CN109736477A - A kind of multiple composite environmental protection wall - Google Patents

Abstract

The invention discloses a kind of MULTIPLE COMPOSITE environment friendly walls, its drip irrigation device includes wall itself and several equally distributed water pipes, wall includes heat-sink shell, puigging and thermal insulation layer, water pipe is set in heat-sink shell, water pipe includes diversion pipe and drainage tube, diversion pipe includes upper end transfer tube and lower end transfer tube, upper end transfer tube and lower end transfer tube are respectively arranged at the both ends of drainage tube, upper end transfer tube water inlet is provided with the pump of the first circulation for adjusting water velocity, photovoltaic water-raising inverter is connected on first circulation pump, drainage tube outer cover is equipped with heat-absorbing material, lower end transfer tube is connected with the incubator for storing hot water, second solenoid valve is provided between lower end transfer tube and incubator, temperature inductor is provided in second solenoid valve, temperature threshold is provided in temperature inductor, when water temperature reaches the temperature threshold, Second solenoid valve is opened water flow and is entered in incubator, which can keep the temperature and can will utilize the water in wall temperature heating pipe.

Description

A kind of multiple composite environmental protection wall

technical field

The invention relates to the field of building construction, in particular to a multiple composite environmental protection wall.

Background technique

Walls are an important part of a building. Its role is to bear, enclose or divide spaces. The wall is divided into load-bearing wall and non-load-bearing wall according to the force and material of the wall. According to the structure of the wall, it is divided into solid wall, sintered hollow brick wall, hollow bucket wall, and composite wall. The distinction between load-bearing walls and non-load-bearing walls. All walls that directly bear the load from the upper roof and floor are called load-bearing walls; all walls that do not bear the upper load are called non-load-bearing walls. Non-load-bearing walls include partition walls, infill walls and curtain walls. The partition wall plays the role of separating the indoor space, and should meet the requirements of sound insulation and fire protection, and its weight is borne by the floor or beam; the infill wall is generally filled between the column walls of the frame structure; the curtain wall is suspended between the external skeleton or floor slabs of lightweight exterior walls. External infill walls and curtain walls are subjected to wind loads and earthquake loads, while most of the thermal insulation walls on the market use new thermal insulation materials, so they are expensive.

SUMMARY OF THE INVENTION

Aiming at the deficiencies of the prior art, the purpose of the present invention is to provide a multiple composite environmental protection wall, which can be insulated and can use the temperature of the wall to heat the water in the water pipe.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multiple composite environmental protection wall, comprising the wall itself and several evenly distributed water pipes, the water pipes are embedded in the wall, and the wall includes a heat absorbing layer , sound insulation layer and heat insulation layer, the water pipe is arranged in the heat absorption layer, the water pipe includes a laterally distributed guide pipe and a longitudinally distributed guide pipe, and the guide pipe includes an upper end transmission pipe and a lower end transmission pipe. The upper transmission pipe and the lower transmission pipe are respectively arranged at both ends of the drainage pipe, and several of the drainage pipes, the upper transmission pipe and the lower transmission pipe are connected to each other, and the diameter of the drainage pipe is smaller than that of the upper transmission pipe. Pipe diameter, the upper transmission pipe and the lower transmission pipe are arranged along the length direction of the wall, a number of the drainage pipes are arranged along the height direction of the wall, the upper transmission pipe is provided with a water inlet for adjusting The first circulating pump of the water flow rate, the photovoltaic pumping inverter is connected to the first circulating pump, the heat-absorbing material is sleeved on the outside of the drainage pipe, and the lower end transmission pipe is connected with an incubator for storing hot water, A second solenoid valve is arranged between the lower end transmission pipe and the incubator, a temperature sensor is arranged on the second solenoid valve, the temperature sensor is coupled with the second solenoid valve, and the temperature sensor is A temperature threshold is set inside, and when the water temperature reaches the temperature threshold, the second solenoid valve opens the water flow into the incubator.

