CN209873408U - Dust remover of textile fabric production usefulness - Google Patents

Abstract

The utility model relates to a dust remover technical field specifically is a dust remover of textile fabric production usefulness, and fixed casing includes slide rail and fixture device, and a pair of slide rail of both ends symmetry screwed connection about the fixed shells inner wall, and both ends all run through and have the iron core through spot welding about every slide rail, and the iron core outer wall has twined the copper line, and the inside equal sliding connection of every slide rail has the slider that is type of calligraphy structure. Through the textile fabric with just production output about both ends press from both sides between two fixture device from top to bottom for along with the slider drives fixture device and removes, can be along with the slip opposite direction of two blocks from top to bottom, and make textile fabric shake, thereby can shake out textile fabric outside dust, and then improved the efficiency of removing dust, solved the dust remover of present textile fabric production usefulness, dust collection efficiency crosses the problem of the dust of low and not being convenient for collect detach.

Description

Dust remover of textile fabric production usefulness

Technical Field

The utility model relates to a dust remover technical field specifically is a dust remover of textile fabric production usefulness.

Background

Industrial dust, fine dirt enable the workman suffer from various occupational diseases that are difficult to cure, too much dust still can cause environmental pollution, influence people's normal life and work, induce human respiratory disease, textile fabric processing completion back, sundries such as various knitting wool, little thread end can be adhered to on its surface, make whole textile fabric surface seem neatly inadequately, in textile fabric transport or use, the sundries that adhere to on its surface can drop to the weaving machine, influence the weaving machine normal operating, thereby just need the dust remover to carry out dust removal work.

The dust remover of present textile fabric production usefulness, when putting into the textile fabric of just producing the dust remover inside removing dust, can be because textile fabric's activity is inconvenient, and lead to dust collection efficiency to hang down excessively, the dust of being not convenient for collect the detached moreover for the dust of detaching is blown the outside by the wind of fan easily, leads to outside dust to be inhaled inside the nose by the worker easily.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a dust remover of textile fabric production usefulness possesses not only the efficiency that has improved the dust removal, is convenient for collect advantages such as the dust of detaching moreover, has solved the dust remover of present textile fabric production usefulness, and dust collection efficiency crosses the problem of low and be not convenient for collect the dust of detaching.

(II) technical scheme

For the efficiency that realizes above-mentioned not only having improved the dust removal, be convenient for collect the purpose such as dust of detaching moreover, the utility model provides a following technical scheme: a precipitator for the production of textile fabric, the precipitator comprising: the fixture comprises a fixture body, the fixture body comprises slide rails and fixture devices, the upper end and the lower end of the inner wall of the fixture body are symmetrically connected with a pair of slide rails through screws, the left end and the right end of each slide rail are penetrated through and welded with an iron core through spot welding, the outer wall of the iron core is wound with copper wires, the interior of each slide rail is connected with sliders in a convex structure in a sliding mode, the number of the fixture devices is two, the two fixture devices are respectively welded at one ends of the upper pair of slide blocks and the lower pair of slide blocks in a symmetrical mode, each fixture device comprises a clamping plate, a tension spring and side blocks, side grooves are formed in the front side and the rear side of the upper end of each fixture device, a pair of side blocks are connected in the side grooves in a sliding mode, the upper ends of the side blocks on the same side of the two side; a dust collection shell, the dust collection shell is welded at the left end of the fixed shell through arc welding, the dust collection shell is communicated with the fixed shell, the dust collection shell comprises a fan and a water tank, the fan is embedded and connected at the left end of the dust collection shell through bolts, the right end of the fan penetrates through the inner part of the dust collection shell and is connected with a fine net through screws, the water tank is arranged at the upper end of the dust collection shell, the water tank comprises a water receiving pipe, a fixing frame and a high-pressure water pump, the water receiving pipe is communicated with the upper end of the dust collection shell, the fixing frame is connected with the lower end of the water receiving pipe through screws, the tail end of the fixing frame penetrates through the inner part of the dust collection shell and is connected with the high-pressure water pump, the right side of the upper end of the high-pressure water pump is, the lower end of the connecting pipe is uniformly connected with at least six nozzles; the dust collecting device comprises a dust collecting shell, wherein the dust collecting shell is welded at the lower end of the dust collecting shell through arc welding, the dust collecting shell is communicated with the dust collecting shell, the dust collecting shell comprises a drawer, the front end of the dust collecting shell is provided with a pumping opening, the drawer is connected to the inner portion of the pumping opening in a sliding mode, and a water absorbing pad is arranged at the bottom end of the inner portion of the drawer.

