CN108457416A

CN108457416A - Building heat preservation blocks

Info

Publication number: CN108457416A
Application number: CN201810275320.6A
Authority: CN
Inventors: 周雅婷
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-03-30
Filing date: 2018-03-30
Publication date: 2018-08-28

Abstract

The invention discloses a kind of building heat preservation blocks, it includes block main body, there is closed incubation cavity among block main body, one side opening of incubation cavity of block main body, one side open end is sealed by an armorplate glass, the armorplate glass is provided with a heat exchanging part with respect to incubation cavity side, heat exchanging part sealing is incorporated in incubation cavity, there are one heat exchanging chambers for the intermediate tool of the heat exchanging part, one or more heat exchanger tube is arranged in one end of the heat exchanging part, a heat exchanger channels are respectively provided among heat exchanger tube, heat exchanger channels are communicated with the heat exchanging chamber among heat exchanging part, conductive fluid is filled in heat exchanger channels and heat exchanging chamber.The present invention has extraordinary insulating power, can effectively absorb the heat of the sun, and transfer heat to conductive fluid so that monoblock block main body has certain temperature, and can effectively keep the temperature, and increases the heat of building body.

Description

Building heat preservation blocks

Technical field

The present invention relates to a kind of building blocks, and in particular to a kind of building heat preservation blocks.

Background technology

In the prior art, building block is the main member for building body, and building body is built by building block.Building body Heat-insulating property determine that temperature is relatively low in winter for building body by building block, in order to ensure that sky can be arranged in indoor temperature, user indoors Adjust or heating installation, it is clear that the setting of these devices can increase the consumption of the energy, increase the burden of user, increase economy at This.

Invention content

Technical problem to be solved by the invention is to provide a kind of building heat preservation blocks, can effectively absorb the heat of the sun Amount, and transfer heat to conductive fluid so that monoblock block main body has certain temperature, and can effectively keep the temperature, and increase is built The heat of building body.

The present invention is achieved through the following technical solutions：A kind of building heat preservation blocks, including block main body, building block master There is closed incubation cavity, one side opening of incubation cavity of block main body, one side open end passes through an armorplate glass among body Sealing, the armorplate glass are provided with a heat exchanging part with respect to incubation cavity side, and heat exchanging part sealing is incorporated in incubation cavity, described The intermediate tool of heat exchanging part is there are one heat exchanging chamber, and one or more heat exchanger tube is arranged in one end of the heat exchanging part, and heat exchanger tube centre is One heat exchanger channels is set, and heat exchanger channels are communicated with the heat exchanging chamber among heat exchanging part, filled out in heat exchanger channels and heat exchanging chamber Filled with conductive fluid.

One piece or more of support plate is arranged side by side in the incubation cavity of the block main body as a preferred technical solution,.

The support plate is all made of metal steel, every heat exchange of intermediate face of support plate as a preferred technical solution, Pipe is both provided with corresponding support through holes, and heat exchanger tube passes through the support through holes in each support plate, and is supported by support plate.

The both ends of the support plate are respectively arranged with a T-shape limiting section as a preferred technical solution, and support plate passes through T-shape limiting section is incorporated in the limit card slot of incubation cavity upper and lower side.

The heat exchanger tube is all made of transparent toughened glass material and is made as a preferred technical solution,.

Thermal insulation material is filled in the incubation cavity as a preferred technical solution,.

The thermal insulation material is scrap wood material as a preferred technical solution,.

The beneficial effects of the invention are as follows：The present invention has extraordinary insulating power, can effectively absorb the heat of the sun, And transfer heat to conductive fluid so that monoblock block main body has certain temperature, and can effectively keep the temperature, and increases building body Heat.

Description of the drawings

Fig. 1 is the overall structure diagram of the present invention；

Fig. 2 is the structural schematic diagram of the support plate of the present invention.

Coding in figure is respectively：1 is incubation cavity, and 2 be block main body, and 3 be heat exchanger channels, and 4 be tempered glass, and 5 be to change Heat pipe, 6 be heat exchanging chamber, and 7 be T-shape limiting section, and 8 be support plate, and 9 be support through holes, and 11 be heat exchanging part.

