipment; in particular to a clean environment-friendly textile machine.

Background

The textile machine is a general name of a tool for processing raw materials such as threads, silks, hemp and the like into silk threads and then weaving the silk threads into cloth.

In the working process of the textile machine, a large amount of dust and scraps can be generated in the processing process of raw materials such as threads, silk, hemp and the like, so that the dust in the whole workshop is dense, the cleanliness of the workshop is influenced, and meanwhile, when workers work in the environment for a long time, the dust can enter the respiratory system of a human body and be attached to the skin or eye conjunctiva of the human body, so that the health of the human body is damaged; it can also be a hazard to the production, contaminate the production medium, eventually leading to deterioration of the working conditions, such as accelerated wear of the machinery and causing operational disturbances, and sometimes even fires and explosions.

In order to solve the problem, the existing textile machine mostly adopts the electrostatic roller to adsorb, however, the existing electrostatic roller is all whole static, namely, the electrostatic roller is always in an electrostatic state, and further is whole adsorption when adsorbing dust and chips on textile cloth, the dust adsorbed on the electrostatic roller is difficult to remove, meanwhile, the electrostatic roller is often used in cooperation with a dust collecting tank, the electrostatic roller is very easy to adsorb the dust in the dust collecting tank again, and further extremely much dust is adhered to the electrostatic roller, when the electrostatic roller is in contact with the textile cloth, the textile cloth is easy to be polluted again, the dust removal effect is greatly reduced, meanwhile, the dust collected by the dust collecting tank of the existing textile machine is mostly in a dry state, so that the dust collected in the dust collecting tank flies in the dust collecting tank, when the dust collecting tank is pumped out, the flying dust can be adsorbed on the textile cloth again, the textile machine and in a workshop, and the problem is thoroughly solved.

Disclosure of Invention

The invention aims to provide a clean and environment-friendly textile machine.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a clean environmental protection weaving machine, includes support frame and shell, the support frame is fixed in under the shell on the terminal surface, shell front end fixedly connected with dust excluding hood, the shell inboard is fixed with clean mechanism, clean mechanism link up the cooperation with electrostatic generator and dust absorption mechanism respectively, electrostatic generator is fixed in on the shell up end, dust absorption mechanism is fixed in under the shell on the terminal surface, shell inside wall and dust excluding hood inside wall all link up the cooperation with dust absorption mechanism.

Further, the dust excluding hood includes frame and rubber hood, the frame includes left frame and right frame, the rubber hood includes left rubber hood and right rubber hood, left side rubber hood one end and shell fixed connection, the other end and left rubber hood fixed connection, right side rubber hood one end and shell fixed connection, the other end and right frame fixed connection, left side frame cooperatees with right frame, left side rubber hood and right rubber hood all can contract and expand, the rubber hood is bilayer structure, be equipped with the negative pressure mouth that link up rubber hood inlayer inner wall on the inlayer inside wall of rubber hood, link up on the outer lateral wall of rubber hood and be fixed with out the dirt mouth, go out dirt mouth and dust absorption mechanism through connection.

Further, clean mechanism includes first cleaning roller and second cleaning roller, first cleaning roller and second cleaning roller all are fixed in on the shell inside wall, first cleaning roller one end and clean driving motor output shaft fixed connection, clean driving motor is fixed in on the shell lateral wall through clean driving motor mount, first cleaning roller other end transmission is fixed with drive gear, drive gear meshes with drive gear mutually, drive gear meshes with driven gear mutually, driven gear and second cleaning roller transmission fixed connection, first cleaning roller and second cleaning roller all with electrostatic generator electric connection, first cleaning roller is the same with second cleaning roller structure completely.

