阅读说明：本技术 建筑保温墙板 (Building heat-insulation wallboard ) 是由 陈颖婷 于 2019-10-23 设计创作，主要内容包括：本发明公开了一种建筑保温墙板,包括一基础外壳体,基础外壳体的前端面具有一个开口的保温腔,保温腔内填充有保温体,保温腔的外侧开口端通过一装饰面板密封,各基础外壳体上的装饰面板之间互相拼接成一个无缝的装饰墙面,所述基础外壳体的内侧端上下面分别设置有凸出的装配部,基础外壳体的外侧端伸出于外界,所述基础外壳体的上下面分别嵌入设置有一根以上的吸热条,吸热条吸收外部的热量并将热量传递给保温体保温。本发明的建筑墙板,其主要用于临时建筑房内,特别适合应用在昼夜温差大的环境中,能够有效吸收白天时的外部热量,并将热量在夜间进行传递,给室内进行保温,更加的节能。(The invention discloses a building heat-insulation wallboard, which comprises a base outer shell, wherein the front end surface of the base outer shell is provided with an open heat-insulation cavity, heat-insulation bodies are filled in the heat-insulation cavity, the outer opening end of the heat-insulation cavity is sealed through a decoration panel, the decoration panels on the base outer shells are mutually spliced into a seamless decoration wall surface, the upper surface and the lower surface of the inner side end of the base outer shell are respectively provided with a convex assembly part, the outer side end of the base outer shell extends out of the outside, the upper surface and the lower surface of the base outer shell are respectively embedded with more than one heat absorption strip, and the heat absorption strips absorb external heat and transmit the heat to. The building wallboard is mainly used in temporary building rooms, is particularly suitable for being applied to environments with large temperature difference between day and night, can effectively absorb external heat in daytime, transfers the heat at night, keeps the temperature indoors, and saves more energy.)

1. A building heat preservation wallboard which characterized in that: the heat insulation structure comprises a base shell body, wherein an open heat insulation cavity is formed in the front end face of the base shell body, a heat insulation body is filled in the heat insulation cavity, the outer side opening end of the heat insulation cavity is sealed through a decoration panel, a seamless decoration wall surface is spliced among decoration panels on the base shell bodies, convex assembling portions are respectively arranged on the upper surface and the lower surface of the inner side end of the base shell body, the outer side end of the base shell body stretches out of the outside, more than one heat absorption strips are respectively embedded into the upper surface and the lower surface of the base shell body, the heat absorption strips absorb external heat and transmit the heat to the heat insulation body for heat insulation, an inflation partition component is arranged between the heat insulation body and the more than one heat absorption strips, and heat transfer between the heat absorption.

2. The building insulation panel of claim 1, wherein: the inflatable partition component comprises more than one inflatable strip and more than one fixing strip, the fixing strips are fixedly arranged in the heat-insulation cavity of the basic outer shell, one side of each inflatable strip is bonded with one side of each fixing strip, one side of each heat absorption strip is provided with one fixing strip and one inflatable strip, more than one inflatable strips are connected and conducted through more than one air duct, and the air supply pipe penetrates through the basic outer shell and stretches out of the basic outer shell.

3. The building insulation panel of claim 2, wherein: one side surface of the inflatable strip is in close contact with the inner wall surface of the heat preservation cavity, and the inflatable strip is inflated to expand and move towards the inflatable strip on the adjacent side.

4. The building insulation panel of claim 2, wherein: the air supply pipe is characterized in that an air pump is connected to the outside of the air supply pipe, a control switch of the air pump is installed indoors, each inflatable strip is inflated by opening the air pump, and the inflatable strips are made of elastic rubber materials.

5. The building insulation panel of claim 2, wherein: one of the inflatable strips is provided with an air leakage pipe, and one end of the air leakage pipe penetrates through the outer shell of the foundation and extends out of the outside for slowly discharging air in the inflatable strip.

6. The building insulation panel of claim 1, wherein: the heat insulation body comprises a heat insulation outer layer and a water storage cavity arranged in the heat insulation outer layer, water is fully stored in the water storage cavity, a heat conduction strip is arranged on the outer portion of the heat insulation outer layer, which faces each heat absorption strip, the thickness of each heat conduction strip is equal to that of each heat absorption strip, one side face of each heat conduction strip is in contact with water, and the other side face of each heat conduction strip is in contact with each heat conduction strip.

7. The building insulation panel of claim 1, wherein: the decorative panel is a metal panel with a heat transfer effect.

8. The building insulation panel of claim 1, wherein: the whole basic shell body is made of hard plastics with good heat insulation effect.

Technical Field

The invention relates to a wallboard, in particular to a building heat-insulation wallboard.