Specific implementation mode

As shown in Figure 1, this building heat preservation blocks, including block main body 2,2 centre of block main body have closed incubation cavity 1,1 one side opening of incubation cavity of block main body 2, one side open end is sealed by an armorplate glass 4,4 phase of armorplate glass One heat exchanging part 11 is provided with to 1 side of incubation cavity, heat exchanging part sealing is incorporated in incubation cavity 1, and the centre of heat exchanging part 11 has one A heat exchanging chamber 6, one end of heat exchanging part 11 are arranged one or more heat exchanger tube 5, a heat exchanger channels 3 are respectively provided among heat exchanger tube 5, Heat exchanger channels 3 are communicated with the heat exchanging chamber 6 among heat exchanging part 11, and conductive fluid is filled in heat exchanger channels 3 and heat exchanging chamber 6.

As shown in Fig. 2, one piece or more of support plate 8 is arranged side by side in the incubation cavity 1 of block main body 2, support plate 8 is all made of Every heat exchanger tube of intermediate face of metal steel, support plate 8 is both provided with corresponding support through holes 9, and heat exchanger tube passes through each support Support through holes on plate, and supported by support plate.

As shown in Figure 1, the both ends of support plate 8 are respectively arranged with a T-shape limiting section 7, support plate passes through T-shape limiting section 7 are incorporated in the limit card slot of 1 upper and lower side of incubation cavity, and support plate 8 is integrated pouring molding with block main body 2, and support plate 8 has two A effect, one is the intensity for increasing block main body, and the intensity of whole building building block can also greatly increase, second is that being used to support each Heat exchanger tube so that each heat exchanger tube can be fixed in the incubation cavity among building block.

Wherein, heat exchanger tube 5 is all made of transparent toughened glass material and is made, and sunray passes through transparent armorplate glass, Its heat is absorbed by the conductive fluid of the heat exchanging chamber among heat exchanging part, after the conductive fluid in heat exchanging chamber is heated, meeting and heat exchanger tube Interior conductive fluid carries out heat exchange, and then whole conductive fluids is heated, so that heat conducting pipe generates heat.

Wherein, thermal insulation material is filled in incubation cavity 1, thermal insulation material is scrap wood material, and the heat transfer on heat conducting pipe is given Thermal insulation material in incubation cavity, and then heat absorption heat preservation is carried out by thermal insulation material so that monoblock block main body is persistently kept the temperature, and is increased The heat-insulating property of night building body.

Claims

1. a kind of building heat preservation blocks, it is characterised in that：Including block main body, there is closed incubation cavity among block main body, One side opening of incubation cavity of block main body, one side open end are sealed by an armorplate glass, and the armorplate glass is opposite Incubation cavity side is provided with a heat exchanging part, and heat exchanging part sealing is incorporated in incubation cavity, and there are one change the intermediate tool of the heat exchanging part Hot chamber, one end of the heat exchanging part are arranged one or more heat exchanger tube, a heat exchanger channels are respectively provided among heat exchanger tube, and heat exchange is logical Road is communicated with the heat exchanging chamber among heat exchanging part, and conductive fluid is filled in heat exchanger channels and heat exchanging chamber.

2. building heat preservation blocks as described in claim 1, it is characterised in that：It is arranged side by side in the incubation cavity of the block main body One piece or more of support plate.

3. building heat preservation blocks as claimed in claim 2, it is characterised in that：The support plate is all made of metal steel, support Every heat exchanger tube of intermediate face of plate is both provided with corresponding support through holes, and heat exchanger tube passes through the support through holes in each support plate, And it is supported by support plate.

4. building heat preservation blocks as claimed in claim 2 or claim 3, it is characterised in that：The both ends of the support plate are respectively arranged with One T-shape limiting section, support plate are incorporated in by T-shape limiting section in the limit card slot of incubation cavity upper and lower side.

5. building heat preservation blocks as described in claim 1, it is characterised in that：The heat exchanger tube is all made of transparent toughened glass material Material is made.

6. building heat preservation blocks as described in claim 1, it is characterised in that：Thermal insulation material is filled in the incubation cavity.

7. building heat preservation blocks as claimed in claim 6, it is characterised in that：The thermal insulation material is scrap wood material.