CN108702855A - A kind of radiator structure, remote control equipment, unmanned plane suit - Google Patents
A kind of radiator structure, remote control equipment, unmanned plane suit Download PDFInfo
- Publication number
- CN108702855A CN108702855A CN201780007041.5A CN201780007041A CN108702855A CN 108702855 A CN108702855 A CN 108702855A CN 201780007041 A CN201780007041 A CN 201780007041A CN 108702855 A CN108702855 A CN 108702855A
- Authority
- CN
- China
- Prior art keywords
- radiating piece
- heat dissipation
- radiator structure
- wind channel
- dissipation wind
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20009—Modifications to facilitate cooling, ventilating, or heating using a gaseous coolant in electronic enclosures
- H05K7/20136—Forced ventilation, e.g. by fans
- H05K7/20145—Means for directing air flow, e.g. ducts, deflectors, plenum or guides
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/2029—Modifications to facilitate cooling, ventilating, or heating using a liquid coolant with phase change in electronic enclosures
- H05K7/20336—Heat pipes, e.g. wicks or capillary pumps
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/2039—Modifications to facilitate cooling, ventilating, or heating characterised by the heat transfer by conduction from the heat generating element to a dissipating body
- H05K7/20409—Outer radiating structures on heat dissipating housings, e.g. fins integrated with the housing
Abstract
A kind of radiator structure, remote control equipment, unmanned plane suit, for providing enclosed radiation, avoid such as contact of dust, steam to heating device, effectively to reduce such as dust, steam to the adverse effect of heating device.Above-mentioned radiator structure is placed on heating device, it may include:First radiating piece (1), the second radiating piece (2), radiator fan (3);First radiating piece (1) and the second radiating piece (2) cooperatively form the enclosed heat dissipation wind channel (6) with air inlet (4) and air outlet (5);Radiator fan (3) is equipped in heat dissipation wind channel (6), radiator fan (3) is used to that the inlet air flow of air inlet (4) to be expelled to air outlet (5) in heat dissipation wind channel (6).
Description
Technical field
The invention relates to technical field of heat dissipation more particularly to a kind of radiator structure, remote control equipment, unmanned plane sets
Dress.
Background technology
With the development of electronic technology, the type of electric appliance is more and more, and use scope is also more and more extensive, and more and more just
Victory is in people's lives.In order to facilitate the use of electric appliance, can accordingly be controlled by remote control equipment corresponding thereto.
In general, the small volume of remote control equipment, but be internally provided with and be correspondingly provided with circuit board piece, and in remote controler
The course of work in, circuit board piece will will produce more heat, and the heat is as not in time out of, small volume remote control equipment
It distributes, can not only influence the use of remote control equipment, can also influence the service life of remote control equipment.
Currently, unmanned plane has relatively broad research and application, such as military affairs, video display, agricultural in multiple fields, and
In different industries, the use environment of the remote controler accordingly manipulated to unmanned plane is far from each other.Wherein, agricultural unmanned plane
The use environment of remote controler is in contrast more severe, such as the more steam of more dusts, however, the remote controler of existing agricultural unmanned plane
Mostly use open heat dissipation so that dust and steam are easy to enter circuit board piece by open radiator structure, to influence to connect
The contact performance of device is connect, and is easy to cause corrosion of the steam to circuit board piece.
Invention content
The embodiment of the present application provides a kind of radiator structure, remote control equipment, unmanned plane suit, for providing closed dissipate
Heat avoids such as contact of dust, steam to heating device, effectively to reduce such as dust, steam to the unfavorable of heating device
It influences.
In view of this, the application first aspect provides a kind of radiator structure, which is placed on heating device, this is dissipated
Heat structure includes:
First radiating piece, the second radiating piece, radiator fan;
First radiating piece and the second radiating piece cooperatively form the enclosed heat dissipation wind channel with air inlet and air outlet;
Radiator fan is equipped in heat dissipation wind channel, radiator fan is used to that the inlet air flow of air inlet to be discharged in heat dissipation wind channel
To air outlet.
The application second aspect provides a kind of remote control equipment, which includes shell and the heater in shell
Part, the remote control equipment further include:
The radiator structure that above-mentioned first aspect provides;
Radiator structure is placed on heating device;
Shell is equipped with air inlet hole and exhaust vent, and air inlet hole is corresponding with the air inlet of the heat dissipation wind channel of radiator structure, goes out
Air holes is corresponding with the air outlet of the heat dissipation wind channel of radiator structure.
The application third aspect provides a kind of unmanned plane suit, and unmanned plane suit includes unmanned vehicle ontology, is also wrapped
Include the remote control equipment that above-mentioned second aspect provides.
As can be seen from the above technical solutions, the embodiment of the present application has the following advantages:
The embodiment of the present application provides a kind of radiator structure, which is placed on heating device, may include first
Radiating piece, the second radiating piece and radiator fan.Wherein, the first radiating piece and the second radiating piece can be cooperatively formed with air inlet
With the enclosed heat dissipation wind channel of air outlet, radiator fan can be then set in heat dissipation wind channel, and radiator fan can be used for dissipating
The inlet air flow of air inlet is expelled to air outlet in hot-flow flue.
In the application process of above-mentioned radiator structure, when heating device generates heat due to work, which can pass
It is directed on radiator structure, and flowing of the inlet air flow of air inlet in heat dissipation wind channel is driven by rotation by radiator fan, with
So that inlet air flow takes away corresponding heat and is expelled to air outlet, achieve the purpose that radiate to heating device.Meanwhile by
It is closed in heat dissipation wind channel, then under Special use environment, steam, dust etc. will enter heat dissipation wind channel from air inlet
It is interior, and may be discharged by the air outlet of heat dissipation wind channel, then such as contact of steam, dust with heating device is avoided, so as to
To prevent steam, dust etc. from strengthening the protection to heating device to the adverse effect of heating device.
Description of the drawings
In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment
Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present application, for
For those of ordinary skill in the art, without creative efforts, other are can also be obtained according to these attached drawings
Attached drawing.
Fig. 1 is the structural schematic diagram of radiator structure in the embodiment of the present application;
Fig. 2 is the structural schematic diagram of remote control equipment in the embodiment of the present application;
Fig. 3 is the schematic cross-section of remote control equipment in the embodiment of the present application;
Specific implementation mode
The embodiment of the present application provides a kind of radiator structure, remote control equipment, unmanned plane suit, for providing closed dissipate
Heat avoids such as contact of dust, steam to heating device, effectively to reduce such as dust, steam to the unfavorable of heating device
It influences.
In order to make those skilled in the art more fully understand application scheme, below in conjunction in the embodiment of the present application
Attached drawing, technical solutions in the embodiments of the present application are clearly and completely described, it is clear that described embodiment is only
The embodiment of the application part, instead of all the embodiments.Based on the embodiment in the application, ordinary skill people
The every other embodiment that member is obtained without making creative work should all belong to the model of the application protection
It encloses.
Term " first ", " second ", " third " in the description and claims of this application and above-mentioned attached drawing, "
The (if present)s such as four " are for distinguishing similar object, without being used to describe specific sequence or precedence.It should manage
The data that solution uses in this way can be interchanged in the appropriate case, so that the embodiments described herein can be in addition to illustrating herein
Or the sequence other than the content of description is implemented.In addition, term " comprising " and " having " and their any deformation, it is intended that
Cover it is non-exclusive include, for example, containing the process of series of steps or unit, method, system, product or equipment need not limit
In those of clearly listing step or unit, but may include not listing clearly or for these processes, method, production
The intrinsic other steps of product or equipment or unit.
