CN210287606U - Silicon oil ejector of spinning panel cleaning device - Google Patents

Abstract

The utility model discloses a spout silicon oil sprayer of silk panel cleaning device, it is including fixed support, the setting that sets up on spouting silk panel cleaning device silicon oil pipeline and airflow pipeline, setting on the support are in atomizing injection apparatus on support upper portion, atomizing injection apparatus respectively with silicon oil pipeline and airflow pipeline are linked together, the upper portion of silicon oil pipeline is provided with the cooling device of pipeline. Because the utility model discloses the silicon oil that will be used for the tool bit to lubricate is atomizing again after cooling device cools off earlier and is spraying on spouting the silk panel for the polyester melt cooling of the spinneret orifice tip of spouting the silk panel solidifies, blocks up the spinneret orifice temporarily, thereby has blocked temporarily and has spouted silk under the silk panel, when adopting the scaler clearance to spout the silk panel, the scaler can not twined by continuous spun silk thread, and, because spout the silk panel pause and spout the silk, the cleaning efficiency of scaler is higher.

Description

Silicon oil ejector of spinning panel cleaning device

Technical Field

The utility model relates to a spout silicon oil sprayer of silk panel cleaning device.

Background

In the current chemical fiber production process, a polyester melt (about 300 ℃) is rapidly sprayed out from a spinning panel with a plurality of small holes under the action of pressure, and then is cooled into filaments under the action of cooling air. A typical spinneret plate would have 200 and 400 holes with a diameter of about 0.16 mm. Under the environment of high temperature and high pressure, generally in about 24 hours, dirt formed after mixing of some polyester sublimate, degradation products and some crystals of release agent (silicone oil) can be accumulated on the panel around the small holes, and the dirt can slowly block the small holes on the spinning panel after accumulation, so that the problem that the roundness of the small holes is insufficient or the small holes are completely blocked is caused.

Therefore, in the production process, dirt on the spinning faceplate needs to be removed regularly, and CN105414070B discloses a cleaning device for the spinning faceplate, by which dirt and waste filaments on the spinning faceplate can be quickly scraped off by a scraper of the cleaning device. However, in the using process of the device, the scraper head of the scraper scrapes off the dirt and the waste silk sprayed from the spinning panel, and then the spinning panel can continuously spray new silk threads (in a molten state), when the scraper head rotates, the silk threads in the molten state are thrown out under the action of centrifugal force, are cooled and solidified and are wound on the scraper, so that the waste silk wound on the scraper head needs to be cleaned every time the spinning panel is cleaned in sequence, and the use is inconvenient.

Therefore, there is a need for a device that prevents the twisting of the cutter head.

Disclosure of Invention

The utility model aims at providing a prevent to spout a panel cleaning device's tool bit by winding silicon oil sprayer of useless silk

In order to achieve the above purpose, the utility model adopts the technical scheme that:

the silicon oil ejector comprises a support fixedly arranged on the spinning panel cleaning device, a silicon oil pipeline and an air flow pipeline which are arranged on the support, and an atomization injection device arranged on the upper portion of the support, wherein the atomization injection device is respectively communicated with the silicon oil pipeline and the air flow pipeline, and a cooling device for cooling the pipeline is arranged on the upper portion of the silicon oil pipeline.

Preferably, the cooling device is a semiconductor refrigeration device.

Further preferably, a heat insulation layer is arranged on the outer layer of the silicone oil pipeline and the airflow pipeline between the semiconductor refrigeration device and the atomization injection device.

Preferably, a temperature detection device is arranged in the silicone oil pipeline between the semiconductor refrigeration device and the atomization injection device.

Preferably, the cooling device cools the silicone oil pipe and the air flow pipe, respectively.

Preferably, the atomizing and spraying device comprises an atomizer and a spray head rotatably arranged at the upper part of the atomizer, and the spray head is provided with at least one through hole.

Further preferably, the atomizer comprises an atomizing component connected with the silicone oil pipeline and the airflow pipeline, and a mixing cavity communicated with the atomizing component.

Further preferably, the spray head is rotatably arranged at the upper part of the mixing cavity, and the through hole on the spray head is communicated with the mixing cavity.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

because the utility model discloses the silicon oil that will be used for the tool bit lubrication is atomizing again after cooling device cooling earlier and is spraying on spouting the silk panel, because the silicon oil temperature after the cooling is lower, absorb the heat of spouting silk panel surface behind the contact spouts the silk panel fast, make the polyester melt cooling solidification of the spinneret orifice tip of spouting the silk panel, block up the spinneret orifice temporarily, thereby block temporarily and spout silk under the silk panel, when adopting the scraper clearance to spout the silk panel, the scraper can not twined by continuous spun silk thread, and, because spout the pause of silk panel and spout the silk, the cleaning efficiency of scraper is higher.

Drawings

FIG. 1 is a schematic perspective view of a silicone oil injector according to the present embodiment;

FIG. 2 is a schematic view of a spinneret plate for normal spinning;

FIG. 3 is a schematic view of the spinneret plate for forming contaminants;

FIG. 4 is a schematic view showing temporary plugging of a nozzle hole after silicone oil spraying;

fig. 5 is a schematic view of the scraper after scraping off dirt.

In the above drawings: 1. a spinneret plate; 11. a spinneret orifice; 12. a polyester melt; 2. a support; 3. a silicone oil pipe; 4. an air flow conduit; 5. an atomizing spray device; 51. an atomizer; 52. a spray head; 6. a cooling device; 7. a silicone oil lubricating layer; 8. (ii) a soil; 9. and (4) waste silk.

