CN214725862U - EVA in-mold foaming machine with cooling mechanism - Google Patents

Abstract

The utility model discloses a EVA in-mould foaming machine with cooling mechanism, including foaming machine cooling box, air intake, cold water pipe, roll wheel and foaming machine case, install the lifter on the foaming machine cooling box, and be connected with well plywood on the lifter to the lifter top is connected with the upper cooler, the air intake sets up on the radiating groove, and installs the cold water storage cistern on air intake one side to the cold water storage cistern sets up on the support frame, the cold water union coupling is between cold water storage cistern and air intake, and the cold water storage cistern downside installs the raceway, the wheel that rolls is connected on the fan, and the wheel that rolls installs on the carriage, foaming machine case installs on well plywood, and foaming machine case downside is provided with the platform that dispels the heat. This EVA in-mold foaming machine with cooling mechanism can practice thrift the energy that equipment cooling consumed, can high-efficient swift take away equipment heat, and it is more even to dispel the heat simultaneously, effectively hoisting device's production quality and machining efficiency.

Description

EVA in-mold foaming machine with cooling mechanism

Technical Field

The utility model relates to a foaming machine technical field in the EVA mould specifically is a foaming machine in EVA mould with cooling mechanism.

Background

The EVA foam is a plastic foaming material, is usually used for sole production, has good flexibility, and has the advantages of heat resistance, cold resistance, water resistance and shock resistance, so that the EVA foam is widely applied to the processing of various daily necessities, and the EVA in-mold foaming machine is processing equipment for producing the EVA foam material, and generally needs high-temperature heating when the EVA in-mold foaming machine is used so as to promote the formation of the foam, so that uniform and rich foam can be formed.

And a large amount of high temperature gas and heat that produce are difficult to dispel in the EVA mould foaming machine that uses at present when processing EVA in production, and do not dispel the heat and cool down to equipment and lead to equipment trouble and circuit damage easily, but cool down the energy that the foaming machine consumed in the EVA mould for a long time is huge, consequently, use traditional EVA mould foaming machine can not high-efficiently cool down the device, and can't effectively play low-cost cooling heat dissipation function, it is not good to lead to the foaming quality of device easily, lead to equipment work efficiency to reduce, to above-mentioned problem, need to carry out the innovative design on the basis of original EVA mould foaming machine in urgent need.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a foaming machine in EVA mould with cooling mechanism to it can not reduce the energy of consuming to the equipment cooling to practice thrift to proposing the foaming machine in original EVA mould in the above-mentioned background art to solve, and the equipment heat of taking away of unable high-efficient swift, the heat dissipation is inhomogeneous in order to lead to equipment to damage, causes the production quality and the problem of inefficiency of device.

In order to achieve the above object, the utility model provides a following technical scheme: an EVA in-mold foaming machine with a cooling mechanism comprises a foaming machine cooling box, an air inlet, a cold air pipe, a rolling wheel and a foaming machine box, wherein the foaming machine cooling box is provided with a lifting rod, the lifting rod is connected with a middle layer plate, the top end of the lifting rod is connected with an upper layer cooler, the lower side of the upper layer cooler is provided with a heat dissipation groove, the air inlet is arranged on the heat dissipation groove, a cold water tank is arranged on one side of the air inlet, the cold water tank is arranged on the support frame, the cold air pipe is connected between the cold water tank and the air inlet, the lower side of the cold water tank is provided with a water pipe, the tail end of the water delivery pipe is connected with a fan, the rolling wheel is connected with the fan and is arranged on the sliding frame, and a conveyor belt is connected between the rolling wheel and the servo motor, the foaming machine box is arranged on the middle layer plate, and a heat dissipation table is arranged on the lower side of the foaming machine box.

Preferably, the lifting rod is in through connection with the middle layer plate, the lifting rod is fixedly connected with the upper layer cooler, and the upper layer cooler, the heat dissipation groove and the air inlet form a communicating structure.

Preferably, the cold water tank is connected with the support frame block, and the cold water tank has 3 with horizontal direction equidistance distribution on the support frame to the cold water tank passes through the raceway and constitutes the connectivity structure with the air intake.

Preferably, the fan is of a rectangular shape and the water delivery pipe is made of elastic rubber.

Preferably, the number of the sliding frames is 2, the sliding frames are arranged in a central symmetry manner relative to the cooling box of the foaming machine, the sliding frames are connected with the fan in a clamping manner, and the fan and the sliding frames form a sliding structure through the rolling wheels.

Preferably, the foaming machine box and the heat dissipation table are in the same vertical position, and the width of the heat dissipation table is equal to that of the fan.