For ease of understanding, the concrete structure in the embodiment of the present invention is described below, is please referred to Fig.1, Fig. 2, this Shen
Please radiator structure one embodiment include in embodiment:
First radiating piece 1, the second radiating piece 2, radiator fan 3;
First radiating piece 1 and the second radiating piece 2 cooperatively form the enclosed radiation air with air inlet 4 and air outlet 5
Road 6;
Radiator fan 3 is equipped in heat dissipation wind channel 6, radiator fan 3 is used to that air inlet 4 to be entered implication in heat dissipation wind channel 6
Stream is expelled to air outlet 5.
Specifically, radiator structure can be placed on heating device 7, for radiating to heating device 7.The radiator structure
May include the first radiating piece 1, the second radiating piece 2 and radiator fan 3, wherein the first radiating piece 1 and the second radiating piece 2 can be with
Forming an enclosed heat dissipation wind channel 6, i.e. for heat dissipation wind channel 6 in addition to air inlet 4 and air outlet 5, other positions are enclosed construction,
Extraneous inlet air flow will be discharged to this channel of air outlet 5 again via air inlet 4 to heat dissipation wind channel 6, so as to effectively keep away
Exempt from the contact of exotic that steam, dust etc. have an adverse effect to heating device with heating device.
Wherein, for the closure for ensureing heat dissipation wind channel 6 and good heat dissipation effect, radiator fan 3, which can be set to, to be dissipated
In hot-flow flue 6, when radiator fan 3 works, it may be implemented or accelerate the inlet air flow entered from air inlet 4 in heat dissipation wind channel 6
Flowing, inlet air flow can then be taken away in flow process heating device 7 generation corresponding heat.
Wherein, it is electronic component since circuit board piece is the supporter of electronic component in the component of electronic equipment
The carrier of electrical connection carries highly important function, and in the operational process of electronic equipment, is electronic equipment
Main heater element, the heating device 7 in the present embodiment can be circuit board piece as a result,.
It should be noted that in the present embodiment, heating device 7 is other than it can be circuit board piece shown in legend, in reality
In the application of border, or other types of device, i.e. radiator structure in the present embodiment can be adapted for different heat device,
It realizes the heat dissipation to different heat device, is not specifically limited herein.
It is understood that when heating device 7 is circuit board piece, the surface of heating device 7 can be equipped with shielding case, should
Shielding case can be such as copper material.
In the application process of above-mentioned radiator structure, when heating device 7 generates heat due to work, which can pass
It is directed on radiator structure, and flowing of the inlet air flow of air inlet 4 in heat dissipation wind channel 6 is driven by rotation by radiator fan 3,
So that inlet air flow takes away corresponding heat and is expelled to air outlet 5, achieve the purpose that radiate to heating device 7.Together
When, since heat dissipation wind channel 6 is closed, then under Special use environment, steam, dust etc. will enter from air inlet 4 to be dissipated
It in hot-flow flue 6, and may be discharged by the air outlet 5 of heat dissipation wind channel 6, then avoid connecing for such as steam, dust and heating device 7
It touches, so as to prevent steam, dust etc. from strengthening the protection to heating device 7 to the adverse effect of heating device 7.
On the basis of the above embodiments, it please refers to Fig.1, Fig. 2, another embodiment packet of radiator structure in the embodiment of the present application
It includes:
Second radiating piece 2 includes side wall construction 8, and the first radiating piece 2 is set in side wall construction 8;
Radiator fan 3 is located at the inside of side wall construction 8.
Specifically, in order to realize that the closed of heat dissipation wind channel 6, the second radiating piece 2 may include side wall construction 8, the side wall
Structure 8 can be set on the side for the air outlet 5 that the second radiating piece 2 removes corresponding heat dissipation wind channel 6, and the first radiating piece 1 is then equivalent to
The covering plate structure of second radiating piece 2, to the first radiating piece 1 be set to the second radiating piece 2 side wall construction 8 on when, in addition into
Air port 4 is used for for air inlet and the outlet mouth 5 except outlet air, can be with shape by the cooperation of the first radiating piece 1 and the second radiating piece 2
At enclosed heat dissipation channel 6.Radiator fan 3 can be located at the inside of the side wall construction 8 of the second radiating piece 2 as a result, with effective
The dispersion of the wind energy of radiator fan 3 is avoided, the heat dissipation effect to heating device 7 is reinforced.
It is understood that in the present embodiment, the formation of enclosed heat dissipation wind channel 6 is in addition to the knot using above description
Structure can also use following other structures, be not specifically limited herein in practical applications:
For example, the second radiating piece 2 can be equivalent to the bottom structure of the first radiating piece 1, the first radiating piece 1 radiates except corresponding
Corresponding side wall can be then equipped on the side wall of the air outlet 5 in air duct 6, to cooperatively form enclosed dissipate with the second radiating piece 2
Hot-flow flue 6;
In another example on the side of the first radiating piece 1 and the second radiating piece 2, except the position of the air outlet 5 of corresponding heat dissipation wind channel 6
It sets outer, can be equipped with corresponding side wall, it, can be with by the cooperation of the side wall of the side wall and the second radiating piece 2 of the first radiating piece 1
Form enclosed heat dissipation wind channel 6;
Further for example, the first radiating piece 1 or the second radiating piece 2 can be the air channel structure equipped with air outlet 5, correspondingly, the
One radiating piece 1 or the second radiating piece 2 can be the covering plate structure equipped with air inlet 4, pass through the covering plate structure and air channel structure
Cooperation, can form enclosed heat dissipation wind channel 6.
Further, in order to be fixedly connected with the first radiating piece 1 and the second radiating piece 2, third can be equipped in the first heat dissipation 1
Mounting portion 9 can be equipped with the 4th mounting portion 10 of cooperation third mounting portion 9, third mounting portion 9 and the 4th on second radiating piece 2
Mounting portion 10 can be used on the second radiating piece 2 fixing the first radiating piece 1.
Wherein, third mounting portion 9 can be through-hole structure, and the 4th mounting portion 10 can be Screw hole structure.Thus spiral shell is utilized
Nail is threadedly coupled across third mounting portion 9, and with the 4th mounting portion 10, can reach the first radiating piece 1 and the second radiating piece 2
It is fixedly connected.
It should be noted that in the present embodiment, the connection type of the first radiating piece 1 and the second radiating piece 2 is in addition to above stating
Bright content, in practical applications, can also use other manner, such as snap connection, slide fastener connection, adhesive connection, again
For example, intermediate member may be used to connect, intermediate member can connect as the transition of the first radiating piece 1 and the second radiating piece 2
Fitting, the intermediate member can be the intermediate member being provided separately, or in the first radiating piece 1 or the second radiating piece 2
Subassembly can also be with different connections as a result, correspondingly, third mounting portion 9 and the 4th mounting portion 10 can be without designs
Mode and be adjusted correspondingly, be not specifically limited herein.
Based on above structure, in the present embodiment, air inlet 4 can be equipped on the first radiating piece 1, and the air inlet 4 can
It is correspondingly arranged with the air flow inlet 11 with radiator fan 3, i.e., the extraneous inlet air flow entered from air inlet 4 can be directly entered
The air flow inlet 11 of radiator fan 3.Inlet air flow, can be from the air-flow of radiator fan 3 under the work of radiator fan 3 as a result,
Outlet 12 flows to air outlet 5 in heat dissipation wind channel 6.It thereby may be ensured that the dispersion of inlet air flow, and can be to the maximum extent
It is discharged from the air outlet 5 of heat dissipation wind channel 6.
