CN101738106A - Radiation unit of composite radiator - Google Patents
Radiation unit of composite radiator Download PDFInfo
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- CN101738106A CN101738106A CN200910155188A CN200910155188A CN101738106A CN 101738106 A CN101738106 A CN 101738106A CN 200910155188 A CN200910155188 A CN 200910155188A CN 200910155188 A CN200910155188 A CN 200910155188A CN 101738106 A CN101738106 A CN 101738106A
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- fixed part
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Abstract
The invention relates to a radiation unit of a composite radiator, which comprises a cylindrical conduit (2) which is connected between and communicated with an upper water chamber (1) and a lower water chamber (3), radiation fins (4) fixed on the outside surface of the cylindrical conduit (2) and a panel (5) arranged on the surface of the radiation fins (4), wherein the radiation fins (4) and the panel (5) forms a vertically through air duct. The radiation unit is characterized by also comprising an air deflecting plate which is arranged on the upper water chamber (1) and can deflect hot air flowing in the air duct toward the upper water chamber (1) at a certain angle from a vertical direction so as to exhaust the hot air. Compared with the prior art, the radiation unit has the advantage that the design of the air deflecting plate of the invention allows the hot air flowing in the air duct toward the upper water chamber to be exhausted in a direction at an angle to the vertical direction rather than to be directly exhausted in a vertically upward direction, so that the hot air does not blacken the roof of a heating room.
Description
Technical field
The present invention relates to a kind of heat-sink unit of radiator, particularly relate to a kind of heat-sink unit of aluminium cabane type radiator.
Background technology
China is vast in territory, northern area autumn and winter season is very cold, along with improving constantly of reform exploitation and living standards of the people, people require also more and more high to the facility of living, heating installation is the facility that northern wide geographic area room need be equipped with, heating installation in the past generally all adopts casting to form, but this class heating installation is because employing cast iron is material, heat dissipation capacity is little, and heavy, not attractive in appearance, and considers heating water quality present situation, so, people like using composite copper aluminium radiator more, and it is in light weight, profile and heat dissipation capacity are better, is applicable to any water quality.For example notification number is that (patent No. is: Chinese utility model patent 97201205.2) " closed convection wing-tubular radiator " has just disclosed a kind of closed convection wing-tubular radiator to CN 2300073Y, it comprises two Inlet and outlet water transverse tubes up and down, the some perpendicular square tubes of heat radiations at a distance of certain intervals that are connected with last lower transverse tubule, also are communicated with, have pipe plug on the perpendicular square tube, be provided with the heat-dissipating fin that is connected with perpendicular square tube between the perpendicular square tube, connect panel respectively before and after the perpendicular square tube, constitute a closed convection device thus with stack effect; And the decorative panel of position, last lower transverse tubule top and the bottom is provided with ventilating opening.The radiator of similar structures is that (patent No. is CN02213254.6: steel aluminium cabane type radiator 02213254.6) as notification number also, it comprises upper tank, lower header, is connected in the pillar conduit between the upper and lower hydroecium and is fixed on the supravasal heat-dissipating fin of pillar, heat-dissipating fin is the closed wind guide tank of straight formula radiation fins and up/down perforation, ventilator cowling covers on respectively on upper tank and the lower header, and it is provided with air vent and closed wind guide tank connects.
No matter be the radiator of the sort of structure, the hot-air in the closed wind guide tank all is directly up to discharge, and this mode is easy to heating room top sooting caused comfortable poor, the problem such as heat dissipation capacity is low of environmental pollution and heating.
Summary of the invention
Technical problem to be solved by this invention is the heat-sink unit that a kind of combined radiator is provided at above-mentioned prior art, utilize radiator that this heat-sink unit makes in use hot gas can directly not discharge and sooting heating roof portion straight up.
The present invention solves the problems of the technologies described above the technical scheme that is adopted: the heat-sink unit of this combined radiator, comprise and being connected between upper tank and the lower header, and the pillar conduit that is communicated with upper tank and lower header, be fixed on the fin on the pillar catheter outer surface, be arranged on the panel of fin surface, fin and panel are formed the wind guide tank of up/down perforation, it is characterized in that: comprise that also one is arranged on the described upper tank, can be between described wind guide tank with circulation, and the hot gas guiding that flows to described upper tank direction departs from the guide vane that the vertical direction certain angle is discharged.
