CN210164083U

CN210164083U - Multiple composite wall

Info

Publication number: CN210164083U
Application number: CN201920076620.1U
Authority: CN
Inventors: 王忠泽; 陈晓勇; 黄芬完; 李景; 胡理义
Original assignee: Hongguang Construction Co Ltd
Current assignee: Hongguang Construction Co Ltd
Priority date: 2019-01-17
Filing date: 2019-01-17
Publication date: 2020-03-20
Anticipated expiration: 2029-01-17

Abstract

The utility model discloses a multiple composite wall, which comprises a wall body and a plurality of water pipes which are evenly distributed, wherein the wall body comprises a heat absorbing layer, a sound insulating layer and a heat insulating layer, the water pipes are arranged in the heat absorbing layer, the water pipes comprise a flow guide pipe and a drainage pipe, the flow guide pipe comprises an upper end transmission pipe and a lower end transmission pipe, the upper end transmission pipe and the lower end transmission pipe are respectively arranged at two ends of the drainage pipe, a first circulating pump for adjusting the water flow speed is arranged at a water inlet of the upper end transmission pipe, a photovoltaic water raising inverter is connected on the first circulating pump, a heat absorbing material is sleeved outside the drainage pipe, the lower end transmission pipe is connected with an insulation can for storing hot water, a second electromagnetic valve is arranged between the lower end transmission pipe and the insulation can, a temperature sensor is arranged on the second electromagnetic valve, a temperature threshold value is arranged in the temperature sensor, the wall body can keep warm and can heat water in the water pipe by using the temperature of the wall body.

Description

Multiple composite wall

Technical Field

The utility model relates to a construction field, more specifically the utility model relates to a multiple composite wall body that says so.

Background

Walls are important components of buildings. It is used for bearing, enclosing or separating space. The wall body is divided into a bearing wall and a non-bearing wall according to the stress condition and materials of the wall body, and is divided into a solid wall, a sintered hollow brick wall, a cavity wall and a composite wall according to the structural stress condition, and the wall body is divided into the bearing wall and the non-bearing wall according to the structural stress condition. The wall directly bearing the load transmitted from the roof and the floor slab at the upper part is called a bearing wall; the wall which does not bear the upper load is called a non-bearing wall, and the non-bearing wall comprises a partition wall, a filler wall and a curtain wall. The partition wall plays a role in separating the space in the room, and the requirements of sound insulation, fire prevention and the like are met, and the weight of the partition wall is born by the floor slab or the beam; infill walls are typically filled between the stud walls of the frame structure; curtain walls are lightweight exterior walls suspended between external framing or floors. Outside infilled wall and curtain bear wind load and earthquake load, and the thermal insulation wall body on the market adopts novel insulation material mostly, therefore the price is comparatively expensive, and some thermal insulation wall bodies can only guarantee mostly that indoor temperature does not flow outward to the heat preservation effect is general.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a multiple composite wall, this wall body can keep warm and can will utilize the water in the wall body temperature heating water pipe.

In order to achieve the above purpose, the utility model provides a following technical scheme: a multiple composite wall comprises a wall body and a plurality of water pipes which are uniformly distributed, wherein the water pipes are buried in the wall body, the wall body comprises a heat absorption layer, a sound insulation layer and a heat insulation layer, the water pipes are arranged in the heat absorption layer, the water pipes comprise flow guide pipes which are transversely distributed and drainage pipes which are longitudinally distributed, the flow guide pipes comprise an upper end transmission pipe and a lower end transmission pipe, the upper end transmission pipe and the lower end transmission pipe are respectively arranged at two ends of the drainage pipes, the plurality of drainage pipes, the upper end transmission pipe and the lower end transmission pipe are communicated with each other, the pipe diameter of the drainage pipes is smaller than that of the upper end transmission pipe, the upper end transmission pipe and the lower end transmission pipe are both arranged along the length direction of the wall body, the plurality of drainage pipes are arranged along the height direction of the wall body, and a first circulating pump, the solar water heater is characterized in that a photovoltaic water pumping inverter is connected to the first circulating pump, a heat absorbing material is sleeved outside the drainage tube, the lower end transmission tube is connected with an insulation box used for storing hot water, a second electromagnetic valve is arranged between the lower end transmission tube and the insulation box, a temperature sensor is arranged on the second electromagnetic valve, the temperature sensor and the second electromagnetic valve are coupled, a temperature threshold value is arranged in the temperature sensor, and when the water temperature reaches the temperature threshold value, water flow is opened by the second electromagnetic valve to enter the insulation box.

