CN216107390U - Blowing and sucking dust removal device for doubling winder - Google Patents

Abstract

The utility model relates to the field of textile equipment, and particularly discloses a blowing and sucking dust removal device for a doubling winder, which comprises the doubling winder, wherein a dust removal baffle is arranged above the doubling winder, an ash deposition bin is arranged on the upper surface of the dust removal baffle, an ash storage bin is arranged inside the ash deposition bin, an air suction fan is arranged inside the dust removal baffle and on the lower surface of the ash deposition bin, an air blowing mechanism is arranged on one side of the ash deposition bin, a raw material roll is arranged inside the dust removal baffle and below the air suction fan, a material receiving roll is arranged on one side of the raw material roll, and a rubber cloth layer is connected between the raw material roll and the material receiving roll. Start the induced-draught fan and will fly the wadding and attract the inside in deposition storehouse, the inside packing that deposits the ash storehouse has water, gets into the back in flying the wadding through the induced-draught fan, recycles the mechanism of blowing and will fly the wadding and go out to being close to the position of depositing the ash storehouse, and it can fall into the aquatic of depositing the inside in ash storehouse under the effect of gravity to fly the wadding and fly up once more to avoid flying the wadding.

Description

Blowing and sucking dust removal device for doubling winder

Technical Field

The utility model relates to the field of textile machinery, in particular to a blowing and sucking dust removal device for a doubling winder.

Background

Doubling is a preparation process of twisting, and the task of the doubling is to combine two or more single yarns, generally not more than five single yarns, and then wind the combined single yarns into a bobbin, so that the number of single yarn strands can be ensured, the tension of each single yarn is balanced, the uneven twisting of the plied yarns is reduced, the strength of the plied yarns is improved, the appearance is improved, and in the process of doubling, certain flying cotton thread lines are outwards generated due to the friction between the yarns, so that workers in the textile industry can ensure that wearing of the mask avoids the influence caused by flying cotton suction.

However, because the existing doubling winder on the market does not have a good dust removal means, the doubling winder only usually has no octalaw to achieve the purpose of protection by wearing a mask.

SUMMERY OF THE UTILITY MODEL

Aiming at the existing problems, the utility model provides a blowing and sucking dust removal device for a doubling winder, and the components of the device are matched for use, so that the problems in the background art can be effectively solved.

In order to solve the problems, the utility model adopts the following technical scheme:

the utility model provides a blow and inhale dust collector for doubler winder, includes the doubler winder, the top of doubler winder is provided with dust collecting baffle, dust collecting baffle's last surface mounting has the deposition storehouse, the inside in deposition storehouse is provided with deposits the ash storehouse, deposition storehouse lower surface is located dust collecting baffle's internally mounted has the suction fan, the mechanism of blowing is installed to one side in deposition storehouse, the below of suction fan is located dust collecting baffle's inside is provided with the raw materials book, one side of raw materials book is provided with the receipts material roller, the raw materials book with be connected with the rubberized fabric layer between the receipts material roller.

As a still further scheme of the utility model: the wire feeding device is characterized in that a wire feeding roller is mounted inside the dust removing baffle above the rubber cloth layer, a wire pushing mechanism is arranged on one side of the dust removing baffle and is located inside the dust removing baffle, a push rod is mounted inside the dust removing baffle, and the other end of the push rod is located on the side surface of the dust removing baffle and is connected with a wire feeding head.

As a still further scheme of the utility model: the wire winding mechanism is characterized in that a wire winding bin is arranged below the wire feeding head, a wire winding roll is arranged inside the wire winding bin and is located right below the wire feeding head, and a wire guide frame is arranged above the wire pushing mechanism.

As a still further scheme of the utility model: the dust storage bin is filled with water, and the suction fan is in through connection with the dust storage bin and the dust removal baffle.

As a still further scheme of the utility model: the wire feeding roller is rotatably connected with the dust removal baffle, the push rod is electrically connected with the wire pushing mechanism, and the push rod is slidably connected with the dust removal baffle.

As a still further scheme of the utility model: the wire winding coil is rotatably connected with the wire collecting bin.

As a still further scheme of the utility model: the blowing mechanism is in through connection with the dust deposition bin, and the raw material roll and the material receiving roll are rotationally connected with the dust removal baffle.

