CN220318138U - Automatic water spraying device for moisture-absorbing quick-drying fine denier yarn - Google Patents

Abstract

An automatic water spraying device for moisture-absorbing and quick-drying fine denier yarn, comprising: the device comprises a main network device, a reversing wheel and a winding machine; the spinning machine is characterized by further comprising a water tank arranged at a high position, the water tank is connected with a water inlet pipe, the water inlet pipe is connected to the side of the main network device, the water inlet pipe is provided with a water spraying electromagnetic valve, the water spraying electromagnetic valve is controlled by an MCU of the spinning equipment, the MCU is respectively connected with the water spraying electromagnetic valve and a change-over switch of the winding machine, the water spraying electromagnetic valve is triggered when a winding head of the winding machine is switched, and the water spraying electromagnetic valve is closed when the winding head is switched. When the two winding heads of the winding machine are switched, the water spraying electromagnetic valve is triggered, water sprays water to spinning through the bent pipe or the main network device, the tension of the spinning is increased, the winding heads are switched after 3-5 seconds, and the water spraying electromagnetic valve is closed. The utility model can improve the tension of the fine denier yarn and the spinning quality.

Description

Automatic water spraying device for moisture-absorbing quick-drying fine denier yarn

Technical Field

The utility model belongs to the technical field of spinning equipment, and particularly relates to an automatic water spraying device for a moisture-absorbing and quick-drying fine denier yarn.

Background

In the production of spinning, the spinning is required to be wound up by a winding device and then wound up. The utility model patent 201920029045.X discloses a winding device capable of improving the complexness of a heavy denier yarn, as shown in figure 1, the route of spinning in the winding device is as follows: oiling the spinning through an oil tanker 1 to prevent the spinning from generating fuzziness in the subsequent process; after the spinning oil comes out from the oil tanker 1, the spinning oil passes through the pre-network device 2, and the pre-network device 2 enables the oil on the spinning to be adhered more uniformly; then, the spinning sequentially passes through a cold roller 3 and a hot roller 4, and the spinning is stretched and shaped through the speed difference between the cold roller 3 and the hot roller 4, so that the quality is prevented from being influenced by stretching deformation of the spinning in the subsequent process; next, the spinning that comes out from the hot roll 4 gets into the main network ware device 5 and goes up the network, prevents through going up the network that the spinning from spreading, finally, from the main network ware device 5 after finishing the network, then go up the network to the thick denier silk through reserve network ware device 8 a second time to increase thick denier silk's netlike, make the thick denier silk after finishing the network be difficult to spread, need not moreover to adjust air compressor's atmospheric pressure big, prevent that the spinning from being blown rocks too greatly, avoid causing a large amount of broken ends. According to the scheme, the standby network device 8 is additionally arranged between the reversing wheel 6 and the winding machine 7, and the standby network device also has the guiding and limiting functions, so that the shaking amplitude of spinning is reduced, and the breakage rate is reduced.

The winding device of the fine denier yarn has the same structure as the above-mentioned heavy denier yarn winding device. However, the fine denier filaments have problems: the yarn shaking of the two winding heads of the winding machine 7 is large at 3-5 seconds during the switching, the tension of the fine denier yarn is small, and the tension of the spinning yarn is reduced during the yarn shaking, so that the quality of the spinning yarn is affected. The method is generally adopted, wherein when two winding heads are switched, a spray can is manually held to spray water to yarn near a main network device so as to increase the tension of fine denier yarn, but the method is time-consuming and labor-consuming.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an automatic water spraying device for a fine denier yarn capable of absorbing moisture and drying quickly, which can improve the tension of the fine denier yarn.

The utility model is realized in the following way:

an automatic water spraying device for moisture-absorbing and quick-drying fine denier yarn, comprising: the device comprises a main network device, a reversing wheel and a winding machine; the spinning machine is characterized by further comprising a water tank arranged at a high position, the water tank is connected with a water inlet pipe, the water inlet pipe is connected to the side of the main network device, the water inlet pipe is provided with a water spraying electromagnetic valve, the water spraying electromagnetic valve is controlled by an MCU of the spinning equipment, the MCU is respectively connected with the water spraying electromagnetic valve and a change-over switch of the winding machine, the water spraying electromagnetic valve is triggered when a winding head of the winding machine is switched, and the water spraying electromagnetic valve is closed when the winding head is switched.

Further, the water inlet pipe is connected with a bent pipe, the bent pipe is arranged beside the main network device, and a water spray port of the bent pipe is aligned with spinning; the water inlet pipe sprays water to spinning beside the main network device through the bent pipe.

Furthermore, the water inlet pipe is also communicated with an air inlet of an air compressor of the main network device, compressed air enters the bent pipe, and the water spraying boosting effect is achieved.

Further, the water inlet pipe is connected to an air compressor air inlet of the main network device, and the air compressor is provided with an air injection electromagnetic valve; the MCU is connected with the air injection electromagnetic valve; triggering the water spraying electromagnetic valve and closing the air spraying electromagnetic valve when the winding head of the winding machine is switched, and opening the air spraying electromagnetic valve when the water spraying electromagnetic valve is closed and the winding head of the winding machine is switched; the water inlet pipe sprays water to the spinning through the main network device.

Further, the water tank is arranged in a fourth floor of the spinning workshop.

The utility model has the advantages that: when the two winding heads of the winding machine are switched, the water spraying electromagnetic valve is triggered, water sprays water to the fine denier yarn through the bent pipe or the main network device, the fine denier yarn after water spraying absorbs moisture and dries quickly, the tension of the fine denier yarn is increased, the winding heads are switched after 3-5 seconds, and the water spraying electromagnetic valve is closed. Can improve the tension of the fine denier yarn and the spinning quality.