Further, first cleaning roller includes the cleaning roller body and gathers the silo, the fixed cover of cleaning roller body is in the cleaning roller pivot, it has the static piece to embed on the cleaning roller body lateral wall, and static piece and static current conducting plate cooperate, static current conducting plate is equipped with two altogether on the lateral wall about the cleaning roller body is located respectively, and static current conducting plate is fixed embedded on the shell inside wall, gather the silo and locate cleaning roller body downside, and gather the silo and be fixed in the shell inboard, it is equipped with clean spiller to gather the inboard slip of silo, clean spiller one end closely laminates with the static piece, and the other end passes through supporting spring and gathers silo fixed connection, it goes out the dirt pipe to link up fixedly on the terminal surface under the silo to gather the silo, the cleaning roller goes out dirt pipe and dust absorption mechanism through connection, the cleaning roller goes out dirt pipe and goes out the dirt mouth inboard and is embedded to have the mechanism of moisturizing.

Further, it includes the outlet pipe to drench the mechanism, outlet pipe one end pierces through the cleaning roller and goes out the dirt pipe and go out the dirt mouth and link up and locate the cleaning roller and go out the dirt pipe and go out the dirt mouth inboard, the outlet pipe other end and the fixed through connection of water pump outlet, the water pump input port passes through inlet tube and water tank through connection, the water tank link up and locates the dust absorption mechanism downside.

Further, the static piece includes static piece body, static piece body is fan-shaped rectangular for the cross-section, the embedded conducting block that has in static piece body both ends, the conducting block passes through conductive spring and static piece body fixed connection that slides, conducting block and static piece body electric connection.

Further, the static current conducting plate includes the current conducting plate body, the current conducting plate body is incomplete ring shape, the current conducting plate body complete part is located and is gathered the silo outside, and current conducting plate body incomplete part is located and gathers the silo inboard, the current conducting plate body is embedded to be fixed in on the shell inside wall, current conducting plate body and conducting block in close contact with, current conducting plate body and current conducting plate wire electric connection, current conducting plate wire and electrostatic generator electric connection.

Further, the shell includes housing body, housing body is the rectangle casing that the terminal surface link up around for, evenly be equipped with a plurality of shell adsorption ports on the housing body inside wall, be equipped with single shell dust outlet on the housing body lateral wall, shell dust outlet and a plurality of shell adsorption port through connection, shell dust outlet and dust absorption mechanism through connection.

Furthermore, the dust collection mechanism comprises a dust collection shell which is a hollow rectangular shell, a water tank is fixedly communicated with the lower end face of the dust collection shell, a dust collection groove is formed in the inner side of the dust collection shell in a sliding mode, one end of the dust collection groove penetrates through the dust collection shell and extends to the outer side of the dust collection shell, fans are fixedly arranged on the left side wall and the right side wall of the dust collection shell, the air outlet ends of the fans penetrate through the dust collection shell and are communicated with the dust collection groove, the air suction ends of the fans are fixedly connected with the dust outlet pipe of the cleaning roller and the dust outlet of the dust outlet and the dust outlet of the shell respectively, a filter screen is arranged on the lower end face of the dust collection groove, filter rags are uniformly attached to the filter screen, and the dust collection groove is communicated with the water tank through the filter screen and the filter rags.

Further, the working steps of the clean environment-friendly textile machine are as follows:

1) Placing the device at the end of a textile machine, pulling a cleaning mechanism to cover the outside of the textile machine, transferring the textile cloth from one end of the housing to the other end of the housing through the cleaning mechanism, and starting the device;

2) The fan is started, so that negative pressure is generated in the dust outlet pipe of the cleaning roller, the dust outlet and the shell dust outlet, and flying dust flocks at the inner sides of the shell adsorption port, the material collecting groove, the left rubber cover and the right rubber cover are absorbed into the dust collecting groove;

3) The static generator is started to enable the static conductive plate to generate static electricity, and further enable the static block on the cleaning roller body, which is in contact with the static conductive plate, to generate static electricity;

