CN211595868U - Remove micronic dust machine convenient to remove dust - Google Patents

Abstract

The utility model relates to a remove dust micronic dust machine convenient to remove dust, including removing the micronic dust organism, set up in the material transmission pipeline that removes micronic dust organism one end and set up in removing the mesh plate that is certain contained angle and buckle and contained angle opening towards material transmission pipeline in the micronic dust organism, evenly distributed has a plurality of magnetism to inhale the piece on the mesh plate, the notch has been seted up towards outside pull groove to one side that removes the micronic dust organism, the diapire in pull groove set up with remove the micronic dust organism be linked together, and with mesh plate assorted pull hole, the pull side of mesh plate is provided with the connecting plate of laminating mutually with the pull tank bottom wall, the connecting plate is provided with the locking subassembly back to one side of mesh plate, the mesh plate is through locking subassembly demountable installation in removing the micronic dust organism. The utility model discloses have the staff's clearance magnetism of being convenient for and inhale the metallic impurity on the mesh board, improve the efficiency of clearance and clear up the obvious effect of effect.

Description

Remove micronic dust machine convenient to remove dust

Technical Field

The utility model belongs to the technical field of the technique of cotton weaving equipment and specifically relates to a remove micronic dust machine convenient to remove dust.

Background

The current common cotton textile manufacturing adopts the following process flow:

preparing materials: natural, non-defatted and bleached pure cotton material is prepared for use.

Cotton cleaning: and (4) removing impurities and cleaning the pure cotton raw material.

Carding: the small cotton bundles are carded into a single fiber state by means of needle face movement, impurities and unusable short fibers are further removed, and the fibers are straightened in parallel.

Lapping: according to the requirement of the product gram weight specification, the cotton nets formed by preliminary carding processing are directly paved or crossly paved according to the direction of cotton fibers of the cotton nets to form a plurality of layers of overlapped cotton nets so as to meet the requirement of the product gram weight and the requirement of tensile strength.

And (3) water jetting: carrying out front spunlace and back spunlace on the multilayer cotton net by using high-pressure water flow generated by a high-pressure water needle of a spunlace machine to fully entangle fibers in the cotton net to prepare a non-woven fabric; and (4) rolling and drying the spunlaced non-woven fabric to remove water.

In-process to the edulcoration clearance is carried out to the pure cotton raw materials, gets rid of through can using edulcoration equipment great impurity in with the pure cotton raw materials, then utilizes the pure cotton material after the air exhauster cleared up the edulcoration to take out in little dust remover through the suction line, clears up tiny metallic impurity in the pure cotton material to reduce metallic impurity to the damage of equipment and because metallic impurity's existence influences the cotton quality of weaving.

The prior Chinese patent with publication number CN101985785A discloses a metal removing device of a blowing-carding-unit dust remover, which is used for the blowing-carding-unit dust remover. The cotton flow entering the dust removing cabinet through the feeding conveying pipeline has tiny impurities removed through the upper mesh plate and the lower mesh plate, the cotton flow flows out through the discharging conveying pipeline, the magnet is arranged on the back of the lower mesh plate, and the magnet is in a strip shape and is adhered to the back of the lower mesh plate. When the cotton flow flows through the lower mesh plate, the magnet adsorbs the metal, so that the metal is separated from the raw material, and the metal removing effect is achieved.

The above prior art solutions have the following drawbacks: after the upper mesh plate and the lower mesh plate are used for a long time, more metal impurities are magnetically attracted to the surfaces of the upper mesh plate and the lower mesh plate, the surfaces need to be cleaned in time, otherwise the magnetic attraction effect of the upper mesh plate and the lower mesh plate at the later stage can be influenced, and the upper mesh plate and the lower mesh plate are usually directly welded and fixed in a dust remover; the staff is difficult to clear up the magnetic absorption and gets into the metal impurities on mesh board and mesh board down, clears up also comparatively hard. And the cleaning effect is not obvious.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide a remove dust machine convenient to remove dust has the effect of being convenient for dismantle the mesh plate get off and remove dust.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a remove micronic dust machine convenient to remove dust, includes except that the micronic dust organism, sets up in the material transmission pipeline that removes micronic dust organism one end and sets up in removing the micronic dust organism and be certain contained angle and buckle and contained angle opening towards the mesh board of material transmission pipeline, the notch is seted up towards outside pull groove in one side of removing the micronic dust organism, the diapire in pull groove set up with remove the micronic dust organism be linked together, and with mesh board assorted pull hole, the pull side of mesh board is provided with the connecting plate of laminating mutually with the pull tank bottom wall, the connecting plate is provided with the locking subassembly back to one side of mesh board, the mesh board through locking subassembly demountable installation in removing the micronic dust organism.