Further, be connected with solar energy circulation driving system on the drainage tube, solar energy circulation driving system includes radiation surface course and a plurality of cooling tubes, and arbitrary two cooling tubes communicate each other and are "S" type distribution, radiation surface course upper portion lid is equipped with the metal covering that supplies people' S hand direct contact heating, cooling tube and drainage tube switch on and constitute the backward flow, be provided with the circular telegram valve that is used for controlling the rivers to flow in on the drainage tube, the circular telegram valve is connected with switch.

Furthermore, the upper end transmission pipe is connected with a solar water tower, the solar water tower is connected with a residential water tower, the solar water tower and the residential water tower are connected through a first pipeline, a first valve is arranged on the first pipeline, and when the first valve is opened, water in the residential water tower can flow into the solar water tower.

Furthermore, the heat absorption material is an aluminum silicate heat insulation material.

Furthermore, be provided with on the puigging and inhale the sound cotton, inhale the cotton aperture that is provided with a plurality of evenly distributed of sound.

Further, a heat insulation material is arranged in the heat insulation layer.

Further, the heat insulating material is aerogel felt.

Furthermore, a filter is arranged between the lower end transmission pipe and the heat preservation box, and a filter element is arranged in the filter.

The utility model has the advantages that:

1. the water pipe is arranged in the wall body, the water pipe is arranged on the heat absorption layer, the upper end transmission pipe is connected with an external water tower, water in the external water tower flows into the upper end transmission pipe and then flows into the drainage pipe, finally, the water is gathered together through the lower end transmission pipe and flows into the insulation can, sunlight irradiates on the wall in daytime, heat of the wall body can be absorbed by a heat absorption material outside the drainage pipe and is used for heating the drainage pipe, then the water in the drainage pipe can carry out heat storage, a first circulating pump is added on the drainage pipe, a photovoltaic water raising inverter is connected on the first circulating pump and is used for controlling and adjusting the operation of the second circulating pump, the second circulating pump is driven by electric energy emitted by the solar array, the output frequency is adjusted in real time according to the change of sunlight intensity, the output power is close to the maximum power of the solar array, when the sunlight intensity is strong, the power of the second, can accelerate the circulation of rivers, when the temperature reaches the temperature threshold value of setting for in the temperature-sensing ware, temperature-sensing ware transmission information gives the solenoid valve, the solenoid valve is opened and is made rivers get into the insulation can, so the user is at the heating that does not need to pass through the water heater, also can use hot water, the effect of puigging lies in the sound in isolated two adjacent rooms, the effect of insulating layer lies in that the heat in the heat-sink layer can not run off too fast, the heat of one heat-sink layer has sufficient time to heat the water in the drainage tube, the two is in summer, external heat can not get into in the room, cause the high temperature in room.

2. Set up one in the wall body and get the hot spot (can distribute the heat on the wall, the people can lean on the wall to get the heat or sit the edge of getting the hot spot), at drainage tube side intercommunication cooling tube, arbitrary two cooling tubes communicate each other and are the shape of returning and distribute on the radiation surface layer, hot water in the drainage tube gets into in the cooling tube, the metal covering is established to the cover on the radiation panel, the metal covering is good conductor of heat, consequently, when the heat in the cooling tube distributes out, conduction effect through the metal covering, with heat transmission to the outside confession people hand contact of wall body, when summer or other do not need the heating, then the user can manually close switch, switch control circular telegram valve closes, then hot water in the drainage tube can not flow into the cooling tube in the radiation panel again, then the metal sheet just can not distribute the heat again.

3. The upper end transmission pipe is connected with the solar water tower, the water temperature in the solar water tower is hot, the water flow in the household water tower is cold, under the condition that the first valve is not opened, the water in the household water tower cannot flow into the solar water tower, therefore, the water entering the upper end transmission pipe is hot, in summer, cool tap water needs to be introduced into the wall to cool the wall, at the moment, the cool tap water in the household water tower can enter the solar water tower only by opening the first valve, and then the water is transmitted into the upper end transmission pipe through the solar water tower.

4. The aluminum silicate heat-insulating material is also called aluminum silicate composite heat-insulating coating, is a novel environment-friendly wall heat-insulating material, accords with the national building standard, uses natural fibers as main raw materials, is added with a certain amount of inorganic auxiliary materials, is compositely processed into a novel green inorganic single-component packaging dry powder heat-insulating coating, is mixed with water before construction and then scraped on the surface of a heat-insulated wall, and can form a microporous reticular heat-insulating layer with a high-strength structure after drying, and the coating can not generate harmful substances to threaten the health of users.

