CN202869019U - Solar heat absorber - Google Patents

Abstract

The utility model discloses a solar heat absorber, which includes an aluminum alloy frame, a glass cover plate, a heat absorption layer, a heating layer and an insulating layer, wherein the heating layer is a copper pipe coil buried in heat conduction cement or heat conduction silica gel; a heat absorption ceramic thin sheet and/or thin plate are/is arranged on the upper surface of the heat absorption layer; the heat absorption layer is directly spread and adhered on the heating layer; and the insulating layer is arranged under the heating layer. The solar heat absorber utilizes the advantages of ceramic such as ageing resistance, corrosion resistance and zero attenuation, solves the problems that the conventional flat plate type solar heat absorber is prone to attenuation, poor in heat conduction and low in heat collecting efficiency, and is light, low in cost, and simple and convenient in production operation and installation construction.

Description

A kind of solar heat absorber

Technical field

The utility model relates to the Application of Solar Energy field, particularly relates to a kind of solar heat absorber.

Background technology

At present, what the plate type solar heat sink was most widely used both at home and abroad is metal plate and glass tube with vacuum, and wherein metal plate type heat collector has the advantages that daylighting area is large, collecting efficiency is high, has become gradually widely used solar energy heating product.But existing metal plate solar energy heat absorbing layer is easily decayed, and service life is short, and absorber plate and arm contact-making surface are little, and heat transference efficiency is influenced.

Summary of the invention

For above-mentioned technical problem, the purpose of this utility model is to provide a kind of novel unattenuated heat-absorbing material and the solar heat absorber of conductive structure, long service life, and heat is conducted, and the thermal efficiency is high.

For reaching this purpose, the utility model by the following technical solutions: a kind of solar heat absorber comprises aluminum alloy frame, glass cover-plate, heat-sink shell, zone of heating, heat-insulation layer.

Described zone of heating is set to bronze pan tube and is embedded in heat conduction cement or the heat conductive silica gel.

Described heat-sink shell be set to absorb heat ceramic sheet and/or thin plate.

The direct paving of described heat-sink shell is bonded on the described zone of heating.

Described heat absorption ceramic sheet and/or thin plate comprise heat absorption ceramic composite superficial layer and heat absorption ceramic thin plate green body layer.

Described heat absorption ceramic thin plate surface layer thickness is set to the 30-50% of described heat absorption ceramic sheet and/or thin plate gross thickness, and the gross thickness of described heat absorption ceramic sheet and/or thin plate is set to 1-6mm.

Be provided with described heat-insulation layer below the described zone of heating.

The caliber of described bronze pan tube is set to 8-15mm.

Described heat-insulation layer is set to polyester foamed layer or foam cement layer.

The thickness of described heat-insulation layer is set to 10-100mm.

Described heat absorption ceramic sheet and/or thin plate upper surface are 15-30mm apart from the height of glass cover-plate lower surface.

The utility model adopts heat absorption ceramic sheet and/or thin plate as heat-absorbing material, and bronze pan tube is embedded in heat conduction cement or the heat conductive silica gel, forms zone of heating, it is corrosion-resistant, ageing-resistant, and heat absorption efficiency is high, and is lightweight, unattenuated, cost is low, and production operation and installation are easy.Heat conduction efficiency is high.

Description of drawings

The solar heat absorber structural representation that Fig. 1 provides for the utility model embodiment.

Description of reference numerals: 1, aluminum alloy frame 2, glass cover-plate 3, heat-sink shell 4, zone of heating 5, heat-insulation layer 6, bronze pan tube 7, heat conduction cement.

The specific embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, the utility model is described in further detail below in conjunction with drawings and Examples.

Please refer to shown in Figure 1ly, the solar heat absorber in the present embodiment comprises aluminum alloy frame 1, glass cover-plate 2, heat-sink shell 3, zone of heating 4, heat-insulation layer 5.

Described heat-sink shell 3 is set to the ceramic thin plate that absorbs heat, tiling.

Described zone of heating 4 is embedded in the heat conduction cement 7 by bronze pan tube 6 and forms.

Be provided with described heat-insulation layer 5 below the described zone of heating 4.

Described heat absorption ceramic thin plate comprises heat absorption ceramic composite superficial layer 31 and heat absorption ceramic thin plate green body layer 32.

Described heat absorption ceramic composite superficial layer 31 thickness are 4mm.

Described heat absorption ceramic thin plate green body layer 32 is ceramic thin plate, and thickness is 6mm.

The caliber of described bronze pan tube 6 is set to 10mm.

Described heat-insulation layer 5 is set to polyester foamed layer.

The thickness of described heat-insulation layer 5 is set to 90mm.

Described heat absorption ceramic thin plate upper surface is 25mm apart from the height of glass cover-plate lower surface.

Above-mentioned only is preferred embodiment of the present utility model and institute's application technology principle; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the variation that can expect easily or replacement all should be encompassed within the protection domain of the present utility model.

Claims (6)

1. solar heat absorber, comprise aluminum alloy frame, glass cover-plate, heat-sink shell, zone of heating, heat-insulation layer, it is characterized in that: described zone of heating is set to bronze pan tube and is embedded in heat conduction cement or the heat conductive silica gel, described heat-sink shell be set to absorb heat ceramic sheet and/or thin plate, directly paving is bonded on the described zone of heating, is provided with described heat-insulation layer below the described zone of heating.

2. a kind of solar heat absorber as claimed in claim 1, it is characterized in that: described heat absorption ceramic sheet and/or thin plate comprise heat absorption ceramic composite superficial layer and heat absorption ceramic thin plate green body layer, described heat absorption ceramic composite surface layer thickness is set to the 30-50% of described heat absorption ceramic sheet and/or thin plate gross thickness, and the gross thickness of described heat absorption ceramic sheet and/or thin plate is set to 1-6mm.

3. a kind of solar heat absorber as claimed in claim 1, it is characterized in that: the caliber of described bronze pan tube is set to 8-15mm.

4. a kind of solar heat absorber as claimed in claim 1 is characterized in that: described heat-insulation layer is set to polyester foamed layer or foam cement layer.

5. a kind of solar heat absorber as claimed in claim 1, it is characterized in that: the thickness of described heat-insulation layer is set to 10-100mm.

6. a kind of solar heat absorber as claimed in claim 1, it is characterized in that: described heat absorption ceramic sheet and/or thin plate upper surface are 15-30mm apart from the height of glass cover-plate lower surface.