Wherein, due to the design of the air outlet 5 of heat dissipation wind channel 6, the side wall construction 8 of the second radiating piece 2 can have accordingly
Open end and closed end, the i.e. corresponding air outlet 5 in open end, closed end is the other end of corresponding heat dissipation wind channel 6.In order to increase air inlet
The flowing velocity of the inlet air flow of mouth 4, to take away the heat of the generation of more heating devices 7, radiator fan 3 can be located at side wall knot
The closed end of structure 8, the i.e. Single port of heat dissipation wind channel 6 can be equipped with air outlet 5 (one side for being located at heat dissipation wind channel 6), the other end
Mouthful can be equipped with air inlet 4 (be located at heat dissipation wind channel 6 one side adjacent surface), meanwhile, by this design, can make into
Implication stream flows to the other end from one end of heat dissipation wind channel 6, increases the length of flow of inlet air flow, increases inlet air flow and dissipates
The contact area of heat structure is conducive to increase heat dissipation effect.
Further, in the present embodiment, the size of the air flow inlet 11 of radiator fan 3 can be not more than the ruler of air inlet 4
It is very little, so that air inlet 4 there can be more inlet air flow that can enter the air flow inlet 11 of radiator fan 3, and efficiently use
Inlet air flow.
It should be noted that in the present embodiment, when the first radiating piece 1 is equipped with air inlet 4, the second radiating piece 2 will be made
For heat collection body and the heat conductor of heating device 7, in order to optimize heat transfer and heat dissipation effect, the second radiating piece 2
Bottom can be bonded completely with heating device 7 so that after the heat of 2 absorption heater part 7 of the second radiating piece, can utilize
Radiator fan 3 takes away the transmission of air-flow the heat of the second radiating piece 2 conduction, and reaches the cooling to the second radiating piece 2, such as
This iterative cycles, to realize the heat dissipation to heating device 7.
On the basis of the above embodiments, it please refers to Fig.1, Fig. 2, another embodiment packet of radiator structure in the embodiment of the present application
It includes:
First radiating piece 1 is equipped with the first mounting portion 13, and the second radiating piece 2 is equipped with the second of the first mounting portion 13 of cooperation
Mounting portion 14, the first mounting portion 13 and the second mounting portion 14 are used for the assembly in heat dissipation wind channel 6 and preset device.
Specifically, when radiator structure is installed on the electronic equipment of application, in order to make full use of the assembly in electronic equipment portion
Space is also equipped with default device in radiator structure, to make full use of the accommodating cavity of heat dissipation wind channel 6.Wherein, first dissipates
It can be equipped with the first mounting portion 13 on warmware 1, the second installation of the first mounting portion 13 of cooperation can be then equipped on the second radiating piece 2
It portion 14 can be by the cooperation of the first mounting portion 13 and the second mounting portion 14 to default when presetting device in heat dissipation wind channel 6
Device is fixed.
In practical applications, the second mounting portion 14 can be set to the inside of the second radiating piece 2, and default device can be first with the
Two mounting portions 14 connect, and then when the first radiating piece 1 is connect with the second radiating piece 2, can fix the first mounting portion 13 and the
Two mounting portions 14 preset fixation of the device in heat dissipation wind channel 6 to realize.
Wherein, the first mounting portion 13 can be through-hole structure, and the second mounting portion 14 can be Screw hole structure.Thus spiral shell is utilized
Nail is threadedly coupled across the first mounting portion 13, and with the second mounting portion 14, can reach the fixed installation of default device.
It should be noted that in the present embodiment, installation of the device in heat dissipation wind channel 6 is preset in addition in above description
Hold, in practical applications, other manner can also be used, such as assembled using snap-fitted, using slide fastener, utilize adhesive bonding
Deng, can also be with different installation sides as a result, correspondingly, the first mounting portion 13 and the second mounting portion 14 can be without designs
Formula and be adjusted correspondingly, be not specifically limited herein.
Further, in the present embodiment, hatch frame 15 can be equipped on the first radiating piece 1, which can be with
It is connect with external signal for presetting device, such as when heating device 7 is circuit board piece, default device passes through hatch frame 15
It can be electrically connected with circuit board piece.In practical applications, after realizing that preset device connect with external signal, the hatch frame 15
Can carry out Seal treatment, such as be closed with marine glue, with keep heat dissipation wind channel 6 except air inlet 4, air outlet 5 it is closed
Structure, and prevent 6 interior air-flow of heat dissipation wind channel dispersion and caused by heat dissipation effect it is bad, or dust, steam etc. and fever
The contact of device 7 and to the adverse effect of heating device 7.
Further, in the present embodiment, the first radiating piece 1 can also include the first heat carrier, which can
With positioned at the side of the first hot zone of the radiating piece 1 towards default device.I.e. default device at work, can also generate heat
Amount, in order to assist reaching the heat dissipation to presetting device, the hot zone for presetting device can be towards the first radiating piece 1, to pass through the
The first heat carrier on one radiating piece 1 carries out the transmission of the heat of default device, and the air-flow realization pair driven by radiator fan 3
The heat dissipation of default device also takes full advantage of radiator fan 3 to not only be effectively utilized the accommodating cavity of heat dissipation wind channel 6
Radiating resource reaches the double-radiation function to heating device 7 and default device.
Wherein, there are many forms for the first heat carrier, specific as follows:
1, the first heat carrier can be independent heat conduction laminated structure, and the upper surface of first heat carrier can be bonded first
The side of hot zone of the radiating piece 1 towards default device, lower surface can then be bonded the hot zone of default device, by default device
The heat that part generates is conducted to the first radiating piece 1.
It is understood that the first heat carrier can be one, which can be covered with the fever of default device
Whole surface where area can also only be covered with the hot zone surface of default device or main hot zone surface;First heat carrier
It can be multiple, in order to carry out heat transfer respectively to each hot zone for presetting device, be not specifically limited herein.
It should be noted that in the present embodiment, the shape of the first heat carrier, fitting area size, highly can with it is default
The hot zone of device or main hot zone are adapted, and can also be carried out other designs according to actual needs, are not specifically limited herein.
Wherein, heat conduction laminated structure can include but is not limited to metal conducting strip, such as aluminium alloy or copper metal conducting strip,
For another example silica gel thermally conductive sheet.
2, the first heat carrier is alternatively independent conductive structure, but the first heat carrier can be the first heat pipe, first heat
One end of pipe can then can be with default device with a side contacts of the first hot zone of the radiating piece 1 towards default device, the other end
The hot zone of part contacts.
One end of first heat pipe is evaporation ends, and other end is condensation end, when the evaporation ends of the first heat pipe are due to default
When device generation heat is heated, the liquid in the first heat pipe evaporates rapidly, and steam flows to condensation end under small pressure difference, and
And heat is released, regelation is flowed back to evaporation ends, is so recycled at liquid, effect of the liquid again along porous material by capillary force
Incessantly, to which the heat of default device is reached condensation end by the evaporation ends of the first heat pipe, then on the first radiating piece 1.
3, the first heat carrier can not be independent conductive structure, and the first heat carrier can be the first radiating piece 1 towards pre-
If the first bulge-structure of the side of the hot zone of device, which can mutually fit with the hot zone of default device
Match.
First heat carrier is integrally formed to obtain with the first radiating piece 1, and the material of the first heat carrier can be dissipated with first
The material of warmware 1 is identical, in order to coordinate the hot zone of default device, the number of the first heat carrier, shape, size, highly can be with
It is adapted with the hot zone of default device, then when preparing the first radiating piece 1, the hot zone with default device can be prepared in advance
Compatible mold, and the first radiating piece 1 is prepared using the mold, thus obtain the first radiating piece 1 with the first heat carrier.
From above-mentioned three kinds of forms can be seen that the first form, second of form has larger flexibility, i.e., first dissipates
Warmware 1 can be adapted to a variety of default devices under the adjustment of the first heat carrier, the third form can then simplify assemble flow,
Installation effectiveness is high.
