CN203323594U - Radiator - Google Patents

Abstract

The utility model provides a radiator which comprises a radiating structure, wherein the radiating structure is formed by splicing at least two radiating units, and a butt joint structure enabling the two radiating units to be spliced together is arranged between the two adjacent radiating units. According to the radiator, the number of radiating units can be increased or decreased according to the radiating capacity, so that requirements of radiators with different specifications are met, and the radiating units are connected conveniently.

Description

Radiator

Technical field

The utility model relates to a kind of radiator.

Background technology

Steel radiator is arranged at present, and its principal mode is that the double steel plate stitch welding becomes the hollow plate, and centre is welded with the structural members such as sheet metal convection rib again and forms.Because its material is steel, the intermediate countercurrent sheet is soldered the connecing of stack, and it is more poor than monoblock type that its heat passes effect, causes radiating effect poor, and its weight is also heavy, and in water, contained oxygen has corrosion to steel plate.Because its structure light plate is whole, can not manufacture according to the size adjustment of heat dissipation capacity again, can not adapt to many kinds, the manufacture of the radiator of multiple heat dissipation capacity, increased manufacturing cost, and economic benefit is not good.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of radiator, and the number of heat-sink unit body can increase and decrease according to the size of heat dissipation capacity, thereby meets the requirement of different size radiator, easy to connect between the heat-sink unit body.

For solving above-mentioned existing technical problem, the utility model adopts following scheme: radiator, comprise radiator structure, described radiator structure is spliced at least two heat-sink unit bodies, between adjacent two heat-sink unit bodies, is provided with the docking structure for two heat-sink unit bodies are stitched together.

As preferably, described docking structure is two Ka Tai that are located at two card articles of heat-sink unit body one side and are located at another heat-sink unit body one side, and two Ka Tai are clipped between two card articles and the card article end withstands on the step surface of Ka Tai or two card articles are clipped between two card platforms and the card article end withstands on the step surface of Ka Tai.Simple in structure, splicing is convenient.

As preferably, described heat-sink unit body comprises at least one heat-sink unit, and described heat-sink unit comprises a tubing string and be located at the some flanks on the tubing string lateral wall, and described tubing string is communicated with thermal source by connecting line.

As preferably, in the heat-sink unit body between outermost two heat-sink unit bodies, be located at the card article that is positioned at the same side on same heat-sink unit body and be connected by connection strap with Ka Tai.

As preferably, be positioned at the external housing of an opening towards the heat-sink unit body spliced with it that be with of outermost two heat-sink units.

As preferably, described connecting line comprises tube connector and is communicated with the pipe joint of tube connector and tubing string, described pipe joint one end from the tube connector sidepiece stretch in tube connector, the other end is sheathed in tubing string, between described pipe joint and tubing string, is provided with sealing ring.

As preferably, described pipe joint outer wall is provided with the groove I, described pipe string internal wall is positioned at is provided with the groove II with groove I corresponding position, and described sealing ring is embedded between groove I and groove II.

As preferably, also comprise and be trapped among the outer framework of radiator structure, described framework comprises two rectangle frames that connect by the limit plate, one of them rectangle frame is trapped among the radiator structure bottom periphery, another rectangle frame is trapped among the radiator structure top periphery, described rectangle frame is surrounded by header board, rear plate and two side plates, and one of them side plate connects an end of header board and an end, another side plate of rear plate is connected the other end of header board and the other end of rear plate.

As preferably, the rectangle frame that is trapped among the radiator structure top is provided with upper cover plate, and described upper cover plate is provided with some strip through holes, and the rectangle frame that is trapped among the radiator structure bottom is provided with base plate, and described base plate is provided with some strip through holes.Can prevent that personnel from scalding and foreign matter is fallen into.

As preferably, described framework lower sides is provided with that structure is hung in supporting, upper portion side wall is provided with location and hangs structure, or described radiator structure lower sides is provided with and stretches out the outer supporting of framework and hang structure, upper portion side wall and be provided with and stretch out the outer location of framework and hang structure.

As preferably, described radiator structure is aluminum alloy materials.

