CN217531557U - Cooling device is used in engineering plastics production - Google Patents

Abstract

The utility model relates to an engineering plastics production technical field provides a cooling device is used in engineering plastics production, cooling device includes: the water cooling tank is used for storing cold water to cool the materials; the cooling assembly is arranged on the water-cooling tank and is used for continuously cooling water in the water-cooling tank so as to keep the water in a low-temperature state; the water removal assembly is arranged on the water cooling tank and used for removing water attached to the materials; this device structural layout is compact reasonable, easy operation, and convenient to use cools off the material through the water in the water-cooling pond, and at this in-process, the water in to the water-cooling pond through cooling module lasts the circulation and cools off so that water keeps the low temperature state, guarantees cooling rate and the effect to the material, gets rid of the moisture on attached to the material through water removal subassembly at last to avoid influencing the follow-up use of material, be favorable to improving engineering plastics production efficiency and quality.

Description

Cooling device is used in engineering plastics production

Technical Field

The utility model relates to an engineering plastics production technical field specifically is a cooling device is used in engineering plastics production.

Background

Engineering plastics refer to industrial plastics used as industrial parts or housing materials, and are plastics with excellent strength, impact resistance, heat resistance, hardness and aging resistance, the engineering plastics refer to plastics used as structural materials in engineering, the plastics generally have high mechanical strength or good performances such as high temperature resistance, corrosion resistance, wear resistance and the like, so the engineering plastics can replace metals to be used as certain mechanical parts, the performances and applications of common thermoplastic engineering plastics are also many, such as polyamide, polytetrafluoroethylene, ABS plastics, polyformaldehyde, polycarbonate and the like, the engineering plastics are widely applied to industries such as electronics, electricity, automobiles, buildings, office equipment, machinery, aerospace and the like, the substitution of plastics for steel and the substitution of plastics for wood become the international popular trend, the engineering plastics become the fastest growing field in the current world plastic industry, the development of the engineering plastics not only plays a supporting role for the national pillar industry and the modern high and new technology industry, but also promotes the traditional industrial modification and the adjustment of product structures.

In engineering plastics production, involve and cool off the material, current cooling method adopts water-cooling usually, and at this in-process, the temperature can rise gradually, influences follow-up material cooling rate and effect, and the material that cools off well still adheres to more moisture simultaneously, influences follow-up use.

Therefore, the utility model provides a cooling device is used in engineering plastics production solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model aims to provide a cooling device is used in engineering plastics production to solve above-mentioned problem.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a cooling device for engineering plastic production, comprising:

the water cooling tank is used for storing cold water to cool the materials;

the cooling assembly is arranged on the water-cooling tank and is used for continuously cooling water in the water-cooling tank so as to keep the water in a low-temperature state;

and the water removal component is arranged on the water cooling tank and used for removing the water attached to the material.

In one alternative: the cooling assembly includes:

the cooling box is symmetrically provided with a plurality of support rods on the water cooling pool and is fixedly arranged at the bottom of the water cooling pool;

the cooling tube is fixedly arranged in the cooling box, the bottom of the water cooling pool is communicated with a water outlet pipe, one end, away from the water cooling pool, of the water outlet pipe is communicated with one end of the cooling tube, one end, away from the water outlet pipe, of the cooling tube is fixedly connected with a water return pipe, one end, away from the cooling tube, of the water return pipe is communicated with the water cooling pool, and the water outlet pipe is connected with a circulating pump.

In one alternative: the cooling tube is a serpentine-like structure.

In one alternative: the water removal assembly includes:

the discharge groove is formed in one side wall of the water-cooling tank, the double-way sleeve is fixedly arranged on one side wall of the water-cooling tank, which is provided with the discharge groove, and the discharge groove is positioned in the double-way sleeve;

the two driven rotating rods are rotatably inserted into the two-way sleeve, the rod sections of the two driven rotating rods in the two-way sleeve are symmetrically provided with threads with opposite directions, the rod sections with the threads of the two driven rotating rods are jointly and symmetrically threaded by two clamping plates, water-absorbing sponges are fixedly arranged on the two clamping plates, and one of the two driven rotating rods is fixedly sleeved with a full gear;

the two driving rotating rods are rotatably arranged on the two-way sleeve, half gears are fixedly sleeved on the two driving rotating rods and are alternatively meshed with full gears, the two driving rotating rods are in transmission connection through a flat gear transmission mechanism, the two driven rotating rods are in transmission connection through a belt transmission mechanism, a driving motor is fixedly arranged on the two-way sleeve, and an output shaft of the driving motor is in transmission connection with one of the two driving rotating rods through a bevel gear transmission mechanism;

the flow distribution box is fixedly arranged in the bi-pass sleeve, air outlet holes are uniformly formed in the inner wall of the flow distribution box, an air heater is fixedly arranged on the bi-pass sleeve, and the air outlet end of the air heater is communicated with the interior of the flow distribution box.

