CN212957780U - Warm-keeping house - Google Patents

Abstract

The utility model relates to the field of warm houses, in particular to a warm house, which solves the problems that the electric heater used in the existing mobile board house in northeast has large power consumption and potential safety hazard; the prefabricated house has poor environmental protection and high construction difficulty; the weight is large, and potential safety hazards of safe subsidence exist in the use of river surfaces; the utility model has the problems of single appearance, single color and the like, and comprises an outer wall and a ceiling; the ceiling is arranged above the outer wall; the outer wall comprises a shell, a waterproof layer and a heat-insulating layer which are sequentially arranged from outside to inside; the heat preservation layer comprises a heat preservation layer, a heating layer and a heat conduction layer, and the heat preservation layer, the heating layer and the heat conduction layer are sequentially arranged from outside to inside; the utility model discloses a wall body sets up shell, waterproof layer, heat preservation, single-phase heat-transfer layer, graphite alkene electric heat layer and heat-conducting layer outside-in according to this, and the wall is and thermal insulation performance is more excellent, and the node transition position between wall body and the door and window adopts waterproof vapour barrier membrane and waterproof vapour permeable membrane to constitute sealing system, increases cold-proof room seal, reinforcing function that keeps warm.

Description

Warm-keeping house

Technical Field

The utility model relates to a cold-proof house field, concretely relates to cold-proof room.

Background

The prefabricated house is an environment-friendly economical prefabricated house which takes light steel as a framework, takes a sandwich plate as a containment material, performs space combination by using a standard modulus series, adopts bolt connection as components and has a brand-new concept. The temporary building can be assembled and disassembled conveniently and quickly, universal standardization of temporary buildings is realized, environment-friendly, energy-saving, rapid and efficient building concepts are established, and the temporary building enters the field of a set product which is developed in series, produced in an integrated mode, supplied in a matched mode, stockable and capable of being used repeatedly.

The common movable board house has no heat-insulating layer, and the heat-insulating material used by the movable board house with the heat-insulating layer is organic heat-insulating material, so that the movable board house with the heat-insulating layer has the obvious defects of poor environmental protection, high construction difficulty and the like. The heat insulating material used for the prefabricated house is organic heat insulating material such as polyurethane foam, polystyrene board, phenolic foam and the like. The organic heat-insulating material has the defects of poor ageing resistance, large deformation coefficient, poor stability, poor safety, easy combustion, poor ecological environmental protection, high construction difficulty, higher engineering cost, limited resources and difficult recycling.

At present, in northern winter, particularly in ice and snow project sites (ice, snow, Carnival and ski fields) in cold areas, the environmental conditions are cold and strong wind, and the temperature reaches 10-40 ℃ below zero. The used portable house has no self-heating function, and people cannot independently depend on the portable house to live through the winter in the low-temperature environment.

A certain number of movable board rooms are used in the ice and snow project site in the northern cold region, and the movable board rooms are used for outdoor ticket selling of employees, rest of tourists and catering activities. Because it does not have autonomic heating performance, need the product of using electric heater class heating alone. Taking the harbin ice and snow jianianhua field on the Songhua river as an example, the river surface is cold and strong in wind, and the movable board house is poor in tightness, so that a large-power air conditioner, an electric heater and a small solar electric heater of more than 2000 watts can be used. The energy-saving fire-fighting water tank is used for a long time, not only wastes energy, but also is easy to cause fire, and has great potential safety hazard.

And, the movable plate for northeast river surface usually has a heavy weight. By taking container type movable board houses with the floor area of 15 square meters used by the Jianianhua Songhua faces of Harbin ice and snow as an example, as the movable board houses are made of boards and steel structures, the weight of the movable board houses is more than 2 tons, only one movable board house can be placed on the Songhua faces far away from the river bank, and the movable board house needs to be close to the river bank (the thickness of ice layer close to the river bank) to prevent the occurrence of river drop accidents caused by crushing the ice layer and bring personal safety.

