CN208572646U - A kind of radiator and the hand-held unmanned plane with the radiator break through equipment - Google Patents
A kind of radiator and the hand-held unmanned plane with the radiator break through equipment Download PDFInfo
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- CN208572646U CN208572646U CN201820568017.0U CN201820568017U CN208572646U CN 208572646 U CN208572646 U CN 208572646U CN 201820568017 U CN201820568017 U CN 201820568017U CN 208572646 U CN208572646 U CN 208572646U
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- radiator
- air
- air duct
- flow
- fan
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Abstract
The utility model discloses a kind of radiators, main includes the radiator that an inside has air duct, there is the mounting surface for installing with circuit board outside radiator, radiator is run through by one end to the other end in air duct, the inlet in air duct is equipped with fan, generates air-flow when fan work in air duct, after the heat transfer to radiator that when circuit board work generates, it is taken away by the air-flow in air duct, to achieve the purpose that radiate to circuit board.The radiator has following technical effect that (1) heat dissipation effect greatly enhances, (2) heat dissipation effect is further enhanced, (3) the dust and other impurities accumulation for avoiding air inlet sucking causes board circuit failure on circuit boards, (4) radiator structure is compact, it can reduce more than half than general radiator structure volume and weight, to be more suitable for small-sized portable device use.Equipment is broken through according to the hand-held unmanned plane that the invention also discloses a kind of with the radiator.
Description
Technical field
The utility model relates to unmanned plane control field, in particular to a kind of radiator and the hand-held with the radiator
Unmanned plane breaks through equipment.
Background technique
Unmanned plane be flown in the case where no mankind take by remote control or according to specified path come
The flying body of autonomous flight is primarily used to military use in the past, however recently in the multiplicity such as transport field, safety-security area
Unmanned plane is used in field, and unmanned plane is also utilized as personal use.The use scope of unmanned plane increasingly expands,
In contrast, the control of unmanned plane is then mainly individually executed by personal or unmanned plane operator, therefore can invaded
Enter public administration region individual's control zone or with building collide etc. multiplicity problem.
With the development of flight control technique, civilian unmanned plane rapid proliferation is black to fly, and disorderly winged event emerges one after another, and gives public peace
Complete and security brings challenges, and flies to improve to the black of unmanned plane, disorderly winged effective control, living to highest priority region and large size
The strength guarantee of dynamic air defence safety needs a to equip with the unmanned plane control of fast reaction.
Although there is similar unmanned plane counter equipment in the market, its product is unsatisfactory in use or breaks through
Distance is too close, and heat dissipation effect is poor, is unable to long duration booting, otherwise influences the defect of product function;It is exactly to need scene
Assembling, it is complex for operation step, it cannot function as not being that individual soldier's equipment uses, greatly reduce control efficiency or be exactly that equipment is stupid
Weight, the movement and use of light and fast of having no way.
With the development of unmanned plane, unmanned plane counter individual soldier's equipment is come into being.But in a limited space and equipment weight
Under the requirement of amount, the heat dissipation of Primary Component is difficult to handle.
For the heat source of key fever, interference unit module or just it is not provided with heat dissipation channel or is exactly heat dissipation effect
Lowly, cause unmanned plane jamming equipment that cannot work for a long time, and will appear circuit protection phenomenon since equipment is too hot, cause to set
Standby counter effect is undesirable.Can only be effective at five minutes or so, once it is more than this time apparatus overheat guarantor will occur
Shield problem.Thus limit the application of hand-held unmanned plane counter equipment.
Utility model content
To solve the problems, such as to realize the effective heat dissipation and existing nothing of equipment in the case where the device space and limited mass
The problem of man-machine counter equipment is unable to long-term work, the purpose of the utility model is to provide a kind of radiator, the utility model
Another purpose is to provide a kind of hand-held unmanned plane counter equipment with the radiator.
One aspect according to the present utility model provides a kind of radiator, and main includes that an inside has air duct
Radiator, radiator outside have the mounting surface for installing with circuit board, and radiator, wind are run through by one end to the other end in air duct
The inlet in road is equipped with fan, generates air-flow, the heat transfer that circuit board generates when working to heat dissipation when fan work in air duct
It after body, is taken away by the air-flow in air duct, to achieve the purpose that radiate to circuit board.
