CN110686462B

CN110686462B - Adaptive ducted radiator and working method thereof

Info

Publication number: CN110686462B
Application number: CN201910949330.8A
Authority: CN
Inventors: 陶振宇
Original assignee: Taicang Dow Electric Co ltd
Current assignee: Taicang Dow Electric Co ltd
Priority date: 2019-10-08
Filing date: 2019-10-08
Publication date: 2021-07-20
Anticipated expiration: 2039-10-08
Also published as: CN110686462A

Abstract

The invention discloses an adaptive ducted radiator, which comprises: the horn-shaped duct comprises a horn duct, an air suction fan, a quick heat dissipation mechanism and a multi-plane adapting mechanism, wherein the horn duct is horn-shaped, openings are formed in two ends of the horn duct, the air suction fan is arranged at an opening at one end of the horn duct, the air suction fan is arranged at an opening at the other end of the horn duct, the quick heat dissipation mechanism is arranged at the top of the horn duct, an opening is also formed in the bottom of the horn duct, and the multi-plane adapting mechanism is arranged at the opening at the bottom of the horn duct; also discloses a working method of the adaptive ducted radiator; on the one hand, through increasing an additional heat dissipation mechanism, the heat dissipation capacity of the equipment is improved, on the other hand, negative pressure is utilized to enable the equipment to adapt to different mounting surfaces, and the practicability is high.

Description

Adaptive ducted radiator and working method thereof

Technical Field

The invention belongs to the technical field of heat dissipation equipment and particularly relates to an adaptive ducted radiator and a working method thereof.

Background

The equipment during operation can produce a large amount of heats, the part that contacts with high temperature receives intensive heating, and if these unnecessary heats can not quick give off, high temperature not only can lead to equipment operation unstability, and life is short, will destroy the equipment of working even more likely, and the radiator is as attaching the good heat-conducting medium of one deck on the equipment that generates heat, becomes cooling system's core component, and the radiator mainly is through with heat-generating body surface contact, absorbs the heat, then with the heat disperse the equipment outside again.

The development of the radiator industry in China has been over two decades, and with the impact of the traditional channel and the cold of financing environment, the development way of radiator enterprises is influenced. Radiator enterprises face brand upgrading pressure and bear worry about fund chain breakage, and the whole industry becomes an important revolutionary node. The prior radiator technology still has a plurality of defects. For example, most of the existing radiators have the problem that a single radiator can only adapt to one mounting plane, and meanwhile, the problems that the radiating efficiency does not meet the existing requirements and the radiating pressure is large are also faced. The present application has innovated and improved the radiator with regard to the above problems.

The existing radiator mainly has the following problems:

1. most of the existing radiators have the problem that a single radiator can only adapt to one installation plane, and needs to be modified according to the requirements of different heating sources, so that the adaptability is poor, and the practicability is not high.

2. Most of the existing radiators face the problems that the heat dissipation efficiency cannot meet the existing requirements and the heat dissipation pressure is large, and the single air cooling or water cooling cannot meet the increasingly improved heat dissipation requirements.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the invention aims to provide an adaptive ducted radiator and a working method thereof.

The technical scheme is as follows: in order to achieve the above object, the present invention provides an adaptive ducted radiator, comprising: ox horn duct, induced-draft fan, quick heat dissipation mechanism and many planes adaptation mechanism, the ox horn duct is the ox horn shape, ox horn duct both ends are provided with the opening, ox horn duct one end opening part is provided with induced-draft fan, ox horn duct other end opening part is provided with induced-draft fan, ox horn duct top is provided with quick heat dissipation mechanism, ox horn duct bottom is provided with the opening equally, ox horn duct bottom opening part is provided with many planes adaptation mechanism.