The structure of described guide vane has multiple, and wherein a kind of structure is: this guide vane comprises a body, this body tool first fixed part, second fixed part and the middle interconnecting piece that connects first fixed part, second fixed part; Described first fixed part is an arc-like sheet, this arc-like sheet have that an energy is fixed with described pillar catheter outer surface or with the fixing free end of described fin; Described middle interconnecting piece has a cavity volume that described upper tank outer wall can be held within it; Described second fixed part is plate always, this straight plate have one can with the inboard fixing free end of described panel.
The top of described fin is provided with first draw-in groove with the position that described pillar catheter outer surface is connected, and the free end of the arc-like sheet of described first fixed part can snap in described first draw-in groove.
The free end of the straight plate of described second fixed part has second draw-in groove that can allow described panel snap in.
The another kind of structure of described guide vane is: this guide vane comprises a body, this body tool first fixed part, second fixed part and the middle interconnecting piece that connects first fixed part, second fixed part; Described first fixed part comprises vertical link and the last arc-like sheet and the arc lower sheet that are fixed on the vertical link, described vertical link have one can with the inboard fixing free end of described panel, described arc lower sheet have that an energy is fixed with described pillar catheter outer surface or with the fixing free end of described fin; Described middle interconnecting piece has a cavity volume that described upper tank outer wall can be held within it; Described second fixed part is plate always, this straight plate have one can with the inboard fixing free end of described panel.
The free end of the straight plate of described second fixed part has the 3rd draw-in groove that can allow described panel snap in.
The top of described fin is provided with the 4th draw-in groove with the position that described pillar catheter outer surface is connected, and the free end of the arc lower sheet of described first fixed part can snap in described the 4th draw-in groove.
Described lower header is provided with the air intake sheet, this air intake sheet comprises two clamping parts, one of them clamping part is an arc-like sheet, this arc-like sheet have that an energy is fixed with described pillar catheter outer surface or with the fixing free end of described fin, another clamping part has a cavity volume that described lower header outer wall can be held within it.
Described lower header is provided with the modification sheet, this modification sheet comprises a clamping part and the flat plate that links to each other with this clamping part, described clamping part has a cavity volume that described lower header outer wall can be held within it, and described flat plate has an energy and the inboard fixing free end of described panel.
The bottom of described fin is provided with the 5th draw-in groove with the position that described pillar catheter outer surface is connected, and the free end of the flat plate of described modification sheet can snap in described the 5th draw-in groove.
Compared with prior art, the invention has the advantages that: since be provided with on the upper tank of radiator heat-dissipation unit can with circulation between the described wind guide tank and flow to described the hot gas guiding of horizontal water channel direction depart from the guide vane that the vertical direction certain angle is discharged, radiator in use, circulation between wind guide tank and the hot gas that flows to the upper tank direction can directly vertically not discharge up, discharge but depart from the vertical direction certain angle, can sooting heating roof portion; And the bottom is provided with the air intake sheet, improves cold-hot air convection speed, increases product the key technical indexes heat dissipation capacity; Improve people's aesthetic requirement.