Compared with the prior art, the beneficial effects of the utility model are that: the EVA in-mold foaming machine with the cooling mechanism adopts a novel structural design, when the device is used, the structure of an upper-layer cooler, a heat dissipation groove, an air inlet, a cold water tank, a support frame and a cold air pipe is connected onto a lifting rod, so that the device can conveniently and quickly dissipate heat, resources consumed by cooling consumables are saved, high-efficiency large-area uniform heat dissipation can be realized, a fan, a rolling wheel, a conveying belt, a sliding frame and a servo motor can be arranged in the foaming machine cooling box, the device can quickly and uniformly dissipate heat, the automatic reciprocating operation function of cooling equipment is realized, and the cooling efficiency of the device is effectively improved;

1. the structure of an upper cooler, a heat dissipation groove, an air inlet, a cold water tank, a support frame and a cold air pipe is connected to the lifting rod, cold air brought into the outside through the air inlet enters the cold water tank from the cold air pipe to be continuously at a cooler temperature, water automatically flows downwards from the top into the cooling box of the foaming machine through the inclined support frame, and meanwhile, the heat dissipation groove formed in one side of the upper cooler can timely take away heat generated by the upper layer of the equipment, so that the purposes that the device can conveniently and quickly dissipate heat, resources consumed by cooling consumables are saved, and efficient large-area uniform heat dissipation can be realized;

2. the foaming machine cooling box is internally provided with a fan, rolling wheels, a conveying belt, a sliding frame and a servo motor, the fan blows air brought into cold water for cooling by a water conveying pipe to generate thrust, the conveying belt and the servo motor are used for performing left-right reciprocating movement for auxiliary power provided by the rolling wheels and the sliding frame, cold air blown by the fan cools equipment, the device can quickly and uniformly dissipate heat, the automatic reciprocating operation function of heat dissipation equipment is realized, and the function of the cooling efficiency of the device is effectively improved.

Drawings

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

FIG. 2 is a schematic view of the three-dimensional structure of the cold water tank of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the cooling box of the foaming machine of the present invention;

fig. 4 is a schematic view of the fan according to the present invention.

In the figure: 1. a foaming machine cooling box; 2. a lifting rod; 3. a middle layer plate; 4. an upper layer cooler; 5. a heat sink; 6. an air inlet; 7. a cold water tank; 8. a support frame; 9. a cold air pipe; 10. a water delivery pipe; 11. a fan; 12. a rolling wheel; 13. a conveyor belt; 14. a carriage; 15. a servo motor; 16. a foaming cabinet; 17. a heat dissipation table.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an EVA in-mold foaming machine with a cooling mechanism comprises a foaming machine cooling box 1, a lifting rod 2, a middle layer plate 3, an upper layer cooling machine 4, a heat dissipation groove 5, an air inlet 6, a cold water tank 7, a support frame 8, a cold air pipe 9, a water pipe 10, a fan 11, a rolling wheel 12, a conveyor belt 13, a sliding frame 14, a servo motor 15, a foaming machine box 16 and a heat dissipation platform 17, wherein the lifting rod 2 is installed on the foaming machine cooling box 1, the middle layer plate 3 is connected onto the lifting rod 2, the upper layer cooling machine 4 is connected onto the top end of the lifting rod 2, the heat dissipation groove 5 is arranged on the lower side of the upper layer cooling machine 4, the air inlet 6 is arranged on the heat dissipation groove 5, the cold water tank 7 is installed on one side of the air inlet 6, the cold water tank 7 is arranged on the support frame 8, the cold air pipe 9 is connected between the cold water tank 7 and the air inlet 6, the water pipe 10 is installed on the lower side of the cold water tank 7, the tail end of the water pipe 10 is connected with the fan 11, the rolling wheel 12 is connected to the fan 11, the rolling wheel 12 is installed on the sliding frame 14, the conveying belt 13 is connected between the rolling wheel 12 and the servo motor 15, the foaming machine box 16 is installed on the middle layer plate 3, and the lower side of the foaming machine box 16 is provided with a heat dissipation table 17.

Lifter 2 and 3 through connection in middle level board, and lifter 2 and upper cooler 4 fixed connection to upper cooler 4 constitutes the connectivity with radiating groove 5 and air intake 6, and the setting up of above-mentioned structure makes the heat radiation structure of device more steady inseparable, and can accelerate the device heat dissipation, reduces equipment running cost.

Cold water tank 7 is connected with 8 block of support frame, and cold water tank 7 has 3 with horizontal direction equidistance distribution on support frame 8, and cold water tank 7 passes through raceway 10 and constitutes the intercommunication structure with air intake 6, and the setting up of above-mentioned structure makes the device can constantly circulate and cool down cold water tank 7, and can realize the automatic downflow of cold water, with the running cost and the energy resource consumption that reduce the device.

Fan 11 passes through raceway 10 and cold water tank 7 constitution intercommunication structure, and fan 11 is the rectangle shape to raceway 10 is the elastic rubber material, and the setting up of above-mentioned structure makes raceway 10 can conveniently adapt to the processing vibration use of device, and can be low temperature resistant carry out incessant rivers and flow, with the life who increases the device.

The sliding frames 14 are symmetrically arranged about the center of the cooling box 1 of the foaming machine by 2, the sliding frames 14 are connected with the fan 11 in a clamping mode, the fan 11 and the sliding frames 14 form a sliding structure through the rolling wheels 12, the structure enables the device to be uniformly cooled, the heat dissipation efficiency of the device is improved, and meanwhile energy consumption of the device is reduced.