The clamping plate has the further advantages that at least three anti-slip strips are vertically and uniformly bonded at one end of the clamping plate through the adhesive, and the anti-slip strips are made of rubber.

Further advantage, the dust absorption casing front end is the open end, just the dust absorption casing front end articulates there is the observation window that covers the open-ended.

Further advantage, the fine net is evenly provided with at least one hundred pores inside, and the aperture of the pores is 1mm-2 mm.

Further advantage, the water tank front end embedding is and is adhered through waterproof glue has the graduation apparatus.

It is a further advantage that the connecting tube is in communication with the drain pipe, and the connecting tube is in communication with the nozzle.

Further advantage, the supporting legs is all welded through spot welding in the casing lower extreme four corners that gathers dust, just the supporting legs end is welded through spot welding has the fixed plate, and the screw has all been opened all around to the fixed plate upper end.

Further advantageously, the absorbent pad is made of sponge.

(III) advantageous effects

Compared with the prior art, the utility model provides a dust remover of textile fabric production usefulness possesses following beneficial effect:

1. according to the dust remover for textile fabric production, the upper end and the lower end of a textile fabric which is just produced are clamped between the upper clamp device and the lower clamp device, so that the clamp devices are driven by the sliding blocks to move, the textile fabric can shake along with the opposite sliding directions of the upper sliding block and the lower sliding block, dust outside the textile fabric can be shaken out, and the dust removing efficiency is improved;

2. when dust is sucked into the dust collection shell through the fan, water in the water tank can be pumped out through the high-pressure water pump, so that water mist is sprayed out of the nozzle, when the dust meets the water mist, the dust is condensed into blocks to increase the weight, and the condensed dust can be sprayed downwards through the spraying force, so that the removed dust can be collected conveniently;

3. when the condensed dust is downwards sprayed into the dust collection shell, the dust can fall into the water absorption pad on the drawer, the water can be absorbed by the water absorption pad, the dust can be adhered to the water absorption pad, and therefore the dust can be cleaned only by taking out the water absorption pad, and the dust can be cleaned more conveniently.

Drawings

FIG. 1 is a schematic view of the whole structure of the present invention;

FIG. 2 is a schematic view of a portion A of the fixture apparatus of FIG. 1 according to the present invention;

fig. 3 is a schematic sectional view of the structural water tank of the present invention.

In the figure: 100-a stationary housing; 101-a slide rail; 102-a core; 103-copper wire; 104-a slide block; 105-a clamp device; 106-splint; 107-side groove; 108-tension spring; 109-lateral mass; 110-cleats; 200-a dust extraction housing; 201-a fan; 202-fine net; 203-a viewing window; 300-a water tank; 301-scale table; 302-water receiving pipe; 303-a fixing frame; 304-a high pressure water pump; 305-a water pumping pipe; 306-a drain pipe; 307-connecting a pipe; 308-a nozzle; 400-dust collecting shell; 401-supporting feet; 402-a fixed plate; 403-screw hole; 404-a drawing port; 405-a drawer; 406-absorbent pad.

Detailed Description

In order to more clearly illustrate embodiments of the present invention or technical solutions in the prior art, specific embodiments of the present invention will be described below with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.

