CN111645218A

CN111645218A - Polymer particle water cooling plant with antiseized wall function

Info

Publication number: CN111645218A
Application number: CN202010447796.0A
Authority: CN
Inventors: 赵进
Original assignee: Yangzhou Zhongxin Polymer Material Co ltd
Current assignee: Yangzhou Zhongxin Polymer Material Co ltd
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2020-09-11
Anticipated expiration: 2040-05-25
Also published as: CN111645218B

Abstract

The invention discloses a polymer particle water cooling device with a wall sticking prevention function, which comprises a substrate, an air cooling chamber and a first fan, wherein a plurality of air nozzles are arranged at the air cooling chamber; the water cooling device also comprises a wall scraping unit which can slide in the spiral pipe. The device has good water cooling effect and is convenient for scraping the wall.

Description

Polymer particle water cooling plant with antiseized wall function

Technical Field

The invention relates to the field of macromolecules, in particular to a macromolecular particle water cooling device with a wall sticking prevention function.

Background

The plastic polymer particles are widely used in daily life, and can be widely applied to daily life, for example, the particles can be used for manufacturing clothes, building materials, agriculture, machinery industry, medical equipment field and the like. The plastic particles need to be subjected to water cooling and drying steps in the production process, and during water cooling, due to the fact that materials are wet and easy to stick to walls, and the situation that the water cooling effect is insufficient can be caused due to the fact that the water cooling stroke is not long enough, and a plurality of problems exist during use.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to overcome the defects of the prior art and provides a polymer particle water cooling device with a wall sticking prevention function.

The technical scheme is as follows: a polymer particle water cooling device with a wall sticking prevention function comprises a base plate, a plurality of supporting legs fixed with the base plate, an air cooling chamber fixed at the base plate and a first fan fixed at the base plate, wherein the first fan is communicated with the air cooling chamber through a ventilation pipe, a plurality of air nozzles are arranged at the air cooling chamber, a spiral pipe is arranged above the base plate, one end of the spiral pipe is connected with a first vertical pipe, the other end of the spiral pipe is connected with a second vertical pipe, the top end of the first vertical pipe is connected with a feeding hopper, the side surface of the first vertical pipe is connected with a water inlet pipe and a wall scraping air pipe, the end part of the wall scraping air pipe is provided with a second fan, the side surface of the second vertical pipe is provided with an L-shaped discharging pipe, a material receiving hopper is arranged below the discharging end of the L-shaped discharging pipe, the bottom end of the material receiving hopper is connected with a discharging, the water receiving hopper is communicated with the discharge pipe through a sewer pipe; the water cooling device also comprises a wall scraping unit which can slide in the spiral pipe, wherein the wall scraping unit comprises a first circular plate, a second circular plate and a ball body connected between the first circular plate and the second circular plate; the bottom end of the second vertical pipe is provided with a limiting bolt; the water inlet pipe is provided with a valve, and the feeding hopper is provided with a cover part capable of closing the feeding hopper.

Further, the second vertical pipe and the L-shaped blanking pipe penetrate through and are fixed at the base plate.

Furthermore, there are 4 supporting legs, wherein a fixing plate is connected between two supporting legs, and the discharge pipe and the sewer pipe penetrate through and are fixed at the fixing plate.

Further, the base plate is provided with a fixing frame, the fixing frame comprises a vertical plate fixed with the base plate and a transverse plate fixed with the vertical plate, the first vertical pipe penetrates through and is fixed to the transverse plate, and the wall scraping air pipe penetrates through and is fixed to the vertical plate.

Further, the wall scraping air pipe comprises a first straight pipe, a first arc-shaped pipe connected with the first straight pipe, a second arc-shaped pipe connected with the first arc-shaped pipe and a second straight pipe connected with the second arc-shaped pipe, the first straight pipe is perpendicular to the first vertical pipe, the second straight pipe is parallel to the first vertical pipe, the radian of the first arc-shaped pipe is 90 degrees, and the radian of the second arc-shaped pipe is 180 degrees; the second arced tube is located above the first arced tube.

Further, the plurality of air nozzles are distributed in a rectangular array.

Further, the first fan is arranged on the lower surface of the substrate; the base plate is also provided with an installation through hole for installing the air cooling chamber.

Further, the first standpipe length is greater than 1 meter.

Has the advantages that: the plastic particle production method has the advantages of long water cooling stroke and good water cooling effect, and can effectively realize wall scraping and prevent materials from sticking to the wall.

