CN210177679U

CN210177679U - Assembled automatic temperature control building

Info

Publication number: CN210177679U
Application number: CN201921901392.3U
Authority: CN
Inventors: Qichang Li; 李其昌; Shuhong Zhu; 朱书弘; Xin'an Niu; 牛新安
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-06
Filing date: 2019-11-06
Publication date: 2020-03-24
Anticipated expiration: 2029-11-06

Abstract

An assembled automatic temperature control building comprises an assembled wallboard, an assembled roof, an assembled floor top plate and an energy storage chamber; an energy circulation system is installed in the assembly type automatic temperature control building and comprises a heat circulation system and a cold circulation system, a roof heat collector is used for collecting solar energy as a heat source, and a ground cold source is used as a cold source to realize the temperature control circulation of the whole building; the assembly type automatic temperature control building fully utilizes green energy, saves energy waste, reduces environmental pollution and conforms to the concept of green environmental protection development; the production efficiency is improved, the influence of factors such as natural environment and the like is avoided, and the development of the construction industry is accelerated; the indoor temperature can be kept constant without air conditioning and heating, and the living cost is saved.

Description

Assembled automatic temperature control building

Technical Field

The utility model relates to an assembly type structure field especially relates to an automatic control by temperature change building of assembled.

Background

The fabricated building refers to a kind of building which is manufactured by a factory assembly line in a factory to manufacture all components required by a house, then transported to a construction site, and hoisted and spliced on the site. The prefabricated building is relatively wide in requirements on building environment due to convenience, high construction speed and wide application range in actual production and life.

With the improvement of living standard, people continuously pursue comfortable living environment, so that the demand of indoor temperature adjusting equipment is greatly increased, and air conditioners, heating equipment and other equipment become standard indoor equipment. With this, a large amount of resource consumption and environmental pollution are involved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic control by temperature change building of assembled to solve the aforementioned problem that exists among the prior art.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

an assembled automatic temperature control building comprises an assembled wallboard, an assembled roof, an assembled floor top plate and an energy storage chamber; energy storage pipelines are arranged in the assembled wallboard, the assembled roof and the assembled floor top plate; the assembly type wall plate is used as a wall body around the assembly type automatic temperature control building, the assembly type floor top plate is used as a floor plate between floors of the assembly type automatic temperature control building, and the assembly type roof is used as a roof of the assembly type automatic temperature control building; the energy storage chamber set up in the subaerial of the automatic control by temperature change of assembled building, install ground spiral pipeline post in the energy storage chamber.

Preferably, have energy storage pipeline be double-deck energy storage pipeline in the middle of the assembled wallboard, inside and outside both sides are the XPS heated board.

Preferably, the assembled roof with the energy storage pipeline sequentially comprises an energy storage pipeline, a steel frame, an energy storage pipeline, an XPS heat insulation plate, a roof ventilation layer and a roof tile from inside to outside.

Preferably, the assembled floor top plate with the energy storage pipeline is sequentially provided with a steel keel, a floor bearing plate, the energy storage pipeline, an XPS heat insulation plate and the energy storage pipeline from bottom to top.

An assembled automatic temperature control building comprises a heat circulation system and a cold circulation system; the heat circulating system comprises an energy storage pipeline, a heat supply pipeline connecting pipe, a roof heat collector, a heat storage pipeline collecting pipe, a ground spiral pipeline column, a water collecting and collecting device and a heat energy storage chamber; the water collecting and distributing device is communicated with the energy storage pipeline through the heat supply pipeline connecting pipe, the water collecting and distributing device is communicated with the roof heat collector through the heat storage pipeline collecting pipe, the water collecting and distributing device is connected with the ground spiral pipeline column, and the ground spiral pipeline column is arranged in the heat storage chamber; the cold circulating system comprises an energy storage pipeline, a cold supply pipeline, a ground spiral pipeline column, a water collecting and distributing device and a cold energy storage chamber; the water collecting and distributing device is communicated with the energy storage pipeline through the cold supply pipeline and is connected with the ground spiral pipeline column, and the ground spiral pipeline column is arranged in the cold energy storage chamber; and a heat insulation belt is arranged between the cold energy storage chamber and the hot energy storage chamber.