Compared with the prior art, the utility model has the beneficial effects that:

1. start the induced-draught fan and will fly the wadding and attract the inside in deposition storehouse, the inside packing that deposits the ash storehouse has water, gets into the back in flying the wadding through the induced-draught fan, recycles the mechanism of blowing and will fly the wadding and go out to being close to the position of depositing the ash storehouse, and it can fall into the aquatic of depositing the inside in ash storehouse under the effect of gravity to fly the wadding and fly up once more to avoid flying the wadding.

2. When flying the wadding when the yarn in the inside downward position of dust collecting baffle when flying, can collect flying the wadding through the adhesive effect on rubberized fabric layer, receive the rotation of material roller through the control and collect the discarded sticky tape that has adhered flying the wadding.

Drawings

FIG. 1 is a schematic structural diagram of a blowing and sucking dust removal device for a doubling winder;

FIG. 2 is a cross-sectional view of the whole apparatus in a blowing and sucking dust removing device for a doubler winder;

FIG. 3 is a schematic structural diagram of a dust adhering mechanism in a blowing and sucking dust removing device for a doubling winder.

In the figure: 1. a doubling winder; 2. a wire collecting bin; 3. winding; 4. feeding a thread end; 5. a dust removal baffle; 6. an ash accumulation bin; 7. a lead frame; 8. a wire pushing mechanism; 501. a thread feeding roller; 502. a material receiving roller; 503. a raw material roll; 504. a rubberized fabric layer; 601. an ash storage bin; 602. a blowing mechanism; 603. an air suction fan; 701. a yarn; 801. a push rod.

Detailed Description

The utility model is further described below in connection with specific embodiments.

As shown in fig. 1-3, in the present embodiment, the present embodiment is described with reference to fig. 1 to 3, and provides a blowing and sucking dust removing device for a doubler winder, which includes a dust-removing baffle 5 and an ash-depositing bin 6, the ash-depositing bin 6 is installed on the upper surface of the dust-removing baffle 5, a suction fan 603 is connected between the dust-removing baffle 5 and the suction fan 603, a thread-feeding roller 501 is installed below the suction fan 603 and inside the dust-removing baffle 5, a yarn 701 is installed above the thread-feeding roller 501, fly fibre generated in the rotation friction of the yarn 701 through the thread-feeding roller 501 remains inside the dust-removing baffle 5, the fly fibre is sucked into the ash-depositing bin 6 by starting the suction fan 603, an ash-storing bin 601 is installed inside the ash-depositing bin 6, a suction fan 603 is installed inside the dust-removing baffle 5 and a blowing mechanism 602 is installed on one side of the ash-depositing bin 6, the inside of the dust storage bin 601 is filled with water, the suction fan 603 is in through connection with the dust storage bin 6 and the dust removal baffle 5, after flying cotton fibers enter the dust storage bin through the suction fan 603, the flying cotton fibers are discharged to a position close to the dust storage bin 601 through the blowing mechanism 602, the flying cotton fibers can fall into the water inside the dust storage bin 601 under the action of gravity, so that the flying cotton fibers are prevented from flying again, the dust sticking mechanism is arranged below the suction fan 603 and inside the dust removal baffle 5, the raw material roll 503 is arranged on one side of the dust sticking mechanism, the material receiving roll 502 is arranged on one side of the raw material roll 503, the rubberized fabric layer 504 is connected between the raw material roll 503 and the material receiving roll 502, when the flying cotton fibers on the yarns 701 fly to the downward direction inside the dust removal baffle 5, the flying cotton fibers can be collected through the adhesion effect of the rubberized fabric layer 504, and waste adhesive tapes adhered with the flying cotton fibers are collected through the control of the rotation of the material receiving roll 502.

As shown in fig. 1-2, a wire pushing mechanism 8 is disposed on one side of the dust-removing baffle 5, a pushing rod 801 is disposed inside the dust-removing baffle 5 of the wire pushing mechanism 8, a wire feeding head 4 is connected to a side surface of the dust-removing baffle 5 at the other end of the pushing rod 801, a lead frame 7 is disposed above the wire pushing mechanism 8, a yarn 701 on the lead frame 7 passes through the wire feeding head 4 after passing through the inside of the dust-removing baffle 5, the pushing rod 801 is controlled to slide inside the dust-removing baffle 5, a wire collecting bin 2 is disposed below the wire feeding head 4, a winding roll 3 is disposed inside the wire collecting bin 2 and directly below the wire feeding head 4, and the winding roll 3 is controlled to rotate inside the wire feeding head 4, so as to complete the winding action of the yarn 701 on the winding roll 3.