4) The cleaning driving motor is started to drive the first cleaning roller and the driving gear to be started, the driving gear drives the driven gear and the second cleaning roller to be started through the transmission gear, the first cleaning roller and the second cleaning roller are started to adsorb the chips on the textile cloth contacted with the first cleaning roller and the second cleaning roller, the chips are shoveled into the material collecting groove through the cleaning shovel, and the chips on the material collecting groove enter the dust outlet pipe of the cleaning roller;

5) At the moment, the water outlet pipe on the inner side wall of the dust outlet pipe of the cleaning roller discharges water to wet the scraps in the dust outlet pipe of the cleaning roller, and the wet scraps and the water flow enter the dust collecting groove;

6) The wet debris entering the dust collection groove is absorbed by the filter screen and the filter cloth, and the water flow passes through the filter screen and the filter cloth and enters the water tank again;

7) The water body entering the water tank enters the water outlet pipe on the inner side wall of the dust outlet pipe of the cleaning roller again through the water pump;

8) And after the spinning is finished, closing the equipment, extracting the dust collecting groove and carrying out centralized treatment on the scraps.

Compared with the prior art, the invention has the beneficial effects that: the invention is provided with the negative pressure port and the shell adsorption port, thereby being capable of absorbing and collecting flying dust generated in the processing process of the textile machine, further avoiding the flying dust from winding the textile machine, greatly improving the service life of the textile machine, simultaneously avoiding the flying dust from flying and leaking, further avoiding the flying dust from being absorbed by operators, greatly improving the protection of the operators and avoiding the damage to the bodies of the operators, and the invention is provided with the first cleaning roller and the second cleaning roller which can absorb scraps attached on the textile cloth and move the scraps into the dust absorption mechanism, further ensuring the cleanliness of the textile cloth and greatly improving the production quality of the textile cloth. When the electrostatic roller is contacted with the textile cloth, the electrostatic roller is provided with static electricity to adsorb flying dust and fragments on the textile cloth, when the electrostatic roller rotates to one side of the dust collecting tank, the static electricity on the electrostatic roller disappears, at the moment, the fragments on the electrostatic roller fall off in the dust collecting tank, and part of the fragments and dust adhered to the electrostatic roller without the static electricity are easily shoveled by the cleaning shovel, so that the cleaning efficiency of the dust and the fragments is greatly improved, meanwhile, the dust and the fragments in the dust collecting tank are prevented from being adsorbed again by the electrostatic roller, the invention is also provided with a spraying device which is used for wetting the collected dust and the fragments and preventing the dust and the fragments from flying, after the wetted dust and the fragments enter the dust collecting tank, the wetted dust and the wetted rags are filtered in the dust collecting tank through the filter screen and the filter rags, and a water body enters the water tank again through the filter screen and the filter rags, the invention adopts the circulating water system, not only solves the problem of flying dust and debris, but also realizes the circulation of water resources, greatly saves the resources, has the dust collection and wetting capacity, ensures the surface cleanness of the textile cloth, has the electrostatic roller with semi-static electricity, is convenient for debris cleaning, and has other beneficial effects.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the general construction of a clean eco-friendly textile machine of the present invention;

FIG. 2 is a schematic structural diagram of a dust hood of the textile machine for cleaning and environmental protection;

FIG. 3 is a schematic view of a cleaning mechanism for cleaning the eco-friendly textile machine according to the present invention;

FIG. 4 is a schematic view showing the structure of a first cleaning roller of the eco-friendly textile machine according to the present invention;

FIG. 5 is a schematic view of the structure of an electrostatic mass of a cleaning eco-friendly textile machine of the present invention;

FIG. 6 is a schematic view showing the construction of an electrostatic conductive plate of the cleaning eco-textile machine of the present invention;

FIG. 7 is a schematic structural view of a housing of a clean eco-textile machine of the present invention;

FIG. 8 is a schematic view of a dust suction mechanism of the eco-friendly textile machine;

FIG. 9 is a schematic structural view of a wetting mechanism of the eco-friendly textile machine according to the present invention.