According to the invention, the radiator adopts double fans, and an air channel is formed by one inlet and one outlet, so that the circulation speed of air is increased, and the heat dissipation capacity of the equipment is improved; on the other hand, the arc duct is used, the air energy loss is reduced by using the arc surface, the air is bent by using the coanda effect, the wind resistance and turbulence are reduced, and the heat dissipation capacity of the equipment is improved.

The multi-plane adapting mechanism comprises a base part, a telescopic rod, a power spring, a metal net, a coating layer, a pressure ring, a vacuumizing rod, a threaded sleeve, a transmission gear set, a connecting rod and a knob, wherein the base part is arranged on the outer surface of a cattle horn duct, the bottom of the base part is provided with a plurality of blind holes, the telescopic rod is arranged in the blind holes, the power spring is arranged outside the telescopic rod, the power spring coats the telescopic rod, one end of the telescopic rod is connected with the blind holes of the base part in a sliding manner, the other end of the telescopic rod is provided with the metal net, the metal net is annular, the metal net is flexible metal, the bottom of the metal net is fixedly provided with the coating layer, the telescopic rod and the metal net are coated by the coating layer, one side of the coating layer is fixedly arranged on the base part, the coating layer is made of flexible material, and the coating layer is provided with through holes, the utility model discloses a vacuum pumping device, including clamping ring, evacuation pole, screw sleeve, drive gear group, connecting rod one end, connecting rod sliding connection, the through-hole internal fixation is provided with the clamping ring, be provided with the evacuation pole in the clamping ring, evacuation pole one end and clamping ring internal surface sliding seal, the evacuation pole other end and basal portion sliding connection, the one end that the evacuation pole is close to the basal portion is provided with the screw thread, evacuation pole screw thread department is provided with the thread bush, thread bush and evacuation pole threaded connection, the outer fixed surface of thread bush is provided with drive gear group, drive gear group central connection has the connecting rod, connecting rod one end is provided with the knob, the connecting rod sets up in the knob center, knob and connecting rod sliding connection.

According to the multi-plane adapting mechanism, the equipment adapts to different mounting surfaces by utilizing negative pressure, targeted processing is not needed, samples are not needed, the production can be carried out in advance, the difficulty of sale is reduced, the production cost is reduced, and the practicability is high.

A convex plate is arranged at one end, close to the knob, of the connecting rod, and the convex plate is matched with the knob.

The metal net in the invention adopts memory metal.

The arrangement of the metal net in the invention utilizes the characteristic that the memory metal can be recovered when being heated, so that the radiator can be repeatedly installed, and the practicability and the service life of the equipment are improved.

The outer side of the knob is arranged on the bulge, and the surface of the knob is provided with anti-skid grains.

The rapid heat dissipation mechanism comprises an inserting column, a solute, a solvent and a switch valve, wherein the inserting column is arranged at the top of a cattle horn duct and penetrates into the cattle horn duct, the inserting column is clamped on the cattle horn duct, the switch valve is arranged in the inserting column and cuts off the inside of the inserting column, the solute is arranged on one side of the switch valve, the solvent is arranged on the other side of the switch valve, the solute is solid potassium nitrate, and the solvent is water or one of unsaturated potassium nitrate solutions.

According to the rapid heat dissipation mechanism, a principle that potassium nitrate is dissolved to absorb heat is utilized, a temperature difference larger than air cooling is obtained, and the heat dissipation capacity of equipment is improved.

The outer side of each inserted column is provided with a protective outer inserted column, the protective outer inserted column wraps the inserted columns, and protective liquid is arranged between the protective outer inserted columns and the inserted columns and is water.

The arrangement of the protective outer plug column can reduce the possible pollution when the equipment is damaged, and improve the safety of the surrounding environment and personnel.

According to the invention, one end of the insertion column is provided with a heat conduction pin and a heat conduction spring, the heat conduction pin is arranged at the bottom of the insertion column, an annular convex plate is arranged on the heat conduction pin, the heat conduction spring is arranged on the annular convex plate, one end of the heat conduction spring is in contact with the annular convex plate, and the other end of the heat conduction spring is in contact with the inner surface of the ox horn duct.

