CN204757239U - Radiation heat transfer board subassembly - Google Patents

Abstract

An embodiment of the utility model discloses a radiation heat transfer board subassembly, including decorative board, dustcoat and heat exchanger, heat exchanger arrange in inside the decorative board, the dustcoat arrange in the open end of decorative board, the dustcoat is the stereoplasm dustcoat, just the dustcoat back to one side surface coating of decorative board has the reflector layer. The utility model provides a radiation heat transfer board subassembly, with dustcoat design for the stereoplasm dustcoat, with soft materials such as no dustcoat among the prior art or non -woven fabrics, its appearance is more pleasing to the eye, has strengthened structural strength, consequently avoids transporting the damage in the installation, the durability is good, has reduced the maintenance frequency.

Description

A kind of radiation heat transfer board component

Technical field

The utility model relates to radiant panel technical field of heat exchange, more particularly, relates to a kind of radiation heat transfer board component.

Background technology

Most of air-conditioning system of the prior art is using the Transfer Medium of air as heat.But air conditioning energy consumption is higher, human sense of comfort is poor, and is unfavorable for getting rid of the pollutant in room air, and therefore radiant panel heat transfer technology arises at the historic moment.

Existing radiation heat transfer board component comprises metal radiant panel (i.e. decoration panel), heat exchanger components and outer cover.Heat exchanger components is made up of heat exchange pedestal and heat exchange coil usually, for passing into heat transferring medium in heat exchange coil, be used for heat heat transferring medium mainly contain hot water, steam, combustion gas, fuel oil etc., be used for freeze heat transferring medium mainly cold water, evaporant (freon, liquefied ammonia) etc.

In prior art, outer cover is the soft material such as reflective membrane and reflective fabric, and the one side of outer cover decoration panel is dorsad reflective surface.Soft material generally insufficient strength, transport installation process is fragile, and durability is bad, adds later period maintenance expense.

Therefore, how to promote intensity and durability, avoid transporting the damage in installation process, reduce later period maintenance expense, become the technical problem that those skilled in the art are urgently to be resolved hurrily.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of radiation heat transfer board component, to promote intensity and durability, avoids transporting the damage in installation process, reduces later period maintenance expense.

For achieving the above object, the utility model provides following technical scheme:

A kind of radiation heat transfer board component, comprise decoration panel, outer cover and heat exchanger components, it is inner that described heat exchanger components is arranged in described decoration panel, and described outer cover is arranged in the openend of described decoration panel, described outer cover is hard outer cover, and described outer cover is coated with reflector layer back to a side surface of described decoration panel.

Preferably, in above-mentioned radiation heat transfer board component, described heat exchanger components comprises:

Heat exchange pedestal, forms infrared transmission layer between described heat exchange pedestal and described decoration panel;

Heat exchange coil, described heat exchange coil is arranged in the side of described heat exchange seat surface to described outer cover.

Preferably, in above-mentioned radiation heat transfer board component, the welding of described heat exchange coil, bonding or be connected on described heat exchange pedestal.

Preferably, in above-mentioned radiation heat transfer board component, described heat exchange coil is elliptical tube, pipe, D shape pipe or polygon pipe.

Preferably, in above-mentioned radiation heat transfer board component, described heat exchange coil towards described outer cover side Surface coating or be coated with metallic reflective layer.

Preferably, in above-mentioned radiation heat transfer board component, the contact surface periphery of described heat exchange coil and described heat exchange pedestal is coated with heat conduction oil reservoir.

Preferably, in above-mentioned radiation heat transfer board component, described infrared transmission layer can be air layer or vacuum layer, or other infrared rays can pass through material.

Preferably, in above-mentioned radiation heat transfer board component, described heat exchange seat surface is coated with infrared radiating coating to the surface back to described outer cover.

Preferably, in above-mentioned radiation heat transfer board component, the heat-insulation layer be arranged between described outer cover and described heat exchanger components is also comprised.

Preferably, in above-mentioned radiation heat transfer board component, the metallic reflective layer be arranged between described heat-insulation layer and described heat exchanger components is also comprised.

As can be seen from above-mentioned technical scheme, the radiation heat transfer board component that the utility model provides, be hard outer cover by enclosure design, with soft materials such as reflective membrane of the prior art and reflective fabrics, its profile is more attractive in appearance, enhances structural strength, therefore avoids transporting the damage in installation process, good endurance, decreases maintenance frequency.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The explosive view of the radiation heat transfer board component that Fig. 1 provides for the utility model embodiment;

The profile of the radiation heat transfer board component that Fig. 2 provides for the utility model embodiment;

The profile of the radiation heat transfer board component that Fig. 3 provides for another embodiment of the utility model;

Fig. 4 is the utility model profile of radiation heat transfer board component of providing of an embodiment again.

