CN207802671U - Radiating module and household electrical appliance - Google Patents
Radiating module and household electrical appliance Download PDFInfo
- Publication number
- CN207802671U CN207802671U CN201820241428.9U CN201820241428U CN207802671U CN 207802671 U CN207802671 U CN 207802671U CN 201820241428 U CN201820241428 U CN 201820241428U CN 207802671 U CN207802671 U CN 207802671U
- Authority
- CN
- China
- Prior art keywords
- heat
- arc
- radiating
- heat conduction
- passage
- 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.)
- Active
Links
Abstract
The utility model is related to the technical field of heat dissipation of household electrical appliance, a kind of radiating module and household electrical appliance are disclosed.Radiating module includes heat conduction substrate and multiple arcs radiating fin, multiple arcs radiating fin is arranged at intervals on heat conduction substrate and towards identical to form arc passage of heat between each other, the entrance and exit of at least part arc passage of heat is located at the adjacent side of heat conduction substrate, in this way, arc passage of heat can meet the radiating requirements of the air inlet and the outlet mode of angle such as right-angle design well, heat is quickly discharged in time by arc passage of heat conducive to air, considerably enhances heat dissipation effect.Such as, after the radiating module is applied on existing wall hanging monoblock type accumbency frequency conversion air energy heat pump water heater, the outlet air of the side air inlet back side may be implemented in arc passage of heat, improving radiating effect, simultaneously, the cold wind that back side outlet air is blown out when can then work to avoid air energy heat pump is directly blown onto with user, and the user experience is improved.
Description
Technical field
The utility model is related to the technical field of heat dissipation of household electrical appliance, and in particular, to a kind of radiating module and a kind of family
Electrical appliance.
Background technology
Currently, with the promotion of people's quality of the life, household electrical appliance type is more and more, and performance is more and more better.
For example, in order to meet the bathing demand of people, the performance of water heater is continuously improved, for example, in air energy heat pump field, increasingly
More manufacturers is proposed frequency conversion air energy product, to provide better bathing demand.
The compressor that frequency conversion air energy product is driven as a result of intelligent transducer module, in order to ensure intelligent transducer module
Good stability, be generally equipped with heat spreader module, in order to intelligent transducer module electric control gear radiate.Current heat dissipation
Device module includes mainly lateral heat dissipation fin and longitudinal radiating fin, according to installation site difference, usually divulge information wind direction and wing
Moving towards for piece is parallel, in order to fully take away the heat of radiator.
But transversely arranged in this way and longitudinal arrangement radiating fin is for wall hanging monoblock type accumbency frequency conversion air energy heat pump
Be not then for water heater it is very applicable, due to wall hanging monoblock type accumbency frequency conversion air energy heat pump water heater compact overall structure, again
It is typically placed in bathroom, it is contemplated that appearance looks elegant generally then uses side air inlet, the design of rear outlet air, the design master of rear outlet air
If in order to avoid the cold wind blown out when air energy thermal pump work is directly blown onto with user, user experience is caused to decline.Therefore,
It is original since air inlet and the outlet are at 90 degree of right angle outlet air for wall hanging monoblock type accumbency frequency conversion air energy heat pump water heater
Transversely arranged and longitudinal arrangement radiating fin cannot effectively radiate, heat dissipation effect is poor.
Utility model content
The utility model provides a kind of radiating module, and the arc passage of heat of the radiating module can meet angle well
Such as the radiating requirements of the air inlet and the outlet mode of right-angle design, it is by arc passage of heat that heat is quick in time to be conducive to air
Discharge, considerably enhances heat dissipation effect.
To achieve the goals above, the utility model provides a kind of radiating module, including heat conduction substrate and multiple arcs dissipate
Hot fin, wherein multiple arc radiating fins are arranged at intervals on the heat conduction substrate and towards identical with mutual
Between form arc passage of heat, the entrance and exit of at least part arc passage of heat is located at the heat conduction base
The adjacent side of body.