According to the invention, the arrangement of the heat conducting pins and the heat conducting springs provides faster heat transfer speed for the heat conducting pins and larger heat dissipation area for the heat conducting springs, so that the heat dissipation capacity of the equipment can be improved, and the heat conducting springs also provide pressure for the heat conducting pins to be always in contact with a heating source.

The rapid heat dissipation mechanism further comprises a temperature sensor and a power-on circuit, wherein the temperature sensor is arranged on the inner surface of the ox horn duct and is connected with the power-on circuit, the power-on circuit is connected with a switch valve, the temperature sensor is a thermistor, and the switch valve is an electromagnetic valve.

According to the invention, the temperature sensor is arranged, and the manual work is replaced by machinery, so that the reaction speed and accuracy are increased, and the labor cost is reduced.

The working method of the adaptive ducted radiator comprises the following steps of self-adaptive installation and heat dissipation:

the method comprises the following steps: the multi-plane adapting mechanism is installed, the multi-plane adapting mechanism contacts with an installation surface, the telescopic rod moves according to the installation surface and is matched with the installation surface, the knob rotates, the vacuumizing rod is driven to lift through the transmission gear set, and the compression ring and the vacuumizing rod are vacuumized and fixed;

step two: the air suction fan and the air suction fan form an air channel for heat dissipation, and the quick heat dissipation mechanism is added with a heat dissipation process according to temperature change.

The technical scheme shows that the invention has the following beneficial effects:

1. according to the adaptive ducted radiator and the working method thereof, double fans are adopted, and an air channel is formed by one fan and one fan, so that the circulation speed of air is increased, and the heat dissipation capacity of equipment is improved; on the other hand, the arc duct is used, the air energy loss is reduced by using the arc surface, the air is bent by using the coanda effect, the wind resistance and turbulence are reduced, and the heat dissipation capacity of the equipment is improved.

2. According to the adaptive ducted radiator and the working method thereof, negative pressure is utilized to enable the equipment to adapt to different installation surfaces, targeted processing is not needed, samples are not needed, the adaptive ducted radiator can be produced in advance, the difficulty of sale is reduced, the production cost is reduced, and the practicability is high.

3. According to the adaptive ducted radiator and the working method thereof, the principle that potassium nitrate dissolves and absorbs heat is utilized, the temperature difference larger than air cooling is obtained, and the heat dissipation capacity is stronger.

Drawings

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

FIG. 2 is a schematic diagram of the overall top view structure of the present invention;

FIG. 3 is a schematic structural diagram of a multi-planar adapter mechanism of the present invention;

FIG. 4 is a schematic structural diagram of a transmission part of the multi-plane adapter mechanism of the present invention;

FIG. 5 is a schematic structural diagram of a fast heat dissipation mechanism according to the present invention;

FIG. 6 is a schematic circuit diagram of the fast heat dissipation mechanism of the present invention;

in the figure: the device comprises a ox horn duct-1, an air suction fan-2, an air suction fan-3, a quick heat dissipation mechanism-4, an insert column-41, a solute-42, a solvent-43, a switch valve-44, a protective outer insert column-45, a protective liquid-46, a heat conduction pin-47, a heat conduction spring-48, a temperature sensor-49, an energizing circuit-40, a multi-plane adapting mechanism-5, a base-501, a telescopic rod-502, a power-assisted spring-503, a metal net-504, a coating layer-505, a press ring-506, a vacuumizing rod-507, a threaded sleeve-508, a transmission gear set-509, a connecting rod-510 and a knob-511.

Detailed Description

The invention is further elucidated with reference to the drawings and the embodiments.

