CN114632457A - Preparation device of heat dissipation material for electronic equipment - Google Patents

Abstract

The invention discloses a preparation device of a heat dissipation material for electronic equipment, and relates to the technical field of preparation of heat dissipation materials. This a preparation facilities for electronic equipment's heat radiation material, including material preparation mechanism, material preparation mechanism is provided with the preparation case, the outer wall fixedly connected with gas circulation mechanism of preparation case, and material preparation mechanism and gas circulation mechanism fixed connection, gas circulation mechanism is provided with the main shaft, the bottom fixedly connected with material rabbling mechanism of main shaft, and gas circulation mechanism and material rabbling mechanism fixed connection. This a preparation facilities for electronic equipment's heat radiation material follows the pushing down of main shaft and then makes the puddler extrude the material through the arc, because the puddler sets up for two are opposite, extrudees the material toward around when extruding the material, and the puddler can take place to fold after receiving the extrusion, further carries out abundant extrusion to piling up the material together.

Description

Preparation device of heat dissipation material for electronic equipment

Technical Field

The invention relates to the technical field of preparation of heat dissipation materials, in particular to a preparation device of a heat dissipation material for electronic equipment.

Background

Electronic equipment is generally considered to be equipment which is composed of electronic components such as an integrated circuit, a transistor, an electronic tube and the like and plays a role by applying an electronic technology, while the electronic equipment is a general name of equipment such as a generator, a transformer, a power line, a circuit breaker and the like in a power system, and accountants often fall into categories of the electronic equipment and the electrical equipment; electronic equipment can produce the heat in the use, adopts heat radiation material can avoid electronic equipment's damage to accelerating electronic equipment's heat dissipation, along with the rapid development of modern science and technology, to the requirement of equipment higher and higher, especially electronic equipment, to the lightweight, the direction development of high power, solves its heat dissipation problem and also more and more important, if the heat can not in time be derived, will influence the performance and the life-span of equipment.

The heat dissipation material is formed by mixing various materials and plastics, so that in the mixing process, the mixing efficiency of the heat dissipation material is poor, and the filtering effect of the heat dissipation material is uneven.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a preparation device of a heat dissipation material for electronic equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a preparation facilities for electronic equipment's heat radiation material, includes material preparation mechanism, material preparation mechanism is provided with the preparation case, the outer wall fixedly connected with gas circulation mechanism of preparation case, and material preparation mechanism and gas circulation mechanism fixed connection, gas circulation mechanism is provided with the main shaft, the bottom fixedly connected with material rabbling mechanism of main shaft, and gas circulation mechanism and material rabbling mechanism fixed connection.

Preferably, the material preparation mechanism comprises a preparation box, an extruder and a gas bin, the top of the material preparation mechanism is fixedly connected with the gas bin, the top of the gas bin is fixedly connected with a support, and the gas bin is fixedly connected with the extruder through the support.

Preferably, the gas circulation mechanism includes stripper plate, first baffle, main shaft and second baffle, the bottom fixedly connected with main shaft of extruder, the main shaft is pegged graft at the inner wall of gas storehouse and preparation case, the outer wall fixedly connected with stripper plate of main shaft, and the stripper plate is located the inside of gas storehouse, the left groove has been seted up in the left side of gas storehouse, the fixedly connected with torsional spring A of the position that the gas storehouse outer wall is located the left groove, the gas storehouse rotates through torsional spring A and is connected with first baffle, the right groove has been seted up on the right side of gas storehouse, the fixedly connected with torsional spring B of the position that the gas storehouse right side is located the right groove, the gas storehouse rotates through torsional spring B and is connected with the second baffle.

Preferably, the gas cabin left side is located the position fixedly connected with second pipeline of first baffle, the gas cabin passes through the second pipeline and communicates each other with the preparation case, the gas cabin right side is located the position fixedly connected with first pipeline of second baffle, the gas cabin communicates each other with the preparation case through first pipeline.

Preferably, the material stirring mechanism comprises an arc-shaped plate, stirring rods and gravity blocks, the bottom of the main shaft is fixedly connected with the arc-shaped plate, the bottom of the arc-shaped plate is fixedly connected with two adjacent stirring rods, and the bottom of the arc-shaped plate is far away from the two gravity blocks fixedly connected with the two sides of the stirring rods.