Preferably, the energy storage pipeline set up in wallboard, roofing and the floor roof of the automatic control by temperature change building of assembled, heat supply pipeline connecting pipe with the cooling pipeline all connect in the wallboard the roofing with in the floor roof the energy storage pipeline.

Preferably, the cold source in the energy storage pipeline is a ground cold source, and the heat source in the energy storage pipeline is solar energy collected by the roof heat collector.

Preferably, the water dividing and collecting device is connected with a circulating pump, and the circulating pump provides power for the flow of the flowing medium in the energy storage pipeline.

Preferably, the flowing medium is water and glycol.

The utility model has the advantages that: the assembled automatic temperature control building adopts the roof heat collector to collect solar energy as a heat source and utilizes a ground cold source as a cold source to realize the temperature control circulation of the whole building, fully utilizes green energy, saves energy waste, reduces environmental pollution and conforms to the concept of green environmental development; the assembly type building mode improves the production efficiency by assembling the prefabricated frameworks, avoids the influence of factors such as natural environment and the like, and accelerates the development of the building industry; the application of the energy storage pipeline ensures that the indoor temperature can be kept constant without air conditioning and heating, thereby saving the living cost. The utility model discloses an assembly type structure provides green pollution-free temperature control system, is favorable to developing energy-concerving and environment-protective new industry, improves building safety level, reduces carbon emission and the poplar dirt and the noise pollution that bring to the environment, is favorable to improving urban environment, improves building comprehensive quality and performance.

Drawings

FIG. 1 is a schematic view of an assembled automatic temperature controlled building;

FIG. 2 is a schematic view of an assembled wallboard with energy storage conduits;

FIG. 3 is a schematic view of a fabricated roof with an energy storage duct;

FIG. 4 is a schematic view of a fabricated floor slab with an energy storage duct;

in the figure: 1-fabricated roof, 2-fabricated wall body, 3-roofing energy storage pipeline, 4-wall energy storage pipeline, 5-roofing heat supply pipeline connecting pipe, 6-wall heat supply pipeline connecting pipe, 7-energy storage pipeline collecting pipe, 8-roofing heat collector, 9-water collector, 10-roofing cold supply pipeline, 11-wall cold supply pipeline, 12-ground spiral pipeline column, 13-thermal energy storage chamber, 14-cold energy storage chamber, 15-heat insulating belt, 16-concrete, 17-XPS heated board, 18-energy storage pipeline, 19-roofing tile, 20-roofing ventilation layer, 21-steel frame, 22-steel keel, 23-floor support plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only.

An assembly type automatic temperature control building is shown in figure 1 and comprises an assembly type wallboard 2, an assembly type roof 1 and an assembly type floor top plate; double-layer energy storage pipelines are arranged in the assembly type wallboard 2, the assembly type roof 1 and the assembly type floor top plate; the assembled wallboard with the energy storage pipeline is shown in fig. 2, the energy storage pipeline 18 is arranged in the middle, the XPS heat preservation plates 17 are arranged on the inner side and the outer side, the energy storage pipeline 18 is protected by concrete 16, and the energy storage pipeline 18 is a double-layer energy storage pipeline; the assembled roof with the energy storage pipeline is shown in fig. 3 and sequentially comprises an energy storage pipeline 18, a steel frame 21, the energy storage pipeline 18, an XPS heat insulation plate 17, a roof ventilation layer 20 and a roof tile 19 from inside to outside, wherein the steel frame 21 is filled with the XPS heat insulation plate 17, and the energy storage pipeline 18 is protected by cement and mortar; the assembled floor top plate with the energy storage pipeline is shown in fig. 4, and comprises a steel keel 22, a floor support plate 23, an energy storage pipeline 18, an XPS heat insulation plate 17 and an energy storage pipeline 18 from bottom to top in sequence, wherein the energy storage pipeline 18 is protected by cement and mortar. The assembly type wallboard is used as a wallboard around the assembly type automatic temperature control building, the assembly type floor top plate is used as a floor between floors of the assembly type automatic temperature control building, and the assembly type roof 1 is used as a roof of the assembly type automatic temperature control building; the energy storage chamber set up in the subaerial of the automatic control by temperature change of assembled building, install ground spiral pipeline post 12 in the energy storage chamber.

