CN217226266U - Rubber cooling device for processing reclaimed rubber - Google Patents

Abstract

A rubber cooling device for processing regenerated rubber comprises a fixed support, a cooling transmission cylinder, a driving mechanism and an air cooling mechanism, wherein the upper end of the fixed support is in lap joint with the cooling transmission cylinder, the outer wall of the cooling transmission cylinder is provided with a rack, the driving mechanism is meshed with the rack and is connected with the cooling transmission cylinder, the driving mechanism drives the cooling transmission cylinder to rotate, the air cooling mechanism is positioned right in front of the cooling transmission cylinder to supply air to the cooling transmission cylinder, the inner wall of the cooling transmission cylinder is provided with a plurality of spiral baffles so that rubber particles can move forwards along the spiral direction, the front end of the cooling transmission cylinder is provided with a front end plate, the edge of the front end plate is provided with a plurality of discharge ports, the discharge ports are adjacent to the spiral baffles, the center of the front end plate is provided with an air inlet, air blown out by the air cooling mechanism enters the cooling transmission cylinder from the air inlet, the rear end of the cooling transmission cylinder is provided with a rear end plate, and the center of the rear end plate is provided with a feed inlet, rubber particles enter the cooling transmission cylinder from the feeding hole, and an air purification mechanism is arranged at the edge of the rear end plate.

Description

Rubber cooling device for processing reclaimed rubber

Technical Field

The utility model relates to a rubber processing technology field especially relates to a rubber cooling device is used in reclaimed rubber processing.

Background

The disposal of waste tires is a major problem in the environmental protection. The quantity of tire waste produced each year in China is huge. Direct combustion treatment can cause very serious environmental pollution, deep land burying has insufficient land, tires are not easy to degrade, and the land can be polluted. Transporting tires to a thermal power plant to generate electricity is also a treatment, but the resulting benefits are very low. The tire can be used as a road base after treatment, and the rubber is preferably recycled and changed into other rubber products for use. The tire is crushed during processing and then extruded into a specific shape in a mold after processing. The temperature of the crushed tires after softening treatment is very high, and a large area is occupied if the crushed tires are naturally cooled. Meanwhile, a lot of harmful gases are released in the heat dissipation process, so that the environment is polluted and the health of people is harmed.

Disclosure of Invention

In view of the above, it is desirable to provide a rubber cooling device for processing reclaimed rubber, which is environmentally friendly and has high cooling efficiency.

A rubber cooling device for processing regenerated rubber comprises a fixed support, a cooling transmission cylinder, a driving mechanism and an air cooling mechanism, wherein the upper end of the fixed support is in lap joint with the cooling transmission cylinder, the outer wall of the cooling transmission cylinder is provided with a rack, the driving mechanism is meshed with the rack and is connected with the cooling transmission cylinder, the driving mechanism drives the cooling transmission cylinder to rotate, the air cooling mechanism is positioned right in front of the cooling transmission cylinder to supply air to the cooling transmission cylinder, the inner wall of the cooling transmission cylinder is provided with a plurality of spiral baffles so that rubber particles can move forwards along the spiral direction, the front end of the cooling transmission cylinder is provided with a front end plate, the edge of the front end plate is provided with a plurality of discharge ports, the discharge ports are adjacent to the spiral baffles, the center of the front end plate is provided with an air inlet, air blown out by the air cooling mechanism enters the cooling transmission cylinder from the air inlet, the rear end of the cooling transmission cylinder is provided with a rear end plate, and the center of the rear end plate is provided with a feed inlet, rubber particles enter the cooling transmission cylinder from the feeding hole, and an air purification mechanism is arranged at the edge of the rear end plate to purify the air in the cooling transmission cylinder.

Preferably, the spiral baffle is composed of a plurality of baffle plates arranged at intervals.

Preferably, both sides of the fixed support are provided with fixed pulleys, the outer wall of the corresponding cooling transmission cylinder is provided with a slide rail, and the fixed pulleys are connected with the slide rail in a sliding manner.

Preferably, the front end of the cooling transmission cylinder is provided with a material blocking groove, the material blocking groove is annular, and the bottom of the material blocking groove is provided with a feed opening.

Preferably, actuating mechanism includes motor support, driving motor, drive gear, and the upper end and the driving motor fixed connection of motor support, driving motor's pivot and drive gear fixed connection, drive gear and rack meshing are connected.

Preferably, the air cooling mechanism comprises an air cooling support and a fan, the air cooling support is located right in front of the cooling transmission cylinder, the upper end of the air cooling support is fixedly connected with the fan, and the fan is opposite to the air inlet of the front end plate.

Preferably, air purification mechanism includes air-supply line, active carbon workbin, purification basin, windshield cap, the one end and the cooling driving cylinder intercommunication of air-supply line, the other end and the active carbon workbin intercommunication of air-supply line, the purification basin is located the upper end of active carbon workbin, and the top of active carbon workbin is equipped with out the tuber pipe, and the windshield cap is established with a tuber pipe cover and is connected, and the internal diameter of windshield cap is greater than the external diameter of a tuber pipe, and the bottom submergence of windshield cap is in the liquid of purification basin.