Further, a solar circulation power system is connected to the drainage pipe, and the solar power circulation power system includes a radiation surface layer and a number of radiating pipes, and any two radiating pipes are connected to each other in an "S"-shaped distribution, and the upper part of the radiation surface layer is arranged. The cover is provided with a metal cover for direct contact and heating by human hands. The heat dissipation pipe and the drainage pipe are connected to form a backflow. The drainage pipe is provided with an electrified valve for controlling the inflow of water, and the electrified valve is connected to the power switch.

Further, the upper 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 by a first pipeline, and a first valve is arranged on the first pipeline, When the first valve is opened, the water in the residential water tower can flow into the solar water tower.

Further, the upper transmission pipe is provided with a first solenoid valve for controlling the outflow of water flow, the wall is perpendicular to the ground, and the end of the wall away from the ground is provided with a water outlet hole, and the first solenoid valve is connected to the water outlet. The positions of the holes correspond to the first solenoid valve connected to the power switch. When the first solenoid valve is opened, water flows out of the water outlet hole.

Further, the door handle is provided with a temperature sensor, the induction switch is wirelessly connected to the temperature sensor, and a temperature threshold is set in the temperature sensor. When the external temperature reaches the set temperature threshold, the temperature sensor triggers the induction switch. , the induction switch controls the opening of the first solenoid valve.

Further, the heat absorbing material is an aluminum silicate insulating material.

Further, the sound-absorbing cotton is provided on the sound insulation layer, and the sound-absorbing cotton is provided with a number of evenly distributed small holes.

Further, a heat insulating material is provided in the heat insulating layer.

Further, the heat insulating material is aerogel felt.

Further, a filter is arranged between the lower end connecting pipe and the incubator, and a filter element is arranged in the filter.

Beneficial effects of the present invention:

1. The water pipe is set inside the wall, the water pipe is set in the heat absorption layer, the upper transmission pipe is connected to the external water tower, the water in the external water tower flows into the upper transmission pipe, and then flows into the drainage pipe, and finally the water is collected together through the lower transmission pipe and flows into In the incubator, the sun shines on the wall during the day, and the heat-absorbing material outside the drainage pipe will absorb the heat of the wall and use it to heat the drainage pipe, then the water in the drainage pipe will store heat, and a first circulating pump will be added to the drainage pipe. , the first ring pump is connected with a photovoltaic pumping inverter. The function of the photovoltaic pumping inverter is to control and adjust the operation of the second circulating pump, and use the electric energy generated by the solar array to drive the second circulating pump. The output frequency is adjusted in real time, so that the output power is close to the maximum power of the solar cell array. When the solar light intensity is strong, the power of the second circulating pump is larger, which can speed up the circulation of the water flow. When the water temperature reaches the temperature sensor When the temperature threshold is set, the temperature sensor transmits information to the solenoid valve, and the solenoid valve opens to make the water flow into the incubator, so that the user can use hot water without heating by the water heater. The function of the sound insulation layer is to isolate the two. The function of the sound insulation layer in the adjacent room is to prevent the heat in the heat absorption layer from being lost too quickly. The heat of the heat absorption layer has enough time to heat the water in the drainage pipe. In summer, the outside heat will not enter the room, causing the room temperature to be too high.

2. Set up a hot spot inside the wall (the wall can emit heat, and people can lean on the wall to take heat or sit on the edge of the hot spot), connect the heat dissipation pipe on the side of the drainage pipe, and any two heat dissipation pipes are connected to each other. The loop is distributed on the radiation surface layer, the hot water in the drainage pipe enters the heat dissipation pipe, and a metal cover is set on the radiation panel. Function, transfer heat to the outside of the wall for human contact, when in summer or other times when heating is not required, the user can manually turn off the power switch, the power switch controls the power-on valve to close, and the hot water in the drainage pipe will no longer flow into In the heat pipe inside the radiant panel, the metal plate no longer emits heat.