In a first embodiment, as shown in fig. 1-2, the present application discloses a duster for textile fabric production, the duster comprising: the fixed casing 100 comprises slide rails 101 and clamp devices 105, a pair of slide rails 101 are symmetrically connected with screws at the upper end and the lower end of the inner wall of the fixed casing 100 through screws, an iron core 102 is welded at the left end and the right end of each slide rail 101 in a spot welding mode, copper wires 103 are wound on the outer wall of the iron core 102, sliders 104 which are in a convex structure are connected inside each slide rail 101 in a sliding mode, the number of the clamp devices 105 is two, the two clamp devices 105 are respectively welded at one ends of the upper and the lower two pairs of sliders 104 in a symmetrical mode, each clamp device 105 comprises a clamping plate 106, a tension spring 108 and side blocks 109, side grooves 107 are formed in the front and the rear of the upper end of each clamp device 105, a pair of side blocks 109 are connected inside each side groove 107 in a sliding mode, the upper ends of the side blocks 109 on the same side inside the two side grooves 107 are, and the tension spring 108 is adhered between the side blocks 109 in the same side groove 107 by adhesive, firstly, the upper and lower pairs of copper wires 103 exposed on the outer wall of the iron core 102 at the opening at the right end of the fixed shell 100 are electrified, so that the iron core 102 forms an electromagnet along with the electrification of the copper wires 103, because the slide block 104 is made of iron, the slide block 104 is attracted by the iron core 102 and slides to the opening of the fixed shell 100, then two clamp plates 106 on a clamp device 105 are pulled open, the textile fabric just produced is clamped between the clamp plates 106 in the upper and lower clamp devices 105 through the upper and lower ends of the textile fabric, so that the clamp plates 106 clamp the textile fabric along with the sliding of the side blocks 109 in the side groove 107 by the tension force of the tension spring 108, so that when the copper wires 103 which do not expose the opening of the fixed shell 100 on the upper left side are electrified, the iron core 102 on the left side forms an, the upper sliding block 104 slides leftwards along with the absorption of the upper sliding block 104, the lower sliding block 104 slides rightwards along with the absorption of the upper sliding block 104, the lower sliding block 104 slides leftwards along with the left, the upper right, the lower left and the lower right copper wires 103, 103 and 103 are powered off along with the opposite sliding directions of the upper and the lower sliding blocks 104 in the upper and the lower sliding rails 101, the first process is the powering on of the upper left copper wire 103, the powering off of the lower left copper wire 103 and the powering on of the lower right copper wire 103, the second process is the powering off of the upper left copper wire 103, the powering on of the upper right copper wire 103, the powering on of the lower left copper wire 103 and the powering off of the lower right copper wire 103, the first process and the second process are circulated back and forth, so that the textile fabric is shaken;

in the second embodiment, as shown in fig. 1-3, on the basis of the first embodiment, a dust collection housing 200 is welded to the left end of the fixed housing 100 by arc welding, the dust collection housing 200 is communicated with the fixed housing 100, the dust collection housing 200 includes a blower 201 and a water tank 300, the blower 201 is embedded in and bolted to the left end of the dust collection housing 200, the right end of the blower 201 penetrates through the dust collection housing 200 and is screwed with a fine mesh 202, the water tank 300 is mounted on the upper end of the dust collection housing 200, the water tank 300 includes a water receiving pipe 302, a fixing frame 303 and a high pressure water pump 304, the water receiving pipe 302 is communicated with the upper end of the dust collection housing 200, the fixing frame 303 is screwed with the lower end of the water receiving pipe 302, the tail end of the fixing frame 303 penetrates through the inside of the dust collection housing 200 and is screwed with the high pressure water pump 304, and the right side of the upper end of the high pressure water pump 304 is communicated with, the right side of the lower end of the high-pressure water pump 304 is communicated with a drain pipe 306, the tail end of the drain pipe 306 is connected with a connecting pipe 307, and the lower end of the connecting pipe 307 is uniformly connected with at least six nozzles 308, when the dust is sucked into the interior of the dust collection housing 200 by the fan 201, by the high pressure water pump 304 at the lower end of the fixing frame 303, since the connecting pipe 307 communicates with the drain pipe 306, and the connecting pipe 307 communicates with the nozzle 308, so that water inside the water tank 300 can be pumped out by the pumping pipe 305 and then discharged from the high pressure water pump 304 into the connecting pipe 307 through the discharging pipe 306, so that the nozzle 308 sprays mist, and when dust meets the mist, the mist is coagulated into lumps to increase the weight, and the spraying force may spray the condensed dust downward, thereby facilitating the collection of the removed dust, and then pass through the fine mesh 202, at least one hundred of fine holes are uniformly formed in the fine mesh 202, and the aperture of each fine hole is 1mm-2mm, so that dust condensed into blocks can be prevented from being discharged to the outside from the fan 201;