By adopting the technical scheme, the material enters and exits from the material transmission pipeline into the dust removal machine body, the magnetic attraction piece is arranged to enable the mesh plate to have magnetism, so that fine metal impurities in the material can be magnetically attracted, the fine metal impurities doped in the material are magnetically attracted onto the mesh plate, and then the material after impurity removal flows out of the dust removal machine body; the locking assembly enables the mesh plate to be convenient to detach from the interior of the dust remover body, and further metal impurities on the surface of the mesh plate can be cleaned conveniently.

The present invention may be further configured in a preferred embodiment as: the locking assembly comprises a locking block arranged on one side of the connecting plate, a spring arranged on two opposite sides of the locking block and an L-shaped block arranged on one end of the spring far away from one end of the locking block, wherein the locking block is arranged on one side of the connecting plate back to the mesh plate, the spring is divided into two parts, the L-shaped block comprises a first connecting block and a second connecting block which is close to one end of the connecting plate and is vertically fixed with the first connecting block, the second connecting block is arranged towards one side far away from the locking block, and a slot which is matched with the second connecting block in an inserting mode is.

By adopting the technical scheme, the second connecting block is inserted into the slot under the elastic action of the spring, so that the mesh plate is fixed in the dust remover body; in the process of disassembly, the second connecting block is separated from the slot, and the mesh plate can be disassembled from the interior of the dust remover body; the whole process is convenient to install and simple to disassemble, and is favorable for cleaning fine metal impurities on the surface of the mesh plate.

The present invention may be further configured in a preferred embodiment as: and anti-skid grains are arranged on the side surface, far away from the locking block, of the first connecting block.

Through adopting above-mentioned technical scheme, the setting up of anti-skidding line increases the frictional force that the staff held first connecting block, helps the staff to operate L type piece.

The present invention may be further configured in a preferred embodiment as: one side of the connecting plate back to the mesh plate is provided with a guide groove extending along the telescopic direction of the spring, and one side of the second connecting block close to the connecting plate is provided with a guide block connected with the guide groove in a sliding manner.

Through adopting above-mentioned technical scheme, setting up of guide way and guide block plays a fine guide effect to L type piece along sliding along the shrink direction of spring, also makes more accurate the pegging graft in the slot of second connecting block simultaneously.

The present invention may be further configured in a preferred embodiment as: one side of the connecting plate, which is close to the mesh plate, is provided with a rubber pad which is attached to the bottom wall of the drawing tank.

Through adopting above-mentioned technical scheme, the setting up of rubber pad makes the laminating between connecting plate and the mesh board inseparabler.

The present invention may be further configured in a preferred embodiment as: the material conveying pipeline comprises a feeding conveying pipeline and a discharging conveying pipeline which are arranged on opposite end faces of an included angle opening between the fine dust removing machine body and the mesh plate, the feeding conveying pipeline is located above the discharging conveying pipeline, a guide plate which is obliquely arranged towards the discharging conveying pipeline is arranged on one side, close to the discharging conveying pipeline, of the mesh plate, one side, away from the mesh plate, of the guide plate is fixedly connected with the bottom end of the fine dust removing machine body, a first T-shaped block and a second T-shaped block are respectively arranged at the top end and the bottom end of the mesh plate, a first T-shaped groove connected with the first T-shaped block in a sliding mode is formed in the inner top end of the fine dust removing machine body, and a second T-shaped groove connected with the second T-shaped block in a sliding mode is formed in one side, close to the mesh plate.

Through adopting above-mentioned technical scheme, first T type piece and second T type piece slide respectively with first T type groove and second T type groove and are connected and play a direction and the effect of supporting to the installation of mesh board.

The present invention may be further configured in a preferred embodiment as: set up the spacing groove the same with pull hole size shape, relative position on the inside wall of dust removal organism, the spacing groove is kept away from the one end joint cooperation of connecting plate with the mesh board.