Description of drawings
Fig. 1 is the perspective view after the assembling of the heat-sink unit of combined radiator in the embodiment of the invention one;
Fig. 2 is the perspective view of the guide vane of the heat-sink unit of combined radiator in the embodiment of the invention one;
Fig. 3 is the perspective view of air intake sheet of the heat-sink unit of combined radiator in the embodiment of the invention one;
Fig. 4 is the preceding perspective view of heat-sink unit assembling of combined radiator in the embodiment of the invention one;
Fig. 5 is the preceding side view of heat-sink unit assembling of combined radiator in the embodiment of the invention one;
Fig. 6 is the perspective view of the radiator made by the heat-sink unit of combined radiator in the embodiment of the invention one;
Fig. 7 is the perspective view after the assembling of the heat-sink unit of combined radiator in the embodiment of the invention two;
Fig. 8 is the perspective view of the guide vane of the heat-sink unit of combined radiator in the embodiment of the invention two;
Fig. 9 is the perspective view of modification sheet of the heat-sink unit of combined radiator in the embodiment of the invention two;
Figure 10 is the preceding perspective view of heat-sink unit assembling of combined radiator in the embodiment of the invention two;
Figure 11 is the preceding side view of heat-sink unit assembling of combined radiator in the embodiment of the invention two;
Figure 12 is the perspective view of the radiator made by the heat-sink unit of combined radiator in the embodiment of the invention two;
The specific embodiment
Embodiment describes in further detail the present invention below in conjunction with accompanying drawing.
Embodiment one:
See also Fig. 1~shown in Figure 5, the heat-sink unit of this combined radiator, comprise and be connected between upper tank 1 and the lower header 3 and the pillar conduit 2 that is communicated with upper tank 1 and lower header 3, here, upper tank 1, pillar conduit 2 and lower header 3 are pipe fitting, upper tank 1 and lower header 3 horizontally sets, and pillar conduit 2 vertically is provided with, upper tank 1 and lower header 3 preferably adopt SSCr or resistant to elevated temperatures plastic conduit, and pillar conduit 2 preferably adopts thermal conductivity pipe fitting preferably; All be fixed with fin 4 before and after pillar conduit 2 outer surfaces, the surface of front and back fin 4 connects panel 5, fin 4 and panel 5 formed the wind guide tank of up/down perforations, upper tank 1 be provided with can with circulation between wind guide tank and the hot gas guiding that flows to upper tank 1 direction depart from the guide vane that the vertical direction certain angle is discharged.
This guide vane comprises a body 6A, this body 6A tool first fixed part 61A, the second fixed part 62A and the middle interconnecting piece 63A that connects the first fixed part 61A, the second fixed part 62A; The described first fixed part 61A is an arc-like sheet, this arc-like sheet 61A have that an energy is fixed with pillar conduit 2 outer surfaces or with the fixing free end of described fin 4; In order to reach better radiating effect, the free end that the position that the top of fin 4 is connected with pillar catheter outer surface 2 is provided with the arc-like sheet of first draw-in groove, 41, the first fixed part 61A then inserts or snaps in described first draw-in groove 41; Referring to shown in Figure 5; Described middle interconnecting piece 63A lower surface is bending, and is formed with a cavity volume that the pipe fitting outer wall of upper tank can just be held within it; The described second fixed part 62A is roughly plate always, this straight plate have one can with the inboard fixing free end of described panel, this free end has second a draw-in groove 621A that can allow described panel 5 snap in.Guide vane can be by the direct extrusion modling of aluminium section bar, and guide vane is inserted the pipe fitting upper tank of horizontally set, forms the hot-air air guide hole with fin and panel then.
In the present embodiment, then be provided with air intake sheet 7 on the lower header 3, this air intake sheet 7 comprises two clamping parts, one of them clamping part 71 is an arc-like sheet, this arc-like sheet have that an energy is fixed with described pillar conduit 2 outer surfaces or with the fixing free end of described fin, and the position that the bottom of described fin 4 is connected with pillar conduit 2 outer surfaces is provided with the 5th draw-in groove 45, and the free end of the arc-like sheet of described clamping part 71 can snap in the 5th draw-in groove 45.The upper surface of another clamping part 72 is bending, and is formed with a cavity volume that the pipe fitting outer wall of lower header can just be held within it.Air intake sheet 7 also adopts the aluminium section bar extrusion modling, directly is inserted on the pipe fitting lower header of horizontally set, forms the cold air air inlet with fin, panel then.
Like this, by the side-by-side combined radiator of making of a plurality of present embodiment radiator units, referring to shown in Figure 6, the hot-air air guide hole on its top and the cold air air inlet of bottom, increase cold and hot air mass flow and flow velocity, improve heat dissipation capacity and heating comfortableness, and can not cause problem such as heating room top black pollution.