In summary, the movable board house used on the river surface in northeast winter at present has the following problems:

the utility model provides a, do not have the autonomic heating function, can't the exclusive use in winter in the north, use the portable house to pass winter, need use electric heater class to heat the product alone, it is poor to have airtight effect, and cold-proof effect is poor, a great deal of drawback and potential safety hazard such as power consumption is big.

And secondly, the common movable board house has no heat-insulating layer, and the heat-insulating material used by the movable board house with the heat-insulating layer is an organic heat-insulating material, so that the obvious defects of poor environmental protection, high construction difficulty and the like exist.

And thirdly, the weight is large, the ice can not be used on the ice surface of rivers and lakes in large scale in the ice and snow project in the cold area in the north, otherwise, the ice surface is greatly stressed, and the potential safety hazard exists.

Fourthly, the appearance is single, the color is single, and the ice and snow environment can not be blended. The portable house is generally rectangular and has a single appearance. The color is mainly white and is single. The ice and snow environment is easy to generate aesthetic fatigue and cannot be integrated into the ice and snow project environment.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to solve the problem that the prior movable board house used on the surface of the river in northeast winter is provided, the utility model provides a warm-keeping house.

The utility model discloses a realize through following scheme: a warm-keeping house is provided,

it comprises an outer wall and a ceiling; the ceiling is arranged above the outer wall; the outer wall comprises a shell, a waterproof layer and a heat preservation layer which are sequentially arranged from outside to inside.

Preferably, the waterproof layer is disposed between the shell and the warming layer.

Furthermore, the heat preservation layer comprises a heat preservation layer, a heating layer and a heat conduction layer, and the heat preservation layer, the heating layer and the heat conduction layer are arranged from outside to inside.

Still further, the heating layer comprises a single-phase heat-reflecting layer and a graphene electric heating layer, and the single-phase heat-reflecting layer and the graphene electric heating layer are arranged from outside to inside along the direction of the outer wall.

Furthermore, the ceiling is a light-transmitting structure or a non-light-transmitting structure, and when the ceiling is the light-transmitting structure, a first water-resisting layer is arranged at the connecting position of the ceiling and the outer wall.

Preferably, the light-transmitting structure is made of glass, sunlight panels or glass fiber reinforced plastics, and the non-light-transmitting structure comprises a ceiling shell, a ceiling waterproof layer and a ceiling warm-keeping layer.

Preferably, a first framework is arranged on the inner side, the middle part or the outer side of the ceiling, and a second framework is arranged on the inner side, the middle part or the outer side of the outer wall.

Further, the bottom surface is arranged at the bottom of the outer wall and connected with the outer wall.

Furthermore, a door and a window are arranged on the outer wall, and a water-resisting layer II is arranged at the joint of the door and the window and the outer wall.

Preferably, the first water-resisting layer and the second water-resisting layer both comprise a waterproof breathable layer and a waterproof air-proof layer, and the waterproof breathable layer is arranged outside the waterproof air-proof layer.

Has the advantages that:

1. the electric heating warmer has the advantages of having an automatic heating function, being good in heating effect, being good in warm-keeping effect, being capable of properly reducing the use of electric heater products, reducing the power consumption and reducing the danger coefficient caused by power consumption.

2. The heat-insulating layer is contained, the heat-insulating effect is good, and aiming at the problems of water resistance and energy conservation of the door and window openings, a sealing system is formed at the transition position of the joint between the wall body and the door and the window by adopting two new materials, namely the waterproof vapor-insulating film and the waterproof vapor-permeable film, so that the airtightness of the heat-insulating house is improved, and the heat-insulating function is enhanced. According to the area of the warm-keeping house, the problems of water prevention and energy conservation of the door and window openings can be solved, a sealing system is formed at the transition position of the node between the wall body and the door and window by adopting two new materials, namely a waterproof vapor-insulating film and a waterproof vapor-permeable film, the airtightness of the warm-keeping house is improved, and the warm-keeping function is enhanced. The efficient waterproof sealing system obviously improves the heat insulation air tightness of doors, windows and roofs and solves the problems of energy conservation and water prevention of window nodes. The waterproof and anti-corrosion performance is strong, the pressure resistance and weather resistance are good, the environment is protected, the combustion is not easy, and the safety performance is higher than that of similar products.