3. The upper transmission pipe is connected to the solar water tower. The water temperature in the solar water tower is hot, and the water flow in the residential water tower is cool. When the first valve is not opened, the water in the residential water tower will not flow into the solar water tower. Therefore, the water entering the upper transfer pipe is hot. In summer, the wall needs to introduce cool tap water to cool the wall. At this time, only the first valve needs to be opened, and the cool tap water from the residential water tower will enter. In the solar water tower, the water is transferred to the upper transmission pipe through the solar water tower.

3. When the fire comes and there is no fire extinguisher around, people often use water to put out the fire. The first solenoid valve is set on the transmission pipe to control the outflow of water. The first solenoid valve is connected to the induction switch. When the induction switch is turned on , the first solenoid valve is opened, and the water in the upper transmission pipe will be sprayed to the outside through the water outlet to extinguish the fire.

4. When the fire is about to spread to the door, the temperature of the door handle is the highest (because most door handles are made of metal), and a temperature sensor is set on the door handle. Assuming that the temperature threshold set in the temperature sensor is 80°, then When the temperature on the door handle reaches 80°, it means that there is a fire in the building, and the temperature sensor drives the solenoid valve to open, so that the water flows out of the water outlet. The power supply should be a backup power supply, so as to ensure that even when the normal power supply is cut off, the backup power supply can still supply power.

5. Aluminum silicate thermal insulation material, also known as aluminum silicate composite thermal insulation coating, is a new type of environmentally friendly wall thermal insulation material, which conforms to national building standards. A new type of green inorganic single-component packaging dry powder thermal insulation coating made of inorganic auxiliary materials through composite processing. Before construction, the thermal insulation coating is mixed with water and then scraped on the surface of the wall to be thermally insulated. After drying, it can form a microporous mesh with The thermal insulation layer of high-strength structure, this kind of coating will not produce harmful substances that threaten the health of users.

6. Sound-absorbing cotton is a man-made inorganic fiber. Quartz sand, limestone, dolomite and other natural ores are used as the main raw materials, and some chemical raw materials such as soda ash and borax are used to melt into glass. The function of sound-absorbing cotton is to muffle sound and convert sound energy into heat energy. frictional collision, which is consumed.

7. There is a thermal insulation material in the thermal insulation layer, and the thermal insulation material adopts aerogel felt. The thermal insulation effect of the aerogel felt is 2-5 times that of the traditional thermal insulation material. It is used according to the theory determined by the Arrhenius experiment. The term is 20 years. Almost as long as the building.

8. Since the pipe has not been cleaned for a long time, the water flows through the water pipe and then flows out for the user's daily use. Therefore, the water flow flows into the incubator for preliminary filtration, which can ensure the water safety of the customer to a certain extent.

Description of drawings

Figure 1 is a sectional view of a wall;

Fig. 2 is another sectional view of the wall;

Figure 3 is a front view of the wall;

4 is a schematic diagram of a connection module of a temperature sensor and a first solenoid valve;

Figure 5 is a schematic diagram of the connection structure of the solar power cycle power system;

FIG. 6 is a schematic diagram of another connection structure of the solar power cycle power system;

FIG. 7 is a schematic diagram of the connection structure of the solar water tower and the upper end transmission pipe.

Reference numerals: 1, wall; 11, heat absorption layer; 12, sound insulation layer; 13, heat insulation layer; 2, water pipe; 21, guide pipe; 211, upper end transmission pipe; 212, lower end transmission pipe; 22, Drainage pipe; 221, energizing valve; 222, power switch; 23, radiation surface layer; 231, metal cover; 24, cooling pipe; 25, first circulating pump; 26, photovoltaic pumping inverter; 3, incubator; 4 , the first solenoid valve; 41, the second solenoid valve; 5, the water outlet; 6, the temperature sensor; 61, the temperature sensor; 7, the induction switch; 8, the sound-absorbing cotton; 81, the small hole; 9, the filter; 91 , filter element; 10, solar water tower; 101, residential water tower; 102, the first pipeline; 103, the first valve.