Further, air duct side wall is equipped with multiple fins, and fin is extended from radiator into air duct.
Further, air duct is divided into multiple runners by fin, and the air-flow in air duct is divided into multiply respectively along multiple runners
Flowing.
Further, the air duct of radiator has at least two outlets, and the air-flow that when fan work generates passes through multiple streams
It is flowed out respectively by different outlets behind road.
Further, radiator is metallic heat dissipating part.Metallic aluminium and its alloy or metallic copper and its alloy are used equally for
Manufacture radiator.
Further, radiator is composed of two radiating pieces.
Preferably, the structure and shape of two radiating pieces are symmetrical.
Further preferably, the outer surface of radiating piece is plane, and inner surface is equipped with multiple fins.
Using above technical scheme radiator, existing most of bilateral type radiator structure is changed, by heat such as circuit boards
Source is mounted on heat dissipation external surface, and makes air-flow in radiator internal flow, thus has following technical effect that
(1) heat dissipation effect greatly enhances.Existing radiator structure side is heat source, and the other side is radiator, and fan generates
Air-flow flow through radiator, side that air-flow is in contact with radiator generates heat exchange.Air-flow in radiator internal flow,
The left and right sides is in contact with radiator, contact area, i.e. heat exchange area greatly increases, thus heat exchange effect also it is big greatly
By force.
(2) air duct type design can increase the flow velocity of air-flow, to further enhance heat dissipation effect.
(3) air duct type design can also be completely isolated with circuit board by air-flow, and it is miscellaneous to avoid dust of air inlet sucking etc.
Object accumulation causes board circuit failure on circuit boards.
(4) radiator structure is compact, can reduce more than half than general radiator structure volume and weight, thus more
Add and is used suitable for small-sized portable device.
Other side according to the present utility model provides a kind of hand-held unmanned plane counter equipment, including outside one
Shell and power supply module, interference module and antenna in shell, interior of shell are additionally provided with above-mentioned radiator, interference module
It is mounted on heat dissipation external surface, the air-flow band that the heat that interference module generates when working is generated by fan again by radiator export
Out outside shell.
Further, shell position corresponding with fan is equipped with air inlet, be respectively equipped in the middle part of shell gas outlet and
Respectively with two of the air duct of radiator outlets, radiator is symmetrical by two for lower gas outlet, upper gas outlet and lower gas outlet
Radiating piece is composed, and the outer surface of radiating piece is plane, and inner surface is equipped with multiple fins, and interference module is installed on outside radiating piece
Air duct is divided into multiple runners by surface, fin, and the air-flow in air duct is divided into multiply respectively along multiple flow passages, multiple runners
It is divided into two groups for leading to two outlets respectively, air enters air duct by entrance by air inlet when fan work, is further divided into multiply
Air-flow finally comes together in two outlets along multiple flow passages, then flows out from corresponding upper gas outlet and lower gas outlet, interferes mould
After the fin inside heat transfer to radiator that block generates when working, shell is taken out of by the air-flow in multiply runner.
Equipment is broken through using the hand-held unmanned plane of above technical scheme, radiator can be timely for crucial heating part
Heat dissipation, it is ensured that equipment can work for a long time.
Detailed description of the invention
Fig. 1 is that a kind of hand-held unmanned plane of embodiment of the utility model breaks through the use state of equipment with reference to figure.
Fig. 2 is the structural schematic diagram that hand-held unmanned plane shown in Fig. 1 breaks through equipment.
Fig. 3 is the schematic diagram of internal structure that hand-held unmanned plane shown in Fig. 2 breaks through equipment.
Fig. 4 is the structural schematic diagram of radiator shown in Fig. 3
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawing.
Fig. 1 to Fig. 4 schematically shows a kind of hand-held unmanned plane counter of embodiment according to the present utility model
Equipment.As shown, the hand-held unmanned plane counter equipment 200 include a shell 1 and in shell 1 power supply mould
Block, interference module and antenna.Power supply module and antenna are connected with interference module respectively.Power supply module is mainly by battery and switch
Composition, for guaranteeing interference module bulk supply.Interference module is used to generate the control signal phase with running unmanned plane 100
Same analog signal is simultaneously gone out it by antenna propagation, so that UAV targets 100 are interfered and be broken through.