Example 1

1-6, an adapted ducted radiator comprising: ox horn duct 1, induced-draft fan 2, induced-draft fan 3, quick heat dissipation mechanism 4 and many plane adaptation mechanism 5, ox horn duct 1 is the ox horn shape, 1 both ends of ox horn duct are provided with the opening, 1 one end opening part of ox horn duct is provided with induced-

draft fan

2, 1 other end opening part of ox horn duct is provided with induced-draft fan 3, 1 top of ox horn duct is provided with quick

heat dissipation mechanism

4, 1 bottom of ox horn duct is provided with the opening equally, 1 bottom opening part of ox horn duct is provided with many plane adaptation mechanism 5.

The multi-plane adapting mechanism 5 in this embodiment includes a base 501, a telescopic rod 502, a power spring 503, a metal mesh 504, a coating layer 505, a pressing ring 506, a vacuuming rod 507, a threaded sleeve 508, a transmission gear set 509, a connecting rod 510, and a knob 511, wherein the base 501 is disposed on the outer surface of the ox horn duct 1, a plurality of blind holes are disposed at the bottom of the base 501, the telescopic rod 502 is disposed in the blind holes, the power spring 503 is disposed at the outer side of the telescopic rod 502, the power spring 503 coats the telescopic rod 502, one end of the telescopic rod 502 is slidably connected with the blind hole of the base 501, the metal mesh 504 is disposed at the other end of the telescopic rod 502, the metal mesh 504 is in a ring shape, the metal mesh 504 is made of flexible metal, the coating layer 505 is fixedly disposed at the bottom of the metal mesh 504, the coating layer 505 coats the telescopic rod 502 and the metal mesh 504, one side of the coating layer 505 is fixedly disposed on the base 501, coating 505 adopts flexible material, be provided with the through-hole on the coating 505, the through-hole internal fixation is provided with clamping ring 506, be provided with evacuation pole 507 in the clamping ring 506, evacuation pole 507 one end and clamping ring 506 internal surface sliding seal, evacuation pole 507 other end and basal portion 501 sliding connection, the one end that evacuation pole 507 is close to the basal portion is provided with the screw thread, evacuation pole 507 screw thread department is provided with thread bush 508, thread bush 508 and evacuation pole 507 threaded connection, the outer fixed surface of thread bush 508 is provided with drive gear set 509, drive gear set 509 center is connected with connecting rod 510, connecting rod 510 one end is provided with knob 511, connecting rod 510 sets up in knob 511 center, knob 511 and connecting rod 510 sliding connection.

The end of the link 510 near the knob 511 in this embodiment is provided with a protruding plate that mates with the knob 511.

The metal mesh 504 described in this embodiment is made of memory metal.

In this embodiment, the outer side of the knob 511 is disposed on the protrusion, and the surface of the knob 511 is provided with anti-slip patterns.

In this embodiment the quick heat dissipation mechanism 4 including inserting post 41, solute 42, solvent 43 and ooff valve 44, insert post 41 and set up in ox horn duct 1 top, insert post 41 and penetrate in ox horn duct 1, insert post 41 joint on ox horn duct 1, be provided with ooff valve 44 in inserting post 41, ooff valve 44 cuts off and inserts inside post 41, ooff valve 44 one side is provided with solute 42, ooff valve 44 opposite side is provided with solvent 43, solute 42 is the potassium nitrate solid, solvent 43 is one of water or unsaturated potassium nitrate solution.

Insert the post 41 outside in this embodiment and be provided with the protection and insert post 45 outward, the post 41 is inserted in the protection parcel of post 45 outward, the post 45 is inserted outward in the protection and is provided with protection liquid 46 between inserting the post 41, protection liquid 46 is water.

In this embodiment, one end of the inserting column 41 is provided with a heat conducting pin 47 and a heat conducting spring 48, the heat conducting pin 47 is arranged at the bottom of the inserting column 41, the heat conducting pin 47 is provided with an annular convex plate, the annular convex plate is provided with the heat conducting spring 48, one end of the heat conducting spring 48 contacts the annular convex plate, and the other end of the heat conducting spring 48 contacts the inner surface of the ox horn duct 1.