Beneficial effect:

The radiator that the utility model adopts technique scheme to provide has the following advantages:

1, radiator structure adopts the design of the post wing, and tubing string and flank coordinate, and heat dissipation capacity is larger, better effects if;

2, radiator structure is that some heat-sink unit bodies are spliced, be combined as the radiator of all size profile by heat-sink unit body and connecting line, can be according to the size of heat dissipation capacity, the quantity of increase and decrease heat-sink unit body, can adapt to many kinds, the manufacture of the radiator of multiple heat dissipation capacity;

3, radiator structure is full aluminium manufacture, and heat dissipation capacity is large, quick heating, and convection current and irradiation obtain better, and it is smooth and easy that heating agent is through-flow, and heat utilization rate is high, lightweight, installs simple and easy;

4, external form is plate, and appearance and modeling is beautiful, and brevity and lucidity can coordinate with various decorations.

5, tube connector and pipe joint and tube connector and connecting box are full weldment.

The accompanying drawing explanation

Fig. 1 is horizontal cross of the present utility model;

Fig. 2 is the structural section figure that is positioned at the heat-sink unit body of the leftmost side in the utility model;

The structural section figure that Fig. 3 is the heat-sink unit body in the middle of being positioned in the utility model;

Fig. 4 is the structural section figure that is positioned at the heat-sink unit body of the rightmost side in the utility model

Fig. 5 is front view of the present utility model;

Fig. 6 is left view of the present utility model;

Fig. 7 is top view of the present utility model;

Fig. 8 is vertical cross-sectional of the present utility model.

The specific embodiment

As shown in Fig. 1 to 8, radiator, comprise radiator structure and be trapped among the outer framework of radiator structure, described radiator structure is spliced at least two heat-sink unit bodies, be that five heat-sink unit bodies are spliced successively in the present embodiment, between adjacent two heat-sink unit bodies, be provided with the docking structure for two heat-sink unit bodies are stitched together.Described docking structure is two card platforms 21 that are located at two card articles 20 of heat-sink unit body one side and are located at another heat-sink unit body one side, two card platforms 21 are clipped between two card articles 20 and card article 20 ends withstand on the step surface of card platform 21 or two card articles 20 are clipped between two card platforms 21 and card article 20 ends withstand on the step surface of card platform 21, and preferably two card articles 20 are clipped in two and block between platforms 21 and card article 20 ends withstand on the step surface of card platform 21.Described heat-sink unit body comprises at least one heat-sink unit, and described heat-sink unit comprises a tubing string 19 and be located at the some flanks 18 on tubing string 19 lateral walls, and described tubing string 19 is communicated with thermal source by connecting line.Described flank 18 is the sidepiece that dispersion shape is distributed in tubing string 19.Shown in the present embodiment five heat-sink unit bodies in, the heat-sink unit body of the leftmost side arranges card platform 21 towards middle heat-sink unit body one side, the heat-sink unit body of the rightmost side arranges card article 20 towards middle heat-sink unit body one side, middle heat-sink unit body left side arranges card article 20, right side arranges card platform 21, splicing is convenient, in heat-sink unit body between outermost two heat-sink unit bodies, the card article 20 that is positioned at the same side on same heat-sink unit body is connected by connection strap 22 with Ka Tai 21, be with the housing 23 of an opening towards the heat-sink unit body spliced with it around being positioned at outermost two heat-sink unit bodies, docking structure on it is located at housing 23 openends.Described connecting line comprises tube connector 12 and is communicated with the pipe joint 13 of tube connector 12 and tubing string 19, described pipe joint 13 1 ends from tube connector 12 sidepieces stretch in tube connector 12, the other end is sheathed in tubing string 19.Be provided with sealing ring 14 between described pipe joint 13 and tubing string 19.Described pipe joint 13 outer walls are provided with the groove I, described tubing string 19 inwalls are positioned at is provided with the groove II with groove I corresponding position, described sealing ring 14 is embedded between groove I and groove II, groove I, groove II number can be 1,2 or more, preferably 2, corresponding sealing ring 14 and groove I, groove II number coupling.Described framework comprises two rectangle frames that connect by limit plate 4, one of them rectangle frame is trapped among the radiator structure bottom periphery, another rectangle frame is trapped among the radiator structure top periphery, described rectangle frame is surrounded by header board 6, rear plate 7 and two side plates 9, one of them side plate 9 connects an end of header board 6 and an end, another side plate 9 of rear plate 7 is connected the other end of header board 6 and the other end of rear plate 7, can be fastening with screw 16 during connection, described tube connector 12 penetrates, passes from another side plate 9 from a side plate 9.The rectangle frame that is trapped among the radiator structure top is provided with upper cover plate 5, and described upper cover plate 5 is provided with some strip through holes, and the rectangle frame that is trapped among the radiator structure bottom is provided with base plate, and described base plate is provided with some strip through holes, is convenient to heat radiation.Described heat-sink unit is at least two rows, the public tube connector 12 of every row's heat-sink unit, all tube connectors 12 conflux to connecting box 10, connecting box 10 passes side plate 9 by connection lid 11 and is communicated to thermal source, in the present embodiment, each heat-sink unit part is provided with two heat-sink units, and two heat-sink units on each heat-sink unit part all form a line, like this, the heat-sink unit of radiator structure is two rows, and tube connector 12 is also two.Described framework lower sides is provided with supporting extension structure 17, lower sides is provided with location and hangs structure 24, perhaps described radiator structure lower sides is provided with and stretches out the outer supporting of framework and hang structure 17, lower sides and be provided with and stretch out the outer location of framework and hang structure 24, and structure 17 is hung in supporting, location hangs structure 24 and guarantees that its positions put in place.Described radiator structure is aluminum alloy materials, and good heat dissipation is anticorrosive.