By the technical solution, due to multiple arcs radiating fin be arranged at intervals on heat conduction substrate and towards it is identical with
Arc passage of heat is being formed between each other, and the entrance and exit of at least part arc passage of heat is located at heat conduction base
The adjacent side of body, it is, the adjacent side of heat conduction substrate is at angle such as arranged at right angles, in this way, arc passage of heat
The radiating requirements of the air inlet and the outlet mode of angle such as right-angle design can be met well, pass through arc heat conduction conducive to air
Heat is quickly discharged in time in channel, considerably enhances heat dissipation effect, for example, to be applied to existing wall hanging whole for the radiating module
After on body formula accumbency frequency conversion air energy heat pump water heater, the entrance of arc passage of heat can be with side air inlet, and exporting can then carry on the back
Face outlet air, improving radiating effect, meanwhile, the cold wind that back side outlet air is blown out when can then work to avoid air energy heat pump is directly blown onto
With user, the user experience is improved.
Further, the entrance of the same side of the heat conduction substrate is concordant;
And/or
The outlet of the same side of the heat conduction substrate is concordant.
In addition, on the direction of the concave surface towards the arc radiating fin, the arc length of arc radiating fin from middle part to
Both sides shorten so that multiple entrances are located at two adjacent sides of the heat conduction substrate, and multiple outlets are located at institute
State other two adjacent side of heat conduction substrate.
Further, the entrance and exit of the longest arc passage of heat of arc length is located at the diagonal position of the heat conduction substrate
Place.
Further, using the longest arc passage of heat of arc length as separation, the quantity of the arc passage of heat of inside
More than the quantity of the arc passage of heat in outside.
In addition, being formed there through the arc for being useful for outside on arc radiating fin on the outside of the longest arc passage of heat of arc length
The wind-guiding through-hole of the arc passage of heat on the inside of distinguished and admirable flow direction in shape passage of heat.
Further, the wind-guiding through-hole is in tilted layout, and the air inlet of the wind-guiding through-hole is close to the entrance, institute
The air outlet of wind-guiding through-hole is stated close to the outlet.
In addition, the heat conduction substrate is plate body, multiple arc radiating fins are arranged in the plate face of the plate body.
In addition, the utility model provides a kind of household electrical appliance, the household electrical appliance include electronic control unit, sending out the hot fan and more than
The arbitrary radiating module, wherein the heat conduction substrate of the radiating module is arranged at the sites of heat generation of the electronic control unit,
The distinguished and admirable heat for being generated the electronic control unit by arc passage of heat that the sending out the hot fan operation generates is discharged.
As described above, by multiple arcs passage of heat, the air inlet of angle such as right-angle design can be met well
With the radiating requirements of air-out mode, heat is quickly discharged in time by arc passage of heat conducive to air, is considerably enhanced
Heat dissipation effect.
Further, the household electrical appliance are wall-mounted air energy Teat pump boiler, wherein the sending out the hot fan setting exists
The back of wall-mounted air energy Teat pump boiler, and the entrance is located at the side of wall-mounted air energy Teat pump boiler with side
Portion enters the wind, and the outlet is positioned at the back of wall-mounted air energy Teat pump boiler with back outlet air.
Description of the drawings
Fig. 1 is a kind of radiator structure schematic diagram for household electrical appliance that specific embodiment of the present utility model provides, wherein
Show the radiating module that specific embodiment of the present utility model provides.
Reference sign
1- heat conduction substrates, 2- arc radiating fins, 3- arc passage of heat, 4- entrances, the outlets 5-, 6- wind-guiding through-holes, 7-
Electronic control unit, 8- sending out the hot fan, 9- radiating modules.
Specific implementation mode
Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein
Described specific implementation mode is only used for describing and explaining the present invention, and is not intended to limit the utility model.
Structure as shown in Figure 1, radiating module 9 provided by the utility model include that heat conduction substrate 1 and multiple arcs radiate
Fin 2, wherein heat conduction substrate 1 is used to be mounted on radiating part, and uses the good material of existing heat conductivility such as copper
, and multiple arcs radiating fin 2 is arranged at intervals on heat conduction substrate 1 and (for example concave surface is both facing to a side towards identical
To) to form arc passage of heat 3, the 5 difference position of entrance 4 and outlet of at least part arc passage of heat 3 between each other
In the adjacent side of heat conduction substrate 1.