Has the advantages that: the utility model discloses a rubber cooling device is used in reclaimed rubber processing when using, and rubber gets into the cooling transmission section of thick bamboo from the rear end plate, and the cooling transmission section of thick bamboo rotates under actuating mechanism's drive to drive the synchronous rotation of inside heliciform baffle, rubber moves forward under the effect of heliciform baffle, and rubber flows out when the discharge gate rotates to the bottom of cooling transmission section of thick bamboo. The cooling of the rubber in the cooling transmission cylinder is mainly realized through heat convection and heat transfer, and the air blown into the cooling transmission cylinder by the air supply mechanism cools the rubber; at the same time, the cooling transmission cylinder is in heat transfer with the rubber. The rubber transfers heat to the cooling transmission cylinder, and partial air blown out by the air cooling mechanism acts on the outer wall of the cooling transmission cylinder to cool the cooling transmission cylinder. The hot air in the cooling transmission cylinder is purified by the air purifying mechanism.

Drawings

FIG. 1 is a schematic structural view of the rubber cooling device for reclaimed rubber processing of the present invention.

Fig. 2 is a schematic view of a partial structure of the rubber cooling device for processing reclaimed rubber of the present invention.

FIG. 3 is a schematic view of another partial structure of the rubber cooling device for reclaimed rubber processing according to the present invention.

In the figure: the device comprises a rubber cooling device 10 for processing the regenerated rubber, a fixed support 20, a cooling transmission cylinder 30, a toothed rail 301, a spiral baffle 302, a front end plate 303, a discharge hole 3031, an air inlet 3032, a rear end plate 304, a feed inlet 3041, a slide rail 306, an air cooling mechanism 40, an air cooling support 401, a fan 402, an air purification mechanism 50, an air inlet pipeline 501, an active carbon bin 502, a purified water tank 503, an air outlet pipe 504 and a wind blocking cap 505.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Referring to fig. 1 to 3, a rubber cooling device 10 for processing regenerated rubber includes a fixing bracket 20, a cooling transmission cylinder 30, a driving mechanism, and an air cooling mechanism 40, wherein an upper end of the fixing bracket 20 is overlapped with the cooling transmission cylinder 30, an outer wall of the cooling transmission cylinder 30 is provided with a rack 301, the driving mechanism is engaged with the rack 301, the driving mechanism drives the cooling transmission cylinder 30 to rotate, the air cooling mechanism 40 is located right in front of the cooling transmission cylinder 30 to supply air to the cooling transmission cylinder 30, an inner wall of the cooling transmission cylinder 30 is provided with a plurality of spiral baffles 302 to enable rubber particles to move forward along a spiral direction, a front end plate 303 is provided at a front end of the cooling transmission cylinder 30, a plurality of discharge ports 3031 are provided at an edge of the front end plate 303, the discharge ports 3031 are adjacent to the spiral baffles 302, an air inlet 3032 is provided at a center of the front end plate 303, air blown out by the air cooling mechanism 40 enters the cooling transmission cylinder 30 from the air inlet 3032, the rear end of the cooling transmission cylinder 30 is provided with a rear end plate 304, the center of the rear end plate 304 is provided with a feed port 3041, rubber particles enter the cooling transmission cylinder 30 from the feed port 3041, and the edge of the rear end plate 304 is provided with an air purification mechanism 50 for purifying air in the cooling transmission cylinder 30.

Further, the spiral baffle 302 is composed of a plurality of baffles arranged at intervals. Set up the separation blade through the interval, can make partial rubber flow from the clearance between the flange to increase the time of rubber in cooling transmission cylinder 30, simultaneously, can also promote the flow between the rubber, make the temperature of material more balanced.

Furthermore, fixed pulleys are arranged on two sides of the fixed support 20, sliding rails 306 are arranged on the outer walls of the corresponding cooling transmission cylinders 30, and the fixed pulleys are slidably connected with the sliding rails 306. Through the cooperation of fixed pulley and slide rail 306, can reduce the friction of fixed bolster 20 with the cooling transmission cylinder 30 support to improve the life of cooling transmission cylinder 30.

Further, the front end of the cooling transmission cylinder 30 is provided with a material blocking groove, the material blocking groove is annular, and the bottom of the material blocking groove is provided with a feed opening. Generally, a conveyor belt is arranged below the discharge port 3031 of the cooling transmission cylinder 30 to convey rubber. The material that flows out from cooling transmission cylinder 30 has certain kinetic energy in the tangential direction, can spill out from the conveyer belt, and through setting up the material blocking groove, the material of throwing out from discharge gate 3031 is blocked by the material blocking groove to lose the bottom that the kinetic energy landing was to the material blocking groove, finally falls into the conveyer belt.