Further, in above-mentioned three kinds of forms, in order to improve the service life of the first radiating piece 1, the first radiating piece 1 with
The non-contact face of the hot zone of default device can be equipped with the first protective film, so that the first protective film can prevent the first heat dissipation
Part 1 and the oxidation or corrosion in the non-contact face of default device etc., and the contact surface of the first radiating piece 1 and the hot zone of default device
Heat transfer may be implemented.
For example, it is assumed that the first heat carrier of the first radiating piece 1 is integrally formed with the first radiating piece 1, then preparing the
After one radiating piece 1, processing can be passivated to the first radiating piece 1, oil spout processing can also be carried out on the first radiating piece 1,
So that the surface of the first radiating piece 1 is equipped with one layer of first protective film, it then then can be to the hair of the first radiating piece 1 and default device
The contact surface of hot-zone carries out deprotection film process, can be with to the non-contact face of the first radiating piece 1 and the hot zone of default device
Obtain the protections such as anti-oxidant, anticorrosive of the first protective film.
Wherein, since default device is also possible to generate heat, then in order to reinforce the first radiating piece 1 to presetting device
Heat is transmitted, and in the present embodiment, Heat Conduction Material can be equipped between the binding face of the hot zone of the first radiating piece 1 and default device,
The Heat Conduction Material can include but is not limited to heat-conducting cream or heat-conducting silica gel sheet etc..
It is understood that in the present embodiment, the first heat carrier is gone back in practical applications in addition to the content of above description
Other designs such as other forms or other materials may be used, as long as the heat that can optimize the first radiating piece 1 is transmitted, herein
It is not specifically limited.
In the present embodiment, in order to reduce the size of radiator structure, to rationally design the sky of radiator structure place electronic equipment
Between design or minute design, the shape and size of radiator structure can be adjusted correspondingly, with realize to heater
While part radiates, the receiving to presetting device in heat dissipation wind channel 6 may be implemented.Wherein, the first radiating piece 1 is towards radiation air
Groove structure compatible with default device can be equipped on the side in road 6, when default device is placed in the inside of the second radiating piece 2
When, if the first radiating piece 1 of connection and the second radiating piece 2, default device can be placed in above-mentioned groove structure, to realize
The default device is accommodated in heat dissipation wind channel 6, it can be seen from the figure that the first radiating piece 1 corresponds to the outer of the position of the groove structure
The other positions of the first radiating piece 1 can be higher than in podium level, thus the first radiating piece 1 can be to the correspondence position of default device
It sets place and carries out corresponding structural adjustment, while can realize the heat dissipation effect of heat dissipation wind channel 6 in effective space.
It is understood that the structural adjustment done in the present embodiment in order to coordinate the size of default device is in addition to above stating
Bright content can also use other structures to design in practical applications, and device is preset as long as can be accommodated in heat dissipation wind channel 6
While part, reaches preferable spatial design and heat dissipation effect, be not specifically limited herein.
In the present embodiment, based on the application of the electronic equipment belonging to radiator structure, which can be RF device.Base
In the purposes of RF device, when RF device is set in heat dissipation wind channel 6, the hatch frame 15 on the first radiating piece 1 can be 3,
2 hatch frames 15 of 1 one end of wherein the first radiating piece can be that RF device is connected for antenna, another opening knot of the other end
Structure 15 then can be used for the connection of RF device and circuit board piece (i.e. heating device 7).
It should be noted that in the present embodiment, device is preset in addition to the RF device of above description, may be used also in practical applications
Think other devices, can be configured according to actual needs, correspondingly, the shape of the hatch frame on the first radiating piece 1, ruler
Very little, number can be adjusted, and be not specifically limited herein.
On the basis of the above embodiments, it please refers to Fig.1, Fig. 2, another embodiment packet of radiator structure in the embodiment of the present application
It includes:
Second radiating piece 2 includes the second heat carrier, and the second heat carrier is set to the second hair of the radiating piece 2 towards heating device 7
The side of hot-zone.
Specifically, the second radiating piece 2 can also include the second heat carrier, which can be located at the second radiating piece
The side of 2 hot zones towards heating device 7.I.e. when heating device 7 generates heat due to work, the second heat dissipation can be passed through
The second heat carrier on part 2 carries out the transmission of the heat of heating device 7, and is realized to fever by the air-flow that radiator fan 3 drives
The heat dissipation of device 7.
Wherein, there are many forms for the second heat carrier, specific as follows:
1, the second heat carrier can be independent heat conduction laminated structure, and the upper surface of second heat carrier can be bonded second
The side of hot zone of the radiating piece 2 towards heating device 7, lower surface can then be bonded the hot zone of heating device 7, will generate heat
The heat that device 7 generates is conducted to the second radiating piece 2.
It is understood that the second heat carrier can be one, which can be covered with the fever of heating device 7
Whole surface where area can also only be covered with the hot zone surface of heating device 7 or main hot zone surface;Second heat carrier
It can be multiple, in order to which each hot zone to heating device 7 carries out heat transfer respectively, be not specifically limited herein.
It should be noted that in the present embodiment, the shape of the second heat carrier, fitting area size, highly can be with fever
The hot zone of device 7 or main hot zone are adapted, and can also be carried out other designs according to actual needs, not done specific limit herein
It is fixed.
Wherein, heat conduction laminated structure can include but is not limited to metal conducting strip, such as aluminium alloy or copper metal conducting strip,
For another example silica gel thermally conductive sheet.
2, the second heat carrier is alternatively independent conductive structure, but the second heat carrier can be the second heat pipe, second heat
One end of pipe can then can be with heater with a side contacts of the second hot zone of the radiating piece 2 towards heating device 7, the other end
The hot zone of part 7 contacts.
One end of second heat pipe is evaporation ends, and other end is condensation end, when the evaporation ends of the second heat pipe are due to fever
When the generation heat of device 7 is heated, the liquid in the second heat pipe evaporates rapidly, and steam flows to condensation end under small pressure difference,
And heat is released, regelation is flowed back to evaporation ends, so followed at liquid, effect of the liquid again along porous material by capillary force
Ring is more than, to which the heat of heating device 7 is reached condensation end by the evaporation ends of the second heat pipe, then on the second radiating piece 2.
3, the second heat carrier can not be independent conductive structure, and the second heat carrier can be the second radiating piece 2 towards hair
Second bulge-structure of the side of the hot zone of thermal device 7, second bulge-structure can mutually be fitted with the hot zone of heating device 7
Match.
Second heat carrier is integrally formed to obtain with the second radiating piece 2, and the material of the second heat carrier can be dissipated with second
The material of warmware 2 is identical, in order to coordinate the hot zone of heating device 2, the number of the second heat carrier, shape, size, highly can be with
It is adapted with the hot zone of heating device 7, then when preparing the second radiating piece 2, the fever with heating device 2 can be prepared in advance
The compatible mold in area, and the second radiating piece 2 is prepared using the mold, thus obtain the second radiating piece with the second heat carrier
2。
From above-mentioned three kinds of forms can be seen that the first form, second of form has larger flexibility, i.e., second dissipates
Warmware 2 can be adapted to a variety of heating devices 7 under the adjustment of the second heat carrier, the third form can then simplify assemble flow,
Installation effectiveness is high.
Further, in above-mentioned three kinds of forms, in order to improve the service life of the second radiating piece 2, the second radiating piece 2 with
The non-contact face of the hot zone of heating device 7 can be equipped with the second protective film, so that the second protective film can prevent second to dissipate
The oxidation or corrosion in the non-contact face of warmware 2 and heating device 7 etc., and the second radiating piece 2 and the hot zone of heating device 7 connect
Heat transfer may be implemented in contacting surface.