In the figure: the cleaning device comprises a support frame 1, a dust hood 2, a cleaning mechanism 3, a shell 4, an electrostatic generator 5, a dust collection mechanism 6, a dust outlet 21, a negative pressure port 22, a right frame 23, a right rubber cover 24, a left frame 25, a left rubber cover 26, a first cleaning roller 31, a driving gear 32, a transmission gear 33, a driven gear 34, a second cleaning roller 35, a cleaning driving motor 36, a cleaning driving motor fixing frame 37, a cleaning roller body 311, a cleaning roller dust outlet pipe 312, a supporting spring 313, a cleaning shovel 314, a material gathering groove 315, an electrostatic block 316, an electrostatic conductive plate 317, a cleaning roller rotating shaft 318, a wetting mechanism 319, an electrostatic block body 3161, a conductive block 3162, a conductive spring 3163, a conductive plate body 3171, a conductive plate lead 3172, a shell adsorption port 41, a shell dust outlet 42, a shell body 43, a dust collection shell 61, a fan 62, a dust collection groove 63, a water outlet pipe 3191, a water tank 3192, a water inlet pipe 3193 and a water pump 3194.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a clean environmental protection weaving machine, including support frame 1 and shell 4, support frame 1 is fixed in under shell 4 on the terminal surface, 4 front end fixedly connected with dust excluding hood 2 of shell, 4 inboards of shell are fixed with clean mechanism 3, clean mechanism 3 link up the cooperation with electrostatic generator 5 and dust absorption mechanism 6 respectively, electrostatic generator 5 is fixed in on the shell 4 up end, dust absorption mechanism 6 is fixed in under the shell 4 on the terminal surface, 4 inside walls of shell and 2 inside walls of dust excluding hood all link up the cooperation with dust absorption mechanism 6.

As shown in fig. 2, the dust removing hood 2 includes a frame and a rubber cover, the frame includes a left frame 25 and a right frame 23, the rubber cover includes a left rubber cover 26 and a right rubber cover 24, one end of the left rubber cover 26 is fixedly connected with the housing 4, the other end is fixedly connected with the left rubber cover 26, one end of the right rubber cover 24 is fixedly connected with the housing 4, the other end is fixedly connected with the right frame 23, the left frame 25 is matched with the right frame 23, the left rubber cover 26 and the right rubber cover 24 can be contracted and expanded, the rubber cover is of a double-layer structure, a negative pressure port 22 penetrating through the inner wall of the inner layer of the rubber cover is arranged on the inner side wall of the inner layer of the rubber cover, a dust outlet 21 is fixedly arranged on the outer side wall of the rubber cover, and the dust outlet 21 is connected with a dust collecting mechanism 6.

As shown in fig. 3, the cleaning mechanism 3 includes a first cleaning roller 31 and a second cleaning roller 35, the first cleaning roller 31 and the second cleaning roller 35 are both fixed on the inner side wall of the housing 4, one end of the first cleaning roller 31 is fixedly connected with an output shaft of a cleaning driving motor 36, the cleaning driving motor 36 is fixed on the outer side wall of the housing 4 through a cleaning driving motor fixing frame 37, a driving gear 32 is fixed on the other end of the first cleaning roller 31 in a transmission manner, the driving gear 32 is meshed with a transmission gear 33, the transmission gear 33 is meshed with a driven gear 34, the driven gear 34 is fixedly connected with the second cleaning roller 35 in a transmission manner, the first cleaning roller 31 and the second cleaning roller 35 are both electrically connected with the electrostatic generator 5, and the first cleaning roller 31 and the second cleaning roller 35 have the same structure.