A kind of distortion as present embodiment, the top of the second fixed part 62A also can make an arcuate structure or with vertical direction angled-off bending structure, and middle interconnecting piece 63A goes up near also offering an air vent 631 in the position of the second fixed part 62A, referring to shown in Figure 2, the hot-air that comes out from this air vent, after the guiding through the arcuate structure on the top of the second fixed part 62A or bending structure, also the hot-air guiding can be departed from the vertical direction certain angle and discharge.
Certainly; in the present embodiment; the structure of the first fixed part 61A is not limited to arc-like sheet; also can be one with vertical direction depart from the tilted-putted straight plate of certain angle; it also can be bent sheet; as long as the guiding of the hot-air in the wind guide tank can be departed from the structure that the vertical direction certain angle is discharged, be within the patent protection of the present invention.
Embodiment two:
Referring to Fig. 6~shown in Figure 11, different with embodiment one is the structure of guide vane, in the present embodiment, guide vane comprises a body 6B, this body 6B tool first fixed part, the second fixed part 62B and the middle interconnecting piece 63B that connects first fixed part, the second fixed part 62B; Described first fixed part comprises vertical link 611B and the last arc-like sheet 612B and the arc lower sheet 613B that are fixed on the vertical link 611B, described vertical link 611B have one can with described panel 5 inboard fixing free ends, described arc lower sheet 613B have that an energy is fixed with described pillar catheter outer surface or with the fixing free end of described fin; The top of described fin 4 is provided with the 4th draw-in groove 44 with the position that described pillar conduit 2 outer surfaces are connected, and the free end of the arc lower sheet 613B of the described first fixed part 61B can snap in or insert in described the 4th draw-in groove 44.The lower surface of described middle interconnecting piece 63B is bending, and is formed with a cavity volume that the pipe fitting outer wall of upper tank 1 can just be held within it; The outer wall of the described second fixed part 62B is for tabular always, the bottom of this second fixed part 62B have one can with the inboard fixing free end of described panel, this free end has the 3rd a draw-in groove 621B that can allow described panel 5 snap in.This guide vane can be by the direct extrusion modling of aluminium section bar, and guide vane is inserted the pipe fitting upper tank of horizontally set, forms the hot-air air guide hole with fin and panel then.
In the present embodiment, lower header 3 is not provided with the air intake sheet, modify sheet 8 but be provided with, this modification sheet 8 comprises a clamping part 82 and the flat plate 81 that links to each other with this clamping part, described clamping part 82 has a cavity volume that described lower header 2 outer walls can be held within it, flat plate 81 has an energy and the inboard fixing free end of described panel, the bottom of fin 4 is provided with the 5th draw-in groove 45 with the position that described pillar conduit 2 outer surfaces are connected, and the free end of the flat plate 81 of described modification sheet 8 can snap in or insert in described the 5th draw-in groove 45.This modifies sheet can use the aluminium section bar extrusion modling, inserts the pipe fitting lower header of horizontally set, forms an almost plane with panel, forms European Aluminium Radiator profile in conjunction with guide vane, meets people's aesthetic requirement.
By the side-by-side combined radiator of making of a plurality of present embodiment radiator units, referring to shown in Figure 12.
Claims (10)
1. the heat-sink unit of a combined radiator, comprise and being connected between upper tank (1) and the lower header (3), and the pillar conduit (2) that is communicated with upper tank (1) and lower header (3), be fixed on the fin (4) on pillar conduit (2) outer surface, be arranged on the panel (5) on fin (4) surface, fin (4) and panel (5) are formed the wind guide tank of up/down perforation, it is characterized in that: comprise that also one is arranged on the described upper tank (1), can be between described wind guide tank with circulation, and the hot gas guiding that flows to described upper tank (1) direction departs from the guide vane that the vertical direction certain angle is discharged.