For example, it is assumed that the second heat carrier of the second radiating piece 2 is integrally formed with the second radiating piece 2, then preparing the
After two radiating pieces 2, processing can be passivated to the second radiating piece 2, oil spout processing can also be carried out on the second radiating piece 2,
So that the surface of the second radiating piece 2 is equipped with one layer of second protective film, it then then can be to the second radiating piece 2 and heating device 7
The contact surface of hot zone carries out deprotection film process, to which the non-contact face of the second radiating piece 2 and the hot zone of heating device 7 can
To obtain the protections such as anti-oxidant, anticorrosive of the second protective film.
Wherein, the heat of heating device 7 is transmitted in order to reinforce the second radiating piece 2, in the present embodiment, the second radiating piece 2 with
Heat Conduction Material can be equipped between the binding face of the hot zone of heating device 7, which can include but is not limited to heat conduction
Cream or heat-conducting silica gel sheet etc..
It is understood that in the present embodiment, the second heat carrier is gone back in practical applications in addition to the content of above description
Other designs such as other forms or other materials may be used, as long as the heat that can optimize the second radiating piece 2 is transmitted, herein
It is not specifically limited.
Further, in the present embodiment, other components may be provided on heating device 7, for example, heating device 7 is
When circuit board piece, in order to when radiator structure is placed on heating device 7, reduce radiator structure to the component on heating device 7
Gravitational thrusts effect, the second side of the radiating piece 2 towards heating device 7 be also provided with buffer structure, which can
For slowing down effect to the component offer on heating device 7.Wherein, the material of the buffer structure can include but is not limited to
Sponge.
On the basis of the above embodiments, referring to Fig. 1, another embodiment of radiator structure includes in the embodiment of the present application:
Multiple cooling fins 16 are equipped in heat dissipation wind channel 6, to form multiple sub- heat dissipation wind channels in heat dissipation wind channel 6.
Specifically, heat dissipation wind channel 6 can be equipped with multiple cooling fins 16, multiple cooling fin 16 can be the squama that such as radiates
Piece, multiple cooling fins 16 can be arranged in heat dissipation wind channel 6 with compartment of terrain, to form multiple sub- heat dissipation wind channels, to which air-flow can
To be flowed out from multiple sub- heat dissipation wind channels, heat dissipation area is increased, is conducive to improve heat dissipation effect.
In the present embodiment, the air flow inlet 11 of radiator fan 3 is corresponding with the air inlet 4 of heat dissipation wind channel 6, the air flow inlet 11
Air stream outlet 12 can be then equipped on the adjacent wall on the surface at place, each in multiple cooling fins 16 can pass through as a result,
The air stream outlet 12 of radiator fan 3 is through to the air outlet 5 of heat dissipation wind channel 6, i.e. the length of each cooling fin 16 can have scattered
The air stream outlet 12 of Hot-air fan 3 extends to the air outlet for distributing air duct 6.To increase cooling fin 16 to the maximum extent to heat dissipation effect
Promotion.
Wherein, multiple cooling fins 16 can there are many design forms, specific as follows:
1, multiple cooling fins 16 can be located at the bottom of 2 inside of the second radiating piece, and the height of multiple cooling fins 16 can wait
In or less than heat dissipation wind channel 6 height.
Illustratively, when the second radiating piece 2 when heat collection body and heat conductor as heating device 7, second
The inside of radiating piece 2, i.e., side towards heat dissipation wind channel 6 can be equipped with multiple cooling fins 16, this multiple cooling fin 16 can be
It arranges according to corresponding interval on first radiating piece 2, to form multiple sub- heat dissipation wind channels.
Wherein, on the one hand, the height of multiple cooling fins 16 can be equal to the height of heat dissipation wind channel 6, in the first heat dissipation
When part 1 is connect with the second radiating piece 2, enclosed sub- heat dissipation wind channel can be formed;On the other hand, the height of multiple cooling fins 16
The height of heat dissipation wind channel 6 is might be less that, to which when the first radiating piece 1 is connect with the second radiating piece 2, closing can be formed in
While forming sub- heat dissipation wind channel in the heat dissipation wind channel 6 of formula, it can be realized on the basis of not changing the height of heat dissipation wind channel 6 all
Such as default receiving of the device in heat dissipation wind channel 6.
It is understood that in the present embodiment, when being equipped with default device in heat dissipation wind channel 6, in multiple cooling fins 6,
The height of this multiple cooling fin 16 can be consistent, to form open sub- heat dissipation wind channel in enclosed heat dissipation wind channel 6, or
The height of person, this multiple cooling fin 16 can not also be consistent, can be in enclosed radiation air under the cooperation of default device
Enclosed sub- heat dissipation wind channel is formed in road 6, is not specifically limited herein.
2, multiple heat dissipations 16 can be located at the first radiating piece 1 close to the side of heat dissipation wind channel 6, the height of multiple cooling fins 6
The height of heat dissipation wind channel 6 can be equal to or less than.
Illustratively, when the second radiating piece 2 when heat collection body and heat conductor as heating device 7, first
Side of the radiating piece 1 towards heat dissipation wind channel 6 can be equipped with multiple cooling fins 16, this multiple cooling fin 16 can be in the first radiating piece
1 side is arranged according to corresponding interval, to form multiple sub- heat dissipation wind channels.
Wherein, on the one hand, the height of multiple cooling fins 16 can be equal to the height of heat dissipation wind channel 6, in the first heat dissipation
When part 1 is connect with the second radiating piece 2, enclosed sub- heat dissipation wind channel can be formed;On the other hand, the height of multiple cooling fins 16
The height of heat dissipation wind channel 6 is might be less that, to which when the first radiating piece 1 is connect with the second radiating piece 2, closing can be formed in
While forming sub- heat dissipation wind channel in the heat dissipation wind channel 6 of formula, it can be realized on the basis of not changing the height of heat dissipation wind channel 6 all
Such as default receiving of the device in heat dissipation wind channel 6.
It is understood that in the present embodiment, when being equipped with default device in heat dissipation wind channel 6, in multiple cooling fins 6,
The height of this multiple cooling fin 16 can be consistent, to form open sub- heat dissipation wind channel in enclosed heat dissipation wind channel 6, or
The height of person, this multiple cooling fin 16 can not also be consistent, can be in enclosed radiation air under the cooperation of default device
Enclosed sub- heat dissipation wind channel is formed in road 6, is not specifically limited herein.
Optionally, in above two form, when being equipped with default device in heat dissipation wind channel 6, if 2 conduct of the second radiating piece
The heat collection body and heat conductor of heating device 7, may be used the first form, radiate to avoid default device and second
The fitting of part 2 contacts and leads to the heat of heating device 7 to the adverse effect of default device, alternatively, close in the second radiating piece 2
The form that such as support column may be used in the side of heat dissipation wind channel 6 raises bearing height of the default device in heat dissipation wind channel 6.
3, multiple cooling fins 16 may include the first cooling fin and the second cooling fin, and the first cooling fin can be located at first and dissipate
For warmware 1 close to the side of heat dissipation wind channel 6, the second cooling fin can be located at the bottom of 2 inside of the second radiating piece, the first cooling fin and
Second cooling fin can arrange according to preset rules, and the height of the first cooling fin and the second cooling fin can be less than or equal to heat dissipation
The height in air duct 6.
Illustratively, multiple cooling fins 16 may include the first cooling fin and the second cooling fin.Wherein, the first cooling fin exists
First radiating piece, 1 side, the second cooling fin is in 2 side of the second radiating piece, the first cooling fin and the second cooling fin in the first heat dissipation
Part 1, the second radiating piece 2 cooperation under, can form multiple sub- heat dissipation wind channels by corresponding arrangement according to preset rules.