Preferably, the inner wall of the second pipeline is fixedly connected with an elastic wire at a position of the preparation box, the outer wall of the elastic wire is fixedly connected with an airflow plate, the tail end of the elastic wire is fixedly connected with a shaking block, and the elastic wire is made of a metal material.

The invention provides a preparation device of a heat dissipation material for electronic equipment. The method has the following beneficial effects:

1. the preparation device for the heat dissipation material of the electronic equipment comprises an extrusion plate, wherein the extrusion plate moves up and down, so that gas in a gas bin is infused into a preparation box, the increase of the gas in the preparation box further reduces the distance between gas molecules in the preparation box, the molecular friction is increased, the temperature in the preparation box is increased due to the increase of the molecular friction, the mixing among the materials is accelerated due to the increase of the temperature, the extrusion plate rises to extract the gas in the preparation box, the gas in the preparation box is reduced, the pressure is reduced after the gas at the position without the materials in the preparation box is reduced, bubbles in the materials are increased under the pressure difference, the bubbles rise to the top of the materials and are exploded, so that the materials at the bottom are driven to rise, the mixing of the materials is accelerated due to the expansion of the bubbles, the entering of external air is further reduced, and the reaction of a few materials and the external air is avoided, but also to avoid the ingress of dust.

2. This a preparation facilities for electronic equipment's heat radiation material, make gaseous instillation to the preparation case through the pushing down of stripper plate, instill the bottom of material, gaseous joining makes the bubble in the material, the production of bubble can extrude material on every side, and then the mixture of material is accelerated, rise the in-process at the bubble, can drive partly material and rise, then make the material of bottom by the intensive mixing, and the air current blow off drive elastic wire and rock the stirring of piece activity to inside material, the intensive mixing of material has been ensured.

3. This a preparation facilities for electronic equipment's heat radiation material, follow the pushing down of main shaft and then make the puddler extrude the material through the arc, because the puddler sets up for two are opposite, extrude the material toward around when extruding the material, the puddler can take place foldingly after receiving the extrusion, further fully extrudees piling up the material together, the gravity piece is followed and is descended, when the gravity piece contacts preparation incasement bottom, the looks mutual friction and then extrudees the material, has ensured the mixture of material.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the FIG. 1 embodiment of the present invention;

FIG. 3 is an enlarged view of the portion A of FIG. 2 according to the present invention.

In the figure: 1. a material preparation mechanism; 11. preparing a box; 12. an extruder; 13. a gas bin; 2. a gas circulation mechanism; 21. a first conduit; 22. a second conduit; 23. a pressing plate; 24. a first baffle plate; 25. a main shaft; 26. a second baffle; 3. a material stirring mechanism; 31. an arc-shaped plate; 32. a stirring rod; 33. a shaking block; 34. a gravity block; 35. an elastic yarn; 36. an airflow plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a preparation facilities for electronic equipment's heat dissipation material, includes material preparation mechanism 1, and material preparation mechanism 1 is provided with preparation case 11, and the outer wall fixedly connected with gas circulation mechanism 2 of preparation case 11, and material preparation mechanism 1 and gas circulation mechanism 2 fixed connection, gas circulation mechanism 2 is provided with main shaft 25, and the bottom fixedly connected with material rabbling mechanism 3 of main shaft 25, and gas circulation mechanism 2 and material rabbling mechanism 3 fixed connection.

In this embodiment, the materials to be mixed are placed in the preparation box 11, the preparation box 11 is a device existing in the market, the materials are heated and mixed, and the preparation box 11 heats the materials inside.

Specifically, material preparation mechanism 1 is including preparing case 11, extruder 12 and gas storehouse 13, and the top fixedly connected with gas storehouse 13 of material preparation mechanism 1, the top fixedly connected with support of gas storehouse 13, and gas storehouse 13 passes through support fixedly connected with extruder 12.

In this embodiment, the extruder 12 drives the main shaft 25 to press down, so that the main shaft 25 drives the arc plate 31 to press down.