3. The quality is light, and it is convenient to remove, and the construction degree of difficulty is low, is fit for the cold region ice snow project site and uses.

Similarly, the weight of the container type prefabricated house with the floor area of 15 square meters is more than 2000 kilograms, and the weight of the heat-preservation house is about 200 kilograms, which is one tenth of the weight of the heat-preservation house (the weight is different according to the selection of house materials). The ice-making machine has light weight, is suitable for being used on ice surfaces of rivers and lakes in winter in the north, does not bring warning pressure to the ice surfaces, has high safety coefficient, and eliminates the potential personal safety hazard. The assembly type production and processing technology can be used, the block forming is carried out in the factory stage, the assembly is convenient, and a large amount of time is not required to be consumed. Can utilize the hasp quick link at cold place ice and snow place, the fast assembly is used in the scene, can avoid long-time operation under chilly ice and snow environment, and is especially important. Because the quality is light, it is convenient to remove, is fit for ice and snow industry and promotes on a large scale, and outdoor ice and snow market in winter in the north has absolute advantage.

4. The design method can be applied to personalized design, has various shapes, and is suitable for being used in cold and snowy project scenic spots.

The steel structure is adopted as the framework, the external shape can be changed, and as the selection range of shell materials and colors is wide, various external shapes can be adopted according to professional appearance design, and various colors are matched, so that the landscape site can be used in a large scale. Taking an ice and snow scenic spot as an example, in order to meet the diversified requirements of the scenic spot, the warm-keeping house can be designed into a flying saucer shape, a spherical shape, a rectangular shape and the like.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is a partial cross-sectional view of FIG. 1

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a detail view of FIG. 3;

FIG. 5 is a top half sectional view of the ceiling being a light transmissive structure;

fig. 6 is a top half sectional view of the ceiling being a non-light transmitting structure.

Detailed Description

The first embodiment is as follows: referring to fig. 1 to 6, the embodiment is described, and a warm-keeping house includes an outer wall 1 and a ceiling 2; the ceiling 2 is arranged above the outer wall; the outer wall 1 comprises a shell 3, a waterproof layer 4 and a heat preservation layer (5) which are sequentially arranged from outside to inside.

The utility model discloses shell material needs the certain performance index such as low temperature resistant, prevent wind, needs to use materials such as PVC synthetic leather, glass, the various steel sandwich panels of polyurethane. Taking PVC artificial leather as an example, the functions of wind resistance, sun resistance, yellowing resistance, cold resistance, water resistance, ultraviolet resistance and the like are achieved. The utility model discloses the waterproof layer uses waterproof ventilated membrane, and waterproof ventilated membrane plays waterproof, ventilative, dustproof effect.

The heat preservation layer 5 comprises a heat preservation layer 6, a heating layer 7 and a heat conduction layer 8, and the heat preservation layer 6, the heating layer 7 and the heat conduction layer 8 are arranged from outside to inside.

Other components and connection modes are the same as those of the first embodiment.

The utility model discloses the heat preservation uses aerogel or aerogel felt for the aerogel heat preservation, reaches better heat preservation effect, plays the heat preservation effect.

And the heat conducting layer plays roles in internal decoration and heat conduction. PVC artificial leather or decorative sheets, floors, wallboards can be used.