5. The sound-absorbing cotton is artificial inorganic fiber. Natural ores such as quartz sand, limestone, dolomite and the like are adopted as main raw materials, and are matched with chemical raw materials such as sodium carbonate, borax and the like to be melted into glass, the sound-absorbing cotton has the functions of silencing, converting sound energy into heat energy, enabling sound to enter small holes and being consumed through continuous friction and collision.

6. The heat insulation layer is internally provided with a heat insulation material, the heat insulation material adopts aerogel felt, the heat insulation effect of the aerogel felt is 2-5 times that of the traditional heat insulation material, and the theoretical service life measured according to an Arrhenius experiment is 20 years. Almost the same life as a building.

7. Because the pipeline is not washd for a long time, rivers flow out again and supply the user to live and use, consequently carry out prefilter in rivers inflow insulation can, so can ensure customer's water safety to a certain extent.

Drawings

FIG. 1 is a cross-sectional view of a wall;

FIG. 2 is another cross-sectional view of the wall;

FIG. 3 is a front view of the wall;

FIG. 4 is a schematic view of a connection configuration of a solar cycle power system;

FIG. 5 is a schematic view of another connection configuration of the solar cycle power system;

fig. 6 is a schematic view of the connection structure of the solar water tower and the upper end transmission pipe.

Reference numerals: 1. a wall body; 11. a heat absorbing layer; 12. a sound insulating layer; 13. a thermal insulation layer; 2. a water pipe; 21. a flow guide pipe; 211. an upper end conveying pipe; 212. a lower end transmission pipe; 22. a drainage tube; 221. a power-on valve; 222. a power switch; 23. a radiation surface layer; 231. a metal cover; 24. a radiating pipe; 25. a first circulation pump; 26. a photovoltaic water pumping inverter; 3. a heat preservation box; 41. a second solenoid valve; 61. a temperature sensor; 8. sound-absorbing cotton; 81. a small hole; 9. a filter; 91. a filter element; 10. a solar water tower; 101. a residential water tower; 102. a first conduit; 103. a first valve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 6, the multiple composite wall of this embodiment includes a wall 1 itself and a plurality of water pipes 2 uniformly distributed, the water pipes 2 are buried inside the wall 1, the wall 1 includes a heat absorbing layer 11, a sound insulating layer 12 and a heat insulating layer 13, the water pipes 2 are disposed in the heat absorbing layer 11, the water pipes 2 include a flow guiding pipe 21 and drainage pipes 22 longitudinally distributed, the flow guiding pipe 21 includes an upper end transmission pipe 211 and a lower end transmission pipe 212, the upper end transmission pipe 211 and the lower end transmission pipe 212 are respectively disposed at two ends of the drainage pipe 22, the drainage pipes 22, the upper end transmission pipe 211 and the lower end transmission pipe 212 are communicated with each other, the diameter of the drainage pipe 22 is smaller than that of the upper end transmission pipe 211, the upper end transmission pipe 211 and the lower end transmission pipe 212 are both arranged along the length direction of the wall 1, the drainage pipes 22 are arranged along the height direction of the wall 1, the water inlet of the upper end transmission pipe 211 is provided with a first circulating pump 25 used for adjusting the water flow speed, the first circulating pump 25 is connected with a photovoltaic water pumping inverter 26, the outer cover of the drainage pipe 22 is provided with a heat absorbing material, the lower end transmission pipe 212 is connected with an insulation box 3 used for storing hot water, a second electromagnetic valve 41 is arranged between the lower end transmission pipe 212 and the insulation box 3, a temperature sensor 61 is arranged on the second electromagnetic valve 41, the temperature sensor 61 and the second electromagnetic valve 41 are coupled, a temperature threshold value is arranged in the temperature sensor 61, and when the water temperature reaches the temperature threshold value, the second electromagnetic valve 41 opens the water flow to enter the insulation box 3.

The water pipe 2 is arranged inside the wall body 1, the water pipe 2 is arranged on the heat absorption layer 11, the upper end transmission pipe 211 is connected with an external water tower, water in the external water tower flows into the upper end transmission pipe 211 and then flows into the drainage pipe 22, finally, the water is gathered together through the lower end transmission pipe 212 and flows into the insulation box 3, sunlight irradiates on the wall in daytime, heat absorption materials outside the drainage pipe 22 can absorb heat of the wall body 1 for heating the drainage pipe 22, then the water in the drainage pipe 22 can store heat, the drainage pipe 22 is added with the first circulating pump 25, the first circulating pump is connected with the photovoltaic water raising inverter 26, the photovoltaic water raising inverter 26 is used for controlling and adjusting the operation of the second circulating pump, the second circulating pump is driven by electric energy emitted by the solar array, the output frequency is adjusted in real time according to the change of the sunshine intensity, so that the output power is close to the maximum power of the solar, when the sun illumination intensity is strong, then the power of second circulating pump is great, can accelerate the circulation of rivers, when the temperature reaches the temperature threshold value of setting for in the temperature-sensing ware 61, temperature-sensing ware 61 transmission information gives the solenoid valve, the solenoid valve is opened and is made rivers get into in the insulation can 3, so the user is at the heating that does not need to pass through the water heater, also can use hot water, the effect of puigging 12 lies in the sound in isolated two adjacent rooms, the effect of insulating layer 13 lies in that the heat that makes in the heat-sink shell 11 can not run off too fast, the heat of one heat-sink shell 11 has sufficient time to heat the water in drainage tube 22, the two is in summer, external heat can not get into in the room, cause the high temperature in room.