Through adopting above-mentioned technical scheme, the spacing groove is used for block mesh board for mesh board more steady install in removing the dust exhaust machine body.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the material enters and exits from the material transmission pipeline into the body of the dust removal machine, so that fine metal impurities doped in the material are magnetically attracted to the mesh plate under the action of the magnetic attraction piece, and then the material after impurity removal flows out of the body of the dust removal machine; the locking assembly enables the mesh plate to be convenient to detach from the interior of the dust remover body, and further metal impurities on the surface of the mesh plate can be cleaned conveniently.

Drawings

Fig. 1 is a schematic view of the overall structure of the utility model.

Fig. 2 is a schematic sectional structure view of fig. 1.

Fig. 3 is another overall structure diagram of the utility model.

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 3.

Fig. 5 is a partially enlarged schematic view of a portion B in fig. 3.

In the figure, 1, a dust remover body; 11. a material guide plate; 12. a mesh plate; 121. an upper eyelet plate; 122. a lower mesh plate; 123. a first T-shaped block; 124. a second T-shaped block; 125. a magnetic member; 13. a material conveying pipeline; 131. a feed delivery conduit; 132. a discharge transport pipe; 14. a U-shaped plate; 15. a doorway; 16. a door panel; 17. drawing the groove; 171. drawing the hole; 172. a limiting groove; 18. a connecting plate; 181. a guide groove; 2. a locking assembly; 21. a locking block; 22. a spring; 23. an L-shaped block; 231. a first connection block; 232. a second connecting block; 233. a guide block; 3. fastening pieces; 31. rotating the rod; 32. a handle; 33. fastening strips; 34. and (6) buckling grooves.

Detailed Description

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

As shown in fig. 1 and 2, for the dust removing machine convenient for dust removal disclosed by the present invention, the dust removing machine comprises a dust removing machine body 1, and a material guiding plate 11 and a mesh plate 12 which are arranged in the dust removing machine body 1, wherein the top end of the mesh plate 12 is connected with the inner top wall of the dust removing machine body 1 in a sliding manner, the bottom end of the mesh plate 12 is connected with the material guiding plate 11 in a sliding manner, and one side of the material guiding plate 11 away from the mesh plate 12 is fixedly connected with the inner bottom wall of the dust removing machine body 1; the mesh plate 12 is detachably mounted in the dust removing machine body 1 through the locking assembly 2, and one end of the dust removing machine body 1 is provided with a material conveying pipeline 13.

As shown in fig. 2, the material transporting pipe 13 includes a feeding transporting pipe 131 and a discharging transporting pipe 132, the feeding transporting pipe 131 and the discharging transporting pipe 132 are both located on the same end surface of the dust removing machine body 1 and are communicated with the dust removing machine body 1, and the feeding transporting pipe 131 is located above the discharging transporting pipe 132; in order to make the materials pass through the mesh plate 12 better, a U-shaped plate 14 is further arranged in the dust catcher body 1, the U-shaped plate 14 is located between the feeding conveying pipeline 131 and the discharging conveying pipeline 132, the opening of the U-shaped plate 14 faces the end face of the dust catcher body 1 where the material conveying pipeline 13 is arranged, and the mesh plate 12 is located on one side of the U-shaped plate 14 away from the material conveying pipeline 13.

As shown in fig. 3 and 4, a rectangular door opening 15 is formed in one outward facing side of the dust remover body 1, a door plate 16 is hinged to the door opening 15, two fastening pieces 3 are arranged on one side of the door plate 16 away from the hinged position, and the two fastening pieces 3 are located on the same vertical line and arranged at intervals; the fastening member 3 includes a rotating rod 31 disposed on one side of the door panel 16 facing away from the doorway 15, a handle 32 disposed on one end of the rotating rod 31 away from the door panel 16, a fastening strip 33 disposed on the outer peripheral surface of the rotating rod 31, and a fastening groove 34 disposed on one side of the dust remover body 1 facing outward and fastened to the fastening strip 33. In order to improve the sealing performance in the dust removing machine body 1 when the door panel 16 is covered, a sealing gasket is arranged on one side of the door panel 16 close to the doorway 15.

