WO2021102866A1

WO2021102866A1 - Heat-dissipation device and heat-dissipation method for big data analysis processing terminal

Info

Publication number: WO2021102866A1
Application number: PCT/CN2019/121795
Authority: WO
Inventors: 朱家峰; 赵竞子; 胡继康; 陈禹竺; 郭迟
Original assignee: 盐城吉大智能终端产业研究院有限公司
Priority date: 2019-11-26
Filing date: 2019-11-29
Publication date: 2021-06-03
Also published as: CN110868841B; CN110868841A

Abstract

A heat-dissipation device and a heat-dissipation method for a big data analysis processing terminal. The heat-dissipation device comprises a housing (1), a temperature sensory receptor (3), a first ventilation plate (4), a collection tank (7), and a motor (8). A controller (2) is mounted on an inner right upper surface of the housing (1) with a screw. The temperature sensory receptor (3) is mounted on an inner right surface of the housing (1) with a bolt. The first ventilation plate (4) is mounted on a left surface of the housing (1) with a bolt. Springs (15) are welded to front and rear surfaces of a fixing plate (12), respectively. The heat-dissipation device for the big data analysis processing terminal is provided with the first ventilation plate (4), a second ventilation plate (5), and fan blades (10). During use, the air in the housing (1) exchanges with the external air by means of the first ventilation plate (4) and the second ventilation plate (5), which facilitates immediate heat-dissipation of the device. When the temperature is too high, the fan blades (10) operate, which facilitates fast heat-dissipation of the device. At the same time, ventilation holes of the first ventilation plate (4) and the second ventilation plate (5) are arranged in a staggered manner, which facilitates reducing the damage to an electronic element in the housing (1) caused by the fact that the dust directly enters the housing (1).

Description

Heat dissipation device and heat dissipation method for big data analysis and processing terminal

Technical field

The invention relates to the technical field of a heat dissipation device for a big data analysis and processing terminal, in particular to a heat dissipation device and a heat dissipation method for a big data analysis and processing terminal.

Background technique

The heat sink for the big data analysis and processing terminal is a device for heat dissipation during long-term use of the big data analysis and processing terminal. With the development of science and technology, the heat sink for the processing terminal is an indispensable device for people. Life and work bring great convenience, but the existing heat sink for big data analysis and processing terminal still has certain problems in the use process;

Most of the existing big data analysis and processing terminal heat dissipation devices use fans to cool down, and have corresponding vents to achieve the effect of constant heat dissipation, so that in the process of long-term use, dust in the air enters the device through the vents. On the fan, the fan absorbs a large amount of dust in subsequent use, so that the fan will generate noise and malfunction, resulting in the inability to perform the heat dissipation function.

Therefore, we propose a heat dissipation device for big data analysis and processing terminals in order to solve the above-mentioned problems.

Summary of the invention

The purpose of the present invention is to provide a heat dissipation device and a heat dissipation method for a big data analysis and processing terminal, so as to solve the problem of dust in the air entering the device through vents during long-term use in the current market proposed by the above background technology. On the fan, the fan absorbs a large amount of dust during subsequent use, so that the fan may generate noise and malfunction, resulting in the problem of not being able to perform the function of heat dissipation.

In order to achieve the above objective, the present invention provides the following technical solution: a heat dissipation device for a big data analysis and processing terminal, comprising a housing, a temperature sensor, a first ventilation plate, a collection box, and a motor, and screws on the upper right surface of the housing A controller is installed, the inner right surface of the housing is bolted with a temperature sensor, and the left surface of the housing is bolted with a first vent plate, and the left surface of the first vent plate is bolted with a second vent plate, and The surfaces of the first vent plate and the second vent plate are provided with grooves, the lower surface of the housing is threadedly connected with the collection box, and the inner upper left surface of the housing is screwed with a motor, and the output ends of the motor are respectively connected There are bevel gears and fan blades, the bevel gears are arranged above the fan blades, and the outer side of the fan blades is provided with a protective cover, and the upper surface of the protective cover is screwed with a housing, and a fixing plate is placed in the groove, The upper right surface of the fixing plate is bolted with connecting rods, and the left and right surfaces of the fixing plate are respectively bolted with wire brushes, and the front and rear surfaces of the fixing plate are respectively welded with springs.

Preferably, both the first ventilating plate and the second ventilating plate have a mesh structure, and the meshes on the surfaces of the first ventilating plate and the second ventilating plate are in a staggered arrangement.

Preferably, the center lines of the groove and the fixing plate coincide, and the groove and the fixing plate form an integrated structure through a spring, and the length of the groove is greater than the length of the fixing plate.

Preferably, the surface of the collection box has a "T"-shaped structure, and the center lines of the collection box and the shell are in a parallel relationship with each other.

Preferably, the fixed plate forms a swing structure by a motor, and the fixed plate and the connecting rod form an "L"-shaped structure.

Preferably, the surface of the connecting rod has a "T"-shaped structure, and the connecting rod penetrates the first breathable plate and the protective cover to form a gear meshing structure with the bevel gear.