Drawings

The utility model will be further described with reference to the accompanying drawings, in conjunction with examples.

Fig. 1 is a schematic structural view of a winding device of a spinning apparatus of the prior art.

Fig. 2 is a schematic structural view of a first embodiment of the present utility model.

Fig. 3 is a schematic diagram of the working principle of the first embodiment of the present utility model.

Fig. 4 is a schematic structural view of a second embodiment of the present utility model.

Fig. 5 is a schematic diagram of the working principle of the second embodiment of the present utility model.

Detailed Description

First embodiment:

referring to fig. 2 to 3, an automatic water spraying device for moisture-absorbing and quick-drying fine denier yarn comprises: a main network device 5, a reversing wheel 6 and a winding machine 7; the spinning machine also comprises a water tank 100 arranged at a high position (a fourth floor of a spinning workshop), wherein the water tank 100 is connected with a water inlet pipe 101, the water inlet pipe 101 is connected to a bent pipe 102 beside the main network device 5, and a water spray port of the bent pipe 102 is aligned with spinning; the water inlet pipe 101 is provided with a water spraying electromagnetic valve 103 (electromagnetic control valve), the water spraying electromagnetic valve 103 is controlled by an MCU of the spinning equipment, the MCU is respectively connected with the water spraying electromagnetic valve 103 and a winding head change-over switch of the winding machine 7, the water spraying electromagnetic valve 103 is triggered when the winding head change-over switch of the winding machine is switched, and the water spraying electromagnetic valve 103 is closed when the winding head is switched over.

In specific practice, the water inlet pipe 101 can be communicated with the air inlet of the air compressor of the main network device 5, and compressed air can enter the bent pipe 102 to play a role in boosting water spraying.

The winder 7 is located at the first floor of the spinning plant, and the water tank 100 may be located at a second floor or third floor of the spinning plant.

Second embodiment:

referring to fig. 4 and 5, the difference from the first embodiment is that: the water inlet pipe 101 connected with the water tank 100 is directly communicated with an air compressor air inlet of the main network device 5, the air compressor air inlet is provided with an air injection electromagnetic valve 104 (electromagnetic control valve), and the air injection electromagnetic valve 104 is also connected with an MCU and is controlled by the MCU; triggering the water spraying electromagnetic valve 103 and closing the air spraying electromagnetic valve 104 when the winding head of the winding machine 7 is switched, and opening the air spraying electromagnetic valve 104 when the water spraying electromagnetic valve 103 is closed and the winding head of the winding machine 7 is switched; the water in the water inlet pipe 101 is directly sprayed onto the spinning through the main network device 5.

When the two winding heads of the winding machine 7 are switched, the water spraying electromagnetic valve 103 is triggered, water is sprayed to the fine denier yarn through the bent pipe 102 or the main network device 5, the fine denier yarn after water spraying absorbs moisture and dries quickly, the tension of the fine denier yarn is increased, the winding heads are switched after 3-5 seconds, and the water spraying electromagnetic valve 103 is closed. The utility model can improve the tension of the fine denier yarn and the spinning quality.

The above-described embodiments and drawings are not intended to limit the form or pattern of the present utility model, and any appropriate changes or modifications may be made by those skilled in the art without departing from the scope of the present utility model.

Claims (5)

1. An automatic water spraying device for moisture-absorbing and quick-drying fine denier yarn, comprising: the device comprises a main network device, a reversing wheel and a winding machine; the method is characterized in that: the spinning machine is characterized by further comprising a water tank arranged at a high position, the water tank is connected with a water inlet pipe, the water inlet pipe is connected to the side of the main network device, the water inlet pipe is provided with a water spraying electromagnetic valve, the water spraying electromagnetic valve is controlled by an MCU of the spinning equipment, the MCU is respectively connected with the water spraying electromagnetic valve and a change-over switch of the winding machine, the water spraying electromagnetic valve is triggered when a winding head of the winding machine is switched, and the water spraying electromagnetic valve is closed when the winding head is switched.

2. An automatic water spraying device for moisture absorbing and quick drying fine denier yarn as claimed in claim 1, characterized in that: the water inlet pipe is connected with a bent pipe, the bent pipe is arranged beside the main network device, and the water spraying port of the bent pipe is aligned with spinning; the water inlet pipe sprays water to spinning beside the main network device through the bent pipe.

3. An automatic water spraying device for moisture absorbing and quick drying fine denier yarn as claimed in claim 2, characterized in that: the water inlet pipe is also communicated with an air inlet of an air compressor of the main network device, compressed air enters the bent pipe, and the water spraying device has a boosting effect.

4. An automatic water spraying device for moisture absorbing and quick drying fine denier yarn as claimed in claim 1, characterized in that: the water inlet pipe is connected to an air inlet of an air compressor of the main network device, and the air compressor is provided with an air injection electromagnetic valve; the MCU is connected with the air injection electromagnetic valve; triggering the water spraying electromagnetic valve and closing the air spraying electromagnetic valve when the winding head of the winding machine is switched, and opening the air spraying electromagnetic valve when the water spraying electromagnetic valve is closed and the winding head of the winding machine is switched; the water inlet pipe sprays water to the spinning through the main network device.

5. An automatic water spraying device for moisture absorbing and quick drying fine denier yarn as claimed in claim 1, characterized in that: the water tank is arranged at the fourth floor of the spinning workshop.