Drawings

FIG. 1 is a schematic view of a water cooling apparatus from a first perspective;

FIG. 2 is a second perspective view of the water cooling apparatus;

FIG. 3 is a third perspective view of the water cooling apparatus;

fig. 4 is a fourth perspective view of the water cooling apparatus.

Detailed Description

Reference numerals: 1 a substrate; 1.1 supporting legs; 1.2 a first fan; 1.3 air cooling chamber; 1.4 air nozzles; 2.1 receiving hopper; 2.2 receiving the water hopper; 2.3, a sewer pipe; 2.4 fixing the plate; 3, a spiral pipe; 3.1 a first standpipe; 3.2 a second standpipe; 3.2.1 limiting bolts; 4 a second fan; 4.1 wall scraping air pipes; 5.1 a feed hopper; 5.2 water inlet pipe; 6, a sphere; 6.1 a first circular plate; 6.2 second circular plate; 7.1 straight tube part of the L-shaped blanking tube; an arcuate tube portion of the 7.2L-shaped blanking tube; 8, fixing a bracket;

the following detailed description is made with reference to the accompanying drawings: a high molecular particle water cooling device with wall sticking prevention function comprises a substrate 1, a plurality of supporting legs 1.1 fixed with the substrate, an air cooling chamber 1.3 fixed at the substrate 1 and a first fan 1.2 fixed at the substrate 1, wherein the first fan 1.2 is communicated with the air cooling chamber 1.3 through a ventilation pipe, the air cooling chamber is provided with a plurality of air nozzles 1.4, a spiral pipe 3 is arranged above the substrate 1, one end of the spiral pipe 3 is connected with a first vertical pipe 3.1, the other end of the spiral pipe is connected with a second vertical pipe 3.2, the top end of the first vertical pipe is connected with a feeding hopper 5.1, the side surface of the first vertical pipe 3.1 is connected with a water inlet pipe 5.2 and a wall scraping air pipe 4.1, the end part of the wall scraping air pipe 4.1 is provided with a second fan 4, the side surface of the second vertical pipe 3.2 is provided with an L-shaped discharging pipe, the discharging end of the L-shaped discharging pipe is provided with a material receiving hopper 2.1, and the, the bottom end of the second vertical pipe 3.2 is open, a water receiving hopper 2.2 is arranged below the second vertical pipe 3.2, and the water receiving hopper 2.2 is communicated with a discharge pipe through a sewer pipe 2.3; the water cooling device also comprises a wall scraping unit which can slide in the spiral pipe, wherein the wall scraping unit comprises a first circular plate 6.1, a second circular plate 6.2 and a ball body 6 connected between the first circular plate and the second circular plate; the bottom end of the second vertical pipe is provided with a limiting bolt; the position of the water inlet pipe 5.2 is provided with a valve, and the position of the feeding hopper 5.1 is provided with a cover part capable of closing the feeding hopper.

The second vertical pipe and the L-shaped blanking pipe penetrate through and are fixed at the base plate. The number of the supporting legs is 4, a fixing plate is connected between the two supporting legs, and the discharge pipe and the sewer pipe penetrate through and are fixed at the fixing plate. The fixing frame is further installed at the position of the base plate and comprises a vertical plate fixed with the base plate and a transverse plate fixed with the vertical plate, the first vertical pipe penetrates through and is fixed to the transverse plate, and the wall scraping air pipe penetrates through and is fixed to the vertical plate. The wall scraping air pipe 4.1 comprises a first straight pipe, a first arc-shaped pipe connected with the first straight pipe, a second arc-shaped pipe connected with the first arc-shaped pipe and a second straight pipe connected with the second arc-shaped pipe, the first straight pipe is perpendicular to the first vertical pipe, the second straight pipe is parallel to the first vertical pipe, the radian of the first arc-shaped pipe is 90 degrees, and the radian of the second arc-shaped pipe is 180 degrees; the second arced tube is located above the first arced tube. The plurality of air nozzles are distributed in a rectangular array. The first fan 1.2 is arranged on the lower surface of the substrate 1; the base plate is also provided with an installation through hole for installing the air cooling chamber.