As shown in fig. 4 and 5, the mesh plate 12 (see fig. 3) includes an upper mesh plate 121 and a lower mesh plate 122 fixedly connected to the upper mesh plate 121 at a certain included angle, an opening of the included angle formed by the upper mesh plate 121 and the lower mesh plate 122 faces the U-shaped plate 14, a first T-shaped block 123 extending along the length direction of the side surface of the upper mesh plate 121 far away from the lower mesh plate 122 protrudes outwards from one side of the upper mesh plate 121, and a first T-shaped groove adapted to the first T-shaped block 123 is formed in the inner top wall of the dust remover body 1; a second T-shaped block 124 extending along the length direction of the side surface of the lower mesh plate 122 far away from the upper mesh plate 121 protrudes outwards from one side of the lower mesh plate 122, and a second T-shaped groove matched with the lower mesh plate 122 is formed in one side of the material guide plate 11 close to the lower mesh plate 122; the first T-shaped block 123 and the second T-shaped block 124 are slidably connected with the first T-shaped groove and the second T-shaped groove, respectively, so that on one hand, a guiding function is provided for the mesh plate 12 installed in the dust catcher body 1, and on the other hand, a certain clamping function is also provided for the mesh plate 12 installed in the dust catcher body 1. A plurality of magnetic attraction pieces 125 are uniformly distributed on one side of the upper mesh plate 121 and the lower mesh plate 122 opposite to the U-shaped plate 14, and the magnetic attraction pieces 125 are magnets for adsorbing small metal impurities in the material.

As shown in fig. 4 and 5, a drawing groove 17 is formed on one side of the dust remover body 1, and a notch of the drawing groove 17 faces outward; the bottom wall of the drawing groove 17 is provided with a drawing hole 171, and the drawing hole 171 is communicated with the side wall of the dust removing machine body 1; a limit groove 172 is arranged on the side of the dust remover body 1 opposite to the side wall thereof provided with the drawing groove 17, and the limit groove 172 has the same size and shape as the drawing hole 171 and is opposite to the drawing hole. One end of the mesh plate 12 close to the limiting groove 172 is in inserting fit with the limiting groove 172.

As shown in fig. 4 and 5, a connecting plate 18 vertically fixed with the mesh plate 12 is disposed at one end of the mesh plate 12 away from the limiting groove 172, and a rubber pad is disposed at one side of the connecting plate 18 close to the mesh plate 12 and attached to the bottom wall of the drawing groove 17. The two locking assemblies 2 are located on the side of the connecting plate 18 opposite to the mesh plate 12, and the two locking assemblies 2 are respectively located on the connecting plate 18 corresponding to the upper mesh plate 121 and the lower mesh plate 122.

As shown in fig. 5, the locking assembly 2 includes a locking block 21 vertically fixed in the middle of one side of the connecting plate 18 opposite to the mesh plate 12, two springs 22 disposed on opposite sides of the locking block 21, and an L-shaped block 23 disposed on one end of the spring 22 away from the locking block 21; the L-shaped block 23 comprises a first connecting block 231 and a second connecting block 232, a guide groove 181 is formed in one side, back to the mesh plate 12, of the connecting plate 18 along the extension direction of the spring 22, and a guide block 233 connected with the guide groove 181 in a sliding manner is arranged on one side, close to the connecting plate 18, of the second connecting block 232; the guide slot 181 is configured as a dovetail slot, and the guide block 233 is configured as a dovetail block, the dovetail block and the dovetail slot being jogged and matched. A slot (not shown) is formed on the inner side wall of the drawing groove 17, and one end of the second connecting block 232, which is far away from the locking block 21, is in inserting fit with the slot. One end of the second connecting block 232 far away from the slot is vertically fixed with one side of the first connecting block 231 provided with the anti-skid grains, and one side of the first connecting block 231 far away from the second connecting block 232 is fixedly connected with one end of the spring 22 far away from the locking block 21. From this, the staff holds between the fingers one side that first connecting block 231 is provided with anti-skidding line and presses first connecting block 231 along the direction that spring 22 contracts, makes second connecting block 232 break away from the slot, and the orientation is kept away from except that mote organism 1 one side pull mesh board 12, can realize taking out mesh board 12 from removing mote organism 1.