The second embodiment is as follows: the present embodiment is described with reference to fig. 1 to 6, and the present embodiment is different from the present embodiment in that the heating layer 7 includes a single-phase heat-transfer layer 9 and a graphene electric heating layer 10, the single-phase heat-transfer layer 9 is disposed on a side close to the heat-insulating layer 6, and the graphene electric heating layer 10 is disposed on a side close to the heat-conducting layer 8.

Other components and connection modes are the same as those of the first embodiment.

The single-phase heat-reflecting layer is a single-phase reflecting film, and the graphene electric heating layer is a graphene electric heating film.

And the unidirectional reflecting film (5) reflects the radiation energy of the graphene electrothermal film back to the room.

The graphene electrothermal film (6) is used as a heating device and laid at the bottom or around the heat preservation room, so that the mobile house has a self-heating function.

The third concrete implementation mode: the present embodiment is described with reference to fig. 1 to 6, and the present embodiment is different from the present embodiment in that the ceiling 2 is a light-transmitting structure or a non-light-transmitting structure, and when the ceiling 2 is a light-transmitting structure, a first water-barrier layer 11 is disposed at a connection position of the ceiling 2 and the outer wall 1.

Other components and connection modes are the same as those of the first embodiment.

The fourth concrete implementation mode: the present embodiment is described with reference to fig. 1 to 6, and the present embodiment is different from the present embodiment in that the light-transmitting structure is made of glass, a sunlight panel or glass fiber reinforced plastic, and the non-light-transmitting structure includes a ceiling shell 12, a ceiling waterproof layer 13 and a ceiling warm-keeping layer 14.

Other components and connection modes are the same as those of the third embodiment.

The fifth concrete implementation mode: the present embodiment is described with reference to fig. 1 to 6, and the present embodiment is different from the present embodiment in that a first frame is provided on the inner side, the middle part, or the outer side of the ceiling 2, and a second frame is provided on the inner side, the middle part, or the outer side of the outer wall 1.

Other components and connection modes are the same as those of the first embodiment.

The first framework and the second framework play a supporting role.

The sixth specific implementation mode: the embodiment is described with reference to fig. 1 to 6, and the difference between the embodiment and the specific embodiment is that the thermal insulation room further includes a bottom surface 15, and the bottom surface 15 is disposed at the bottom of the outer wall and connected to the outer wall 1.

Other components and connection modes are the same as those of the first embodiment.

The bottom surface may be made of rigid plastic, moisture resistant extruded sheet, or other material. High hardness, moisture resistance and heat insulation are required. The bottom is connected with the second framework.

The seventh embodiment: the present embodiment is described with reference to fig. 1 to 6, and the present embodiment is different from the present embodiment in that a door and a window are disposed on the outer wall 1, and a second waterproof layer 16 is disposed at a joint of the door and the window and the outer wall 1.

Other components and connection modes are the same as those of the third embodiment.

The specific implementation mode is eight: the present embodiment is described with reference to fig. 1 to 6, and the present embodiment is different from the present embodiment in that the first water-stop layer 11 and the second water-stop layer 16 each include a waterproof vapor-permeable layer and a waterproof vapor-barrier layer, and the waterproof vapor-permeable layer is disposed outside the waterproof vapor-barrier layer.

The other components and the connection mode are the same as those of the seventh embodiment.

The waterproof and steam-permeable air layer used at the openings around the roof and the doors and windows is a waterproof and steam-permeable membrane, and the waterproof and steam-insulating layer is a waterproof and steam-insulating membrane;

a door and window sealing system consisting of a waterproof vapor-permeable membrane and a waterproof vapor-barrier membrane. The sequence from outside to inside is as follows: waterproof vapor-permeable membrane-door and window (roof) -waterproof vapor-barrier membrane.

Other embodiments are as follows: the power supply selects three modes according to the purpose of the heat-preservation house: the ice and snow project site is powered by a daily power supply (power is supplied to the ice and snow project site); a portable UPS energy storage power supply supplies power (used for a temporary mobile heating room); and thirdly, solar photovoltaic power supply (used for large heating rooms and saving electric energy).