Wherein, the height of the first cooling fin and the second cooling fin can be less than or equal to the height of heat dissipation wind channel 6, and first dissipates
The height of backing can be identical as the height of the second cooling fin, can also be different, meanwhile, it is the height of each first cooling fin, each
The height of a second cooling fin can also be not quite similar.In practical applications, the first cooling fin and the second cooling fin can pass through
It is engaged in enclosed heat dissipation wind channel 6 and forms enclosed sub- heat dissipation wind channel.
Further, in the present embodiment, when being equipped with default device in the heat dissipation wind channel 6, default device can be carried on the
On two cooling fins, contacted with the fitting of the second radiating piece 2 to avoid default device.
It should be noted that in the present embodiment, the first cooling fin and the second cooling fin are formed except through the mode of occlusion
Multiple sub- heat dissipation wind channels other preset rules can arrange according to, for example, the first cooling fin and the second cooling fin can
, can be staggered with the second cooling fin of the first cooling fin of different number and different number with staggered one by one, herein
It is not specifically limited.
It is understood that in the present embodiment, the design method of multiple cooling fins 16 is in addition to above description content, in reality
It in, can also take other form, as long as increasing heat radiation area and heat dissipation effect can be improved, not do herein specific
It limits.
In the above-described embodiments, the first radiating piece 1 and/or the second radiating piece 2 can be including but not limited to aluminium alloy material
Matter, to reinforce heat dissipation effect.
Based on the above-mentioned explanation to radiator structure, the embodiment of the present application also provides a kind of remote control equipments, are had below
Body explanation:
It please refers to Fig.1 to Fig.3, remote control equipment one embodiment includes in the embodiment of the present application:
Shell 17, heating device 7 and radiator structure in shell 17;
Radiator structure is placed on heating device 7;
Shell 17 is equipped with air inlet hole and exhaust vent, and the air inlet 4 of the heat dissipation wind channel 6 of air inlet hole and radiator structure is opposite
It answers, exhaust vent is corresponding with the air outlet 5 of heat dissipation wind channel 6 of radiator structure.
Specifically, the radiator structure illustrated in above-described embodiment can be applied in remote control equipment, which can be with
Including shell 17, wherein for shell 17 as protection shell, inside can be equipped with heating device 7, and radiator structure can then be set to hair
On thermal device 7, air inlet hole and venthole are also provided on shell 17, air inlet hole can be with heat dissipation wind channel in radiator structure 6
Air inlet 4 is corresponding, and exhaust vent then can be corresponding with the air outlet of heat dissipation wind channel in radiator structure 6.
The wind direction as shown in b in Fig. 3 moves towards schematic diagram as a result,:Extraneous air can be by the shell 17 of remote control equipment
Air inlet hole enter, and enter by air inlet hole the air inlet 4 of heat dissipation wind channel 6 in radiator structure, extraneous air is in radiator fan 3
Work under, can be flowed in heat dissipation wind channel 6, radiator structure can be taken away in flow process and is transmitted from heating device 7
Heat, the air outlet 5 of heat dissipation wind channel 6 can be then flowed to heat, then the shell of remote control equipment is expelled to by air outlet 5
It outside 17 exhaust vent, recycles repeatedly, to complete the heat dissipation of heating device 7.
Further, in order to install radiator structure in remote control equipment, illustratively, the second radiating piece 2 in radiator structure
On can be equipped with the 5th mounting portion 18, the 6th mounting portion of the 5th mounting portion 18 of cooperation, the 5th installation can be equipped on shell 17
Portion 18 and the 6th mounting portion can be used on shell 17 installing the second radiating piece 2, to complete radiator structure on shell 17
It is fixedly connected.
Wherein, the 5th mounting portion 18 can be through-hole structure, and the 6th mounting portion can be Screw hole structure.Thus screw is utilized
It is threadedly coupled across the 5th mounting portion 18, and with the 6th mounting portion, being fixedly connected for shell 17 and radiator structure can be reached.
It should be noted that in the present embodiment, the mounting means of radiator structure is actually being answered in addition to the content of above description
In, can also use other manner, such as snap connection, slide fastener connection, adhesive connection, in another example, centre may be used
Component connects, for example, intermediate member can be able to be as the transition piece of shell 17 and radiator structure, the intermediate member
The intermediate member being provided separately, or the subassembly in shell 17 or radiator structure, as a result, correspondingly, the 5th mounting portion
18 and the 6th mounting portion can without design, can also be adjusted correspondingly with different connection types, not do herein
It is specific to limit.
Wherein, in the operational process of remote control equipment, due to circuit board piece can as remote control equipment main fever member,
Then the heating device 7 in the present embodiment can be circuit board piece.
It should be noted that in the present embodiment, heating device 7 is other than it can be circuit board piece shown in legend, in reality
In the application of border, or the device of other fevers in remote control equipment, i.e. radiator structure in the present embodiment can be adapted for
Different heat device in remote control equipment is realized the heat dissipation to different heat device, is not specifically limited herein.
It is understood that when heating device 7 is the circuit board piece of remote control equipment, the surface of heating device 7 can be set
There is shielding case, which can be such as copper material.
It should be noted that in the present embodiment, it is illustrated that in shell 17 be radiator structure assembling shell, in practical application
In, it can also include another shell being adapted to the assembling shell in remote control equipment, to form the shell of remote control equipment, and play
Corresponding shell protective effect.
From the above process it is found that the flow channel of outside air is radiation air in the air admission hole of remote control equipment, radiator structure
The air inlet in road 6, heat dissipation wind channel 6, heat dissipation wind channel 6 air outlet 5 to remote control equipment venthole this closed channel, then
Even if steam, dust etc. into shell 17 air admission hole if will be fallen into from air admission hole to the air inlet 4 of heat dissipation wind channel 6
In heat dissipation wind channel 6, the contact without betiding heating device 7, to be conducive to prevent steam, dust etc. to heater
The adverse effect of part 7 is conducive to protect heating device 7.
On the basis of the above embodiments, referring to Fig. 2, another embodiment of remote control equipment includes in the embodiment of the present application:
Remote control equipment can also include air inlet structure, air inlet structure can be used for coordinating air inlet hole and heat dissipation wind channel 6 into
Air port 4, so that the air inlet 4 for entering gas flow hole and flowing to heat dissipation wind channel 6 from air inlet structure of air inlet hole.
Specifically, when the size of remote control equipment or shape etc. change, possible radiator structure needs are made corresponding
Adjustment then in order to reduce being adaptively adjusted for radiator structure, and improves the suitable of radiator structure and different types of remote control equipment
With property, remote control equipment may include air inlet structure, the air inlet structure can be set to air inlet hole and the heat dissipation wind channel 6 of shell 17 into
Between air port 4, the transition passage of the air inlet 4 to enter heat dissipation wind channel 6 as outside air from the air inlet hole of shell 17.
In practical applications, the dispersion of outside air in order to prevent is further ensured that the closure of radiation processes, air inlet knot
The closed position of structure and the air inlet 4 of heat dissipation wind channel 6 can be equipped with sealing material, to prevent air inlet structure and heat dissipation wind channel 6
The closed position of air inlet 4 there is gap, and lead to steam, dust etc. to fall on heating device 7, in turn result in pair
The adverse effect of heating device 7.
Wherein, the sealing material in the present embodiment can include but is not limited to foam or silica gel pad.