A heat circulation system and a cold circulation system are installed in the assembly type automatic temperature control building, and the heat circulation system comprises an energy storage pipeline 18, a heat supply pipeline connecting pipe, a roof heat collector 8, a heat storage pipeline collecting pipe, a ground spiral pipeline column 12, a water distributing and collecting device 9 and a heat energy storage chamber 13; the water collecting and distributing device 9 is communicated with a roof energy storage pipeline 3 through a roof heat supply pipeline connecting pipe 5, the water collecting and distributing device 9 is communicated with a wall energy storage pipeline 4 through a wall heat supply pipeline connecting pipe 6, the water collecting and distributing device 9 is communicated with the roof heat collector 8 through a heat storage pipeline collecting pipe 7, the water collecting and distributing device 9 is connected with a ground spiral pipeline column 12, and the ground spiral pipeline column 12 is arranged in the heat energy storage chamber 13; the cold circulating system comprises a cold supply pipeline, a ground spiral pipeline column 12, a water collecting and collecting device 9 and a cold energy storage chamber 14; the water collecting and collecting device 9 is connected with a roof cooling pipeline 10 and a wall cooling pipeline 11, the water collecting and collecting device 9 is connected with a ground spiral pipeline column 12, and the ground spiral pipeline column 12 is arranged in the cold energy storage chamber 14. An insulating strip 15 is arranged between the hot energy storage chamber 13 and the cold energy storage chamber 14. And a circulating pump is arranged near the water collecting and distributing device 9 to push the flowing medium in the energy storage pipeline, so that indoor cold circulation and heat circulation are realized.

The working process of temperature control of the assembly type automatic temperature control building is as follows: the roof heat collector 8 collects heat energy and transmits the heat energy to the water collecting and distributing device 9, and the water collecting and distributing device 9 distributes the heat energy to enter the energy storage pipelines 18 in the roof, the wall plate and the floor top plate to complete indoor thermal circulation; the ground cold source is transmitted to the water distribution and collection device 9 through the cold supply pipeline, the water distribution and collection device 9 distributes the cold source, and the cold source is transmitted to the energy storage pipeline 18 in the roof, the wallboard and the floor top plate, so as to complete indoor cold circulation. Residual heat energy in the pipelines is absorbed into the thermal energy storage chamber 13 for storage, and when the heat energy collected by the roof heat collector 8 is insufficient, the water collector 9 can distribute the heat energy of the thermal energy storage chamber 13 to the energy storage pipelines 18; the residual cold source in the pipeline is absorbed into the cold energy storage chamber 14 for storage, and when the ground cold source is insufficient, the water distributor and collector 9 can distribute the cold source in the cold energy storage chamber 14 to the energy storage pipeline 18.

In the embodiment, the steel frame 21 is a galvanized C-shaped steel frame, the steel keel 22 is a galvanized C-shaped steel keel, the roof heat collector 8 is a solar heat collector, the energy storage pipeline 18 is a PE pipe and an aluminum plastic pipe, and the flowing medium in the energy storage pipeline is water and ethylene glycol.