Wherein, 1 interior of shell is additionally provided with radiator 2.
Radiator 2 mainly includes the radiator 22 that an inside has air duct 21.
There is the mounting surface 221 for installing with interference module outside radiator 22.
Radiator 22 is run through by one end to the other end in air duct 21.
The inlet in air duct 21 is equipped with fan 23.
The position corresponding with fan 23 of shell 1 is equipped with air inlet 11.
Radiator 22 is generally metallic heat dissipating part.Metallic aluminium and its alloy or metallic copper and its alloy are used equally for manufacturing
Radiator.
In the present embodiment, radiator 22 is composed of two radiating piece 22a.
The structure and shape of two radiating piece 22a is symmetrical.
The outer surface of radiating piece 22a is plane, and inner surface is equipped with multiple fins 24.
Interference module is installed on the outer surface radiating piece 22a.
Air duct 21 is divided into multiple runners 211 by fin 24.
Air-flow in air duct 21 is divided into multiply and flows respectively along multiple runners 211.
Gas outlet 121 and lower gas outlet 122 are respectively equipped in the middle part of shell 1.
Upper gas outlet 121 and two outlets with the air duct 21 of radiator 22 respectively of lower gas outlet 122,
Multiple runners 211 are divided to lead to two groups of two outlets respectively.
Air enters air duct 21 by entrance by air inlet 11 when fan 23 works, and is further divided into multiply air-flow along multiple runners
211 flowings finally come together in two outlets, then flow out from corresponding upper gas outlet 121 and lower gas outlet 122, interference module work
As when the heat transfer to radiator 22 that generates inside fin 24 after, shell 1 is taken out of by the air-flow in multiply runner 211, from
And achieve the purpose that radiate to interference module.
In other examples, the air duct 21 of radiator 22 can also have more than two outlets, and fan 23 works
When the air-flow that generates by being flowed out respectively by different outlets after multiple runners 211.
Equipment is broken through using the hand-held unmanned plane of above technical scheme, changes existing most of bilateral type heat dissipation knot
The heat sources such as circuit board are mounted on heat dissipation external surface, and make air-flow in radiator internal flow by structure, thus have following technology
Effect:
(1) heat dissipation effect greatly enhances.Existing radiator structure side is heat source, and the other side is radiator, and fan generates
Air-flow flow through radiator, side that air-flow is in contact with radiator generates heat exchange.Air-flow in radiator internal flow,
The left and right sides is in contact with radiator, contact area, i.e. heat exchange area greatly increases, thus heat exchange effect also it is big greatly
By force.
(2) air duct type design can increase the flow velocity of air-flow, to further enhance heat dissipation effect.
(3) air duct type design can also be completely isolated with circuit board by air-flow, and it is miscellaneous to avoid dust of air inlet sucking etc.
Object accumulation causes board circuit failure on circuit boards.
(4) radiator structure is compact, can reduce more than half than general radiator structure volume and weight, thus more
Add and is used suitable for small-sized portable device.
(5) radiator can radiate for crucial heating part in time, it is ensured that equipment can work for a long time.
Actual in use, 6min or so is protected when this equipment there is not wind-receiving fan test, after connecting fan, operation
30min does not occur protection problem.Even and if same category of device on the market connects fan, is probably to occur circuit overheat after 5min to protect
Shield, causes equipment to be shut down.
It can be seen that hand-held unmanned plane counter equipment provided by the utility model can work normally for a long time, do not carry on a shoulder pole
Overheating protection, which occurs, in the heart leads to the idle problem of equipment.
Above-described is only some embodiments of the utility model.For those of ordinary skill in the art,
Without departing from the concept of the present invention, various modifications and improvements can be made, these belong to practical
Novel protection scope.