Specifically, the gas circulation mechanism 2 comprises an extrusion plate 23, a first baffle plate 24, a main shaft 25 and a second baffle plate 26, the bottom of the extruder 12 is fixedly connected with the main shaft 25, the main shaft 25 is inserted into the inner walls of the gas bin 13 and the preparation box 11, the outer wall of the main shaft 25 is fixedly connected with the extrusion plate 23, the extrusion plate 23 is located inside the gas bin 13, a leftward groove is formed in the left side of the gas bin 13, a torsion spring A is fixedly connected to the position, located in the leftward groove, of the outer wall of the gas bin 13, the gas bin 13 is rotatably connected with the first baffle plate 24 through the torsion spring A, a rightward groove is formed in the right side of the gas bin 13, a torsion spring B is fixedly connected to the position, located in the rightward groove, of the right side of the gas bin 13, and the gas bin 13 is rotatably connected with the second baffle plate 26 through the torsion spring B.

In this embodiment, in the process that the main shaft 25 is pressed down, the second baffle 26 is clamped in the right-hand groove, the gas in the gas bin 13 is extruded and flows into the preparation box 11 through the second pipeline 22, when the extrusion plate 23 is extruded, the gas in the gas bin 13 pushes the first baffle 24 in the left-hand groove, the gas is filled into the preparation box 11, so that the gas in the preparation box 11 is increased, the increase of the gas reduces the distance between gas molecules, the friction between the molecules is increased, the temperature is increased, and the softening of the material is accelerated.

Specifically, the left side of the gas bin 13 is located at the position of the first baffle plate 24 and fixedly connected with the second pipeline 22, the gas bin 13 is communicated with the preparation box 11 through the second pipeline 22, the right side of the gas bin 13 is located at the position of the second baffle plate 26 and fixedly connected with the first pipeline 21, and the gas bin 13 is communicated with the preparation box 11 through the first pipeline 21.

In this embodiment, the gas is blown into the preparation tank 11 from the hole at the bottom of the second pipe 22, and then blown from the bottom of the material, and then bubbles are blown in the material, and the bubbles exist in the material, and then the material at other positions is pressed, and the mixing of the material is accelerated.

Specifically, the material stirring mechanism 3 includes an arc plate 31, a stirring rod 32 and gravity blocks 34, the bottom fixedly connected with arc plate 31 of the main shaft 25, two adjacent stirring rods 32 fixedly connected with the bottom of the arc plate 31, and two gravity blocks 34 fixedly connected with the two sides of the arc plate 31, far away from the stirring rods 32.

In this embodiment, the gravity block 34 is pressed down to press against the bottom of the preparation box 11, so that the gravity block 34 is spread, and the material is squeezed and peeled.

Specifically, an elastic wire 35 is fixedly connected to the inner wall of the second pipeline 22 at the position of the preparation box 11, an airflow plate 36 is fixedly connected to the outer wall of the elastic wire 35, and a shaking block 33 is fixedly connected to the tail end of the elastic wire 35.

In this embodiment, the arc plate 31 presses the material in the preparation tank 11 during the pressing process, and then the material is pressed and mixed, and the stirring rod 32 is folded during the pressing process, and then the material is pressed, so that the materials stacked together are mixed.