Wherein, 101 is outer cover, and 102 is heat-insulation layer, and 103 is heat exchange pedestal, and 104 is heat exchange coil, and 105 is support member, and 106 is decoration panel, and 107 is infrared transmission layer, and 108 is metallic reflective layer, and 109 is heat conduction oil reservoir, and 110 is heat conduction adhesive-layer.

Detailed description of the invention

Core of the present utility model is to provide a kind of radiation heat transfer board component, to promote intensity and durability, avoids transporting the damage in installation process, reduces later period maintenance expense.

Below, with reference to accompanying drawing, embodiment is described.In addition, the embodiment shown in below does not play any restriction effect to the utility model content described in claim.In addition, the solution that the full content of the formation below represented by embodiment is not limited to as the utility model described in claim is necessary.

Refer to Fig. 1-Fig. 4, the explosive view of the radiation heat transfer board component that Fig. 1 provides for the utility model embodiment; The profile of the radiation heat transfer board component that Fig. 2 provides for the utility model embodiment; The profile of the radiation heat transfer board component that Fig. 3 provides for another embodiment of the utility model; Fig. 4 is the utility model profile of radiation heat transfer board component of providing of an embodiment again.

The radiation heat transfer board component that the utility model embodiment provides comprises decoration panel 106, outer cover 101 and heat exchanger components.Wherein, decoration panel 106 i.e. radiant panel is the part in direct faced chamber, has good outward appearance and enough intensity.The structure of decoration panel 106 can be same as the prior art, be the box like structure of one end open, heat exchanger components is arranged in that decoration panel 106 is inner, and outer cover 101 is arranged in the openend of decoration panel 106, and decoration panel 106 part parallel with outer cover 101 is the part in direct faced chamber.Outer cover 101 is hard outer cover, and outer cover 101 is coated with reflector layer back to a side surface of decoration panel 106.It should be noted that, hard outer cover can be metal housing, also can for the hard outer cover be made up of nonmetallic materials.

The radiation heat transfer board component that the utility model provides, outer cover 101 is designed to hard outer cover, with soft materials such as reflective membrane of the prior art and reflective fabrics, its profile is more attractive in appearance, enhance structural strength, therefore avoid transporting the damage in installation process, good endurance, decreases maintenance frequency.

In the utility model one specific embodiment, heat exchanger components comprises heat exchange pedestal 103 and heat exchange coil 104.Infrared transmission layer 107 is formed between heat exchange pedestal 103 and decoration panel 106, this infrared transmission layer 107 can be the hollow layer that the support member 105 by being arranged between heat exchange pedestal 103 and decoration panel 106 obtains, also can for the infrared transmission layer formed by infrared permeable material.The infrared transmittivity of hollow layer is higher, and thermal radiation effect is more remarkable, can reduce costs, alleviate quality, nor can vary with temperature and deform.

Heat exchange coil 104 is arranged in the side of heat exchange pedestal 103 towards outer cover 101.Heat exchange coil 104 for carrying heat-transfer fluid, with can adopt between heat exchange pedestal 103 bonding, weld, the mode such as fixing clamping is fixed.The good material of heat exchange pedestal 103 prioritizing selection heat conductivility, for carrying out lateral transport by the heat of heat exchange coil 104.

During cooling operating mode, when cooling medium is through heat exchange coil 104, with the heat transfer of heat exchange coil 104, heat exchange pedestal 103, by the radiation heat transfer of heat exchange pedestal 103 with decoration panel 106, decoration panel 106 temperature is reduced, and then carry out heat exchange with indoor airflow, thus reduce heat source temperature, reach the effect of cooling.Similar for thermal condition principle, repeat no more.

Heat exchange coil 104 can weld, bonding or be connected on heat exchange pedestal 103.Heat exchange coil 104 can be elliptical tube, pipe, D shape pipe or polygon pipe.The utility model can adopt different fixed forms for difform heat exchange coil 104.

As shown in Figure 2, if heat exchange coil 104 is pipe, can heat exchange coil 104 be welded on heat exchange pedestal 103, define solder joint, good heat transfer bridge can be formed, make common pipe also can obtain good heat transfer, but because cast is common, can reduce costs.

As shown in Figure 3, equally when heat exchange coil 104 is pipe, also can be connected on heat exchange pedestal 103 by heat exchange coil 104, interface arrangment also can be able to be stand-alone configuration with heat exchange pedestal 103 integral structure.It should be noted that, when heat exchange coil 104 is other shape, during as elliptical tube, D shape pipe and polygon pipe, above-mentioned two kinds of fixed forms can be adopted equally, compared with round tube, the heat exchange area of elliptical tube, D shape pipe and polygon pipe is larger, and heat transfer effect is better.