1. As shown in fig. 4, the first cleaning roller 31 includes a cleaning roller body 311 and a collecting groove 315, the cleaning roller body 311 is fixedly sleeved on a cleaning roller rotating shaft 318, an electrostatic block 316 is embedded on the outer side wall of the cleaning roller body 311, the electrostatic block 316 is matched with two electrostatic conductive plates 317, the two electrostatic conductive plates 317 are respectively arranged on the left and right side walls of the cleaning roller body 311, the electrostatic conductive plates 317 are fixedly embedded on the inner side wall of the housing 4, the collecting groove 315 is arranged on the lower side of the cleaning roller body 311, the collecting groove 315 is fixed on the inner side of the housing 4, a cleaning blade 314 is slidably arranged on the inner side of the collecting groove 315, one end of the cleaning blade 314 is tightly attached to the electrostatic block 316, the other end of the cleaning blade is fixedly connected to the collecting groove 315 through a supporting spring 313, a cleaning roller dust outlet pipe 312 is fixedly arranged on the lower end face of the collecting groove 315, the cleaning roller dust outlet pipe 312 is connected to the dust collecting mechanism 6, and a wetting mechanism 319 is embedded inside the cleaning roller dust outlet pipe 312 and the dust outlet 21.

As shown in fig. 9, the wetting mechanism 319 includes a water outlet pipe 3191, one end of the water outlet pipe 3191 penetrates through the cleaning roller dust outlet pipe 312 and the dust outlet 21 and is disposed inside the cleaning roller dust outlet pipe 312 and the dust outlet 21, the other end of the water outlet pipe 3191 is fixedly connected with the water pump 3194, the water pump 3194 has an input port connected with the water tank 3192 through the water inlet pipe 3193, and the water tank 3192 is disposed at the lower side of the dust suction mechanism 6.

As shown in fig. 5, the electrostatic block 316 includes an electrostatic block body 3161, the electrostatic block body 3161 is a long strip with a sector cross section, conductive blocks 3162 are embedded in two ends of the electrostatic block body 3161, the conductive blocks 3162 are slidably and fixedly connected with the electrostatic block body 3161 through conductive springs 3163, and the conductive blocks 3162 are electrically connected with the electrostatic block body 3161.

As shown in fig. 6, the electrostatic conductive plate 317 includes a conductive plate body 3171, the conductive plate body 3171 is a broken ring shape, the entire portion of the conductive plate body 3171 is disposed outside the material collecting groove 315, the broken portion of the conductive plate body 3171 is disposed inside the material collecting groove 315, the conductive plate body 3171 is embedded and fixed on the inner side wall of the housing 4, the conductive plate body 3171 is in close contact with the conductive block 3162, the conductive plate body 3171 is electrically connected to the conductive plate lead 3172, and the conductive plate lead 3172 is electrically connected to the electrostatic generator 5.

As shown in fig. 7, the housing 4 includes a housing body 43, the housing body 43 is a rectangular case with front and rear end faces penetrating through, the inner side wall of the housing body 43 is uniformly provided with a plurality of housing suction ports 41, the outer side wall of the housing body 43 is provided with a single housing dust outlet 42, the housing dust outlet 42 is connected with the plurality of housing suction ports 41 in a penetrating manner, and the housing dust outlet 42 is connected with the dust collection mechanism 6 in a penetrating manner.

As shown in fig. 8, the dust suction mechanism 6 includes a dust suction housing 61, the dust suction housing 61 is a hollow rectangular casing, a water tank 3192 is penetratingly fixed on a lower end surface of the dust suction housing 61, a dust collection groove 63 is slidably disposed inside the dust suction housing 61, one end of the dust collection groove 63 penetrates through the dust suction housing 61 and extends outside the dust suction housing 61, fans 62 are fixed on left and right side walls of the dust suction housing 61, air outlet ends of the two fans 62 penetrate through the dust suction housing 61 and are penetratingly connected with the dust collection groove 63, air suction ends of the two fans 62 respectively penetrate through and are fixedly connected with the dust outlet pipe 312 of the cleaning roller and the dust outlet 21 of the cleaning roller and the dust outlet 42 of the housing, a filter screen 64 is disposed on a lower end surface of the dust collection groove 63, filter cloth is uniformly adhered on the filter screen 64, and the dust collection groove 63 is penetratingly connected with the water tank 3192 through the filter screen 64 and the filter.