The interior decoration and the equipment setting can be selected according to the use requirement of the warm-keeping house. Including decorative styles, beds, tables and chairs, lighting, air exhaust, water supply and drainage systems, toilet rooms and the like.

The present invention is not limited to the above embodiments, and one or a combination of several embodiments can also achieve the purpose of the present invention.

Example (b): the utility model discloses the visitor's heating rest and the food and beverage activity in mainly used ice and snow tourism amusement project place in the cold district in the north, like harbin ice and snow jianianhua place. The product has achieved cooperative intention with a plurality of ice and snow project parties, and is highly concerned by ice and snow project operators.

1. According to the size of area, cold-proof room divide into small-size cold-proof room and large-scale cold-proof room, and the two is except using supporting material to differentiate, and the area size is different, and its structure, function and principle are the same, all belong to the utility model discloses a category. The small heating house uses a light steel structure or a light structure such as an aluminum alloy and a nickel plated seamless steel pipe in the steel structure as a supporting framework. The large-scale warm-keeping house is large in area and mass, and the supporting framework is an industrial factory building steel structure in a steel structure.

2. According to design, usage difference, cold-proof room outward appearance shape, colour have multiple mode, and its structure, function and principle are the same, all belong to the utility model discloses a category. The shell, the waterproof layer and the heat-preservation layer can be made of different materials; the roof has dome, sharp top, flat top, etc. and may be made of sunlight plate, light glass fiber reinforced plastic, etc.; the shape and the material of the heat-insulating door and window can be selected in various ways; the equipment and decoration of the articles in the warm-keeping house can be different.

The working principle is as follows: the shell is utilized to shield wind, and has certain low temperature resistance and wind resistance, for example, the shell is made of PVC material, so that the functions of wind resistance, sun resistance, yellowing resistance, cold resistance, water resistance, ultraviolet resistance and the like are achieved.

The waterproof layer adopts a waterproof vapor-permeable membrane and the dustproof, waterproof and breathable technologies of the waterproof vapor-permeable membrane. The waterproof and breathable film is mainly applied to the fields of electronics, buildings and the like. The waterproof breathable film is mainly applied to steel structure and wood structure buildings in the field of buildings. In the building industry, waterproof breathable films are also known as waterproof breathable films. The waterproof breathable film is divided into a standard waterproof breathable film, a pitched roof waterproof breathable film and a pitched roof universal waterproof breathable film. The energy consumption, durability and comfort of the building are closely related to the air tightness, water tightness and steam permeability of the building enclosure, and the waterproof and breathable film technology achieves the purposes of saving energy consumption, protecting human living environment and improving the durability of the building by controlling the factors. The waterproof and breathable film is applied to the wall and the sloping roof, so that additional protection can be provided for the wall heat-insulating material, the heat-insulating property is improved, and the long-term energy-saving effect is guaranteed; in the whole life cycle of the building, the air tightness and the water tightness of the building are enhanced, the building is prevented from being invaded by wind and rain, and the water vapor in the building enclosure structure and the building can be smoothly discharged.

The heat preservation uses aerogel heat preservation technique. Aerogel is a nano porous solid substance, is known as the lightest solid material in the world due to the extremely low density, is also called frozen smoke, and is one of ten new materials for changing the world. The aerogel has outstanding characteristics in the fields of thermal, acoustic, optical, mechanical and the like due to a fine nano-porous structure and a great specific surface area, and has wide application range due to the excellent environment-friendly characteristics of heat insulation, heat preservation, flame retardance, self-cleaning and the like. Aerogels are excellent thermal insulators that almost block the transfer of heat by three heat transfer means. The aerogel contains at least 99.8% of air, which is a poor conductor of heat, and is a good thermal insulation material. Aerogel blankets are currently the largest volume, most widely used aerogel products.