As shown in Figure 4, when heat exchange coil 104 is polygon pipe, comparatively large with the contact area of heat exchange pedestal 103 owing to managing itself, the viscose glue of good heat conductivity can be adopted to carry out adhesion, and namely heat exchange coil 104 is bonded on heat exchange pedestal 103 by heat conduction adhesive-layer 110.Polygon pipe can be rectangular tube, triangle tube etc.

In the utility model one specific embodiment, heat exchange coil 104 towards outer cover 101 side Surface coating or be coated with metallic reflective layer.Heat exchange coil 104 is also coated with heat conduction oil reservoir 109 with the contact surface periphery of heat exchange pedestal 103, and these two kinds of modes all can promote the heat exchange of heat exchange coil 104 and heat exchange pedestal 103.

In the utility model one specific embodiment, infrared transmission layer 107 is air layer or vacuum layer.If air layer, so heat exchanger components can directly be arranged on support member 105, without the need to doing other process; If vacuum layer, need to seal between heat exchanger components and decoration panel 106, and the middle hollow layer formed can vacuumize.

In the utility model one specific embodiment, heat exchange pedestal 103 is coated with infrared radiating coating towards with the surface back to outer cover 101.Warm-up movement between material and infra-red radiation have inherent close ties, all can emitting electromagnetic wave when material molecule does warm-up movement, and the frequency of material molecule warm-up movement is just in time in infra-red range, so the electromagnetic wave launched is exactly mainly infra-red radiation.Infrared radiating coating can improve the radiation coefficient on heat exchange pedestal 103 surface, effectively will improve diabatic process, reaches energy-conservation object.Black matrix has best radiation characteristic, and can all absorb and launch the radiation of any wavelength at any temperature, therefore infrared radiating coating is black coating.

In the utility model one specific embodiment, the utility model also can comprise the heat-insulation layer 102 be arranged between outer cover 101 and heat exchanger components, heat-insulation layer 102, for reducing to the heat loss through conduction on outer cover 101 direction, can adopt insulating sponge or foaming forming technique to be incubated.

In the utility model one specific embodiment, the utility model also can comprise and is arranged in metallic reflective layer 108 between heat-insulation layer 102 and heat exchanger components, its reflective surface is arranged towards decoration panel 106, when heating condition, reflection heat exchange coil 104 and heat exchange pedestal 103 are to the heat radiation of heat-insulation layer 102, it is laid on the side of the decoration panel dorsad 106 of heat exchange pedestal 103 and covers heat exchange coil 103, and heat exchange coil 104 is folded between heat exchange pedestal 103 and metallic reflective layer 108.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a radiation heat transfer board component, comprise decoration panel (106), outer cover (101) and heat exchanger components, it is inner that described heat exchanger components is arranged in described decoration panel (106), described outer cover (101) is arranged in the openend of described decoration panel (106), it is characterized in that, described outer cover (101) is hard outer cover, and described outer cover (101) is coated with reflector layer back to a side surface of described decoration panel (106).

2. radiation heat transfer board component as claimed in claim 1, it is characterized in that, described heat exchanger components comprises:

Heat exchange pedestal (103), is provided with infrared transmission layer (107) between described heat exchange pedestal (103) and described decoration panel (106);

Heat exchange coil (104), described heat exchange coil (104) is arranged in the side of described heat exchange pedestal (103) towards described outer cover (101).

3. radiation heat transfer board component as claimed in claim 2, is characterized in that, described heat exchange coil (104) welding, bonding or be connected on described heat exchange pedestal (103).

4. radiation heat transfer board component as claimed in claim 2, is characterized in that, described heat exchange coil (104) is elliptical tube, pipe, D shape pipe or polygon pipe.

5. radiation heat transfer board component as claimed in claim 2, is characterized in that, described heat exchange coil (104) towards described outer cover (101) side Surface coating or be coated with metallic reflective layer.

6. radiation heat transfer board component as claimed in claim 2, is characterized in that, described heat exchange coil (104) is coated with heat conduction oil reservoir with the contact surface periphery of described heat exchange pedestal (103).

7. radiation heat transfer board component as claimed in claim 2, it is characterized in that, described infrared transmission layer (107) is air layer or vacuum layer.

8. radiation heat transfer board component as claimed in claim 2, it is characterized in that, described heat exchange pedestal (103) is coated with infrared radiating coating towards with the surface back to described outer cover (101).

9. the radiation heat transfer board component as described in any one of claim 1-8, is characterized in that, also comprises the heat-insulation layer (102) be arranged between described outer cover (101) and described heat exchanger components.

10. radiation heat transfer board component as claimed in claim 9, is characterized in that, also comprise the metallic reflective layer (108) be arranged between described heat-insulation layer (102) and described heat exchanger components.