Compared with the prior art, the beneficial effects of the present invention are: the heat dissipation device for the big data analysis and processing terminal;

1. It is provided with a first vent plate, a second vent plate and fan blades. During use, the first vent plate and the second vent plate allow the air in the housing to be exchanged with outside air, which facilitates the heat dissipation of the device at all times, and When the temperature is too high, the fan blades operate to facilitate rapid heat dissipation of the device. At the same time, the ventilation holes of the first ventilation plate and the second ventilation plate are arranged in a staggered relationship, which is convenient to reduce the impact of dust directly into the housing caused by the electronic components in the housing. damage;

2. It is equipped with a fixed plate, a connecting rod and a wire brush. During use, a gear meshing structure is formed by the connecting rod and bevel gears, so that the motor drives the fixed plate to swing, thereby facilitating the adjustment of the first and second venting plates. The dust is cleaned so that the dust enters the collection box, and a part of the dust is blocked from entering the shell, which facilitates the subsequent disassembly of the collection box to clean the dust, and increases the practicability of the device.

Description of the drawings

Figure 1 is a schematic view of the main sectional structure of the present invention;

Figure 2 is a schematic view of the front structure of the present invention;

Figure 3 is a schematic diagram of the motor connection structure of the present invention;

Figure 4 is a schematic diagram of the structure of the fixing plate of the present invention.

In the figure: 1. Housing; 2. Controller; 3. Temperature sensor; 4. First vent plate; 5. Second vent plate; 6. Groove; 7. Collection box; 8. Motor; 9. Bevel gear ; 10. Fan blade; 11. Protective cover; 12. Fixed plate; 13. Connecting rod; 14. Wire brush; 15. Spring.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of the present invention.

Referring to Figures 1-4, the present invention provides a technical solution: a heat dissipation device for a big data analysis and processing terminal, including a housing 1, a controller 2, a temperature sensor 3, a first ventilation plate 4, and a second ventilation plate 5 , Groove 6, collecting box 7, motor 8, bevel gear 9, fan blade 10, protective cover 11, fixed plate 12, connecting rod 13, wire brush 14 and spring 15. The inner and upper right surface of the housing 1 is screwed with Controller 2, and the inner right surface of the housing 1 is bolted with a temperature sensor 3, the left surface of the housing 1 is bolted with a first vent plate 4, and the left surface of the first vent plate 4 is bolted with a second vent plate 5, and the surfaces of the first vent plate 4 and the second vent plate 5 are provided with grooves 6, the lower surface of the housing 1 is screwed with a collection box 7, and the upper left surface of the housing 1 is screwed with a motor 8 , And the output end of the motor 8 is respectively connected with a bevel gear 9 and a fan blade 10, the bevel gear 9 is arranged above the fan blade 10, and the outer side of the fan blade 10 is provided with a protective cover 11, and the upper surface of the protective cover 11 is screwed There is a housing 1, a fixed plate 12 is placed in the groove 6, and the upper right surface of the fixed plate 12 is bolted with a connecting rod 13, and the left and right surfaces of the fixed plate 12 are screwed with wire brushes 14, the front and rear surfaces of the fixed plate 12 The springs 15 are welded separately.

The first ventilating plate 4 and the second ventilating plate 5 are both mesh-like structures, and the meshes on the surfaces of the first ventilating plate 4 and the second ventilating plate 5 are in a staggered arrangement. The above-mentioned structural design is convenient for the inside of the housing 1. The air circulates with the outside air, thereby reducing the heat generated by the electronic components in the housing 1.

The center lines of the groove 6 and the fixing plate 12 coincide, and the groove 6 and the fixing plate 12 form an integrated structure through the spring 15, and the length of the groove 6 is greater than the length of the fixing plate 12. The above-mentioned structural design is convenient for fixing The plate 12 normally swings in the groove 6.

The surface of the collection box 7 has a "T"-shaped structure, and the center lines of the collection box 7 and the housing 1 are parallel to each other. The above-mentioned structural design facilitates the collection of dust in the collection box 7 so as to disassemble the collection box 7 And installation, so that the dust in the collection box 7 is discharged.

The fixed plate 12 constitutes a swing structure through the motor 8, and the fixed plate 12 and the connecting rod 13 form an "L"-shaped structure. The above-mentioned structural design facilitates the control of the fixed plate 12 and ensures the normal operation of the fixed plate 12.

The surface of the connecting rod 13 has a T-shaped structure, and the connecting rod 13 penetrates through the first vent plate 4 and the protective cover 11 to form a gear meshing structure with the bevel gear 9. The above-mentioned structural design ensures the normal rotation of the connecting rod 13.

A heat dissipation method for a heat dissipation device for a big data analysis and processing terminal: When the heat dissipation device for a big data analysis and processing terminal is used, first, as shown in Figure 1-2, the device is placed in a suitable position through the housing 1 so as to start using.