The working steps of the cleaning environment-friendly textile machine are as follows:

1) Placing the device at the end of a textile machine, pulling the cleaning mechanism 3 to cover the cleaning mechanism 3 outside the textile machine, transferring the textile cloth from one end of the housing 4 to the other end of the housing 4 through the cleaning mechanism 3, and starting the device;

2) The fan 62 is started, so that negative pressure is generated inside the cleaning roller dust outlet pipe 312, the dust outlet 21 and the housing dust outlet 42, and flying dust flocks on the inner sides of the housing adsorption port 41, the material collecting groove 315, the left rubber cover 26 and the right rubber cover 24 are absorbed into the dust collecting groove 63;

3) The static generator 5 is started to enable the static conductive plate 317 to generate static electricity, and further enable the static block 316 on the cleaning roller body 311, which is in contact with the static conductive plate 317, to generate static electricity;

4) The cleaning driving motor 36 is started to drive the first cleaning roller 31 and the driving gear 32 to be started, the driving gear 32 drives the driven gear 34 and the second cleaning roller 35 to be started through the transmission gear 33, the first cleaning roller 31 and the second cleaning roller 35 are started to adsorb the scraps on the textile cloth contacted by the first cleaning roller 31 and the second cleaning roller 35, the scraps are shoveled into the material gathering groove 315 through the cleaning shovel blade 314, and the scraps on the material gathering groove enter the dust outlet pipe of the cleaning roller;

5) At this time, the water flows out of the cleaning roller dust outlet pipe 312 and the water outlet pipe 3191 on the inner side wall of the dust outlet 21, so that the debris in the cleaning roller dust outlet pipe 312 is wetted, and the wetted debris enters the dust collection groove 63 together with the water flow;

6) The wet debris entering the dust collection tank is absorbed by the filter screen 64 and the filter cloth, and the water flow passes through the filter screen 64 and the filter cloth and enters the water tank 3192 again;

7) The water body entering the water tank 3192 enters the water outlet pipe 3191 on the inner side wall of the dust outlet pipe 312 of the cleaning roller again through the water pump 3194;

8) After the spinning is finished, the equipment is closed, the dust collecting groove 63 is drawn out, and the scraps are treated in a centralized manner.

