CN216409162U - Radiation tail end for radiation air-conditioning system - Google Patents

Abstract

The utility model provides a radiation tail end for a radiation air-conditioning system, which comprises a keel, a heat insulation layer, an aluminum alloy plate, a radiation coil and a gypsum-based high-performance fiberboard, wherein the heat insulation layer, the aluminum alloy plate and the gypsum-based high-performance fiberboard are sequentially arranged at the bottom of the keel from top to bottom, the radiation coil is positioned between the aluminum alloy plate and the gypsum-based high performance, and the radiation coil is used for conveying a heat exchange medium. The gypsum-based high-performance fiber board adopted by the utility model has high mechanical strength which is 6-8 times that of a common gypsum board, can be directly hung and adhered with other heavier decorative surface layer materials such as a fireproof board and the like, has better fireproof performance and certain decorative effect, can be directly used as a decorative surface layer, and saves the manufacturing cost. The gypsum-based high-performance fiber board has excellent heat conductivity, and when the gypsum-based high-performance fiber board is used as a surface layer, the surface temperature is more uniform than that of a common gypsum board, the heat dissipation effect is better, and the body feeling is more comfortable. And then can promote the performance of radiation board to increase the adaptability under the different environment.

Description

Radiation tail end for radiation air-conditioning system

Technical Field

The utility model relates to the field of radiation air conditioners, in particular to a radiation tail end for a radiation air conditioner system.

Background

With the improvement of the living level of people and the requirement for the comfort of living environment, the radiation air-conditioning system is more and more accepted by the market. Different from traditional convection type air conditioning systems such as wall hanging machines and central air conditioners, the radiation air conditioner mainly depends on heat radiation to exchange heat with an indoor environment, and has the advantages of no wind sensation, no noise, no dead angle and the like. In a radiation air conditioning system, a radiation tip is one of the most important components. Common radiation terminals include a radiation plate, a capillary tube, and a mounting structure, and the radiation plate is divided into a metal radiation plate, a graphite radiation plate, and the like according to the difference of the materials of the surface layer. Among them, gypsum radiation board is also common, and its facing material is ordinary gypsum board.

However, the surface of the common gypsum board cannot be adapted to certain occasions due to the fact that the wall surface modeling and the decorative surface materials are more diverse than the top surface. For example, in public buildings, the wall surface fire-proof plate hanging needs the base layer to have higher hardness and strength, and ordinary gypsum boards can not meet the requirements, and the base layer material is required to be additionally arranged outside the gypsum board surface, so that the thickness of the wall surface is increased, and the heat exchange performance of the radiation plate is also influenced, so that the radiation plate is limited by the strength of the gypsum board, and the traditional gypsum radiation plate is installed and applied on the wall surface.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a radiation tail end for a radiation air-conditioning system, which can improve the performance of a radiation plate so as to increase the adaptability under different environments.

In order to achieve the above purpose, the utility model provides the following technical scheme: the utility model provides a radiation air conditioning system is with radiation end, includes fossil fragments, heat preservation, aluminum alloy plate, radiation coil pipe and gypsum base high performance fiberboard, heat preservation, aluminum alloy plate and gypsum base high performance fiberboard are from last to installing in the fossil fragments bottom down in proper order, radiation coil pipe is located between aluminum alloy plate and the gypsum base high performance, radiation coil pipe is used for carrying heat transfer medium, the heat preservation with the arc groove of a plurality of size homogeneous is spread throughout to the face of aluminum alloy plate contact, aluminum alloy plate with the laminating of arc groove and press forming, installing in the arc groove of radiation coil pipe looks adaptation, gypsum base high performance fiberboard closely laminates with aluminum alloy plate.

Further, in the utility model, the thickness of the gypsum-based high-performance fiberboard is 10-20 mm.

Further, in the utility model, the material of the heat-insulating layer is one of glass fiber, polystyrene or polyurethane.

Further, in the utility model, the radiation coil is a capillary network which is folded and coiled, and the radiation coil is provided with a water inlet and a water outlet.

Further, in the utility model, the capillary net is a PP-R plastic pipe or a PE-RT plastic pipe, and the cross section of the capillary net is circular or elliptical.

Further, in the utility model, a putty layer and a latex paint layer are arranged on the gypsum-based high-performance fiber board, and leveling is carried out.

Further, in the utility model, the radiant coil is a phi 10PEXa tube.

The beneficial effects are that the technical scheme of this application possesses following technological effect: the gypsum-based high-performance fiber board adopted by the utility model has high mechanical strength which is 6-8 times that of a common gypsum board, can be directly hung and adhered with other heavier decorative surface layer materials such as a fireproof board and the like, has better fireproof performance and certain decorative effect, can be directly used as a decorative surface layer, and saves the manufacturing cost. The gypsum-based high-performance fiber board has excellent heat conductivity, and when the gypsum-based high-performance fiber board is used as a surface layer, the surface temperature is more uniform than that of a common gypsum board, the heat dissipation effect is better, and the body feeling is more comfortable. And then can promote the performance of radiation board to increase the adaptability under the different environment.

It should be understood that all combinations of the foregoing concepts and additional concepts described in greater detail below can be considered as part of the inventive subject matter of the present disclosure unless such concepts are mutually inconsistent.

The foregoing and other aspects, embodiments and features of the present teachings can be more fully understood from the following description taken in conjunction with the accompanying drawings. Additional aspects of the present invention, such as features and/or advantages of exemplary embodiments, will be apparent from the description which follows, or may be learned by practice of specific embodiments in accordance with the teachings of the present invention.