Background

In the temporary building house, the temporary building house is generally formed by splicing more than one building wallboard, because the temporary building house has poor heat insulation performance, in some areas with large temperature difference in the morning and evening, the temperature in the daytime is very high, and the temperature in the evening is very low, the temporary building house can be heated by using equipment such as an air conditioner, a heating furnace and the like at night, but the mode consumes very much electric energy, can generate a large amount of economic cost, and is not suitable for being applied to the current temporary building house.

Disclosure of Invention

The invention aims to solve the technical problem that the building heat-insulation wallboard can fully absorb heat in the daytime for use at night, so that the utilization rate of energy is increased, the loss of a power supply is reduced, and the building heat-insulation wallboard is more energy-saving and environment-friendly in use.

The invention is realized by the following technical scheme: the utility model provides a building heat preservation wallboard, includes a basic shell body, and the preceding terminal surface of basic shell body has an open-ended heat preservation chamber, and the heat preservation intracavity is filled there is the heat retainer, and the outside open end in heat preservation chamber is sealed through a decoration panel, splices into a seamless decoration wall face mutually between the decoration panel on each basic shell body, the inboard of basic shell body is served the top and bottom and is provided with convex assembly portion respectively, and the outside end of basic shell body stretches out in the external world, the last downside of basic shell body imbeds respectively and is provided with the heat absorption strip more than one, and the heat absorption strip absorbs outside heat and gives the heat retainer heat preservation with the heat transfer, be provided with between heat retainer and the more than one heat absorption strip and aerify and cut off the subassembly through aerifing and block the heat transfer.

As the preferred technical scheme, the inflatable partition component comprises more than one inflatable strip and more than one fixing strip, the fixing strips are fixedly arranged in the heat-insulating cavity of the basic outer shell, one side of each inflatable strip is bonded with one side of the fixing strip, one side of each heat absorption strip is provided with one fixing strip and one inflatable strip, the more than one inflatable strips are connected and communicated through more than one air duct, and the air supply pipe penetrates through the basic outer shell and extends out of the basic outer shell.

As a preferred technical scheme, one side surface of the air inflation strip is in close contact with the inner wall surface of the heat preservation cavity, and the air inflation strip is inflated by inflating the air inflation strip so as to expand and move towards the air inflation strip on the adjacent side.

According to the preferable technical scheme, an air pump is connected to the outside of the air supply pipe, a control switch of the air pump is installed indoors, each air inflation strip is inflated by starting the air pump, and the air inflation strips are made of elastic rubber materials.

As a preferred technical scheme, one of the inflatable strips is provided with an air leakage pipe, and one end of the air leakage pipe penetrates through the outer shell of the foundation and extends out of the outside to be used for slowly discharging air in the inflatable strip.

According to a preferable technical scheme, the heat insulation body comprises a heat insulation outer covering layer and a water storage cavity arranged in the heat insulation outer covering layer, water is fully stored in the water storage cavity, a heat conduction strip is arranged on the outer portion of the heat insulation outer covering layer, which faces each heat absorption strip, the thickness of each heat conduction strip is equal to that of each heat absorption strip, one side face of each heat conduction strip is in contact with water, and the other side face of each heat conduction strip is in contact with the heat conduction strip.

Preferably, the decorative panel is a metal panel having a heat transfer effect.

As the preferred technical scheme, the whole foundation shell body is made of hard plastics with good heat insulation effect.

The invention has the beneficial effects that: the temporary building house built by the plate body can fully absorb external heat in daytime and is used for heating at night, and as construction workers go out for work in daytime, the external heat can be quickly absorbed in the daytime, so that electric energy is not needed to be reused when the temporary building house is used at night, and the temporary building house is more energy-saving and environment-friendly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic view of the construction of the insulation of the present invention;

FIG. 3 is a schematic view of the construction of the air partition assembly of the present invention.

Detailed Description

As shown in fig. 1, the building thermal insulation wallboard comprises a base outer shell 3, wherein an open thermal insulation cavity is arranged on the front end face of the base outer shell 3, a thermal insulation body 8 is filled in the thermal insulation cavity, the outer opening end of the thermal insulation cavity is sealed by a decoration panel 1, and the decoration panels 1 on the base outer shells 3 are mutually spliced to form a seamless decoration wall surface;

the inboard of the outer shell of basis 3 is served the top and bottom and is provided with convex assembly portion respectively, the outside end of the outer shell of basis 3 stretches out in the external world, the top and bottom embedding of the outer shell of basis 3 is provided with more than one heat absorption strip 6 respectively, heat absorption strip 6 absorbs outside heat and gives the heat preservation for insulator 8 with the heat transfer, be provided with between insulator 8 and the more than one heat absorption strip 6 and aerify and cut off the subassembly, block the heat transfer between heat absorption strip 6 and insulator 8 through aerifing to cut off the subassembly.