The aerogel felt is the material with the best heat preservation performance in the known heat preservation materials, and the heat preservation performance of the aerogel felt is 3-8 times higher than that of the traditional material. By taking test data published by AG-T aerogel felt of Shenzhen Zhongji science and technology Limited as an example, the details are shown in Table 1. The aerogel felt thermal insulation performance exceeds that of the traditional thermal insulation material, and can be used in the field of daily thermal insulation.

TABLE 1 aerogel blanket parameter Table

The single-phase heat-reflecting layer is a single-phase reflecting film, and the graphene electric heating layer is a graphene electric heating film.

A one-way reflection film (5). And the radiant energy of the graphene electrothermal film is reflected back to the room.

A graphene electrothermal film heating technology. As a novel nano material which is the thinnest, the largest in strength and the strongest in electric conduction and heat conduction performance, graphene is called as 'black gold', which is the king of a new material, has very good heat conduction performance, and has the highest safety performance and the highest electric-heat conversion efficiency in all electric heating elements or the highest parallel electric heating efficiency, so that the application of the graphene in the electric heating field is mature.

The graphene electrothermal film has the following advantages:

(1) the heating effect is good. The graphene electrothermal film is a flexible film without pure carbon atoms doped with other substances in all the electrothermal films, the electrothermal conversion efficiency of the graphene electrothermal film is close to 100%, and energy losses in forms of mechanical energy, optical energy, chemical energy and the like are almost avoided. Compared with other electric heating components with the same unit area power, the graphene electric heating film has the largest proportion of electric heating radiation conversion efficiency.

(2) The power consumption is low. According to the 150-day period display, under the condition heating effect, the costs of air-conditioning heating, gas heating, floor heating, warm air blower heating and electric heating film heating are respectively 5000, 3000, 2500, 1800 and 1500 RMB, and the cost of the graphene electric heating film heating is the lowest and is 30 percent of the air-conditioning heating cost. In addition, the comparison between the heating of the graphene electrothermal film and the heating of the air conditioner also compares the power consumption of the heating of the graphene electrothermal film and the power consumption of the air conditioner. A room with the height of 15 square meters needs a 1.5P air conditioner to basically meet the heating effect, the electricity consumption per hour is about 1500w, namely 1.5 degrees, the graphene electric heating film is laid in the same area, and the electricity consumption is about 800w, which is nearly half of that of the traditional air conditioner. Although the published data of the two are different due to different factors such as electric heating film manufacturers, electric heating film laying areas, temperature evaluation standards, specialty and the like, the absolute advantage of the graphene in the aspect of energy conservation relative to the traditional heat supply can be seen.

(3) The safety is high. The safety of the graphene electrothermal film is mentioned. The traditional building heating causes safety accidents such as loss, leakage, large-area heating interruption and the like easily due to aging of a pipe network, and increases unstable factors. The graphene electrothermal film is insulating and waterproof. The water heater can be normally used in a humid environment or even in water (a constant swimming pool), the safety is extremely high, and the heating is not influenced as long as a power supply is normal. Compared with heating products such as a small solar electric heater used in a movable board house in winter, the novel solar electric heater is not easy to cause fire, has less potential safety hazard and has more obvious advantages.

The bottom surface may be made of rigid plastic, moisture resistant extruded sheet, or other material. High hardness, moisture resistance and heat insulation are required. The bottom is connected with the framework II through bolts.

Roofs and doors and windows. The roof and the openings around the door and the window use a door and window sealing system consisting of a waterproof vapor-barrier membrane and a waterproof vapor-permeable membrane. The sequence from outside to inside is as follows: waterproof vapour barrier-door and window-waterproof vapour barrier. The heat-bridge-free effect is realized, the heat energy loss of the holes around the roof, the door and the window is prevented, and the building heat-preservation degree is increased.