2. the heat-sink unit of combined radiator according to claim 1, it is characterized in that: described guide vane comprises a body, this body tool first fixed part, second fixed part and the middle interconnecting piece that connects first fixed part, second fixed part; Described first fixed part is an arc-like sheet, this arc-like sheet have that an energy is fixed with described pillar catheter outer surface or with the fixing free end of described fin; Described middle interconnecting piece has a cavity volume that described upper tank outer wall can be held within it; Described second fixed part is plate always, this straight plate have one can with the inboard fixing free end of described panel.
3. the heat-sink unit of radiator according to claim 2, it is characterized in that: the top of described fin is provided with first draw-in groove with the position that described pillar catheter outer surface is connected, and the free end of the arc-like sheet of described first fixed part can snap in described first draw-in groove.
4. the heat-sink unit of combined radiator according to claim 2, it is characterized in that: the free end of the straight plate of described second fixed part has second draw-in groove that can allow described panel (5) snap in.
5. the heat-sink unit of combined radiator according to claim 1, it is characterized in that: described guide vane comprises a body, this body tool first fixed part, second fixed part and the middle interconnecting piece that connects first fixed part, second fixed part; Described first fixed part comprises vertical link and the last arc-like sheet and the arc lower sheet that are fixed on the vertical link, described vertical link have one can with the inboard fixing free end of described panel, described arc lower sheet have that an energy is fixed with described pillar catheter outer surface or with the fixing free end of described fin; Described middle interconnecting piece has a cavity volume that described upper tank (1) outer wall can be held within it; Described second fixed part is plate always, this straight plate have one can with the inboard fixing free end of described panel.
6. the heat-sink unit of combined radiator according to claim 5, it is characterized in that: the free end of the straight plate of described second fixed part has the 3rd draw-in groove that can allow described panel (5) snap in.
7. the heat-sink unit of combined radiator according to claim 5, it is characterized in that: the top of described fin is provided with the 4th draw-in groove with the position that described pillar catheter outer surface is connected, and the free end of the arc lower sheet of described first fixed part can snap in described the 4th draw-in groove.
8. according to the heat-sink unit of any described combined radiator of claim in the claim 1~7, it is characterized in that: described lower header (3) is provided with the air intake sheet, this air intake sheet comprises two clamping parts, one of them clamping part is an arc-like sheet, this arc-like sheet have that an energy is fixed with described pillar catheter outer surface or with the fixing free end of described fin, another clamping part has a cavity volume that described lower header (2) outer wall can be held within it.
9. according to the heat-sink unit of any described combined radiator of claim in the claim 1~7, it is characterized in that: described lower header (3) is provided with the modification sheet, this modification sheet comprises a clamping part and the flat plate that links to each other with this clamping part, described clamping part has a cavity volume that described lower header (2) outer wall can be held within it, and described flat plate has an energy and the inboard fixing free end of described panel.
10. the heat-sink unit of combined radiator according to claim 9, it is characterized in that: the bottom of described fin is provided with the 5th draw-in groove with the position that described pillar catheter outer surface is connected, and the free end of the flat plate of described modification sheet can snap in described the 5th draw-in groove.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910155188A CN101738106A (en) | 2009-12-03 | 2009-12-03 | Radiation unit of composite radiator |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910155188A CN101738106A (en) | 2009-12-03 | 2009-12-03 | Radiation unit of composite radiator |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN101738106A true CN101738106A (en) | 2010-06-16 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN200910155188A Pending CN101738106A (en) | 2009-12-03 | 2009-12-03 | Radiation unit of composite radiator |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN101738106A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105021062A (en) * | 2014-04-29 | 2015-11-04 | 森德(中国)暖通设备有限公司 | Radiator |
| CN113899038A (en) * | 2021-10-08 | 2022-01-07 | 湖南尊丰机电科技有限公司 | Solar building heating ventilation air conditioning device and system thereof |
-
2009
- 2009-12-03 CN CN200910155188A patent/CN101738106A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105021062A (en) * | 2014-04-29 | 2015-11-04 | 森德(中国)暖通设备有限公司 | Radiator |
| CN113899038A (en) * | 2021-10-08 | 2022-01-07 | 湖南尊丰机电科技有限公司 | Solar building heating ventilation air conditioning device and system thereof |
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Open date: 20100616 |