The rapid heat dissipation mechanism 4 in this embodiment further includes a temperature sensor 49 and an energizing circuit 40, the temperature sensor 49 is disposed on the inner surface of the ox horn duct 1, the temperature sensor 49 is connected to the energizing circuit 40, the energizing circuit 40 is connected to the switch valve 44, the temperature sensor 49 is a thermistor, and the switch valve 44 is an electromagnetic valve.

The working method of the adaptive ducted radiator in the embodiment includes adaptive installation and heat dissipation, and specifically includes the following steps:

the method comprises the following steps: mounting, wherein the multi-plane adapting mechanism 5 is in contact with a mounting surface, the telescopic rod 502 moves according to the mounting surface and is matched with the mounting surface, the knob 511 rotates, the vacuumizing rod 507 is driven to lift through the transmission gear set 509, and the compression ring 506 and the vacuumizing rod 507 are vacuumized and fixed;

step two: the induced draft fan 2 and the induced draft fan 3 form an air duct for heat dissipation, and the quick heat dissipation mechanism 4 is added with a heat dissipation process according to temperature change.

Example 2

An adapted ducted radiator as shown in figures 1, 3 and 4, comprising: ox horn duct 1, induced-draft fan 2, induced-draft fan 3, quick heat dissipation mechanism 4 and many plane adaptation mechanism 5, ox horn duct 1 is the ox horn shape, 1 both ends of ox horn duct are provided with the opening, 1 one end opening part of ox horn duct is provided with induced-

draft fan

heat dissipation mechanism

The metal mesh 504 described in this embodiment is made of memory metal.

Example 3

An adapted ducted radiator as shown in figures 1, 5 and 6, comprising: ox horn duct 1, induced-draft fan 2, induced-draft fan 3, quick heat dissipation mechanism 4 and many plane adaptation mechanism 5, ox horn duct 1 is the ox horn shape, 1 both ends of ox horn duct are provided with the opening, 1 one end opening part of ox horn duct is provided with induced-

draft fan

heat dissipation mechanism

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims

1. The utility model provides an adaptation type duct radiator which characterized in that: the method comprises the following steps: the horn-shaped heat dissipation device comprises a horn duct (1), an air suction fan (2), an air suction fan (3), a quick heat dissipation mechanism (4) and a multi-plane adaptation mechanism (5), wherein the horn duct (1) is horn-shaped, openings are formed in two ends of the horn duct (1), the air suction fan (2) is arranged at one end opening of the horn duct (1), the air suction fan (3) is arranged at the other end opening of the horn duct (1), the quick heat dissipation mechanism (4) is arranged at the top of the horn duct (1), an opening is also formed in the bottom of the horn duct (1), and the multi-plane adaptation mechanism (5) is arranged at the bottom opening of the horn duct (1);

the rapid heat dissipation mechanism (4) comprises an inserting column (41), a solute (42), a solvent (43) and a switch valve (44), the inserting column (41) is arranged at the top of the ox horn duct (1), the inserting column (41) penetrates into the ox horn duct (1), the inserting column (41) is clamped on the ox horn duct (1), the switch valve (44) is arranged in the inserting column (41), the switch valve (44) cuts off the inside of the inserting column (41), the solute (42) is arranged on one side of the switch valve (44), the solvent (43) is arranged on the other side of the switch valve (44), the solute (42) is a potassium nitrate solid, and the solvent (43) is one of water or an unsaturated potassium nitrate solution;