In this embodiment, as shown in fig. 3, the inflation partition assembly includes more than one inflation strip 7 and more than one fixing strip 5, the fixing strips 5 are integrally disposed in the thermal insulation cavity of the base housing body, one side of the inflation strip 7 is bonded to one side of the fixing strip 5, one side of each heat absorption strip 6 is provided with one fixing strip 5 and one inflation strip 7, the more than one inflation strips 7 are connected and conducted through more than one air duct 4, the air supply pipe 32 penetrates through the base housing body 3 and extends out of the base housing body, one side surface of the inflation strip 7 is in close contact with the inner wall surface of the thermal insulation cavity, and the inflation strip 7 is inflated to expand the inflation strip 7 and enable the inflation strip 7 to expand and move towards the inflation strip 7 on the adjacent side.

As shown in fig. 2, the heat insulator 8 includes a heat insulating outer layer and a water storage cavity 12 disposed in the heat insulating outer layer, water is fully stored in the water storage cavity 12, a heat conducting strip 11 is disposed on the outer side of the heat insulating outer layer opposite to each heat absorbing strip, the thickness of the heat conducting strip 11 is equal to the thickness of the heat insulating outer layer, one side of the heat conducting strip is in contact with water, and the other side of the heat conducting strip is in contact with the heat conducting strip.

In daytime, no gas is contained in the inflatable strips, heat can be quickly absorbed by the heat absorbing strips to be transferred to the heat insulator for heating and heat insulation, the heat absorbing strips are in contact with the heat conducting strips on the heat insulation outer tegument to transfer heat, and water in the heat insulator is continuously heated; and when night, the air pump is manually opened to inflate each inflatable strip, so that the inflatable strips are expanded, the inflated inflatable strips are as shown in figure 3, at the moment, the inflatable strips can stretch into the space between the heat absorbing strips and the heat conducting strips and are used for separating the heat absorbing strips from the heat conducting strips, at the moment, the inflatable strips are used as heat insulation pieces to separate the heat absorbing strips, at the moment, the internal heat insulation cavity is separated through the hollow inflatable strips, at the moment, the temperature dissipation speed at night is slowed down, and the indoor temperature is increased through the heat insulation bodies after heat absorption.

In this embodiment, the outside of the air supply pipe is connected with an air pump 9, a control switch of the air pump 9 is installed indoors, each inflation strip is inflated by opening the air pump 9, the inflation strips 7 are made of elastic rubber materials, the air pump can be manually controlled to inflate, and because only inflation is needed and the inflation amount is small, a large amount of electric energy loss is avoided.

Wherein, a gas leakage pipe 2 is arranged on one of the gas-filled strips 7, and one end of the gas leakage pipe 2 penetrates through the basic outer shell 3 and extends out of the outside for slowly discharging the gas in the gas-filled strip. The air leakage of air leakage pipe 2 needs to be controlled, namely, all the total gas quantity of the air inflation strips needs to leak light at night, when the air inflation strips are inflated, the air inflation strips can be expanded as much as possible, the heat absorption strips can be covered enough, after the air inflation is finished, the air leakage pipe slowly discharges the gas in the air inflation strips, the air leakage pipe is the same as the principle of a hourglass, after a certain time, the gas can be leaked, the heat absorption strips and the heat conduction strips can be contacted again to realize heat exchange, and therefore the air leakage of the air leakage pipe needs to be controlled.

Because the heat preservation tegument layer is made of elastic rubber materials, when the inflatable strips are not ejected out, the heat preservation tegument layer can be buckled into the sunken area under the action of internal water pressure, and therefore, the contact between the heat absorbing strips and the heat conducting strips is not influenced even though the convex fixing strips are arranged.

In this embodiment, the decoration panel 1 is a metal panel having a heat transfer effect, and heat is transferred to the indoor space through the metal panel 1, thereby achieving the purpose of temperature rise. In this embodiment, the whole hard plastic that adopts thermal-insulated effectual that the outer casing of basis 3 is made, when night, through hard plastic's heat preservation ability, reduces thermal loss, in order to increase the heat preservation ability, can set up the thermal-insulated cotton of one deck in inside, increases the heat preservation effect.

The invention has the beneficial effects that: the temporary building house built by the plate body can fully absorb external heat in daytime and is used for heating at night, the external heat can be quickly absorbed during the period because a building worker goes out for work in daytime, electric energy is not needed to be reused when the building house is used at night, and the temporary building house is more energy-saving, environment-friendly and environment-friendly

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.