The foregoing is merely illustrative and explanatory of the present invention and various modifications, additions or substitutions may be made to the specific embodiments described by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A clean environment-friendly textile machine comprises a support frame (1) and a shell (4), and is characterized in that the support frame (1) is fixed on the lower end face of the shell (4), the front end of the shell (4) is fixedly connected with a dust hood (2), a cleaning mechanism (3) is fixed on the inner side of the shell (4), the cleaning mechanism (3) is respectively in through fit with an electrostatic generator (5) and a dust absorption mechanism (6), the electrostatic generator (5) is fixed on the upper end face of the shell (4), the dust absorption mechanism (6) is fixed on the lower end face of the shell (4), and the inner side wall of the shell (4) and the inner side wall of the dust hood (2) are in through fit with the dust absorption mechanism (6); the cleaning mechanism (3) comprises a first cleaning roller (31) and a second cleaning roller (35), the first cleaning roller (31) and the second cleaning roller (35) are fixed on the inner side wall of the shell (4), one end of the first cleaning roller (31) is fixedly connected with an output shaft of a cleaning driving motor (36), the cleaning driving motor (36) is fixed on the outer side wall of the shell (4) through a cleaning driving motor fixing frame (37), a driving gear (32) is fixedly connected to the other end of the first cleaning roller (31) in a transmission manner, the driving gear (32) is meshed with a transmission gear (33), the transmission gear (33) is meshed with a driven gear (34), the driven gear (34) is fixedly connected with the second cleaning roller (35) in a transmission manner, the first cleaning roller (31) and the second cleaning roller (35) are both electrically connected with an electrostatic generator (5), and the first cleaning roller (31) and the second cleaning roller (35) are completely identical in structure; the first cleaning roller (31) comprises a cleaning roller body (311) and a collecting groove (315), the cleaning roller body (311) is fixedly sleeved on a cleaning roller rotating shaft (318), an electrostatic block (316) is embedded in the outer side wall of the cleaning roller body (311), the electrostatic block (316) is matched with an electrostatic conductive plate (317), the electrostatic conductive plate (317) is provided with two electrostatic conductive plates (317), the two electrostatic conductive plates (317) are respectively arranged on the left side wall and the right side wall of the cleaning roller body (311), the electrostatic conductive plates (317) are fixedly embedded in the inner side wall of the shell (4), the collecting groove (315) is arranged on the lower side of the cleaning roller body (311), the collecting groove (315) is fixed on the inner side of the shell (4), a cleaning shovel blade (314) is arranged on the inner side of the collecting groove (315) in a sliding mode, one end of the cleaning shovel blade (314) is tightly attached to the electrostatic block (316), the other end of the cleaning shovel blade (314) is fixedly connected with the collecting groove (315) through a supporting spring (313), a cleaning outlet pipe (312) is fixedly connected to the lower end face of the collecting groove (315), and a dust outlet pipe (312) is connected with a dust collecting mechanism (319), and a wet dust outlet mechanism (21) is embedded in the cleaning roller; the electrostatic conducting plate (317) comprises a conducting plate body (3171), the conducting plate body (3171) is in a shape of a broken ring, the whole part of the conducting plate body (3171) is arranged on the outer side of a material collecting groove (315), the broken part of the conducting plate body (3171) is arranged on the inner side of the material collecting groove (315), the conducting plate body (3171) is embedded and fixed on the inner side wall of a shell (4), the conducting plate body (3171) is in tight contact with a conducting block (3162), the conducting plate body (3171) is electrically connected with a conducting plate lead (3172), and the conducting plate lead (3172) is electrically connected with an electrostatic generator (5).

2. The textile machine for cleaning and environmental protection according to claim 1, wherein the dust removing cover (2) comprises a frame and a rubber cover, the frame comprises a left frame (25) and a right frame (23), the rubber cover comprises a left rubber cover (26) and a right rubber cover (24), one end of the left rubber cover (26) is fixedly connected with the housing (4), the other end of the left rubber cover is fixedly connected with the left rubber cover (26), one end of the right rubber cover (24) is fixedly connected with the housing (4), the other end of the right rubber cover is fixedly connected with the right frame (23), the left frame (25) is matched with the right frame (23), the left rubber cover (26) and the right rubber cover (24) can be contracted and expanded, the rubber cover is of a double-layer structure, a negative pressure port (22) is formed in the inner side wall of the inner layer of the rubber cover and penetrates through the inner wall of the rubber cover, a dust outlet (21) is fixedly formed in the outer side wall of the rubber cover and penetrates through the dust collecting mechanism (6).

3. The textile machine for cleaning and environmental protection according to claim 2, wherein the wetting mechanism (319) comprises a water outlet pipe (3191), one end of the water outlet pipe (3191) penetrates through the cleaning roller dust outlet pipe (312) and the dust outlet (21) and is arranged inside the cleaning roller dust outlet pipe (312) and the dust outlet (21), the other end of the water outlet pipe (3191) is fixedly communicated with an output port of a water pump (3194), an input port of the water pump (3194) is communicated with a water tank (3192) through a water inlet pipe (3193), and the water tank (3192) is communicated with the lower side of the dust suction mechanism (6).

4. The textile machine according to claim 3, wherein the static block (316) comprises a static block body (3161), the static block body (3161) is a long strip with a sector-shaped cross section, conductive blocks (3162) are embedded in two ends of the static block body (3161), the conductive blocks (3162) are slidably and fixedly connected with the static block body (3161) through conductive springs (3163), and the conductive blocks (3162) are electrically connected with the static block body (3161).