in the third embodiment, as shown in fig. 1, on the basis of the first or second embodiment, a dust collecting housing 400, the dust collection housing 400 is welded to the lower end of the dust collection housing 200 by arc welding, and the dust collection housing 400 is communicated with the dust collection housing 200, the dust collection shell 400 comprises a drawer 405, the front end of the dust collection shell 400 is provided with a drawing opening 404, the drawer 405 is connected inside the drawing opening 404 in a sliding manner, and the suction pad 406 is disposed at the bottom end inside the drawer 405, so that when the condensed dust is sprayed down into the dust collecting housing 400, it falls onto the suction pad 406 on the drawer 405, passes through the suction pad 406, because the suction pad 406 is made of sponge, the sprayed water can be absorbed, and the dust can be adhered to the water absorption pad 406, so that the drawer 405 is only required to be drawn out of the drawing port 404, and then the water absorption pad 406 is taken out for cleaning, and the dust can be cleaned more conveniently.

In the fourth embodiment, as shown in fig. 1, on the basis of the first or second embodiment, at least three anti-slip strips 110 are vertically and uniformly adhered to one end of the clamping plate 106 by an adhesive, and the anti-slip strips are made of rubber, so that when the clamping plate 106 clamps the textile fabric, the friction force between the clamping plate 106 and the textile fabric can be increased by the anti-slip strips 110, so that the clamping plate 106 is prevented from being loosened when the textile fabric shakes.

In the fifth embodiment, as shown in fig. 1, based on the first or second embodiment, the front end of the dust collection housing 200 is an open end, and the front end of the dust collection housing 200 is hinged with an observation window 203 covering the opening, so that a worker can conveniently observe dust collection processing work inside the dust collection housing 200 through the observation window 203, and when the observation window 203 is opened, maintenance work of the internal structure of the dust collection housing 200 can be facilitated.

In the sixth embodiment, as shown in fig. 1, based on the first or second embodiment, a scale 301 is embedded in the front end of the water tank 300 and bonded thereto by waterproof glue, and when water is supplied into the water tank 300 through a water receiving pipe 302, the water level inside the water tank 300 can be observed from rising by the scale 301.

In embodiment seven, as shown in fig. 1, on the basis of embodiment one or two, supporting legs 401 are welded to four corners of the lower end of the dust collection housing 400 through spot welding, a fixing plate 402 is welded to the tail end of each supporting leg 401 through spot welding, screw holes 403 are formed in the periphery of the upper end of the fixing plate 402, the dust collection housing 400 can be supported through the supporting legs 401, and the fixing plate 402 can be fixed by inserting bolts into the screw holes 403 and screwing the bolts into the screw holes 403, so that the fixing housing 100, the dust collection housing 200 and the dust collection housing 400 are placed more stably.

The embodiments described above employ: 100-a stationary housing; 101-a slide rail; 102-a core; 103-copper wire; 104-a slide block; 105-a clamp device; 106-splint; 107-side groove; 108-tension spring; 109-lateral mass; 110-cleats; 200-a dust extraction housing; 201-a fan; 202-fine net; 203-a viewing window; 300-a water tank; 301-scale table; 302-water receiving pipe; 303-a fixing frame; 304-a high pressure water pump; 305-a water pumping pipe; 306-a drain pipe; 307-connecting a pipe; 308-a nozzle; 400-dust collecting shell; 401-supporting feet; 402-a fixed plate; 403-screw hole; 404-a drawing port; 405-a drawer; 406-absorbent pads are commercially available or custom made.