Drawings

The drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures may be represented by a like numeral. For purposes of clarity, not every component may be labeled in every drawing. Embodiments of various aspects of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of the structure of the present invention.

In the figures, the meaning of the reference numerals is as follows: 1. a keel; 2. a heat-insulating layer; 3. aluminum alloy plate; 4. a radiant coil; 5. gypsum-based high performance fiberboard.

Detailed Description

In order to better understand the technical content of the present invention, specific embodiments are described below with reference to the accompanying drawings. In this disclosure, aspects of the present invention are described with reference to the accompanying drawings, in which a number of illustrative embodiments are shown. Embodiments of the present disclosure are not necessarily intended to include all aspects of the utility model. It should be appreciated that the various concepts and embodiments described above, as well as those described in greater detail below, may be implemented in any of numerous ways, as the disclosed concepts and embodiments are not limited to any one implementation. In addition, some aspects of the present disclosure may be used alone, or in any suitable combination with other aspects of the present disclosure.

As shown in fig. 1, a radiation terminal for a radiation air conditioning system includes a keel 1, a heat insulation layer 2, an aluminum alloy plate 3, a radiation coil 4 and a gypsum-based high-performance fiberboard 5, wherein in this embodiment, the thickness of the gypsum-based high-performance fiberboard 5 is 12 mm. Heat preservation 2, aluminum alloy plate 3 and gypsum base high performance fiberboard 5 are from last to installing in 1 bottom of fossil fragments in proper order down, radiation coil 4 is located between aluminum alloy plate 3 and the gypsum base height, radiation coil 4 is used for carrying heat transfer medium, heat preservation 2 with the face of aluminum alloy plate 3 contact spread all over the circular arc groove of a plurality of size homogeneous, aluminum alloy plate 3 with the laminating of circular arc groove and press forming, the installation in the circular arc inslot of radiation coil 4 looks adaptation, gypsum base high performance fiberboard 5 closely laminates with aluminum alloy plate 3. When the gypsum-based high-performance fiberboard is used, a putty layer and a latex paint layer are arranged on the gypsum-based high-performance fiberboard 5, and leveling is performed.

Further, in the present invention, the material of the insulating layer 2 is one of glass fiber, polystyrene or polyurethane.

Further, in the utility model, the radiation coil 4 is a capillary network which is folded and coiled, the radiation coil 4 is provided with a water inlet and a water outlet, the capillary network is a PP-R plastic pipe or a PE-RT plastic pipe, the cross section of the capillary network is circular or elliptical, and the radiation coil 4 is a phi 10PEXa pipe.

When the heat exchange device is used, the heat exchange medium can be water, high-temperature or low-temperature water flows into a phi 10PEXa pipeline, heat or cold in the pipe is conducted to the surface of the gypsum-based high-performance fiberboard 5 through the aluminum alloy plate 3, the gypsum-based high-performance fiberboard 5 is heated or cooled, the temperature of the gypsum-based high-performance fiberboard 5 is increased or reduced, the indoor temperature is increased or reduced through a radiation heat exchange mode, the purpose of heating or warming is achieved, and the heat exchange device has the advantages of being free of wind sensation, noise, dead corners and the like.

The gypsum-based high-performance fiber board 5 adopted in the embodiment has high mechanical strength which is 6-8 times that of a common gypsum board, can be directly hung and adhered with other heavier decorative surface layer materials such as a fireproof board and the like, has better fireproof performance and certain decorative effect, can be directly used as a decorative surface layer, and saves the manufacturing cost. Gypsum-based high-performance fiber board 5 is excellent in heat conductivity, and when the gypsum-based high-performance fiber board is used as a surface layer, the surface temperature is more uniform than that of a common gypsum board, the heat dissipation effect is better, and the body feeling is more comfortable. And then can promote the performance of radiation board to increase the adaptability under the different environment.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model. Therefore, the protection scope of the present invention should be determined by the appended claims.

Claims (7)

1. A radiation terminal for a radiation air conditioning system, characterized in that: including fossil fragments, heat preservation, aluminum alloy plate, radiation coil pipe and gypsum base high performance fiberboard, heat preservation, aluminum alloy plate and gypsum base high performance fiberboard are from last to installing in the fossil fragments bottom down in proper order, radiation coil pipe is located between aluminum alloy plate and the gypsum base high performance, radiation coil pipe is used for carrying heat transfer medium, the heat preservation with the face of aluminum alloy plate contact spread all over the circular arc groove of a plurality of size homogeneous, aluminum alloy plate with circular arc groove laminating and press forming, installing in the circular arc inslot of radiation coil pipe looks adaptation, gypsum base high performance fiberboard closely laminates with aluminum alloy plate.

2. A radiant tip for a radiant air conditioning system as defined in claim 1, wherein: the thickness of the gypsum-based high-performance fiberboard is 10-20 mm.

3. A radiant tip for a radiant air conditioning system as defined in claim 1, wherein: the insulating layer is made of one of glass fiber, polystyrene or polyurethane.

4. A radiant tip for a radiant air conditioning system as defined in claim 1, wherein: the radiation coil is a capillary network coiled in a zigzag manner, and is provided with a water inlet and a water outlet.

5. A radiant tip for a radiant air conditioning system as defined in claim 4, wherein: the capillary net is a PP-R plastic pipe or a PE-RT plastic pipe, and the cross section of the capillary net is circular or elliptical.

6. A radiant tip for a radiant air conditioning system as defined in claim 1, wherein: and a putty layer and a latex paint layer are arranged on the gypsum-based high-performance fiberboard and are leveled.

7. A radiant tip for a radiant air conditioning system as defined in claim 1, wherein: the radiation coil pipe is a phi 10PEXa pipe.

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