5. The textile machine of claim 4, wherein the housing (4) comprises a housing body (43), the housing body (43) is a rectangular shell with a front end surface and a rear end surface penetrating through, the inner side wall of the housing body (43) is uniformly provided with a plurality of housing adsorption ports (41), the outer side wall of the housing body (43) is provided with a single housing dust outlet (42), the housing dust outlet (42) is in through connection with the plurality of housing adsorption ports (41), and the housing dust outlet (42) is in through connection with the dust collection mechanism (6).

6. The textile machine for cleaning and environmental protection as claimed in claim 5, wherein the dust collection mechanism (6) comprises a dust collection housing (61), the dust collection housing (61) is a hollow rectangular housing, a water tank (3192) is fixed on a lower end surface of the dust collection housing (61) in a penetrating manner, a dust collection groove (63) is slidably arranged on an inner side of the dust collection housing (61), one end of the dust collection groove (63) penetrates through the dust collection housing (61) and extends to the outer side of the dust collection housing (61), fans (62) are fixed on left and right side walls of the dust collection housing (61), air outlet ends of the two fans (62) penetrate through the dust collection housing (61) and are in penetrating manner with the dust collection groove (63), air suction ends of the two fans (62) are respectively in penetrating manner and fixed with the dust outlet pipe (312) of the cleaning roller and the dust outlet (21) and the housing dust outlet (42), a filter screen (64) is arranged on a lower end surface of the dust collection groove (63), filter cloth is uniformly adhered to the filter cloth (64), and the dust collection groove (63) is in penetrating manner connected with the water tank (3192) through the filter cloth (64).

7. The clean environmental friendly textile machine according to claim 6, wherein the clean environmental friendly textile machine comprises the following working steps:

placing the equipment at the tail end of a textile machine, pulling a cleaning mechanism (3) to enable the cleaning mechanism (3) to cover the outer side of the textile machine, transferring the textile cloth from one end of a shell (4) to the other end of the shell (4) through the cleaning mechanism (3), and starting the equipment;

the fan (62) is started, so that negative pressure is generated inside the cleaning roller dust outlet pipe (312), the dust outlet (21) and the shell dust outlet (42), and flying dust flocks on the inner sides of the shell adsorption port (41), the material collecting groove (315), the left rubber cover (26) and the right rubber cover (24) are absorbed into the dust collecting groove (63);

the static generator (5) is started to enable the static conductive plate (317) to generate static electricity, and further enable the static block (316) on the cleaning roller body (311) which is in contact with the static conductive plate (317) to generate static electricity;

the cleaning and driving device comprises a cleaning and driving motor (36), a first cleaning roller (31) and a driving gear (32) are driven to start, the driving gear (32) drives a driven gear (34) and a second cleaning roller (35) to start through a transmission gear (33), the first cleaning roller (31) and the second cleaning roller (35) start, debris on the textile cloth, which is contacted with the first cleaning roller (31) and the second cleaning roller (35), is adsorbed and shoveled into a material gathering groove (315) through a cleaning shovel blade (314), and the debris on the material gathering groove enters a dust outlet pipe of the cleaning roller;

at the moment, the cleaning roller dust outlet pipe (312) and a water outlet pipe (3191) on the inner side wall of the dust outlet (21) discharge water, so that the debris in the cleaning roller dust outlet pipe (312) is wetted, and the wetted debris enters the dust collection groove (63) together with the water flow;

the wet debris entering the dust collection groove is absorbed by the filter screen (64) and the filter rag, and the water flow passes through the filter screen (64) and the filter rag and reenters the water tank (3192);

the water body entering the water tank (3192) enters the water outlet pipe (3191) on the inner side wall of the dust outlet pipe (312) of the cleaning roller again through the water pump (3194);

after the spinning is finished, the equipment is closed, the dust collecting groove (63) is drawn out, and the scraps are treated in a centralized manner.