The working principle of the utility model is as follows: when in use, the yarn 701 passes through the lead frame 7 and then passes through the yarn feeding head 4 through the transmission action of the yarn feeding roller 501 in the dust-removing baffle 5, the yarn feeding head 4 is driven to do telescopic motion by controlling the yarn pushing mechanism 8, meanwhile, the winding roll 3 is controlled to rotate in the yarn collecting bin 2, the winding action of the yarn 701 is completed, the yarn 701 and the yarn feeding roller 501 generate friction during rotation to generate flying cotton fibers, the flying cotton fibers are sucked into the dust collecting bin 6 by controlling the suction fan 603, the dust collecting bin 601 is arranged in the dust collecting bin 6, the water is filled in the dust collecting bin 601, the suction fan 603 is communicated with the dust collecting bin 6 and the dust-removing baffle 5, after the flying cotton fibers enter through the suction fan 603, the blowing mechanism 602 is used for flying out the cotton fibers to a position close to the dust collecting bin 601, and the flying cotton fibers fall into the water in the dust collecting bin 601 under the action of gravity, therefore, flying cotton fibers are prevented from flying again, when the flying cotton fibers on the yarns 701 fly downwards in the dust-removing baffle 5, the flying cotton fibers can be collected through the adhesion of the rubberized fabric layer 504, and the waste adhesive tapes adhered with the flying cotton fibers are collected through controlling the rotation of the material collecting roller 502.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (7)

1. The utility model provides a blow and inhale dust collector for doubler winder, includes doubler winder (1), its characterized in that, the top of doubler winder (1) is provided with dust damper (5), the last surface mounting of dust damper (5) has deposition storehouse (6), the inside in deposition storehouse (6) is provided with deposition storehouse (601), deposition storehouse (6) lower surface is located the internally mounted of dust damper (5) has aspiration fan (603), mechanism (602) of blowing is installed to one side in deposition storehouse (6), the below of aspiration fan (603) is located the inside of dust damper (5) is provided with raw materials book (503), one side of raw materials book (503) is provided with receipts material roller (502), raw materials book (503) with be connected with rubberized layer (504) between receipts material roller (502).

2. The blowing and sucking dust removal device for the doubling winder as claimed in claim 1, wherein a thread feeding roller (501) is installed above the rubberized fabric layer (504) and inside the dust removal baffle (5), a thread pushing mechanism (8) is arranged on one side of the dust removal baffle (5), a push rod (801) is installed inside the dust removal baffle (5) of the thread pushing mechanism (8), and a thread feeding head (4) is connected to the other end of the push rod (801) and on the side surface of the dust removal baffle (5).

3. The blowing and sucking dust removal device for the doubling winder according to claim 2, wherein a yarn collecting bin (2) is arranged below the yarn feeding head (4), a winding reel (3) is arranged in the yarn collecting bin (2) and is positioned right below the yarn feeding head (4), and a wire guide frame (7) is arranged above the yarn pushing mechanism (8).

4. The blowing and sucking dust removal device for the doubling winder according to claim 1, wherein the dust storage bin (601) is filled with water, and the suction fan (603) is in through connection with the dust storage bin (6) and the dust removal baffle (5).

5. The blowing and sucking dust removal device for the doubling winder as claimed in claim 2, wherein the thread feeding roller (501) is rotatably connected with the dust removal baffle (5), the push rod (801) is electrically connected with the thread pushing mechanism (8), and the push rod (801) is slidably connected with the dust removal baffle (5).

6. The blowing and sucking dust removal device for the doubling winder according to claim 3, wherein the winding reel (3) is rotatably connected with the take-up bin (2).

7. The blowing and sucking dust removal device for the doubling winder according to claim 1, wherein the blowing mechanism (602) is in through connection with the dust bin (6), and the raw material roll (503) and the material receiving roll (502) are both in rotational connection with the dust removal baffle (5).

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