The implementation principle of the embodiment is as follows: the material with fine metal impurities enters the machine body 1 except the dust particle from the feeding transmission pipeline 131, the metal impurities are absorbed by the mesh plate 12 with the magnetic absorption piece 125, and then the material is output from the discharging transmission pipeline 132 to the outside of the machine body 1 except the dust particle; for the metal impurities accumulated on the mesh plate 12, the worker presses the first connecting block 231 to make the first connecting block 231 extend and retract along the extending and retracting direction of the spring 22, and the second connecting block 232 is separated from the slot while the spring 22 is in the retracting state, so that the mesh plate 12 is conveniently pulled out from the dust remover body 1 to clean the fine metal impurities on the surface of the mesh plate; after the cleaning is finished, the mesh plate 12 is inserted into the drawing hole 171, and under the cooperation of the first T-shaped block 123, the first T-shaped groove, the second T-shaped block 124, the second T-shaped groove and the limiting groove 172, the mesh plate 12 is installed in the dust removing machine body 1, so that the second connecting block 232 is inserted into the slot, and the mesh plate 12 is fixed in the dust removing machine body 1.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a remove micronic dust machine convenient to remove dust, includes except that micronic dust organism (1), set up in material transmission pipeline (13) that remove micronic dust organism (1) one end and set up mesh board (12) that is certain contained angle and buckles and contained angle opening towards material transmission pipeline (13) in removing micronic dust organism (1), evenly distributed has a plurality of magnetism to inhale piece (125), its characterized in that on mesh board (12): remove one side of micronic dust organism (1) and seted up notch towards outside pull groove (17), the diapire of pull groove (17) seted up with remove micronic dust organism (1) be linked together, and with mesh board (12) assorted pull hole (171), the pull side of mesh board (12) is provided with connecting plate (18) of laminating mutually with pull groove (17) diapire, one side that connecting plate (18) back to mesh board (12) is provided with locking Assembly (2), mesh board (12) through locking Assembly (2) demountable installation in removing micronic dust organism (1).

2. A dust collector as claimed in claim 1, wherein: locking subassembly (2) including set up in locking piece (21), bipartition that connecting plate (18) are back to mesh board (12) one side set up in spring (22) of locking piece (21) relative both sides respectively and set up in L type piece (23) of keeping away from locking piece (21) one end in spring (22), L type piece (23) include first connecting block (231) and be close to connecting plate (18) one end vertical fixation's second connecting block (232) with first connecting block (231), one side setting of keeping away from locking piece (21) is towards in second connecting block (232), be provided with on the inside wall of pull out groove (17) and peg graft complex slot with second connecting block (232).

3. A dust catcher as claimed in claim 2, wherein: the side surface of the first connecting block (231) far away from the locking block (21) is provided with anti-skid grains.

4. A dust catcher as claimed in claim 2, wherein: one side of the connecting plate (18) back to the mesh plate (12) is provided with a guide groove (181) extending along the telescopic direction of the spring (22), and one side of the second connecting block (232) close to the connecting plate (18) is provided with a guide block (233) connected with the guide groove (181) in a sliding manner.

5. A dust catcher as claimed in claim 4, wherein: one side of the connecting plate (18) close to the mesh plate (12) is provided with a rubber pad which is attached to the bottom wall of the drawing groove (17).

6. A dust collector as claimed in claim 1, wherein: the material conveying pipeline (13) comprises a feeding conveying pipeline (131) and a discharging conveying pipeline (132) which are arranged on the end faces, opposite to the opening of an included angle between the dust removing machine body (1) and the mesh plate (12), the feeding conveying pipeline (131) is located above the discharging conveying pipeline (132), one side, close to the discharging conveying pipeline (132), of the mesh plate (12) is provided with a material guide plate (11) which is obliquely arranged towards the discharging conveying pipeline (132), one side, far away from the mesh plate (12), of the material guide plate (11) is fixedly connected with the bottom end of the dust removing machine body (1), the top end and the bottom end of the mesh plate (12) are respectively provided with a first T-shaped block (123) and a second T-shaped block (124), the inner top end of the dust removing machine body (1) is provided with a first T-shaped groove which is connected with the first T-shaped block (123) in a sliding mode, and one side, close to the mesh plate (12), of the material guide plate (11) is provided with a second T-shaped groove which is connected with the second T-.

7. A dust collector as claimed in claim 6, wherein: the dust removing machine is characterized in that a limiting groove (172) which is the same as the drawing hole (171) in size and shape and opposite in position is formed in the inner side wall of the dust removing machine body (1), and the limiting groove (172) is matched with one end, far away from the connecting plate (18), of the mesh plate (12) in a clamping mode.

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