The model of the fan is KYF-FYFJ; the high-pressure water pump is in a model of HYDP 1-026-200-50.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A dust remover of textile fabric production usefulness, its characterized in that, the dust remover includes:

the fixed shell (100) comprises a sliding rail (101) and a clamp device (105), the upper end and the lower end of the inner wall of the fixed shell (100) are symmetrically connected with the sliding rail (101) through screws, an iron core (102) penetrates through the left end and the right end of each sliding rail (101) and is welded with the iron core (102) through spot welding, the outer wall of the iron core (102) is wound with a copper wire (103), a sliding block (104) which is of a convex structure is connected inside each sliding rail (101) in a sliding mode, the number of the clamp device (105) is two, the two clamp devices (105) are respectively welded at one end of the upper pair of the lower pair of the sliding blocks (104) in a symmetrical mode, each clamp device (105) comprises a clamping plate (106), a tension spring (108) and a side block (109), side grooves (107) are formed in the front side and the rear side of the upper, the upper ends of the side blocks (109) on the same side in the two side grooves (107) are connected with a clamping plate (106), the clamping plate (106) and the side blocks (109) are of an integral structure, and the side blocks (109) in the same side groove (107) are bonded with a tension spring (108) through an adhesive;

a dust collection shell (200), the dust collection shell (200) is welded at the left end of the fixed shell (100) through arc welding, the dust collection shell (200) is communicated with the fixed shell (100), the dust collection shell (200) comprises a fan (201) and a water tank (300), the fan (201) is embedded into and bolted to the left end of the dust collection shell (200), the right end of the fan (201) penetrates through the fine net (202) in the dust collection shell (200), the water tank (300) is installed at the upper end of the dust collection shell (200), the water tank (300) comprises a water receiving pipe (302), a fixing frame (303) and a high-pressure water pump (304), the water receiving pipe (302) is communicated with the upper end of the dust collection shell (200), the fixing frame (303) is in screwed connection with the lower end of the water receiving pipe (302), and the tail end of the fixing frame (303) penetrates through the high-pressure water pump (304) in the dust collection shell (, a water pumping pipe (305) with the tail end penetrating into the water tank (300) is communicated with the right side of the upper end of the high-pressure water pump (304), a water discharging pipe (306) is communicated with the right side of the lower end of the high-pressure water pump (304), the tail end of the water discharging pipe (306) is connected with a connecting pipe (307), and the lower end of the connecting pipe (307) is uniformly connected with at least six nozzles (308);

the dust collection shell (400), dust collection shell (400) is welded through arc welding dust collection shell (200) lower extreme, and dust collection shell (400) with dust collection shell (200) communicate with each other to dust collection shell (400) includes drawer (405), dust collection shell (400) front end is opened has and is taken out mouth (404), and drawer (405) sliding connection be in take out inside mouth (404), and drawer (405) inside bottom has arranged the pad that absorbs water (406).

2. A precipitator for the production of textile fabric according to claim 1, wherein: at least three anti-slip strips (110) are vertically and uniformly adhered to one end of the clamping plate (106) through an adhesive, and the anti-slip strips are made of rubber.

3. A precipitator for the production of textile fabric according to claim 1, wherein: the front end of the dust collection shell (200) is an opening end, and the front end of the dust collection shell (200) is hinged with an observation window (203) covering the opening.

4. A precipitator for the production of textile fabric according to claim 1, wherein: at least one hundred pores are uniformly formed in the fine net (202), and the pore diameter of each pore is 1mm-2 mm.

5. A precipitator for the production of textile fabric according to claim 1, wherein: the front end of the water tank (300) is embedded and is bonded with a dial gauge (301) through waterproof glue.

6. A precipitator for the production of textile fabric according to claim 1, wherein: the connecting pipe (307) is communicated with the drain pipe (306), and the connecting pipe (307) is communicated with the nozzle (308).

7. A precipitator for the production of textile fabric according to claim 1, wherein: all there is supporting legs (401) in the four corners of dust collecting shell (400) lower extreme four corners through spot welding, just supporting legs (401) end has fixed plate (402) through spot welding, and screw (403) have all been opened all around fixed plate (402) upper end.

8. A precipitator for the production of textile fabric according to claim 1, wherein: the absorbent pad (406) is made of sponge.