In a preferred embodiment, the driving mechanism includes a motor bracket, a driving motor, and a driving gear, wherein the upper end of the motor bracket is fixedly connected to the driving motor, the rotating shaft of the driving motor is fixedly connected to the driving gear, and the driving gear is engaged with the rack 301.

In a preferred embodiment, the air cooling mechanism 40 includes an air cooling bracket 401 and a fan 402, the air cooling bracket 401 is located right in front of the cooling transmission cylinder 30, an upper end of the air cooling bracket 401 is fixedly connected to the fan 402, and the fan 402 is directly opposite to the air inlet 3032 of the front end plate 303.

Further, air purification mechanism 50 includes air-supply line 501, active carbon workbin 502, purification basin 503, windshield cap 505, air-supply line 501's one end and cooling transmission cylinder 30 intercommunication, air-supply line 501's the other end and active carbon workbin 502 intercommunication, purification basin 503 is located active carbon workbin 502's upper end, active carbon workbin 502's top is equipped with out tuber pipe 504, windshield cap 505 establishes with play tuber pipe 504 cover and is connected, windshield cap 505's internal diameter is greater than the external diameter that goes out tuber pipe 504, windshield cap 505's bottom submergence is in purification basin 503's liquid.

The wind cap 505 blocks the air, so that the air can enter the purified water tank 503 only along the outer wall of the wind outlet pipe 504. The purified water tank 503 may contain alkaline water to adsorb acidic components in the gas. Meanwhile, the water-soluble gas such as carbon dioxide, part of organic volatile gas and the like can be absorbed. In order to better absorb the gas in the cooling transmission cylinder 30, a negative pressure fan can be installed on the air inlet pipe 501 to suck the gas in the cooling transmission cylinder 30 into the activated carbon bin 502.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a reclaimed rubber processing is with rubber cooling device which characterized in that: the rubber particle cooling device comprises a fixed support, a cooling transmission cylinder, a driving mechanism and an air cooling mechanism, wherein the upper end of the fixed support is in lap joint with the cooling transmission cylinder, a toothed rail is arranged on the outer wall of the cooling transmission cylinder, the driving mechanism is in meshed connection with the toothed rail, the driving mechanism drives the cooling transmission cylinder to rotate, the air cooling mechanism is located right in front of the cooling transmission cylinder and supplies air to the cooling transmission cylinder in a direction, a plurality of spiral baffles are arranged on the inner wall of the cooling transmission cylinder so that rubber particles can move forwards along the spiral direction, a front end plate is arranged at the front end of the cooling transmission cylinder, a plurality of discharge ports are arranged at the edge of the front end plate and are adjacent to the spiral baffles, an air inlet is arranged in the center of the front end plate, air blown out by the air cooling mechanism enters the cooling transmission cylinder from the air inlet, a rear end plate is arranged at the rear end of the cooling transmission cylinder, a feed inlet is arranged at the center of the rear end plate, and the rubber particles enter the cooling transmission cylinder from the feed inlet, the edge of the rear end plate is provided with an air purification mechanism to purify and cool the air in the transmission cylinder.

2. The apparatus for cooling rubber for processing reclaimed rubber according to claim 1, wherein: the spiral baffle is composed of a plurality of baffle plates arranged at intervals.

3. The apparatus for cooling rubber for processing reclaimed rubber according to claim 1, wherein: and fixed pulleys are arranged on two sides of the fixed support, slide rails are arranged on the outer walls of the corresponding cooling transmission cylinders, and the fixed pulleys are slidably connected with the slide rails.

4. The apparatus for cooling rubber for processing reclaimed rubber according to claim 1, wherein: the front end of the cooling transmission cylinder is provided with a material blocking groove, the material blocking groove is annular, and the bottom of the material blocking groove is provided with a feed opening.

5. The apparatus for cooling rubber for processing reclaimed rubber according to claim 1, wherein: the driving mechanism comprises a motor support, a driving motor and a driving gear, the upper end of the motor support is fixedly connected with the driving motor, a rotating shaft of the driving motor is fixedly connected with the driving gear, and the driving gear is meshed with the toothed rail.

6. The rubber cooling device for reclaimed rubber processing according to claim 1, wherein: the air cooling mechanism comprises an air cooling support and a fan, the air cooling support is located right in front of the cooling transmission cylinder, the upper end of the air cooling support is fixedly connected with the fan, and the fan is over against the air inlet of the front end plate.

7. The apparatus for cooling rubber for processing reclaimed rubber according to claim 1, wherein: the air purification mechanism comprises an air inlet pipeline, an activated carbon material box, a purification water tank and a wind blocking cap, wherein one end of the air inlet pipeline is communicated with a cooling transmission cylinder, the other end of the air inlet pipeline is communicated with the activated carbon material box, the purification water tank is positioned at the upper end of the activated carbon material box, a wind outlet pipe is arranged at the top of the activated carbon material box, the wind blocking cap is connected with a wind outlet pipe sleeve, the inner diameter of the wind blocking cap is larger than the outer diameter of the wind outlet pipe, and the bottom of the wind blocking cap is immersed in liquid in the purification water tank.

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