During use, as shown in Figures 2-4, the electronic components in the housing 1 will generate a lot of heat during long-term use. When the heat cannot be discharged, the electronic components will be damaged, so that the first air-permeable plate 4 The mesh structure of the second air-permeable plate 5 allows the inside of the housing 1 to exchange with the outside air, so that part of the heat is discharged. At the same time, when the temperature inside the housing 1 is high, the temperature sensor 3 senses that the temperature is too high. The temperature sensor 3 controls the operation of the controller 2, so that the controller 2 drives the motor 8 to rotate, so that the bevel gear 9 and the fan blade 10 at the output end of the motor 8 are rotated, and then the temperature inside the housing 1 is reduced. At the same time, the bevel gear 9 rotates. , And the bevel gear 9 and the connecting rod 13 constitute a gear meshing structure, so that the bevel gear 9 drives the connecting rod 13 to rotate, so that the fixed plate 12 swings in the groove 6, so that the wire brush 14 screwed on the surface of the fixed plate 12 is attached to The dust on the first vent plate 4 and the second vent plate 5 is cleaned so that part of the dust enters the collection box 7 so as to facilitate subsequent disassembly of the collection box 7 so that the collected dust is discharged, and the entire use process is completed.

In order to complete a series of tasks, the content not described in detail in this specification belongs to the prior art known to those skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, for those skilled in the art, it is still possible for those skilled in the art to modify the technical solutions described in the foregoing embodiments, or make equivalent replacements to some of the technical features. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims

A heat dissipation device for a big data analysis and processing terminal, comprising a housing (1), a temperature sensor (3), a first air-permeable plate (4), a collection box (7) and a motor (8), and is characterized in that: the housing The inner and upper right surface of the body (1) is screwed with the controller (2), and the inner right surface of the housing (1) is installed with a temperature sensor (3), and the left surface bolt of the housing (1) is installed with the first A vent plate (4), the left surface of the first vent plate (4) is bolted with a second vent plate (5), and the surfaces of the first vent plate (4) and the second vent plate (5) are both opened There is a groove (6), the lower surface of the housing (1) is screwed with a collection box (7), and the upper left surface of the housing (1) is screwed with a motor (8), and the motor (8) The output ends of the bevel gear (9) and the fan blade (10) are respectively connected, the bevel gear (9) is arranged above the fan blade (10), and the outer side of the fan blade (10) is provided with a protective cover (11) , And the upper surface of the protective cover (11) is screwed with a housing (1), a fixing plate (12) is placed in the groove (6), and the upper right surface of the fixing plate (12) is bolted with a connecting rod ( 13), and the left and right surfaces of the fixing plate (12) are respectively screwed with wire brushes (14), and the front and rear surfaces of the fixing plate (12) are respectively welded with springs (15).
The heat dissipation device for a big data analysis and processing terminal according to claim 1, characterized in that: the first air-permeable plate (4) and the second air-permeable plate (5) are both mesh-like structures, and the first air-permeable The meshes on the surfaces of the plate (4) and the second air-permeable plate (5) are in a staggered arrangement.
The heat dissipation device for a big data analysis and processing terminal according to claim 1, wherein the center lines of the groove (6) and the fixed plate (12) coincide, and the groove (6) and The fixed plate (12) forms an integrated structure through a spring (15), and the length of the groove (6) is greater than the length of the fixed plate (12).
A heat dissipation device for a big data analysis and processing terminal according to claim 1, characterized in that: the surface of the collection box (7) has a "T"-shaped structure, and the collection box (7) and the housing (1) are two The center lines of the persons are parallel to each other.
The heat dissipation device for a big data analysis and processing terminal according to claim 1, wherein the fixed plate (12) forms a swing structure by a motor (8), and the fixed plate (12) and the connecting rod (13) Form an "L"-shaped structure.
The heat dissipation device for a big data analysis and processing terminal according to claim 1, wherein the surface of the connecting rod (13) is a "T"-shaped structure.
The heat dissipation device for a big data analysis and processing terminal according to claim 1, wherein the connecting rod (13) penetrates the first breathable plate (4), the protective cover (11) and the bevel gear (9) It constitutes a gear meshing structure.
A heat dissipation method for a heat dissipation device for a big data analysis and processing terminal according to claim 1, wherein the specific method is: the electronic components in the housing (1) will generate a large amount of heat during long-term use , When the heat cannot be discharged, it will cause damage to the electronic components, so that the mesh structure of the first vent plate (4) and the second vent plate (5) allows the inside of the housing (1) to be exchanged with the outside air, thereby Part of the heat is discharged, and when the temperature inside the housing (1) is high, the temperature sensor (3) senses that the temperature is too high, so that the temperature sensor (3) controls the controller (2) to operate, so that the controller (2) Drive the motor (8) to run, so that the bevel gear (9) and fan blades (10) at the output end of the motor (8) rotate, and then the temperature in the housing (1) is reduced. At the same time, when the bevel gear (9) rotates, and The bevel gear (9) and the connecting rod (13) form a gear meshing structure, so that the bevel gear (9) drives the connecting rod (13) to rotate, so that the fixed plate (12) swings in the groove (6), thereby fixing the plate (12) The wire brush (14) installed with screws on the surface cleans the dust attached to the first vent plate (4) and the second vent plate (5), so that part of the dust enters the collection box (7), thereby facilitating follow-up The collection box (7) is disassembled, so that the collected dust is discharged, and then the entire heat dissipation process is completed.