In the technical solution, due to multiple arcs radiating fin 2 be arranged at intervals on heat conduction substrate 1 and towards it is identical with
Arc passage of heat 3 is being formed between each other, and the entrance 4 of at least part arc passage of heat 3 and outlet 5 are located at and lead
The adjacent side of hot basal body 1, it is, the adjacent side of heat conduction substrate 1 is at angle such as arranged at right angles, in this way, arc is led
The passage of heat 3 can meet the radiating requirements of the air inlet and the outlet mode of angle such as right-angle design well, pass through conducive to air
Heat is quickly discharged arc passage of heat 3 in time, considerably enhances heat dissipation effect, for example, as shown in Figure 1, the radiating mould
After block 9 is applied on existing wall hanging monoblock type accumbency frequency conversion air energy heat pump water heater, the entrance 4 of arc passage of heat 3 can
With side air inlet, outlet 5 then can with back side outlet air, improving radiating effect, meanwhile, back side outlet air then can be to avoid air energy heat pump
The cold wind blown out when work is directly blown onto with user, and the user experience is improved.
Certainly, the arc length of multiple arcs radiating fin 2 can be identical, can not also be identical, this can be according to actual demand
It selects, however, which kind of mode selected, in order to further enhance wind guide and heat dispersion performance, it is preferable that as shown in Figure 1, heat conduction
The entrance 4 of the same side of matrix 1 is concordant;And/or the outlet 5 of the same side of heat conduction substrate 1 is concordant.In this way, concordant enters
Mouth 4 is more convenient for entering the wind, and concordant outlet 5 is more convenient for being discharged, to promote the wind-guiding heat extraction performance of arc passage of heat 3.
In addition, as described above, in a kind of structure type, in graphical interfaces shown in Fig. 1, towards arc radiating fin
On the direction of the concave surface of piece 2, the arc length of arc radiating fin 2 is shortened from middle part to both sides so that multiple entrances 4 are located at heat conduction
Two adjacent sides of matrix 1, than upside and left side as shown in Figure 1, multiple outlets 5 are located at other the two of heat conduction substrate 1
A adjacent side, than downside and right side as shown in Figure 1, in this way, both sides air inlet, the wind-guiding heat extraction of two side air-outs can be formed
Mode improves heat dissipation effect.
Further, in order to further utilize arc passage of heat 3 promoted heat extraction effect, it is preferable that as shown in Figure 1
, the entrance 4 of the longest arc passage of heat of arc length 3 and outlet 5 are located at the diagonal position of heat conduction substrate 1.In this way, can be
The both sides arrangement arc radiating fin 2 as much as possible of the longest arc passage of heat of arc length 3 is to form more arc heat conduction
Channel 3, to further improving radiating effect.
Further, as shown in Figure 1, it is separation, the longest arc of arc length with the longest arc passage of heat of arc length 3
Quantity of the quantity of the arc passage of heat 3 of the inside of shape passage of heat 3 more than the arc passage of heat 3 in outside.In this way, as schemed
In 1 shown in arrow, can be only capable of it is more more arc passage of heat 3 are formed between the adjacent side of heat conduction substrate 1,
To which when sending out the hot fan 8 is run, more arc passage of heat 3 can be convenient for air circulation, improving radiating effect.
In addition, as shown in Figure 1, when sending out the hot fan 8 is run, the arc in the outside of the longest arc passage of heat of arc length 3
Shape passage of heat 3 can also be convenient for air circulation, still, for further improving radiating effect, it is preferable that as shown in Figure 1
, it is logical to be formed there through the arc heat conduction on the outside of being useful on the arc radiating fin 2 in longest 3 outside of arc passage of heat of arc length
The wind-guiding through-hole 6 of the arc passage of heat 3 on the inside of distinguished and admirable flow direction in road 3.In this way, as shown by the arrows in Figure 1, the arc in outside
Circulation in the distinguished and admirable arc passage of heat 3 that can enter inside by wind-guiding through-hole 6 in shape passage of heat 3, it is easier to quilt
The drainage discharge of sending out the hot fan 8.
Certainly, wind-guiding through-hole 6 can be clear opening, still, in order to further be convenient in the arc passage of heat 3 in outside
Air-flow enter in the arc passage of heat 3 of inside, it is preferable that as shown in Figure 1, wind-guiding through-hole 6 is in tilted layout, and leads
The air inlet of wind through-hole 6 is close to entrance 4, and the air outlet of wind-guiding through-hole 6 is close to outlet 5.In this way, the arc passage of heat 3 in outside
When interior air-flow flows, it can take advantage of a situation and be entered in the arc passage of heat 3 of inside along flow direction.