Claims (4)

1. radiator, comprise radiator structure, described radiator structure is spliced at least two heat-sink unit bodies, be provided with the docking structure for two heat-sink unit bodies are stitched together between adjacent two heat-sink unit bodies, it is characterized in that: described docking structure is two Ka Tai (21) that are located at two card articles (20) of heat-sink unit body one side and are located at another heat-sink unit body one side, two Ka Tai (21) are clipped between two card articles (20) and card article (20) end withstands on the step surface of Ka Tai (21) or two card articles (20) are clipped between two Ka Tai (21) and card article (20) end withstands on the step surface of Ka Tai (21), described heat-sink unit body comprises at least one heat-sink unit, described heat-sink unit comprises a tubing string (19) and is located at the some flanks (18) on tubing string (19) lateral wall, described tubing string (19) is communicated with thermal source by connecting line, described flank (18) is the sidepiece that dispersion shape is distributed in tubing string (19), in heat-sink unit body between outermost two heat-sink unit bodies, card article (20) He Katai (21) that is positioned at the same side on same heat-sink unit body connects by connection strap (22), be with the housing (23) of an opening towards the heat-sink unit body spliced with it around being positioned at outermost two heat-sink unit bodies, docking structure on it is located at housing (23) openend.

2. radiator according to claim 1, it is characterized in that: also comprise and be trapped among the outer framework of radiator structure, described framework comprises two rectangle frames that connect by limit plate (4), one of them rectangle frame is trapped among the radiator structure bottom periphery, another rectangle frame is trapped among the radiator structure top periphery, described rectangle frame is by header board (6), rear plate (7) and two side plates (9) surround, one of them side plate (9) connects an end of header board (6) and an end of rear plate (7), another side plate (9) connects the other end of header board (6) and the other end of rear plate (7).

3. radiator according to claim 2, it is characterized in that: the rectangle frame that is trapped among the radiator structure top is provided with upper cover plate (5), described upper cover plate (5) is provided with some strip through holes, and the rectangle frame that is trapped among the radiator structure bottom is provided with base plate, and described base plate is provided with some strip through holes.

4. radiator according to claim 2, it is characterized in that: described framework lower sides is provided with supporting extension structure (17), upper portion side wall is provided with location and hangs structure (24), or described radiator structure lower sides is provided with, and structure (17) is hung in the supporting of stretching out outside framework, upper portion side wall is provided with the location of stretching out outside framework and hangs structure (24).

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