As shown in the figure, when normal water-cooling, first fan is opened, a purpose for blowing to the spiral pipe and playing supplementary forced air cooling, the second fan is closed, the material is continuously put into to the feeding hopper, the inlet tube lasts the water injection, thereby the mixture of material and water is poured into, because the height of first standpipe is fine, thereby the mixture of oppression material and water moves forward, after the spiral pipe mixes, the long intensive mixing water cooling of stroke, scrape the wall unit and be located second standpipe department this moment, and spacing (first, the diameter of two plectanes equals the internal diameter of spiral pipe), the mixture of material, can not follow the bottom unloading of second standpipe, but follow the unloading of unloading pipe. A small amount of water possibly leaks from the second vertical pipe, is received by the water receiving hopper and is transferred to the discharge pipe through the sewer pipe. And as shown in the figure, the wall scraping air pipe is upwards convex, so that the materials cannot overflow from the wall scraping air pipe.

When the wall needs to be scraped, the limiting bolt is pulled out, the wall scraping unit is placed into the feeding hopper, the valve of the water inlet pipe is closed, and the feeding hopper is closed; and starting the second fan, wherein the airflow generated by the second fan passes through the spiral pipe to push the wall scraping unit to move forwards until the wall scraping unit falls down from the second vertical position, and the diameters of the first circular plate and the second circular plate are equal to the inner diameter of the spiral pipe. Thereby realizing complete wall scraping and avoiding the material from being adhered on the spiral pipe.

While the invention has been shown and described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the following claims.

Claims

1. A high molecular particle water cooling device with a wall sticking prevention function is characterized by comprising a substrate, a plurality of supporting legs fixed with the substrate, an air cooling chamber fixed at the substrate and a first fan fixed at the substrate, wherein the first fan is communicated with the air cooling chamber through a ventilation pipe, a plurality of air nozzles are arranged at the air cooling chamber, a spiral pipe is arranged above the substrate, one end of the spiral pipe is connected with a first vertical pipe, the other end of the spiral pipe is connected with a second vertical pipe, the top end of the first vertical pipe is connected with a feeding hopper, the side surface of the first vertical pipe is connected with a water inlet pipe and a wall scraping air pipe, the end part of the wall scraping air pipe is provided with a second fan, the side surface of the second vertical pipe is provided with an L-shaped blanking pipe, a material receiving hopper is arranged below the blanking end of the L-shaped blanking pipe, the bottom end of the material receiving, a water receiving hopper is arranged below the second vertical pipe and is communicated with the discharge pipe through a sewer pipe; the water cooling device also comprises a wall scraping unit which can slide in the spiral pipe, wherein the wall scraping unit comprises a first circular plate, a second circular plate and a ball body connected between the first circular plate and the second circular plate; the bottom end of the second vertical pipe is provided with a limiting bolt; the water inlet pipe is provided with a valve, and the feeding hopper is provided with a cover part capable of closing the feeding hopper.

2. The water cooling device for polymer particles with wall adhesion prevention function according to claim 1, wherein the second vertical pipe and the L-shaped blanking pipe pass through and are fixed at the substrate; the number of the supporting legs is 4, a fixing plate is connected between the two supporting legs, and the discharge pipe and the sewer pipe penetrate through and are fixed at the fixing plate.

3. The water cooling device for polymer particles with a wall adhesion preventing function as claimed in claim 1, wherein a fixing frame is further installed at the base plate, the fixing frame comprises a vertical plate fixed to the base plate and a horizontal plate fixed to the vertical plate, the first vertical pipe passes through and is fixed to the horizontal plate, and the wall scraping air pipe passes through and is fixed to the vertical plate.

4. The water cooling device for polymer particles with wall adhesion prevention function according to claim 1, wherein the wall scraping air pipe comprises a first straight pipe, a first arc-shaped pipe connected with the first straight pipe, a second arc-shaped pipe connected with the first arc-shaped pipe and a second straight pipe connected with the second arc-shaped pipe, the first straight pipe is perpendicular to the first vertical pipe, the second straight pipe is parallel to the first vertical pipe, the radian of the first arc-shaped pipe is 90 degrees, and the radian of the second arc-shaped pipe is 180 degrees; the second arced tube is located above the first arced tube.

5. The device for cooling polymer particles with wall adhesion prevention function according to claim 1, wherein the plurality of air nozzles are distributed in a rectangular array.

6. The water cooling device for polymer particles with a wall adhesion preventing function according to claim 1, wherein the first fan is installed on the lower surface of the substrate; the base plate is also provided with an installation through hole for installing the air cooling chamber.