The foaming machine box 16 and the heat dissipation platform 17 are located at the same vertical position, the width of the heat dissipation platform 17 is equal to that of the fan 11, the arrangement of the structure enables the fan 11 to have higher and more comprehensive heat dissipation efficiency on the heat dissipation platform 17, and the heat dissipation platform 17 can be conveniently and fully cooled.

The working principle is as follows: when the device is used, according to the structure shown in fig. 1 and fig. 2, firstly, when equipment starts to operate, a foaming machine box 16 arranged in a middle layer plate 3 can generate a large amount of heat, at the moment, an upper layer cooler 4 fixedly arranged by a lifting rod 2 starts to work, the temperature of the external air environment of the equipment is lower than the temperature in the equipment, therefore, three air inlets 6 arranged at the top of the upper layer cooler 4 continuously pump the external cold air into a cold air pipe 9 by using an air pump, and the cold air pipe 9 respectively conveys the external cold air into a cold water tank 7 arranged at one side of the upper layer cooler 4, the inside of the cold water tank 7 is of a nested double-layer structure, so that the cold air can continuously cool water in the cold water tank 7, and simultaneously the heat generated by the connection part of the foaming machine box 16 and the upper layer cooler 4 can be scattered from a heat dissipation groove 5 so as to efficiently cool the equipment;

according to the structure shown in fig. 3 and 4, after the temperature reduction treatment, the water in the cold water tank 7 flows automatically along the water pipe 10 to the lower side of the device under the influence of the inclined supporting structure of the supporting frame 8 connected to the bottom of the cold water tank 7, and flows into the foaming machine cooling tank 1 from the water pipe 10 so as to provide the temperature reduction treatment for the heat dissipation platform 17, when the water in the water pipe 10 flows into the fan 11 connected to the tail end thereof, the fan 11 is provided with an independent water tank pipe structure, so that the fan 11 is blown cold air by the cold water cooling, and is driven to rotate by the conveyor belt 13 nested and arranged outside the rolling wheels 12 connected to the two sides of the fan, and the servo motor 15 arranged at the other end of the conveyor belt 13 drives the rolling wheels 12 to reciprocate, so that the fan 11 moves transversely and reciprocally along the sliding frame 14 arranged inside the foaming machine cooling tank 1, and the cold air is discharged along a heat dissipation hole groove arranged on the foaming machine cooling box 1 for cooling, and then the cooling table 17 is cooled, which is the working principle of the EVA in-mold foaming machine with the cooling mechanism.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a foaming machine in EVA mould with cooling mechanism, includes foaming machine cooling box (1), air intake (6), cold air pipe (9), rolling wheel (12) and foaming machine case (16), its characterized in that: the foaming machine cooling box (1) is provided with a lifting rod (2), the lifting rod (2) is connected with a middle-layer plate (3), the top end of the lifting rod (2) is connected with an upper-layer cooler (4), meanwhile, the lower side of the upper-layer cooler (4) is provided with a heat dissipation groove (5), an air inlet (6) is arranged on the heat dissipation groove (5), one side of the air inlet (6) is provided with a cold water tank (7), the cold water tank (7) is arranged on a support frame (8), a cold air pipe (9) is connected between the cold water tank (7) and the air inlet (6), the lower side of the cold water tank (7) is provided with a water conveying pipe (10), the tail end of the water conveying pipe (10) is connected with a fan (11), a rolling wheel (12) is connected on the fan (11), a rolling wheel (12) is arranged on a sliding frame (14), and a conveying belt (13) is connected between the rolling wheel (12) and a servo motor (15), the foaming machine box (16) is arranged on the middle layer plate (3), and a heat dissipation table (17) is arranged on the lower side of the foaming machine box (16).

2. The EVA in-mold foaming machine with a cooling mechanism according to claim 1, wherein: lifter (2) and well plywood (3) through connection, and lifter (2) and upper cooler (4) fixed connection to upper cooler (4) and radiating groove (5) and air intake (6) constitute the connectivity structure.

3. The EVA in-mold foaming machine with a cooling mechanism according to claim 1, wherein: the cold water tank (7) is connected with the support frame (8) in a clamping mode, 3 cold water tanks (7) are distributed on the support frame (8) at equal intervals in the horizontal direction, and the cold water tanks (7) form a communicating structure with the air inlets (6) through water conveying pipes (10).

4. The EVA in-mold foaming machine with a cooling mechanism according to claim 1, wherein: the fan (11) and the cold water tank (7) form a communicating structure through the water conveying pipe (10), the fan (11) is rectangular, and the water conveying pipe (10) is made of elastic rubber.

5. The EVA in-mold foaming machine with a cooling mechanism according to claim 1, wherein: the number of the sliding frames (14) is 2, the sliding frames (14) are arranged in a central symmetry mode relative to the cooling box (1) of the foaming machine, the sliding frames (14) are connected with the fan (11) in a clamping mode, and the fan (11) and the sliding frames (14) form a sliding structure through the rolling wheels (12).

6. The EVA in-mold foaming machine with a cooling mechanism according to claim 1, wherein: the foaming machine box (16) and the heat dissipation table (17) are in the same vertical position, and the width of the heat dissipation table (17) is equal to that of the fan (11).

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