Further, in the present embodiment, in order to effectively stop that the substance in addition to outside air enters in heat dissipation wind channel 6,
Air inlet structure can be equipped with the first filter screen on the side of air inlet hole, which can be existed using such as marine glue
It is fixed, and can be adapted with the air inlet hole on the shell 17 of remote control equipment on air inlet structure.
It is understood that the material of the first filter screen, mesh size, mesh density etc. can be according to realities in the present embodiment
Border needs to carry out corresponding setting and adjustment, this is not specifically limited.
On the basis of the above embodiments, referring to Fig. 2, another embodiment of remote control equipment includes in the embodiment of the present application:
Remote control equipment can also include air exhausting structure, air inlet structure can be used for coordinate heat dissipation wind channel 6 air outlet 5 with into
Air holes, so that the exit flow of the air outlet 5 of heat dissipation wind channel 6 flows to exhaust vent from air exhausting structure.
Specifically, remote control equipment is adaptively adjusted in order to be further reduced radiator structure, and improve radiator structure with
The suitability of different types of remote control equipment, remote control equipment can also further comprise air exhausting structure, which can set
Between the exhaust vent of shell 17 and the air outlet 5 of heat dissipation wind channel 6, it is discharged using the air inlet 4 as heat dissipation gas heat dissipation wind channel 6
To the transition passage of the exhaust vent of shell 17.
Further, in the present embodiment, in order to effectively stop that the substance in addition to outside air enters in heat dissipation wind channel 6,
Air exhausting structure can be equipped with the second filter screen on the side of exhaust vent, which can be existed using such as marine glue
It is fixed, and can be adapted with the exhaust vent on the shell 17 of remote control equipment on air exhausting structure.
It is understood that the material of the second filter screen, mesh size, mesh density etc. can be according to realities in the present embodiment
Border needs to carry out corresponding setting and adjustment, this is not specifically limited.
Further, in the present embodiment, remote control equipment can be equipped with corresponding control area, and user can be with hand-held remote control
Equipment, and the corresponding equipment of remote control equipment is controlled by operating the control area on remote control equipment.In practical applications,
Since heat dissipation wind channel 6 is equipped with the air inlet 4 of cooperation radiator fan 3, and the air inlet 4 and the air inlet on shell 17 in radiator structure
There may be not parallel situations for plane where hole, then the air inlet structure of remote control equipment can be bending structure, and the knot that radiates
The air outlet 5 of heat dissipation wind channel 6 can be parallel with the plane where the exhaust vent on shell 17 in structure, then radiation air in radiator structure
Road 6 can be bending structure close to one end of air outlet 5.The flexible design of the structure of remote control equipment is not only contributed to as a result, more
For importantly, the air inlet hole on shell 17 can be set on the hand of separate user's hand-held remote control device of remote control equipment with exhaust vent
Hold region, with the hand-held region for the shell 17 that is staggered, to when user carries out corresponding operating to remote control equipment, both will not due to
Family hand-held remote control device and cause air inlet hole, exhaust vent blocking, will not be due to carrying the air-flow of heat at exhaust vent
It is discharged and influences the hand-held experience of user, at the same time it can also by designing accordingly so that radiator structure in remote control equipment
Installation site is staggered user to the hand-held region of remote control equipment, to avoid user to the thermal sensation of the installed position of radiator structure
By.
Explanation based on above-described embodiment, the remote control equipment in the present embodiment can be for controlling setting for mobile platform
Standby, which can include but is not limited in land, object waterborne or aerial mobile.Optionally, in the present embodiment
Mobile platform can be unmanned vehicle, to reinforce adaptability of the remote control equipment to adverse circumstances of unmanned vehicle.
The embodiment of the present application also provides a kind of unmanned plane suit, unmanned plane suit may include unmanned vehicle sheet
Body can also include the remote control equipment of above description.Wherein, which can be used for manipulating the movement of unmanned vehicle,
And can be used for manipulating unmanned vehicle and execute corresponding function, to be applied to corresponding industry, such as takes photo by plane, surveys and draws, reconnoitres.
Optionally, which can be used for manipulating the unmanned vehicle of agricultural industry, and in agricultural industry, nobody flies
Row device is chiefly used in irrigation, pesticide spraying etc., residing working environment in contrast, general more dusts, more steam, by above-mentioned
The design of remote control equipment, even if such as dust and steam may enter remote control equipment from the air inlet hole or exhaust vent of remote control equipment
When in shell, it will also enter the heat dissipation wind channel 6 in the radiator structure of remote control equipment, to effectively prevent such as steam, ash
Dirt enters in the cavity of shell 17 of remote control equipment, and prevents steam, dust etc. to circuit board piece in remote control equipment
Adverse effect, strengthens the protection to the circuit board piece of remote control equipment.
It is apparent to those skilled in the art that for convenience and simplicity of description, it is each in this specification
Embodiment is described by the way of progressive, and each embodiment focuses on the differences from other embodiments, each
Just to refer each other for identical similar portion between embodiment.
In several embodiments provided herein, it should be understood that above example is only to illustrate the application's
Technical solution, rather than its limitations;Although the application is described in detail with reference to the foregoing embodiments, this field it is common
Technical staff should understand that:It still can be with technical scheme described in the above embodiments is modified, or to wherein
Some technical characteristics carry out equivalent replacement;And these modifications or replacements, it does not separate the essence of the corresponding technical solution this Shen
Please each embodiment technical solution spirit and scope.
Claims (45)
1. a kind of radiator structure, the radiator structure is placed on heating device, which is characterized in that the radiator structure includes:
First radiating piece, the second radiating piece, radiator fan;
First radiating piece and second radiating piece cooperatively form the enclosed radiation air with air inlet and air outlet
Road;
The radiator fan is equipped in the heat dissipation wind channel, the radiator fan is used for the air inlet in the heat dissipation wind channel
The inlet air flow of mouth is expelled to the air outlet.
2. radiator structure according to claim 1, which is characterized in that the heating device is circuit board piece.
3. radiator structure according to claim 1 or 2, which is characterized in that second radiating piece includes side wall construction, institute
The first radiating piece is stated in the side wall construction;
The radiator fan is located at the inside of the side wall construction.
4. radiator structure according to claim 3, which is characterized in that first radiating piece is equipped with the air inlet,
The air flow inlet of the air inlet and the radiator fan is correspondingly arranged.
The radiator fan is located at the closed end of the side wall construction.
5. radiator structure according to claim 4, which is characterized in that the size of the air flow inlet of the radiator fan is little
In the size of the air inlet.
6. radiator structure according to any one of claim 1 to 5, which is characterized in that first radiating piece is equipped with
First mounting portion, second radiating piece are equipped with the second mounting portion for coordinating first mounting portion, first mounting portion
It is used to assemble in the heat dissipation wind channel with second mounting portion and presets device.
7. radiator structure according to claim 6, which is characterized in that first mounting portion is through-hole structure, described the
Two mounting portions are Screw hole structure.
8. the radiator structure described according to claim 6 or 7, which is characterized in that first radiating piece is equipped with hatch frame,
The hatch frame is connect for the default device with external signal.
9. the radiator structure according to any one of claim 6 to 8, which is characterized in that first radiating piece includes the
One heat carrier, first heat carrier are located at the side of hot zone of first radiating piece towards the default device.
10. radiator structure according to claim 9, which is characterized in that the top and bottom of first heat carrier respectively with institute
The hot zone of the side, the default device of stating hot zone of first radiating piece towards the default device fits.
11. radiator structure according to claim 9, which is characterized in that first heat carrier is first radiating piece
First bulge-structure of the side of the hot zone towards the default device, first bulge-structure and the default device
Hot zone is adapted;
First heat carrier is integrally formed with first radiating piece.