As an improved specific embodiment, the drainage tube 22 is connected with a solar energy circulation power system, the solar energy circulation power system includes a radiation surface layer 23 and a plurality of radiating tubes 24, any two radiating tubes 24 are mutually communicated and distributed in an "S" shape, a metal cover 231 for heating by direct contact of human hands is covered on the upper portion of the radiation surface layer 23, the radiating tubes 24 and the drainage tube 22 are conducted to form a backflow, the drainage tube 22 is provided with an energizing valve 221 for controlling water flow inflow, and the energizing valve 221 is connected with the power switch 222.

A heat-taking point (heat can be emitted from the wall, and a person can lean against the wall to take heat or sit at the side of the heat-taking point) is arranged in the wall body 1, the side surfaces of the drainage tubes 22 are communicated with the radiating tubes 24, any two radiating tubes 24 are mutually communicated and distributed on the radiating surface layer 23 in a zigzag shape, hot water in the drainage tubes 22 enters the radiating tubes 24, the metal cover 231 is sleeved on the radiating panel, and the metal cover 231 is a good heat conductor, so when the heat in the radiating pipe 24 is dissipated, the heat is transferred to the outside of the wall 1 by the conduction of the metal cover 231, and is contacted by the hands of a person, when in summer or other times when no heating is needed, the user may manually turn off the power switch 222, the power switch 222 controls the power-on valve 221 to close, the hot water in the drain tube 22 does not flow into the radiating tube 24 in the radiating panel any more and the metal plate does not emit heat any more.

In a modified embodiment, the upper end transmission pipe 211 is connected with a solar water tower 10, the solar water tower 10 is connected with a residential water tower 101, the solar water tower 10 and the residential water tower 101 are connected by a first pipeline 102, the first pipeline 102 is provided with a first valve 103, and when the first valve 103 is opened, water in the residential water tower 101 can flow into the solar water tower 10.

The upper end transmission pipe 211 is connected with the solar water tower 10, the water temperature in the solar water tower 10 is hot, the water flow in the residential water tower 101 is cold, under the condition that the first valve 103 is not opened, the water in the residential water tower 101 cannot flow into the solar water tower 10, therefore, the water entering the upper end transmission pipe 211 is hot, in summer, the wall 1 needs to introduce cool tap water to cool the wall 1, at the moment, only the first valve 103 needs to be opened, the cool tap water in the residential water tower 101 enters the solar water tower 10, and then the water is transmitted into the upper end transmission pipe 211 through the solar water tower.

As a specific embodiment of improvement, the heat-absorbing material is aluminum silicate heat-insulating material.

The aluminum silicate heat-insulating material is also called aluminum silicate composite heat-insulating coating, is a novel environment-friendly wall body 1 heat-insulating material, accords with the national building standard, uses natural fibers as main raw materials, is added with a certain amount of inorganic auxiliary materials, is a novel green inorganic single-component packaging dry powder heat-insulating coating prepared by composite processing, is mixed with water before construction and then scraped on the surface of the heat-insulated wall body 1, can form a microporous reticular heat-insulating layer with a high-strength structure after drying, and cannot generate harmful substances to threaten the health of users.

As a modified specific embodiment, the sound insulation layer 12 is provided with a sound absorption cotton 8, and the sound absorption cotton 8 is provided with a plurality of small holes 81 which are uniformly distributed.

The sound-absorbing cotton 8 is an artificial inorganic fiber. Natural ores such as quartz sand, limestone and dolomite are used as main raw materials, and are matched with chemical raw materials such as sodium carbonate and borax to be melted into glass, the sound-absorbing cotton 8 has the functions of silencing, converting sound energy into heat energy, enabling the sound to enter the small holes 81, and being consumed through continuous friction and collision.