In addition, in the radiating module of the utility model, heat conduction substrate 1 can have multiple structural forms, for example, can be
Cube frame, either for box or for the ease of being bonded heating part, the heat generated is discharged as much as possible,
Heat conduction substrate 1 can be plate body, and multiple arcs radiating fin 2 is arranged in the plate face of plate body.
It is as shown in Figure 1 in addition, the utility model provides a kind of household electrical appliance, the household electrical appliance include electronic control unit 7,
Radiating module 9 described in sending out the hot fan 8 and any of the above, wherein the heat conduction substrate 1 of radiating module 9 is arranged in electronic control unit 7
At sites of heat generation, the distinguished and admirable heat for being generated electronic control unit by arc passage of heat 3 that the operation of sending out the hot fan 8 generates is discharged.
In this way, as above, by multiple arcs passage of heat 3, the air inlet and the outlet of angle such as right-angle design can be met well
Heat is quickly discharged in time by arc passage of heat conducive to air for the radiating requirements of mode, considerably enhances heat dissipation effect
Fruit.
Certainly, which can be the heat dissipation of the air inlet and the outlet mode of the design at any required angle such as right angle
The electric appliance of mode, such as refrigerator either air-conditioning or can be wall-mounted air energy Teat pump boiler, wherein sending out the hot fan 8 is set
Set at the back of wall-mounted air energy Teat pump boiler, and entrance 4 be located at the side of wall-mounted air energy Teat pump boiler with
Side is entered the wind, and outlet 5 is located at the back of wall-mounted air energy Teat pump boiler with back outlet air.In this way, arc passage of heat 3
Entrance 4 can with side air inlet, export 5 then can with back side outlet air, improving radiating effect, meanwhile, back side outlet air then can be to avoid sky
The cold wind that gas energy heat pump is blown out when working is directly blown onto with user, and the user experience is improved.
Preferred embodiments of the present invention, still, the utility model and unlimited are described in detail above in association with attached drawing
In this.In the range of the technology design of the utility model, a variety of simple variants can be carried out to the technical solution of the utility model,
It is combined in any suitable manner including each particular technique feature.In order to avoid unnecessary repetition, the utility model
Various combinations of possible ways are no longer separately illustrated.But these simple variants and combination equally should be considered as the utility model institute
Disclosure belongs to the scope of protection of the utility model.
Claims (10)
1. a kind of radiating module, which is characterized in that including heat conduction substrate (1) and multiple arcs radiating fin (2), wherein multiple
The arc radiating fin (2) is arranged at intervals on the heat conduction substrate (1) and towards identical to form arc between each other
Shape passage of heat (3), the entrance (4) of at least part arc passage of heat (3) and outlet (5) are located at the heat conduction
The adjacent side of matrix (1).
2. radiating module according to claim 1, which is characterized in that the same side of the heat conduction substrate (1) it is described
Entrance (4) is concordant;
And/or
The outlet (5) of the same side of the heat conduction substrate (1) is concordant.
3. radiating module according to claim 1, which is characterized in that in the concave surface towards the arc radiating fin (2)
Direction on, the arc length of arc radiating fin (2) is shortened from middle part to both sides so that multiple entrances (4) are located at described
Two adjacent sides of heat conduction substrate (1), multiple outlets (5) are located at other two sides adjacent of the heat conduction substrate (1)
Portion.
4. radiating module according to claim 3, which is characterized in that the entrance of the longest arc passage of heat (3) of arc length
(4) it is located at the diagonal position of the heat conduction substrate (1) with outlet (5).
5. radiating module according to claim 4, which is characterized in that with the longest arc passage of heat (3) of arc length be point
Boundary's point, the quantity of the arc passage of heat (3) of inside are more than the quantity of the arc passage of heat (3) in outside.
6. radiating module according to claim 3, which is characterized in that on the outside of the longest arc passage of heat (3) of arc length
The arc on the inside of the distinguished and admirable flow direction being useful in the arc passage of heat (3) in outside is formed there through on arc radiating fin (2) to lead
The wind-guiding through-hole (6) of the passage of heat (3).