12. radiator structure according to claim 9, which is characterized in that first heat carrier is the first heat pipe, described the
One side contacts of one end of one heat pipe and hot zone of first radiating piece towards the default device, first heat pipe
The other end is contacted with the hot zone of the default device.
13. the radiator structure according to any one of claim 6 to 12, which is characterized in that first radiating piece towards
The side of the heat dissipation wind channel is equipped with groove structure compatible with the default device, to be accommodated in the heat dissipation wind channel
The default device.
14. the radiator structure according to any one of claim 6 to 13, which is characterized in that first radiating piece and institute
The non-contact face for stating the hot zone of default device is equipped with the first protective film.
15. the radiator structure according to any one of claim 6 to 14, which is characterized in that the default device is radio frequency
Device.
16. the radiator structure according to any one of claim 1 to 15, which is characterized in that second radiating piece includes
Second heat carrier, second heat carrier are set to the side of the hot zone of second radiating piece towards the heating device.
17. radiator structure according to claim 16, which is characterized in that the top and bottom of second heat carrier respectively with institute
The hot zone of the side, the heating device of stating hot zone of second radiating piece towards the heating device fits.
18. radiator structure according to claim 16, which is characterized in that second heat carrier is second radiating piece
Second bulge-structure of the side of the hot zone towards the heating device, second bulge-structure and the heating device
Hot zone is adapted;
Second heat carrier is integrally formed with second radiating piece.
19. radiator structure according to claim 16, which is characterized in that second heat carrier is the second heat pipe, described
One side contacts of one end of the second heat pipe and the hot zone of second radiating piece towards the heating device, second heat pipe
The other end contacted with the hot zone of the heating device.
20. the radiator structure according to any one of claim 16 to 19, which is characterized in that second radiating piece and institute
The non-contact face for stating the hot zone of heating device is equipped with the second protective film.
21. the radiator structure according to any one of claim 16 to 20, which is characterized in that the face of second radiating piece
It is additionally provided with buffer structure to the side of the heating device, the buffer structure to the component on the heating device for carrying
For slowing down effect.
22. the radiator structure according to any one of claim 1 to 21, which is characterized in that be equipped in the heat dissipation wind channel
Multiple cooling fins, to form multiple sub- heat dissipation wind channels in the heat dissipation wind channel.
23. radiator structure according to claim 22, which is characterized in that each in the multiple cooling fin is passed through
The air stream outlet on the side wall of the radiator fan is through to the air outlet of the heat dissipation wind channel.
24. the radiator structure according to claim 22 or 23, which is characterized in that multiple cooling fins are located at described second
Bottom on the inside of radiating piece, the height of multiple cooling fins are equal to or less than the height of the heat dissipation wind channel.
25. the radiator structure according to claim 22 or 23, which is characterized in that multiple cooling fins are located at described first
For radiating piece close to the side of the heat dissipation wind channel, the height of multiple cooling fins is equal to or less than the height of the heat dissipation wind channel
Degree.
26. the radiator structure according to claim 22 or 23, which is characterized in that multiple cooling fins include the first cooling fin and
Second cooling fin;
First cooling fin is located at first radiating piece close to the side of the heat dissipation wind channel, and second cooling fin is located at
Bottom on the inside of second radiating piece, first cooling fin and second cooling fin are arranged according to preset rules, described
The height of first cooling fin and second cooling fin is less than or equal to the height of the heat dissipation wind channel.
27. radiator structure according to claim 26, which is characterized in that first cooling fin and second cooling fin
The sub- heat dissipation wind channel is formed by occlusion.
28. radiator structure according to claim 26, which is characterized in that preset device when being equipped in the heat dissipation wind channel
When, the default device is carried on second cooling fin,
29. the radiator structure according to any one of claim 1 to 28, which is characterized in that set on first radiating piece
There are third mounting portion, second radiating piece to be equipped with the 4th mounting portion for coordinating the third mounting portion, the third installation
Portion and the 4th mounting portion on second radiating piece for fixing first radiating piece.
30. radiator structure according to claim 29, which is characterized in that the third mounting portion is through-hole structure, described
4th mounting portion is Screw hole structure.
31. according to the radiator structure described in any one of claims 1 to 30, which is characterized in that the radiator structure with it is described
Heat Conduction Material is equipped between the binding face of the hot zone of heating device.
32. radiator structure according to claim 31, which is characterized in that the Heat Conduction Material includes silica gel thermally conductive sheet or leads
Hot cream.
33. according to the radiator structure described in any one of claims 1 to 32, which is characterized in that first radiating piece and/or
Second radiating piece is aluminum alloy material.
34. a kind of remote control equipment, the remote control equipment includes shell and the heating device that is disposed in the housing, and feature exists
In the remote control equipment further includes:
Radiator structure as described in any one of claims 1 to 33;
The radiator structure is placed on the heating device;
The shell is equipped with air inlet hole and exhaust vent, the air inlet phase of the air inlet hole and heat dissipation wind channel in the radiator structure
Corresponding, the exhaust vent is corresponding with the air outlet of heat dissipation wind channel in the radiator structure.
35. remote control equipment according to claim 34, which is characterized in that the heating device is circuit board piece.
36. the remote control equipment according to claim 34 or 35, which is characterized in that the remote control equipment further includes air inlet knot
Structure, the air inlet structure is used to coordinate the air inlet of the air inlet hole and the heat dissipation wind channel, so that the air inlet hole enters
Gas flow hole flows to the air inlet of the heat dissipation wind channel from the air inlet structure.
37. remote control equipment according to claim 36, which is characterized in that the air inlet structure and the heat dissipation wind channel into
The closed position in air port is equipped with sealing material.
38. according to the remote control equipment described in claim 37, which is characterized in that the sealing material includes foam or silicagel pad
Piece.
39. the remote control equipment according to any one of claim 36 to 38, which is characterized in that the air inlet structure is close to institute
The side for stating air inlet hole is equipped with the first filter screen.
40. according to the remote control equipment described in claim 36 to 39, which is characterized in that the heat dissipation wind channel is close to the air outlet
One end and the air inlet structure be respectively bending structure, with the air inlet hole that is staggered, the exhaust vent and the shell
Hand-held region.
41. the remote control equipment according to any one of claim 34 to 40, which is characterized in that the remote control equipment further includes
Air exhausting structure, the air exhausting structure is used to coordinate the air outlet of the heat dissipation wind channel and the exhaust vent, so that the heat dissipation
The exit flow of the air outlet in air duct flows to the exhaust vent from the air exhausting structure.
42. remote control equipment according to claim 41, which is characterized in that the air exhausting structure is close to the side of the exhaust vent
Face is equipped with the second filter screen.
43. the remote control equipment according to any one of claim 34 to 42, the remote control equipment is mobile flat for controlling
The equipment of platform.
44. remote control equipment according to claim 43, the mobile platform is unmanned vehicle.
45. a kind of unmanned plane suit, the unmanned plane suit includes unmanned vehicle ontology, which is characterized in that the unmanned plane
Suit further includes the remote control equipment as described in any one of claim 34 to 44.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/CN2017/117161 WO2019119266A1 (en) | 2017-12-19 | 2017-12-19 | Heat dissipation structure, remote control device, and unmanned aerial vehicle kit |
Publications (1)
Publication Number | Publication Date |
---|---|
CN108702855A true CN108702855A (en) | 2018-10-23 |
Family
ID=63844096
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201780007041.5A Pending CN108702855A (en) | 2017-12-19 | 2017-12-19 | A kind of radiator structure, remote control equipment, unmanned plane suit |
Country Status (2)
Country | Link |
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CN (1) | CN108702855A (en) |
WO (1) | WO2019119266A1 (en) |
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