CN216856879U - Resin polyester cooling and recycling device - Google Patents

Abstract

The utility model discloses a resin polyester cooling and recycling device, which comprises a bottom box, wherein two sides of the inner wall of the bottom box are respectively provided with four mounting shafts in an inserting way, the outer walls of the four mounting shafts are respectively connected with the inner wall of the bottom box in an inserting way, one end of each mounting shaft is fixedly provided with a crushing bucket, the bottom of the inner wall of the crushing bucket is fixedly provided with a crushing net, one side of the crushing bucket is fixedly provided with a feeding groove, the inner wall of the feeding groove is communicated with the inner wall of the crushing bucket, the top of the bottom box is fixedly provided with an electric telescopic rod, the output end of the electric telescopic rod is fixedly provided with a pressing plate, the outer wall of the output end of the electric telescopic rod is connected with the inner wall of the bottom box in an inserting way, the outer wall of the feeding groove is connected with the inner wall of the bottom box in an inserting way, resin polyester is crushed after water cooling and heat exchange in a water tank, and the crushed resin polyester particles are cooled again, so that the cooling effect is greatly improved, the sticky condition after the crushing is prevented.

Description

Resin polyester cooling and recycling device

Technical Field

The utility model relates to the technical field of chemical engineering and new materials, in particular to a resin polyester cooling and recycling device.

Background

The resin polyester is short for unsaturated polyester adhesive. The unsaturated polyester adhesive mainly comprises unsaturated resin polyester, an initiator, an accelerator, a filler, a thixotropic agent and the like, and is mainly used for producing coil coating.

In the prior art, the last cooling part of producing resin polyester usually adopts various methods to cool earlier, use breaker to break again at last, but most cooling process often all cools off the surface after solidifying to resin polyester when ending, last breakage, this leads to resin polyester to solidify the back surface and though cooled down easily, but the inside is still the unset state, this internal unset leads to the condition that can't break or broken resin polyester glues sticky once more when just leading to breaking, the fixed granule size that makes to break is inconsistent, thereby the efficiency of production line has been reduced, the income has been influenced.

SUMMERY OF THE UTILITY MODEL

The present invention aims to provide a cooling and recycling apparatus for resin polyester, which solves the problems of the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a resin polyester cooling recovery unit, includes the under casing, the both sides of under casing inner wall all alternate and are equipped with four installation axles, and the outer wall of four installation axles alternate with the inner wall of under casing respectively and be connected, four the one end of installation axle is all fixed to be equipped with broken fill, and the both sides of broken fill respectively with the one end fixed connection of four broken fill, the fixed broken net that is equipped with in bottom of broken fill inner wall, the fixed feed chute that is equipped with in one side of broken fill, and the inner wall intercommunication of the inner wall of feed chute and broken fill, the fixed electric telescopic handle that is equipped with in top of under casing, electric telescopic handle's output end is fixed to be equipped with the clamp plate, and the fixed baffle that is equipped with in one side of clamp plate, the outer wall of electric telescopic handle output alternates with the inner wall of under casing and is connected, the outer wall of feed chute alternates with the inner wall of under casing and is connected.

Preferably, one side of the top of the bottom box is equidistantly and fixedly provided with a plurality of fans, and one side of the bottom box is provided with a first discharge hole.

Preferably, one side of the top of the bottom box is fixedly provided with two support rods, one ends of the two support rods are fixedly provided with a water tank, and two sides of the bottom of the water tank are fixedly connected with one ends of the two support rods respectively.

Preferably, one side at the top of the water tank is provided with a U-shaped pipe in an inserting mode, one end of the U-shaped pipe is fixedly provided with a feed hopper, the inner wall of the feed hopper is communicated with the inner wall of the U-shaped pipe, the bottom of one side of the water tank is provided with a second discharge port, and the inner wall of the second discharge port is communicated with the inner wall of the other end of the U-shaped pipe.

Preferably, a liquid inlet is formed in the other side of the top of the water tank, an installation support is fixedly arranged on one side of the water tank, a first motor is fixedly arranged on the inner wall of the installation support, and a helical blade is fixedly arranged at the output end of the motor.

Preferably, the fixed second motor that is equipped with in front of under casing, the output end of second motor is fixed and is equipped with the action wheel, the outer wall cover of action wheel is equipped with the conveyer belt, the one end transmission of conveyer belt is equipped with from the driving wheel, and from the inner wall contact of the inner wall of driving wheel with the conveyer belt, the both sides from the driving wheel are connected with the inner wall block of under casing.

The utility model has the technical effects and advantages that:

(1) the crushing hopper is arranged in the bottom box, the crushing net is fixedly arranged at the bottom of the inner wall of the crushing hopper, the electric telescopic rod is fixedly arranged at the top of the bottom box, the pressing plate is fixedly arranged at the output end of the electric telescopic rod, the resin polyester is crushed by the spiral blades in a solidification state after water-cooling heat exchange in the water tank and falls into the crushing hopper from the second discharge port through the feed chute, the electric telescopic rod starts to control the pressing plate to repeatedly extrude the resin polyester in the crushing hopper, the resin polyester is crushed by matching with the crushing net, the baffle on one side of the pressing plate can prevent the resin polyester from falling onto the top of the pressing plate, and the crushed resin polyester particles are cooled by air cooling, so that the cooling effect is greatly improved, and the sticky condition after crushing is prevented;

(2) the inside of water tank is provided with the U type pipe, and resin polyester can carry out the heat transfer with the water in the water tank when through the U type pipe, carries out the first breakage through helical blade under the semi-solid state to discharge from the second discharge gate.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the crushing hopper of the present invention;

FIG. 3 is a schematic representation of the conveyor belt of the present invention;

FIG. 4 is a schematic view of a helical blade according to the present invention;

FIG. 5 is a schematic view of a U-shaped tube according to the present invention.

In the figure: 1. a bottom box; 2. installing a shaft; 3. a crushing hopper; 4. crushing the net; 5. a feed chute; 6. an electric telescopic rod; 7. pressing a plate; 8. a baffle plate; 9. a fan; 10. a first discharge port; 11. a support bar; 12. a water tank; 13. a U-shaped pipe; 14. a feed hopper; 15. a second discharge port; 16. a liquid inlet; 17. mounting a bracket; 18. a first motor; 19. a helical blade; 20. a driving wheel; 21. a conveyor belt; 22. a driven wheel; 23. a second motor.

Detailed Description

The utility model provides a resin polyester cooling and recycling device as shown in figures 1-5, which comprises a bottom box 1, wherein two sides of the inner wall of the bottom box 1 are respectively and alternately provided with four mounting shafts 2, the outer walls of the four mounting shafts 2 are respectively and alternately connected with the inner wall of the bottom box 1, one ends of the four mounting shafts 2 are respectively and fixedly provided with a crushing hopper 3, two sides of the crushing hopper 3 are respectively and fixedly connected with one ends of the four crushing hoppers 3, the bottom of the inner wall of the crushing hopper 3 is fixedly provided with a crushing net 4, the crushing net 4 can crush resin polyester in a semi-solidified state, one side of the crushing hopper 3 is fixedly provided with a feeding groove 5, the inner wall of the feeding groove 5 is communicated with the inner wall of the crushing hopper 3, the top of the bottom box 1 is fixedly provided with an electric telescopic rod 6, the output end of the electric telescopic rod 6 is fixedly provided with a pressing plate 7, the pressing plate 7 can extrude the resin polyester entering the crushing hopper 3, the crushing net 4 is matched for crushing, a baffle 8 is fixedly arranged on one side of a pressing plate 7, the baffle 8 can prevent resin polyester from falling to the top of the pressing plate 7, the outer wall of the output end of an electric telescopic rod 6 is connected with the inner wall of a bottom box 1 in an inserting way, the outer wall of a feeding groove 5 is connected with the inner wall of the bottom box 1 in an inserting way, a plurality of fans 9 are fixedly arranged on one side of the top of the bottom box 1 at equal intervals, the fans 9 cool the crushed resin polyester again, a first discharging hole 10 is formed in one side of the bottom box 1, two supporting rods 11 are fixedly arranged on one side of the top of the bottom box 1, a water tank 12 is fixedly arranged at one end of each supporting rod 11, two sides of the bottom of the water tank 12 are respectively fixedly connected with one end of the two support rods 11, the other side of the top of the water tank 12 is provided with a liquid inlet 16, one side of the water tank 12 is fixedly provided with a mounting bracket 17, and the inner wall of the mounting bracket 17 is fixedly provided with a first motor 18;

as shown in fig. 3, a second motor 23 is fixedly arranged on the front surface of the bottom case 1, a driving wheel 20 is fixedly arranged at the output end of the second motor 23, a conveyor belt 21 is sleeved on the outer wall of the driving wheel 20, a driven wheel 22 is arranged at one end of the conveyor belt 21 in a transmission manner, the inner wall of the driven wheel 22 is in contact with the inner wall of the conveyor belt 21, and two sides of the driven wheel 22 are connected with the inner wall of the bottom case 1 in a clamping manner;

as shown in fig. 4, the output end of the motor is fixedly provided with a helical blade 19;

as shown in fig. 5, a U-shaped pipe 13 is inserted into one side of the top of the water tank 12, uncooled resin polyester exchanges heat with water in the water tank 12 through the U-shaped pipe 13, a feed hopper 14 is fixedly arranged at one end of the U-shaped pipe 13, the inner wall of the feed hopper 14 is communicated with the inner wall of the U-shaped pipe 13, a second discharge port 15 is formed in the bottom of one side of the water tank 12, and the inner wall of the second discharge port 15 is communicated with the inner wall of the other end of the U-shaped pipe 13.

The working principle of the utility model is as follows: firstly, a fan 9, a first motor 18, a second motor 23 and an electric telescopic rod 6 are connected into an external power supply through a switch panel, unsolidified resin polyester is put into a U-shaped pipe 13 through a feed hopper 14, the resin polyester is subjected to heat exchange and cooling through water in a water tank 12, when the resin polyester is cooled to a semi-solidification state, the spiral blade 19 is driven by the first motor 18 to carry out primary crushing and is discharged from a second discharge port 15, the discharged semi-solidified resin polyester falls into a feed chute 5 and enters a crushing hopper 3, a crushing net 4 is fixedly arranged at the bottom of the inner wall of the crushing hopper 3, the electric telescopic rod 6 is fixedly arranged at the top of a bottom box 1, a pressure plate 7 is fixedly arranged at the output end of the electric telescopic rod 6, the resin polyester is crushed by the spiral blade 19 in a solidification state after being cooled by water and falls into the crushing hopper 3 through the feed chute 5, the electric telescopic rod 6 starts to control the pressure plate 7 to repeatedly extrude the resin polyester in the crushing hopper 3, broken net 4 of deuterogamying carries out the breakage to resin polyester, and the baffle 8 of clamp plate 7 one side can prevent that resin polyester from dropping the top of clamp plate 7, and resin polyester granule after the breakage from the conveying of conveyer belt 21 toward first discharge gate 10, carries out the forced air cooling through fan 9 again in the data send process, carries out the forced air cooling after the breakage again and has improved refrigerated effect greatly, prevents to appear gluing glutinous condition after the breakage.

The standard parts used by the utility model can be purchased from the market, and the special-shaped parts can be customized according to the description and the description of the attached drawings.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A resin polyester cooling and recycling device comprises a bottom box (1) and is characterized in that four installation shafts (2) are respectively arranged on two sides of the inner wall of the bottom box (1) in an inserting mode, the outer walls of the four installation shafts (2) are respectively connected with the inner wall of the bottom box (1) in an inserting mode, one ends of the four installation shafts (2) are respectively fixedly provided with a crushing hopper (3), two sides of the crushing hopper (3) are respectively fixedly connected with one ends of the four crushing hoppers (3), a crushing net (4) is fixedly arranged at the bottom of the inner wall of the crushing hopper (3), one side of the crushing hopper (3) is fixedly provided with a feeding chute (5), the inner wall of the feeding chute (5) is communicated with the inner wall of the crushing hopper (3), an electric telescopic rod (6) is fixedly arranged at the top of the bottom box (1), a pressing plate (7) is fixedly arranged at the output end of the electric telescopic rod (6), and a baffle plate (8) is fixedly arranged at one side of the pressing plate (7), the outer wall of the output end of the electric telescopic rod (6) is connected with the inner wall of the bottom box (1) in an inserting mode, and the outer wall of the feeding chute (5) is connected with the inner wall of the bottom box (1) in an inserting mode.

2. The cooling and recycling device for the resin polyester as claimed in claim 1, wherein a plurality of fans (9) are fixedly arranged on one side of the top of the bottom box (1) at equal intervals, and a first discharge hole (10) is formed on one side of the bottom box (1).

3. The cooling and recycling device for the resin polyester as claimed in claim 2, wherein two support rods (11) are fixedly arranged on one side of the top of the bottom case (1), a water tank (12) is fixedly arranged at one end of each of the two support rods (11), and two sides of the bottom of the water tank (12) are respectively and fixedly connected with one end of each of the two support rods (11).

4. The cooling and recycling device for the resin polyester as recited in claim 3, wherein a U-shaped pipe (13) is inserted into one side of the top of the water tank (12), a feed hopper (14) is fixedly arranged at one end of the U-shaped pipe (13), the inner wall of the feed hopper (14) is communicated with the inner wall of the U-shaped pipe (13), a second discharge hole (15) is formed in the bottom of one side of the water tank (12), and the inner wall of the second discharge hole (15) is communicated with the inner wall of the other end of the U-shaped pipe (13).

5. The cooling and recycling device for the resin polyester as claimed in claim 4, wherein a liquid inlet (16) is formed at the other side of the top of the water tank (12), a mounting bracket (17) is fixedly arranged at one side of the water tank (12), a first motor (18) is fixedly arranged on the inner wall of the mounting bracket (17), and a helical blade (19) is fixedly arranged at the output end of the motor.

6. The cooling and recycling device for the resin polyester as claimed in claim 2, wherein a second motor (23) is fixedly arranged on the front surface of the bottom case (1), a driving wheel (20) is fixedly arranged at the output end of the second motor (23), a conveyor belt (21) is sleeved on the outer wall of the driving wheel (20), a driven wheel (22) is arranged at one end of the conveyor belt (21) in a transmission manner, the inner wall of the driven wheel (22) is in contact with the inner wall of the conveyor belt (21), and the two sides of the driven wheel (22) are connected with the inner wall of the bottom case (1) in a clamping manner.

7. The cooling and recycling device for the resin polyester as claimed in claim 6, wherein a switch panel is fixedly arranged on the top of the front surface of the bottom case (1), one side of the switch panel is provided with an electric telescopic rod switch, a first motor switch, a second motor switch and a fan switch, and the electric telescopic rod (6) is electrically connected with an external power supply through the electric telescopic rod switch, the first motor (18) is electrically connected with the first motor switch, the second motor (23) is electrically connected with the second motor switch and the fan (9) is electrically connected with the external power supply through the fan switch.

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