In one alternative: and a heat insulation layer is arranged in the side wall of the cooling box.

Compared with the prior art, the embodiment of the utility model has the following beneficial effects:

this device structural layout is compact reasonable, easy operation, and convenient to use cools off the material through the water in the water-cooling pond, and at this in-process, the water in to the water-cooling pond through cooling module lasts the circulation and cools off so that water keeps the low temperature state, guarantees cooling rate and the effect to the material, gets rid of the moisture on attached to the material through water removal subassembly at last to avoid influencing the follow-up use of material, be favorable to improving engineering plastics production efficiency and quality.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Notations for reference numerals: 1-supporting rod, 2-water outlet pipe, 3-circulating pump, 4-ice throwing port, 5-water cooling tank, 6-discharging tank, 7-half gear, 8-driving rotating rod, 9-flat gear transmission mechanism, 10-belt transmission mechanism, 11-full gear, 12-bevel gear transmission mechanism, 13-driving motor, 14-flow dividing box, 15-air outlet, 16-double sleeve, 17-hot air blower, 18-clamping plate, 19-driven rotating rod, 20-water absorbing sponge, 21-water return pipe, 22-cooling box, 23-cooling pipe and 24-water outlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided to illustrate specific embodiments of the present invention.

Referring to fig. 1, in an embodiment of the present invention, a cooling device for engineering plastic production includes:

the water cooling tank 5 is used for storing cold water to cool the materials;

the cooling assembly is arranged on the water-cooling tank 5 and is used for continuously cooling the water in the water-cooling tank 5 so as to keep the water in a low-temperature state;

and the water removal component is arranged on the water cooling tank 5 and is used for removing water attached to the materials.

In this embodiment, cool off the material through the water in the water-cooling pond 5, at this in-process, the water continuous cycle through cooling module in to the water-cooling pond 5 cools off so that water keeps the low temperature state, guarantees to the cooling rate and the effect of material, gets rid of the moisture attached to the material through dewatering component at last to avoid influencing the follow-up use of material, be favorable to improving engineering plastics production efficiency and quality, have good practical meaning and economic benefits.

In one embodiment of the present invention, the cooling assembly comprises:

the cooling box 22 is characterized in that a plurality of support rods 1 are symmetrically arranged on the water cooling pool 5, and the cooling box 22 is fixedly arranged at the bottom of the water cooling pool 5;

cooling tube 23 is fixed to be located in the cooler bin 22, cooling tube 23 is snakelike sinuous structure, 5 bottom intercommunications in water-cooling pond have outlet pipe 2, the one end and the cooling tube 23 one end intercommunication of water-cooling pond 5 are kept away from to outlet pipe 2, the one end fixedly connected with return pipe 21 of outlet pipe 2 is kept away from to cooling tube 23, the one end and the water-cooling pond 5 intercommunication of cooling tube 23 are kept away from to return pipe 21, be connected with circulating pump 3 on the outlet pipe 2.

In this embodiment, before cooling the material, put into earlier and fill in the cooling tank 22 and be full of the ice-cube, in the material cooling process, circulating pump 3 takes out the water in the water-cooling pond 5 to cooling tube 23 through outlet pipe 2, and the water that flows through cooling tube 23 is cooled off fast under the ice-cube effect, returns to water-cooling pond 5 once more through return pipe 21 afterwards to this circulation to the water in the water-cooling pond 5 keeps cooling so that water keeps the low temperature state, guarantees cooling rate and the effect to the material.

Further, in the present embodiment, an ice inlet 4 for introducing ice cubes therein is opened in a side wall of the cooling box 22, and a drain port 24 for discharging water generated by melting ice cubes is opened in a bottom thereof.

Further, in this embodiment, a thermal insulating layer is provided in the side wall of the cooling box 22 to prevent external heat from entering the cooling box 22 and causing the ice cubes to melt, so that the ice cubes can keep the refrigeration effect for a long time.

In one embodiment of the present invention, the water removal assembly comprises:

the discharge chute 6 is arranged on one side wall of the water-cooling tank 5, the two-way sleeve 16 is fixedly arranged on one side wall of the water-cooling tank 5, which is provided with the discharge chute 6, and the discharge chute 6 is positioned in the two-way sleeve 16;

two driven rotating rods 19 are rotatably inserted into the two-way sleeve 16, threads with opposite directions are symmetrically arranged on rod sections of the two driven rotating rods 19 in the two-way sleeve 16, two clamping plates 18 are jointly and symmetrically screwed on the rod sections with the threads of the two driven rotating rods 19, water-absorbing sponges 20 are fixedly arranged on the two clamping plates 18, and a full gear 11 is fixedly sleeved on one of the two driven rotating rods 19;