As a specific embodiment of the improvement, a heat insulating material is arranged in the heat insulating layer 13.

The heat insulation layer 13 is internally provided with a heat insulation material, so that the heat of the heat absorption layer 11 has enough time to heat the water in the drainage tube 22, and in summer, the external heat cannot enter a room, so that the temperature of the room is too high, and the discomfort of a resident user is caused.

In one embodiment of the improvement, the insulation material is aerogel blanket.

The heat insulation layer 13 is internally provided with a heat insulation material which is aerogel felt, the heat insulation effect of the aerogel felt is 2-5 times that of the traditional heat insulation material, and the theoretical service life measured according to an Arrhenius experiment is 20 years. Almost the same life as a building.

As a modified specific embodiment, a filter 9 is arranged between the lower end conveying pipe and the heat preservation box 3, and a filter element 91 is arranged in the filter 9.

Because water pipe 2 is not washd for a long time, rivers flow out again through the pipeline and supply the user to live and use, consequently carry out prefiltering in rivers flow into insulation can 3, so can ensure customer's water safety to a certain extent.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a multiple composite wall, includes wall body (1) itself and a plurality of evenly distributed's water pipe (2), inside wall body (1), its characterized in that are buried underground in water pipe (2): the wall body (1) comprises a heat absorption layer (11), a sound insulation layer (12) and a heat insulation layer (13), the water pipe (2) is arranged in the heat absorption layer (11), the water pipe (2) comprises a guide pipe (21) and a drainage pipe (22), the guide pipe (21) comprises an upper end transmission pipe (211) and a lower end transmission pipe (212), the upper end transmission pipe (211) and the lower end transmission pipe (212) are respectively arranged at two ends of the drainage pipe (22), the plurality of drainage pipes (22), the upper end transmission pipe (211) and the lower end transmission pipe (212) are communicated with each other, the pipe diameter of the drainage pipe (22) is smaller than the pipe diameter of the upper end transmission pipe (211), the upper end transmission pipe (211) and the lower end transmission pipe (212) are arranged along the length direction of the wall body (1), and the plurality of drainage pipes (22) are arranged along the height direction of the wall body (1), the utility model discloses a solar water heater, including upper end transmission pipe (211), drainage tube (22), lower extreme transmission pipe (212), temperature-sensing ware (61), coupling between temperature-sensing ware (61) and second solenoid valve (41), be provided with the temperature threshold in temperature-sensing ware (61), when the temperature reached this temperature threshold, second solenoid valve (41) opened rivers and got into in insulation can (3), be connected with photovoltaic pump-up inverter (26) on first circulating pump (25), the outside cover of drainage tube (22) is equipped with the heat-absorbing material, lower extreme transmission pipe (212) are connected with insulation can (3) that are used for storing hydrothermal, be provided with second solenoid valve (41) between lower extreme transmission pipe (212) and insulation can (3), be provided with temperature threshold on second solenoid valve (41).

2. The multiple composite wall of claim 1, wherein: be connected with solar energy circulation driving system on drainage tube (22), solar energy circulation driving system includes radiation surface course (23) and a plurality of cooling tube (24), and arbitrary two cooling tube (24) communicate each other and are "S" type distribution, radiation surface course (23) upper portion lid is equipped with metal covering (231) that supply the heating of people' S hand direct contact, cooling tube (24) and drainage tube (22) switch on and constitute the backward flow, be provided with on drainage tube (22) and be used for controlling circular telegram valve (221) that the rivers flowed in, circular telegram valve (221) are connected with switch (222).

3. The multiple composite wall of claim 2, wherein: the solar water tower is characterized in that the upper end transmission pipe (211) is connected with a solar water tower (10), the solar water tower (10) is connected with a residential water tower (101), the solar water tower (10) and the residential water tower (101) are connected through a first pipeline (102), a first valve (103) is arranged on the first pipeline (102), and when the first valve (103) is opened, water in the residential water tower (101) can flow into the solar water tower (10).

4. The multiple composite wall of claim 3, wherein: the heat absorbing material is an aluminum silicate heat insulating material.

5. The multiple composite wall of claim 4, wherein: be provided with on puigging (12) and inhale sound cotton (8), inhale and be provided with a plurality of evenly distributed's aperture (81) on sound cotton (8).

6. The multiple composite wall of claim 5, wherein: and a heat insulation material is arranged in the heat insulation layer (13).

7. The multiple composite wall of claim 6, wherein: the heat insulating material is aerogel felt.

8. The multiple composite wall according to any one of claims 1-7, wherein: a filter (9) is arranged between the lower end transmission pipe and the heat preservation box (3), and a filter element (91) is arranged in the filter (9).