Through adopting the utility model discloses an above-mentioned technical scheme has obtained following profitable effect:

the assembled automatic temperature control building adopts the roof heat collector to collect solar energy as a heat source and utilizes a ground cold source as a cold source to realize the temperature control circulation of the whole building, fully utilizes green energy, saves energy waste, reduces environmental pollution and conforms to the concept of green environmental development; the assembly type building mode improves the production efficiency by assembling the prefabricated frameworks, avoids the influence of factors such as natural environment and the like, and accelerates the development of the building industry; the application of the energy storage pipeline ensures that the indoor temperature can be kept constant without air conditioning and heating, thereby saving the living cost. The utility model discloses an assembly type structure provides green pollution-free temperature control system, is favorable to developing energy-concerving and environment-protective new industry, improves building safety level, reduces carbon emission and the raise dust and the noise pollution that bring to the environment, is favorable to improving urban environment, improves building comprehensive quality and performance.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims

1. An assembled automatic temperature control building is characterized by comprising an assembled wallboard, an assembled roof, an assembled floor top plate and an energy storage chamber; energy storage pipelines are arranged in the assembled wallboard, the assembled roof and the assembled floor top plate; the assembly type wall plate is used as a wall body around the assembly type automatic temperature control building, the assembly type floor top plate is used as a floor plate between floors of the assembly type automatic temperature control building, and the assembly type roof is used as a roof of the assembly type automatic temperature control building; the energy storage chamber set up in the subaerial of the automatic control by temperature change of assembled building, install ground spiral pipeline post in the energy storage chamber.

2. The assembly type automatic temperature control building of claim 1, wherein the assembly type wall board with the energy storage pipeline is provided with a double-layer energy storage pipeline in the middle, and XPS heat insulation boards are arranged on the inner side and the outer side of the assembly type wall board.

3. The assembly type automatic temperature control building of claim 1, wherein the assembly type roof with the energy storage pipeline is an energy storage pipeline, a steel frame, an energy storage pipeline, an XPS heat insulation plate, a roof ventilation layer and a roof tile from inside to outside in sequence.

4. The assembly type automatic temperature control building of claim 1, wherein the assembly type floor top plate with the energy storage pipeline comprises a steel keel, a floor support plate, the energy storage pipeline, an XPS heat insulation plate and the energy storage pipeline from bottom to top in sequence.

5. An assembled automatic temperature control building is characterized by comprising a heat circulation system and a cold circulation system; the heat circulating system comprises an energy storage pipeline, a heat supply pipeline connecting pipe, a roof heat collector, a heat storage pipeline collecting pipe, a ground spiral pipeline column, a water collecting and collecting device and a heat energy storage chamber; the water collecting and distributing device is communicated with the energy storage pipeline through the heat supply pipeline connecting pipe, the water collecting and distributing device is communicated with the roof heat collector through the heat storage pipeline collecting pipe, the water collecting and distributing device is connected with the ground spiral pipeline column, and the ground spiral pipeline column is arranged in the heat storage chamber; the cold circulating system comprises an energy storage pipeline, a cold supply pipeline, a ground spiral pipeline column, a water collecting and distributing device and a cold energy storage chamber; the water collecting and distributing device is communicated with the energy storage pipeline through the cold supply pipeline and is connected with the ground spiral pipeline column, and the ground spiral pipeline column is arranged in the cold energy storage chamber; and a heat insulation belt is arranged between the cold energy storage chamber and the hot energy storage chamber.

6. The assembly type automatic temperature control building of claim 5, wherein the energy storage pipeline is arranged in a wall plate, a roof and a floor top plate of the assembly type automatic temperature control building, and the heat supply pipeline connecting pipe and the cold supply pipeline are both connected to the energy storage pipeline in the wall plate, the roof and the floor top plate.

7. The assembly type automatic temperature control building as claimed in claim 5, wherein the cold source in the energy storage pipeline is from a ground cold source, and the heat source in the energy storage pipeline is from solar energy collected by the roof heat collector.

8. The assembly type automatic temperature control building as claimed in claim 5, wherein the water diversion and collection device is connected with a circulating pump, and the circulating pump provides power for the flowing medium in the energy storage pipeline.

9. The assembly type automatic temperature control building of claim 8, wherein the flowing medium is water and glycol.