A power source. Three modes are selected according to the purpose of the heat-insulating house: the ice and snow project site is powered by a daily power supply (power is supplied to the ice and snow project site); a portable UPS energy storage power supply supplies power (used for a temporary mobile heating room); and thirdly, solar photovoltaic power supply (used for large heating rooms and saving electric energy).

The interior decoration and the equipment setting can be selected according to the use requirement of the warm-keeping house. Including decorative styles, beds, tables and chairs, lighting, air exhaust, water supply and drainage systems, toilet rooms and the like.

The most advanced passive house technology in the building field, namely the energy-saving design of a heat-bridge-free building is used. Aiming at the problems of water resistance and energy conservation of door and window openings, a sealing system is formed by two new materials, namely a waterproof vapor-barrier film and a waterproof vapor-permeable film, at the transition position of a node between a wall body and a door and a window, so that the airtightness of a warm-keeping house is improved, and the warm-keeping function is enhanced. The efficient waterproof sealing system obviously improves the heat insulation air tightness of doors, windows and roofs and solves the problems of energy conservation and water prevention of window nodes.

The use amount of warm-keeping and heating materials is increased moderately, and an intelligent temperature control system is adopted, so that temperature regulation and control can be realized. According to outdoor ice and snow environment temperature and the area of the warm-keeping house, the waterproof and energy-saving problems of the door and window openings can be solved by adopting two new materials, namely a waterproof vapor-insulating film and a waterproof vapor-permeable film to form a sealing system at the transition position of the node between the wall and the door and the window, so that the airtightness of the warm-keeping house is improved, and the warm-keeping function is enhanced. Meanwhile, the intelligent temperature regulation and control system is used, and the indoor temperature of the warm-keeping room can be automatically regulated according to the requirement.

Claims (8)

1. A warm-keeping house is characterized in that: it comprises an outer wall (1) and a ceiling (2); the ceiling (2) is arranged above the outer wall; the outer wall (1) comprises a shell (3), a waterproof layer (4) and a heat preservation layer (5) which are sequentially arranged from outside to inside;

the heat preservation layer (5) comprises a heat preservation layer (6), a heating layer (7) and a heat conduction layer (8), wherein the heat preservation layer (6), the heating layer (7) and the heat conduction layer (8) are sequentially arranged from outside to inside.

2. The warm house of claim 1, wherein: the heating layer (7) comprises a single-phase heat-reflecting layer (9) and a graphene electric heating layer (10), the single-phase heat-reflecting layer (9) is arranged on one side close to the heat-insulating layer (6), and the graphene electric heating layer (10) is arranged on one side close to the heat-conducting layer (8).

3. The warm house of claim 1, wherein: the ceiling (2) is of a light-transmitting structure or a non-light-transmitting structure, and when the ceiling (2) is of the light-transmitting structure, a first water-resisting layer (11) is arranged at the joint of the ceiling (2) and the outer wall (1).

4. The warm house of claim 3, wherein: the light-transmitting structure is made of glass, sunlight plates or glass fiber reinforced plastics, and the non-light-transmitting structure comprises a ceiling shell (12), a ceiling waterproof layer (13) and a ceiling warm-keeping layer (14).

5. The warm house of claim 1, wherein: the inner side, the middle part or the outer side of the ceiling (2) is provided with a first framework, and the inner side, the middle part or the outer side of the outer wall (1) is provided with a second framework.

6. The warm house of claim 1, wherein: the warm-keeping house further comprises a bottom surface (15), wherein the bottom surface (15) is arranged at the bottom of the outer wall (1) and is connected with the outer wall (1).

7. The warm house of claim 3, wherein: and a door and a window are arranged on the outer wall (1), and a second waterproof layer (16) is arranged at the joint of the door and the window and the outer wall (1).

8. The warm house of claim 7, wherein: the first waterproof layer (11) and the second waterproof layer (16) both comprise a waterproof vapor-permeable layer and a waterproof vapor-barrier layer, and the waterproof vapor-permeable layer is arranged outside the waterproof vapor-barrier layer.

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