7. radiating module according to claim 6, which is characterized in that the wind-guiding through-hole (6) is in tilted layout, and described
The air inlet of wind-guiding through-hole (6) is close to the entrance (4), and the air outlet of the wind-guiding through-hole (6) is close to the outlet (5).
8. radiating module according to any one of claims 1-7, which is characterized in that the heat conduction substrate (1) is plate
Body, multiple arc radiating fins (2) are arranged in the plate face of the plate body.
9. a kind of household electrical appliance, which is characterized in that including electronic control unit (7), sending out the hot fan (8) and according in claim 1-8
Radiating module (9) described in any one, wherein
The heat conduction substrate (1) of the radiating module (9) is arranged at the sites of heat generation of the electronic control unit (7), the thermal wind exhausting
The distinguished and admirable heat for being generated the electronic control unit by arc passage of heat (3) that fan (8) operation generates is discharged.
10. household electrical appliance according to claim 9, which is characterized in that the household electrical appliance are wall-mounted air energy heat pump
Water heater, wherein the sending out the hot fan (8) is arranged at the back of wall-mounted air energy Teat pump boiler, and the entrance (4)
It is entered the wind with side positioned at the side of wall-mounted air energy Teat pump boiler, the outlet (5) is located at wall-mounted air energy Heat Pump
The back of hydrophone is with back outlet air.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820241428.9U CN207802671U (en) | 2018-02-09 | 2018-02-09 | Radiating module and household electrical appliance |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820241428.9U CN207802671U (en) | 2018-02-09 | 2018-02-09 | Radiating module and household electrical appliance |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207802671U true CN207802671U (en) | 2018-08-31 |
Family
ID=63276433
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820241428.9U Active CN207802671U (en) | 2018-02-09 | 2018-02-09 | Radiating module and household electrical appliance |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207802671U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109442707A (en) * | 2018-10-31 | 2019-03-08 | 珠海格力电器股份有限公司 | A kind of production method of the radiator of air-conditioner controller, air-conditioning and its radiator |
-
2018
- 2018-02-09 CN CN201820241428.9U patent/CN207802671U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109442707A (en) * | 2018-10-31 | 2019-03-08 | 珠海格力电器股份有限公司 | A kind of production method of the radiator of air-conditioner controller, air-conditioning and its radiator |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105222193B (en) | A kind of lampblack absorber with refrigerating function | |
CN202374619U (en) | Novel heat-exchange communication cabinet | |
CN106839162B (en) | Outdoor unit and air conditioner | |
CN206739467U (en) | Outdoor unit and air conditioner | |
CN105387492B (en) | Micro-wave oven | |
CN105180503A (en) | Semiconductor air conditioning card, cushion, seat and mattress | |
CN207802671U (en) | Radiating module and household electrical appliance | |
CN201146656Y (en) | Device for guiding airflow of inserting box | |
CN103423816A (en) | Outdoor unit of air conditioner and electric box of outdoor unit of air conditioner | |
CN204923550U (en) | Semiconductor air conditioner card and cushion, seat, mattress | |
CN209558628U (en) | Electric-controlled box and air conditioner | |
CN204517671U (en) | A kind of photovoltaic DC-to-AC converter ventilation and heat structure | |
CN209358425U (en) | Frequency converter | |
CN204362482U (en) | Heat abstractor and regulator cubicle | |
CN210050929U (en) | Cooling device for elevator | |
CN208208745U (en) | A kind of radiating subassembly of semiconductor heating element | |
WO2017206240A1 (en) | Embedded-type cooking appliance | |
CN209449143U (en) | A kind of great-power electromagnetic heating control cabinet | |
CN207458487U (en) | A kind of uniform LED display of heat dissipation | |
CN206807966U (en) | A kind of air compressor energy-saving driving all-in-one with high-efficiency heat radiation structure | |
CN207460405U (en) | A kind of underground ring exchanger | |
CN207304354U (en) | A kind of cabinet and frequency converter | |
CN206320864U (en) | air-conditioner outdoor machine electric control box | |
CN209472954U (en) | A kind of efficient radiating apparatus | |
CN205982963U (en) | Projection equipment and projecting system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |