CN212249341U

CN212249341U - Low multilayer assembled heat preservation energy-saving building

Info

Publication number: CN212249341U
Application number: CN202021500706.1U
Authority: CN
Inventors: 黄佳宇
Original assignee: Nantong Institute of Technology
Current assignee: Beijing Jianran Construction Engineering Co ltd
Priority date: 2020-07-27
Filing date: 2020-07-27
Publication date: 2020-12-29
Anticipated expiration: 2030-07-27

Abstract

The utility model discloses a low multilayer assembled heat preservation energy-saving building, including reinforced concrete frame, a plurality of reinforced concrete frame constitution building body, reinforced concrete frame's fixed surface is connected with function frame case, and the surface of function frame case is the U-shaped form. This low multilayer assembled heat preservation energy-saving building, through setting up thermal-insulated heat preservation device, when using, absorb solar illumination heat through the heat absorbing strip, through the heat transfer plate, heat conduction is violently managed and is conducted the reinforced concrete frame wall body with the heat conduction strip on, it is indoor with heat transfer, violently manage through the heat conduction, communicating pipe and circulating pump, violently manage inside hot air to the heat conduction and circulate, it is more even to make a plurality of heat conduction violently manage inside temperature, it is more even to make the indoor temperature of transmission, when outside temperature is lower, through phase transition energy storage layer to indoor release heat, increase thermal-insulated heat retaining effect, thereby have thermal-insulated effectual and to the more even characteristics of indoor heat conduction.

Description

Low multilayer assembled heat preservation energy-saving building

Technical Field

The utility model relates to an assembly type structure technical field, more specifically say, it relates to a low multilayer assembled heat preservation energy-saving building.

Background

Traditional low multi-storey buildings, especially rural residences, mostly adopt masonry structures, namely, brick masonry walls are generally adopted as wall bodies, and cast-in-place reinforced concrete slabs are adopted as floors and roofs. The construction mode has the advantages of more field wet operation, low construction speed, easy material waste and environmental pollution. At present, China is developing assembly type buildings vigorously, and the assembly type building technology is applied to low-rise buildings, so that a series of problems existing in the traditional building technology can be effectively solved.

At present most of fabricated building are through dividing into a plurality of parts with the building in advance, through reinforced concrete pouring preparation frame and wall body, when using, keep warm through wall body and roofing self, and it is poor to have the heat preservation effect in the in-service use process, and in the building use, because the sun illumination time that wall body and roofing received differs, leads to local difference in temperature great in the building, so need a low multilayer fabricated heat preservation energy-saving building.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a low multilayer assembled heat preservation energy-saving building, it has thermal-insulated effectual and to the more even characteristics of indoor heat conduction.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a low multilayer assembled heat preservation energy-saving building, includes reinforced concrete frame, and a plurality of reinforced concrete frame constitution building body, reinforced concrete frame's fixed surface is connected with function frame case, and the surface of function frame case is the U-shaped form, and the inner wall fixedly connected with of function frame case insulates against heat the heat preservation device, and the heat preservation device that insulates against heat includes the heat conduction strip, the surface of heat conduction strip and the inner wall fixed connection of function frame case.

Furthermore, the surface of the reinforced concrete frame is fixedly provided with connecting grooves, a plurality of connecting grooves are uniformly distributed on the surface of the reinforced concrete frame, and a plurality of heat conducting strips are distributed on the inner wall of the functional frame box and correspond to the connecting grooves;

through above-mentioned technical scheme, heat conduction strip and spread groove cooperation have and make function frame case and reinforced concrete frame be connected the effect more firm and be convenient for heat transfer.

Furthermore, one end of each heat conduction strip penetrates through and extends to the inner wall of each connecting groove, the surface of each heat conduction strip is matched with the inner wall of each connecting groove in a fixed connection mode, the surface of the other end of each heat conduction strip is fixedly connected with a heat conduction transverse pipe, and the plurality of heat conduction transverse pipes correspond to the heat conduction strips;

through above-mentioned technical scheme, the heat conduction violently pipe has and is convenient for transmit the heat to the phase change energy storage intracavity, and to the endothermic effect in phase change energy storage chamber.

Furthermore, the other ends of the heat conducting strips penetrate through and extend to the inner walls of the heat conducting transverse pipes, one ends of the two heat conducting transverse pipes penetrate through and extend to the inner walls of the reinforced concrete frame, a circulating pump is fixedly mounted on the inner walls of the reinforced concrete frame, and one ends of the two heat conducting transverse pipes are fixedly communicated with the circulating pump;

through above-mentioned technical scheme, the circulating pump has and circulates the inside hot-air of violently managing of heat conduction, makes the more even effect of temperature.

Furthermore, a phase change energy storage cavity is formed in the surface of the heat conduction transverse pipe and the inner wall of the functional frame box, a phase change energy storage material is arranged inside the phase change energy storage cavity, the inner wall of the heat conduction transverse pipe is fixedly communicated with a communicating pipe, a plurality of communicating pipes are uniformly distributed on the inner wall of the heat conduction transverse pipe, and one end of each communicating pipe penetrates through and extends to the inner wall of the adjacent heat conduction transverse pipe;

through above-mentioned technical scheme, phase change energy storage chamber utensil when indoor temperature is high, carries out the effect that heat absorption cooling and indoor temperature carry out exothermic heating when low.

Furthermore, the surface of the functional frame box is fixedly connected with a decorative layer, cement putty is arranged inside the decorative layer, the surface of the decorative layer is respectively and fixedly connected with a heat absorption strip and a heat insulation decorative plate, and the heat absorption strips and the heat insulation decorative plate are uniformly distributed on the surface of the decorative layer in a staggered manner;

through above-mentioned technical scheme, the heat absorption strip has the effect of being convenient for absorb the solar illumination heat.

Furthermore, the surface of the heat absorption strip is fixedly connected with a heat transfer plate, and one end of the heat transfer plate is fixedly connected with the surface of the heat conduction transverse pipe;

through above-mentioned technical scheme, the heat transfer plate has the effect of violently managing heat conduction with heat transfer.

To sum up, the utility model discloses following beneficial effect has:

1. through setting up thermal-insulated heat preservation device, when using, absorb the solar illumination heat through the heat absorption strip, through the heat transfer plate, the heat conduction is violently managed and the heat conduction strip is with heat transfer to reinforced concrete frame wall body on, with heat transfer to indoor, violently manage through the heat conduction, communicating pipe and circulating pump, violently manage inside hot-air and circulate to the heat conduction, it is more even to make a plurality of heat conduction violently manage inside temperature, it is more even to make the indoor temperature of transfer, when outside temperature is lower, through phase transition energy storage layer to indoor release heat, increase thermal-insulated heat retaining effect, thereby have thermal-insulated effectual and to the more even characteristics of indoor heat conduction.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view of a reinforced concrete frame structure of the present invention;

fig. 3 is an enlarged view of a structure in fig. 2 according to the present invention.

In the figure: 1. a reinforced concrete frame; 101. a building body; 2. a functional box; 201. a decorative layer; 202. a heat absorbing strip; 203. a heat-insulating decorative plate; 204. a heat transfer plate; 3. a heat conducting strip; 301. a heat conducting horizontal pipe; 302. a circulation pump; 303. a phase change energy storage cavity; 304. a communicating pipe; 4. and connecting the grooves.

Detailed Description

Example (b):

the present invention will be described in further detail with reference to the accompanying fig. 1-3.

A low multi-storey assembled heat-preservation energy-saving building comprises reinforced concrete frames 1, a building body 101 is formed by the reinforced concrete frames 1, a functional frame box 2 is fixedly connected to the surface of each reinforced concrete frame 1, the surface of each functional frame box 2 is U-shaped, a heat-insulation and heat-preservation device is fixedly connected to the inner wall of each functional frame box 2, each heat-insulation and heat-preservation device comprises a heat conduction strip 3, and the surface of each heat conduction strip 3 is fixedly connected with the inner wall of each functional frame box 2;

as shown in fig. 2-3, a connecting groove 4 is fixedly formed on the surface of the reinforced concrete frame 1, a plurality of connecting grooves 4 are uniformly distributed on the surface of the reinforced concrete frame 1, a plurality of heat conducting bars 3 are distributed on the inner wall of the functional frame case 2 corresponding to the connecting grooves 4, one end of each heat conducting bar 3 penetrates through and extends to the inner wall of the connecting groove 4, the surface of each heat conducting bar 3 is matched with the inner wall of the connecting groove 4 in a fixed connection manner, a transverse heat conducting pipe 301 is fixedly connected to the surface of the other end of each heat conducting bar 3, the transverse heat conducting pipes 301 correspond to the heat conducting bars 3, and the other end of each heat conducting bar 3 penetrates through and extends to the inner, one ends of the two transverse heat-conducting pipes 301 penetrate through and extend to the inner wall of the reinforced concrete frame 1, a circulating pump 302 is fixedly mounted on the inner wall of the reinforced concrete frame 1, and one ends of the two transverse heat-conducting pipes 301 are fixedly communicated with the circulating pump 302;

as shown in fig. 2-3, a phase change energy storage cavity 303 is formed on the surface of a heat conduction horizontal pipe 301 and the inner wall of a functional box 2, a phase change energy storage material is arranged inside the phase change energy storage cavity 303, a communicating pipe 304 is fixedly communicated with the inner wall of the heat conduction horizontal pipe 301, a plurality of communicating pipes 304 are uniformly distributed on the inner wall of the heat conduction horizontal pipe 301, one end of each communicating pipe 304 penetrates through and extends to the inner wall of the adjacent heat conduction horizontal pipe 301, a decorative layer 201 is fixedly connected to the surface of the functional box 2, cement putty is arranged inside the decorative layer 201, a heat absorbing strip 202 and a heat insulation decorative plate 203 are respectively and fixedly connected to the surface of the decorative layer 201, a plurality of heat absorbing strips 202 and heat insulation decorative plates 203 are uniformly distributed on the surface of the decorative layer 201 in a staggered manner, a;

through setting up thermal-insulated heat preservation device, when using, absorb the solar illumination heat through heat absorbing strip 202, through heat transfer plate 204, the heat conduction is violently managed 301 and heat conducting strip 3 with heat transfer to reinforced concrete frame 1 wall body, with heat transfer to indoor, violently manage 301 through the heat conduction, communicating pipe 304 and circulating pump 302, to the inside hot air of violently managing 301 of heat conduction circulate, it is more even to make a plurality of heat conduction violently manage 301 inside temperature, it is more even to make the indoor temperature of transfer, when outside temperature is lower, through phase transition energy storage layer to indoor release heat, increase thermal-insulated heat retaining effect, thereby have thermal-insulated effectual and to the more even characteristics of indoor heat conduction.

The working principle is as follows: when in use, assemble a plurality of reinforced concrete frame 1 and install the completion back, heat absorption strip 202 absorbs the back with the sunlight heat and transmits to heat conduction violently pipe 301 through heat transfer plate 204, then transmit to reinforced concrete frame 1 through heat conduction strip 3 and to indoor heat transfer, and simultaneously, when indoor temperature is higher, heat transfer to phase transition energy storage chamber 303 on the indoor reinforced concrete frame 1 wall body through heat conduction strip 3, carry out the heat absorption energy storage, and because it differs to receive the sunlight illumination time, when the endothermic energy of heat absorption strip 202 is inhomogeneous, the heat transfer that heat absorption strip 202 absorbs is to heat conduction violently pipe 301, violently pipe 301 intercommunication with a plurality of heat conduction through communicating pipe 304, circulate the inside hot air of heat conduction violently pipe 301 through circulating pump 302, make a plurality of heat conduction violently pipe 301 inside temperature keep even, keep indoor temperature unanimous.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims

1. The utility model provides a low multilayer assembled heat preservation energy-saving building, includes reinforced concrete frame (1), a plurality of reinforced concrete frame (1) constitute building body (101), its characterized in that: the reinforced concrete frame is characterized in that a functional frame box (2) is fixedly connected to the surface of the reinforced concrete frame (1), the surface of the functional frame box (2) is U-shaped, a heat insulation device is fixedly connected to the inner wall of the functional frame box (2), the heat insulation device comprises a heat conduction strip (3), and the surface of the heat conduction strip (3) is fixedly connected with the inner wall of the functional frame box (2).

2. The low multi-storey fabricated heat-insulating energy-saving building of claim 1, wherein: the reinforced concrete frame is characterized in that connecting grooves (4) are fixedly formed in the surface of the reinforced concrete frame (1), the connecting grooves (4) are uniformly distributed on the surface of the reinforced concrete frame (1), and the heat conducting strips (3) are distributed on the inner wall of the functional frame box (2) and correspond to the connecting grooves (4).

3. The low multi-storey fabricated heat-insulating energy-saving building of claim 2, wherein: the one end of heat conduction strip (3) runs through and extends to the inner wall of spread groove (4), the surface of heat conduction strip (3) and the inner wall fixed connection looks adaptation of spread groove (4), the other end fixed surface of heat conduction strip (3) is connected with the heat conduction and violently manages (301), and is a plurality of heat conduction is violently managed (301) and is corresponding with heat conduction strip (3).

4. The low multi-storey fabricated heat-insulating energy-saving building of claim 3, wherein: the other ends of the heat conducting strips (3) penetrate through and extend to the inner walls of the heat conducting transverse pipes (301), one ends of the two heat conducting transverse pipes (301) penetrate through and extend to the inner walls of the reinforced concrete frame (1), circulating pumps (302) are fixedly mounted on the inner walls of the reinforced concrete frame (1), and one ends of the two heat conducting transverse pipes (301) are fixedly communicated with the circulating pumps (302).

5. The low multi-storey fabricated heat-insulating energy-saving building of claim 4, wherein: the surface of heat conduction violently pipe (301) is provided with phase change energy storage chamber (303) with the inner wall of function frame case (2), the inside of phase change energy storage chamber (303) is provided with phase change energy storage material, the fixed intercommunication of inner wall that the heat conduction violently managed (301) has communicating pipe (304), and is a plurality of communicating pipe (304) is at the inner wall evenly distributed that the heat conduction violently managed (301), the one end of communicating pipe (304) runs through and extends to the inner wall that adjacent heat conduction violently managed (301).

6. The low multi-storey fabricated heat-insulating energy-saving building of claim 5, wherein: the surface of the functional frame box (2) is fixedly connected with a decorative layer (201), cement putty is arranged inside the decorative layer (201), the surface of the decorative layer (201) is respectively fixedly connected with a heat absorption strip (202) and a heat insulation decorative plate (203), and the heat absorption strip (202) and the heat insulation decorative plate (203) are uniformly distributed on the surface of the decorative layer (201) in a staggered mode.

7. The low multi-storey fabricated heat-insulating energy-saving building of claim 6, wherein: the surface of the heat absorbing strip (202) is fixedly connected with a heat transfer plate (204), and one end of the heat transfer plate (204) is fixedly connected with the surface of the heat conducting transverse pipe (301).