the multi-plane adapting mechanism (5) comprises a base (501), a telescopic rod (502), a power-assisted spring (503), a metal net (504), a coating layer (505), a pressing ring (506), a vacuumizing rod (507), a thread sleeve (508), a transmission gear set (509), a connecting rod (510) and a knob (511), wherein the base (501) is arranged on the outer surface of the ox horn duct (1), a plurality of blind holes are formed in the bottom of the base (501), the telescopic rod (502) is arranged in each blind hole, the power-assisted spring (503) is arranged on the outer side of the telescopic rod (502), the power-assisted spring (503) coats the telescopic rod (502), one end of the telescopic rod (502) is connected with the blind hole of the base (501) in a sliding manner, the metal net (504) is arranged at the other end of the telescopic rod (502), the metal net (504) is annular, and the metal net (504) is flexible metal, the metal mesh (504) bottom is fixedly provided with a coating layer (505), the coating layer (505) coats a telescopic rod (502) and the metal mesh (504), one side of the coating layer (505) is fixedly arranged on a base part (501), the coating layer (505) is made of flexible materials, a through hole is formed in the coating layer (505), a pressing ring (506) is fixedly arranged in the through hole, a vacuumizing rod (507) is arranged in the pressing ring (506), one end of the vacuumizing rod (507) is in sliding seal with the inner surface of the pressing ring (506), the other end of the vacuumizing rod (507) is in sliding connection with the base part (501), one end, close to the base part, of the vacuumizing rod (507) is provided with a thread sleeve (508), the thread sleeve (508) is in threaded connection with the vacuumizing rod (507), and a transmission gear set (509) is fixedly arranged on the outer surface of the thread sleeve (508), the transmission gear group (509) center is connected with connecting rod (510), connecting rod (510) one end is provided with knob (511), connecting rod (510) set up in knob (511) center, knob (511) and connecting rod (510) sliding connection.

2. The adapted ducted radiator in accordance with claim 1, wherein: one end of the connecting rod (510) close to the knob (511) is provided with a convex plate, and the convex plate is matched with the knob (511).

3. The adapted ducted radiator in accordance with claim 1, wherein: the metal net (504) is made of memory metal.

4. The adapted ducted radiator in accordance with claim 1, wherein: the outer side of the knob (511) is arranged on the bulge, and anti-skid grains are arranged on the surface of the knob (511).

5. The adapted ducted radiator in accordance with claim 1, wherein: insert post (41) outside be provided with the protection and insert post (45) outward, the protection is inserted post (45) parcel outward and is inserted post (41), the protection is inserted post (45) outward and is provided with protection liquid (46) between inserting post (41), protection liquid (46) are water.

6. The adapted ducted radiator in accordance with claim 1, wherein: insert post (41) one end be provided with heat conduction stitch (47) and heat conduction spring (48), heat conduction stitch (47) set up in inserting post (41) bottom, be provided with annular flange on heat conduction stitch (47), be provided with heat conduction spring (48) on the annular flange, heat conduction spring (48) one end contact annular flange, heat conduction spring (48) other end contact ox horn duct (1) internal surface.

7. The adapted ducted radiator in accordance with claim 1, wherein: quick heat dissipation mechanism (4) still include temperature sensor (49) and circular telegram circuit (40), temperature sensor (49) set up in ox horn duct (1) internal surface, temperature sensor (49) are connected with circular telegram circuit (40), circular telegram circuit (40) connect ooff valve (44), temperature sensor (49) are thermistor, ooff valve (44) are the solenoid valve.

8. The working method of the adaptive ducted radiator according to claim 1, comprising adaptive installation and heat dissipation, wherein: the method specifically comprises the following steps:

the method comprises the following steps: the multi-plane adapting mechanism (5) is installed, the multi-plane adapting mechanism (5) is in contact with an installation surface, the telescopic rod (502) moves according to the installation surface and is matched with the installation surface, the knob (511) rotates, the vacuumizing rod (507) is driven to lift through the transmission gear set (509), and the compression ring (506) and the vacuumizing rod (507) are vacuumized and fixed;

step two: the air suction fan (2) and the air suction fan (3) form an air channel for heat dissipation, and the quick heat dissipation mechanism (4) is added with a heat dissipation process according to temperature change.