When the device is used, materials to be mixed are placed into the preparation box 11, the preparation box 11 heats the materials in the preparation box, the extruder 12 drives the main shaft 25 to press downwards, the main shaft 25 drives the arc-shaped plate 31 to press downwards, the arc-shaped plate 31 extrudes the materials in the preparation box 11 in the pressing process, the materials are extruded and mixed, the stirring rod 32 is folded in the pressing process and then extrudes the materials, the materials stacked together are mixed, the pressing of the gravity block 34 and the bottom in the preparation box 11 are mutually extruded, the gravity block 34 is spread, the materials are further extruded and peeled, the second baffle 26 is clamped in the right groove in the pressing process of the main shaft 25, the gas in the gas bin 13 is extruded and flows into the preparation box 11 through the second pipeline 22, when the extrusion plate 23 is extruded, the gas in the gas bin 13 pushes the first baffle 24 in the left groove open, and the gas is filled into the preparation box 11, further, the gas in the preparation box 11 is increased, the gas is increased to reduce the distance between gas molecules, further, the friction between molecules is increased, further, the temperature is increased, the softening of the material is accelerated, the gas is blown into the preparation box 11 from the hole at the bottom of the second pipeline 22, further, the gas is blown in from the bottom of the material, further, bubbles are blown in the material, further, the material at other positions is extruded, the mixing of the material is accelerated, when the gas flow is blown out from the second pipeline 22, the gas flow drives the gas flow plate 36, further, the elastic wire 35 is driven to shake, the elastic wire 35 drives the shaking block 33 to stir in the material, the extruding machine 12 drives the extruding plate 23 to ascend, further, the gas in the gas bin 13 is ascended, the first baffle plate 24 is clamped in the left-direction groove, the gas flow is blown into the gas bin 13 through the first pipeline 21, when the gas flow enters, the gas flow pushes the second baffle plate 26 open, so that the gas in the preparation box 11 is extracted, when the air current was extracted, gaseous the reducing in the preparation case 11, under the unchangeable condition of pressure in the material, the pressure that the material rose in the preparation case 11 reduces, and then makes the bubble in the material enlarge, and the bubble rises in the material, rises to the material top at last and explodes, and then makes the material of material bottom by intensive mixing, and the repeated decline and the rise of main shaft 25, and then make the material repeated by the mixture, open the door plant of preparation case 11 outer wall after the completion of mixing and can take out the material.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A preparation device of a heat dissipation material for electronic equipment comprises a material preparation mechanism (1), and is characterized in that: the material preparation mechanism (1) is provided with a preparation box (11), the outer wall fixedly connected with gas circulation mechanism (2) of preparation box (11), and material preparation mechanism (1) and gas circulation mechanism (2) fixed connection, gas circulation mechanism (2) is provided with main shaft (25), the bottom fixedly connected with material rabbling mechanism (3) of main shaft (25), and gas circulation mechanism (2) and material rabbling mechanism (3) fixed connection.

2. The manufacturing apparatus of a heat dissipating material for electronic devices as claimed in claim 1, wherein: the material preparation mechanism (1) comprises a preparation box (11), an extruder (12) and a gas bin (13), wherein the top fixedly connected with gas bin (13) of the material preparation mechanism (1) is provided with a support, the top fixedly connected with support of the gas bin (13) is provided with the extruder (12) through the support fixedly connected with.

3. The manufacturing apparatus of a heat dissipating material for electronic equipment as claimed in claim 2, wherein: the gas circulation mechanism (2) comprises an extrusion plate (23), a first baffle plate (24), a main shaft (25) and a second baffle plate (26), the bottom of the extruder (12) is fixedly connected with a main shaft (25), the main shaft (25) is inserted into the inner walls of the gas bin (13) and the preparation box (11), the outer wall of the main shaft (25) is fixedly connected with an extrusion plate (23), and the extrusion plate (23) is positioned inside the gas bin (13), the left side of the gas bin (13) is provided with a left groove, a torsion spring A is fixedly connected to the position, located on the left groove, of the outer wall of the gas bin (13), the gas bin (13) is rotatably connected with a first baffle plate (24) through the torsion spring A, a right groove is arranged on the right side of the gas bin (13), a torsion spring B is fixedly connected at the position of the right groove on the right side of the gas bin (13), the gas bin (13) is rotatably connected with a second baffle (26) through a torsion spring B.

4. The manufacturing apparatus of a heat dissipating material for electronic devices as claimed in claim 3, wherein: the gas storehouse is characterized in that the left side of the gas storehouse (13) is provided with a second pipeline (22) fixedly connected with the position of a first baffle plate (24), the gas storehouse (13) is communicated with the preparation box (11) through the second pipeline (22), the right side of the gas storehouse (13) is provided with a first pipeline (21) fixedly connected with the position of a second baffle plate (26), and the gas storehouse (13) is communicated with the preparation box (11) through the first pipeline (21).

5. The manufacturing apparatus of a heat dissipating material for electronic devices as claimed in claim 1, wherein: the material stirring mechanism (3) comprises an arc plate (31), a stirring rod (32) and gravity blocks (34), the bottom of the main shaft (25) is fixedly connected with the arc plate (31), the bottom of the arc plate (31) is fixedly connected with two adjacent stirring rods (32), and the bottom of the arc plate (31) is far away from the two gravity blocks (34) fixedly connected with the two sides of the stirring rod (32).

6. The manufacturing apparatus of a heat dissipating material for electronic devices as claimed in claim 4, wherein: the inner wall of the second pipeline (22) is fixedly connected with an elastic wire (35) at the position of the preparation box (11), the outer wall of the elastic wire (35) is fixedly connected with an airflow plate (36), and the tail end of the elastic wire (35) is fixedly connected with a shaking block (33).

Images