Detailed Description

The invention will be further described with reference to the embodiments shown in the drawings to which:

referring to the attached figure 1, the silicon oil ejector of the spinning panel cleaning device comprises a support 2 fixedly arranged on the spinning panel 1 cleaning device, a silicon oil pipeline 3 and an air flow pipeline 4 which are arranged on the support 2, and an atomizing and spraying device 5 arranged on the upper portion of the support 2, wherein the atomizing and spraying device 5 is respectively communicated with the silicon oil pipeline 3 and the air flow pipeline 4, and a cooling device 6 of a cooling pipeline is arranged on the upper portion of the silicon oil pipeline 3.

Specifically, the cooling device 6 is a semiconductor cooling device, and cools the silicone oil pipeline 3 and the air flow pipeline 4 respectively.

In addition, the silicone oil pipeline 3 and the airflow pipeline 4 between the semiconductor refrigeration device and the atomization spraying device 5 are externally provided with heat insulation layers (not shown in the figure). A temperature detection device (not shown) is arranged in the silicone oil pipeline 3 between the semiconductor refrigeration device and the atomization injection device 5.

In this embodiment, the atomizing spray device 5 includes an atomizer 51 and a spray head 52 rotatably disposed on an upper portion of the atomizer 51, and at least one through hole is disposed on the spray head 52. Specifically, the atomizer 51 includes an atomizing assembly connected to the silicone oil conduit 3 and the air flow conduit 4, and a mixing chamber in communication with the atomizing assembly. The spray head 52 is rotatably arranged at the upper part of the mixing cavity, and the through hole on the spray head 52 is communicated with the mixing cavity.

An automatic scraping method for a spinning panel 1 by using the silicone oil ejector comprises the following steps:

1) cooling the silicone oil in the silicone oil pipeline 3 to 0 ℃ by adopting a cooling device 6, atomizing the silicone oil by an atomizing and spraying device 5, spraying the atomized silicone oil to a spinning panel 1, forming a silicone oil lubricating layer 7 on the surface of the spinning panel 1 until a polyester melt 12 at the end part of a spinning hole 11 of the spinning panel 1 is cooled and solidified, and temporarily blocking the spinning hole 11;

2) scraping off dirt 8 and waste silk 9 on the spinning panel 1 by using a scraper, wherein atomized silicon oil is sprayed at intervals in the period, the ratio of the spraying time of the silicon oil to the interval time between two times of spraying is 1, and the silicon oil sprayed at intervals can provide lubrication for the scraper and can also provide continuous cooling for the spinning panel 1, so that temporary polyester solidified bodies in the spinning holes 11 cannot be melted;

3) after scraping, the silicone oil stops jetting, the scraper is removed, the polyester solidified body in the plugged spinneret orifice 11 is melted at high temperature, the spinneret orifice 11 is communicated again, and scraping of the spinneret panel 1 is completed.

Compared with the prior art, the embodiment has the following advantages:

1. because this embodiment will be used for lubricated silicon oil of tool bit to cool off through cooling device 6 earlier the atomizing spray on spouting the panel 1 again, because the silicon oil temperature after the cooling is lower, absorb the heat on spouting panel 1 surface fast behind the contact and spout panel 1, make the polyester melt 12 of the spinneret orifice 11 tip of spouting the panel 1 cool off and solidify, block up spinneret orifice 11 temporarily, thereby the silk is down spouted to temporary block spouting panel 1, when adopting the scaler to clear up and spouting panel 1, the scaler can not twined by the silk thread of constantly spouting.

Because spout a panel 1 pause and spout a silk, can not have the silk thread to continue extruding scraping the in-process, the scraper can clear up fast and spout a panel 1, and cleaning efficiency is higher.

The silk spraying panel 1 does not drop silk any more in the scraping process, thereby reducing the generation of waste silk 9 and saving the production cost.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. The utility model provides a spout silicon oil sprayer of panel cleaning device which is including fixed support, the setting that sets up on spouting panel cleaning device silicon oil pipeline and airflow channel on the support, set up and be in atomizing injection apparatus on support upper portion, atomizing injection apparatus respectively with silicon oil pipeline and airflow channel are linked together its characterized in that: and a cooling device for cooling the pipeline is arranged at the upper part of the silicon oil pipeline.

2. The silicone oil injector of claim 1, wherein the silicone oil injector further comprises: the cooling device is a semiconductor cooling device.

3. The silicone oil injector of claim 2, wherein the silicone oil injector further comprises: and a heat insulation layer is arranged on the outer layer of the silicone oil pipeline and the airflow pipeline between the semiconductor refrigeration device and the atomization injection device.

4. The silicone oil injector of claim 2, wherein the silicone oil injector further comprises: and a temperature detection device is arranged in the silicone oil pipeline between the semiconductor refrigeration device and the atomization injection device.

5. The silicone oil injector of claim 1, wherein the silicone oil injector further comprises: the cooling device respectively cools the silicone oil pipeline and the airflow pipeline.

6. The silicone oil injector of claim 1, wherein the silicone oil injector further comprises: the atomization injection device comprises an atomizer and a spray head rotatably arranged on the upper part of the atomizer, and at least one through hole is formed in the spray head.

7. The silicone oil injector of claim 6, wherein the silicone oil injector further comprises: the atomizer include with the atomization component that silicon oil pipeline and air flow pipeline are connected, and with the mixed cavity that atomization component is linked together.

8. The silicone oil injector of claim 7, wherein the silicone oil injector further comprises: the spray head is rotatably arranged on the upper part of the mixing cavity, and the through hole on the spray head is communicated with the mixing cavity.

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