Claims (10)
1. a kind of radiator, which is characterized in that main includes the radiator that an inside has air duct, tool outside the radiator
There is the mounting surface for installing with circuit board, the radiator is run through by one end to the other end in the air duct, and the air duct enters
Mouthful place is equipped with fan, generation air-flow in when fan work air duct, the heat transfer that when circuit board work generates
After to the radiator, taken away by the air-flow in the air duct, to achieve the purpose that radiate to the circuit board.
2. radiator according to claim 1, which is characterized in that the air duct side wall is equipped with multiple fins, the fin
Extended from the radiator into the air duct.
3. radiator according to claim 2, which is characterized in that the air duct is divided into multiple runners by the fin,
Air-flow in the air duct is divided into multiply respectively along multiple flow passages.
4. radiator according to claim 3, which is characterized in that the air duct of the radiator has at least two outlets,
The air-flow generated when the fan work by different outlets by being flowed out respectively after multiple runners.
5. radiator according to claim 1, which is characterized in that the radiator is metallic heat dissipating part.
6. radiator according to claim 5, which is characterized in that the radiator is composed of two radiating pieces.
7. radiator according to claim 6, which is characterized in that the structure and shape of described two radiating pieces are symmetrical.
8. radiator according to claim 7, which is characterized in that the outer surface of the radiating piece is plane, and inner surface is set
There are multiple fins.
9. a kind of hand-held unmanned plane breaks through equipment, power supply module, interference including a shell and in the shell
Module and antenna, which is characterized in that the interior of shell is additionally provided with radiator as claimed in any one of claims 1 to 8, described
Interference module is mounted on the heat dissipation external surface, and the heat that the interference module generates when working is exported by the radiator
It is taken out of outside the shell by the air-flow that the fan generates again.
10. the hand-held unmanned plane according to claim 9 with the radiator breaks through equipment, which is characterized in that described
Shell position corresponding with the fan is equipped with air inlet, is respectively equipped with gas outlet and lower gas outlet in the middle part of the shell,
The upper gas outlet and the lower gas outlet respectively correspond two outlets in the air duct of the radiator, and the radiator is by two
Symmetrical radiating piece is composed, and the outer surface of the radiating piece is plane, and inner surface is equipped with multiple fins, the interference mould
Block is installed on the radiating piece outer surface, and the air duct is divided into multiple runners by the fin, the air-flow in the air duct point
At multiply respectively along multiple flow passages, the multiple runner is divided into respectively towards two groups of described two outlets, described
Air enters the air duct by entrance by the air inlet when fan work, is further divided into multiply air-flow along the multiple runner stream
It is dynamic, described two outlets are finally come together in, then flow out from the corresponding upper gas outlet and the lower gas outlet, the interference mould
After the fin inside heat transfer to the radiator that block generates when working, taken out of by the air-flow in the multiply runner described
Shell.
Priority Applications (1)
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CN201820568017.0U CN208572646U (en) | 2018-04-20 | 2018-04-20 | A kind of radiator and the hand-held unmanned plane with the radiator break through equipment |
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CN201820568017.0U CN208572646U (en) | 2018-04-20 | 2018-04-20 | A kind of radiator and the hand-held unmanned plane with the radiator break through equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110289473A (en) * | 2019-06-24 | 2019-09-27 | 西安电子工程研究所 | A kind of long active heating integrated device of array antenna structure-of compact lightweight type fibre |
CN111225551A (en) * | 2020-03-27 | 2020-06-02 | 中交遥感天域科技江苏有限公司 | Heat dissipation structure for multi-frequency omnidirectional unmanned aerial vehicle management device |
-
2018
- 2018-04-20 CN CN201820568017.0U patent/CN208572646U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110289473A (en) * | 2019-06-24 | 2019-09-27 | 西安电子工程研究所 | A kind of long active heating integrated device of array antenna structure-of compact lightweight type fibre |
CN111225551A (en) * | 2020-03-27 | 2020-06-02 | 中交遥感天域科技江苏有限公司 | Heat dissipation structure for multi-frequency omnidirectional unmanned aerial vehicle management device |
CN111225551B (en) * | 2020-03-27 | 2023-08-29 | 中交遥感天域科技江苏有限公司 | Heat radiation structure for multi-frequency omnidirectional unmanned aerial vehicle control device |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190301 Termination date: 20200420 |