the two driving rotating rods 8 are rotatably arranged on the two through sleeves 16, the two driving rotating rods 8 are fixedly sleeved with half gears 7, the two half gears 7 are alternately meshed with full gears 11, the two driving rotating rods 8 are in transmission connection through a flat gear transmission mechanism 9, the two driven rotating rods 19 are in transmission connection through a belt transmission mechanism 10, the two through sleeves 16 are also fixedly provided with driving motors 13, and output shafts of the driving motors 13 are in transmission connection with one of the two driving rotating rods 8 through bevel gear transmission mechanisms 12;

the shunting box 14 is fixedly arranged in the double-way sleeve 16, air outlet holes 15 are uniformly formed in the inner wall of the shunting box 14, an air heater 17 is fixedly arranged on the double-way sleeve 16, and the air outlet end of the air heater 17 is communicated with the interior of the shunting box 14.

In this embodiment, the material passes through between two sponges 20 that absorb water, sponge 20 that absorbs water will adhere to the moisture absorption on the material, play the dewatering effect, in this process, driving motor 13 drives two synchronous rotations of drive bull stick 8 and the two rotation direction is opposite each other, two drive bull stick 8 rotate and drive two half gear 7 and full gear 11 meshing in turn, drive two driven bull stick 19 positive and negative circulation rotation in turn promptly, and then drive two splint 18 circulation and be close to and recover, when two splint 18 were close to each other, thereby drive two sponges 20 compressions that absorb water and make the water in two sponges 20 that absorb water extruded, make sponge 20 that absorb water keep effectual effect of absorbing water, the material is dried by the fire and is blown again afterwards, thereby thoroughly get rid of the moisture that adheres to the material.

The above embodiment of the utility model provides a cooling device is used in engineering plastics production, cool off the material through the water in the water-cooling pond 5, at this in-process, the water in to the water-cooling pond 5 through cooling module lasts the circulation and cools off so that water keeps the low temperature state, guarantee to the cooling rate and the effect of material, get rid of the moisture attached to the material through water removal subassembly at last, in order to avoid influencing the follow-up use of material, be favorable to improving engineering plastics production efficiency and quality, good practical meaning and economic benefits have.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (5)

1. A cooling device for engineering plastic production, characterized in that, cooling device includes:

the water cooling tank is used for storing cold water to cool the materials;

the cooling assembly is arranged on the water-cooling tank and is used for continuously cooling water in the water-cooling tank so as to keep the water in a low-temperature state;

and the water removal component is arranged on the water cooling tank and used for removing the water attached to the material.

2. The cooling device for engineering plastic production according to claim 1, wherein the cooling assembly comprises:

the cooling box is symmetrically provided with a plurality of support rods on the water cooling pool and is fixedly arranged at the bottom of the water cooling pool;

the cooling tube is fixedly arranged in the cooling box, the bottom of the water cooling pool is communicated with a water outlet pipe, one end, away from the water cooling pool, of the water outlet pipe is communicated with one end of the cooling tube, one end, away from the water outlet pipe, of the cooling tube is fixedly connected with a water return pipe, one end, away from the cooling tube, of the water return pipe is communicated with the water cooling pool, and the water outlet pipe is connected with a circulating pump.

3. The cooling device for engineering plastic production according to claim 2, wherein the cooling pipe has a serpentine-like structure.

4. The cooling device for engineering plastic production according to claim 1, wherein the water removal assembly comprises:

the double-way sleeve is fixedly arranged on one side wall of the water cooling tank, which is provided with the discharge chute, and the discharge chute is positioned in the double-way sleeve;

the two driven rotating rods are rotatably inserted into the two-way sleeve, the rod sections of the two driven rotating rods in the two-way sleeve are symmetrically provided with threads with opposite directions, the rod sections with the threads of the two driven rotating rods are jointly and symmetrically threaded by two clamping plates, water-absorbing sponges are fixedly arranged on the two clamping plates, and one of the two driven rotating rods is fixedly sleeved with a full gear;

the two driving rotating rods are respectively rotatably provided with the two-way sleeve, half gears are respectively fixedly sleeved on the two driving rotating rods, the two half gears are alternatively meshed with a full gear, the two driving rotating rods are in transmission connection through a flat gear transmission mechanism, the two driven rotating rods are in transmission connection through a belt transmission mechanism, the two-way sleeve is also fixedly provided with a driving motor, and an output shaft of the driving motor is in transmission connection with one of the two driving rotating rods through a bevel gear transmission mechanism;

the flow distribution box is fixedly arranged in the bi-pass sleeve, air outlet holes are uniformly formed in the inner wall of the flow distribution box, an air heater is fixedly arranged on the bi-pass sleeve, and the air outlet end of the air heater is communicated with the interior of the flow distribution box.

5. The cooling device for engineering plastic production according to claim 2, wherein a heat insulating layer is provided in the side wall of the cooling tank.

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