Detailed ways

The present invention will be described in further detail below with reference to the accompanying drawings and embodiments. Wherein the same parts are denoted by the same reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "bottom" and "top" "Face", "inner" and "outer" refer to directions toward or away from the geometric center of a particular part, respectively.

Referring to FIGS. 1 to 7 , a multi-composite environmental protection wall body in this embodiment includes a wall body 1 itself and a number of evenly distributed water pipes 2. The water pipes 2 are embedded inside the wall body 1, and the wall body 1 It includes 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 flow pipe 21 includes an upper transmission pipe 211 and a lower transmission pipe 212. The upper transmission pipe 211 and the lower transmission pipe 212 are respectively arranged at both ends of the drainage pipe 22. Several of the drainage pipes 22, the upper transmission pipe 211 and the lower transmission pipe are provided. 212 are connected to each other, the diameter of the drainage pipe 22 is smaller than the diameter of the upper transmission pipe 211, the upper transmission pipe 211 and the lower transmission pipe 212 are arranged along the length direction of the wall 1, and several The drainage pipes 22 are arranged along the height direction of the wall 1 , and a first circulating pump 25 for adjusting the water flow speed is provided at the water inlet of the upper transmission pipe 211 , and a photovoltaic pumping water is connected to the first circulating pump 25 . Inverter 26, the drainage pipe 22 is covered with heat-absorbing material outside, the lower end transfer pipe 212 is connected with a heat preservation box 3 for storing hot water, and a second heat preservation box 3 is arranged between the lower end transfer pipe 212 and the heat preservation box 3. Two solenoid valves 41, the second solenoid valve 41 is provided with a temperature sensor 61, the temperature sensor 61 is coupled with the second solenoid valve 41, the temperature sensor 61 is provided with a temperature threshold, when When the water temperature reaches the temperature threshold, the second solenoid valve 41 opens the water flow into the incubator 3 .

The water pipe 2 is arranged inside the wall 1, the water pipe 2 is arranged in the heat-absorbing layer 11, the upper transmission pipe 211 is connected with the external water tower, the water in the external water tower flows into the upper transmission pipe 211, and then flows into the drainage pipe 22, and finally passes through the lower transmission pipe. 212 collects the water into the incubator 3, and the sun shines on the wall during the day, and the heat absorbing material outside the drainage pipe 22 will absorb the heat of the wall 1 for heating the drainage pipe 22, then the water in the drainage pipe 22 Heat storage will be performed, a first circulating pump 25 is added to the drainage pipe 22, and a photovoltaic water pumping inverter 26 is connected to the first ring pump. The function of the photovoltaic water pumping inverter 26 is to control and adjust the operation of the second circulating pump. , drive the second circulating pump with the electric energy emitted by the solar array, and adjust the output frequency in real time according to the change of the sunlight intensity, so that the output power is close to the maximum power of the solar battery array. The power is large, which can speed up the circulation of the water flow. When the water temperature reaches the temperature threshold set in the temperature sensor 61, the temperature sensor 61 transmits information to the solenoid valve, and the solenoid valve opens to make the water flow into the incubator 3. It needs to be heated by a water heater and can also be used for hot water. The function of the sound insulation layer 12 is to isolate the sound of two adjacent rooms, and the function of the insulation layer 13 is to prevent the heat in the heat absorbing layer 11 from being lost too quickly. One is that the heat of the heat absorbing layer 11 has enough time to heat the water in the drainage pipe 22, and the other is that in summer, the outside heat will not enter the room, causing the room temperature to be too high.

As an improved specific embodiment, the drainage pipe 22 is connected with a solar power cycle power system, and the solar power cycle power system includes a radiation surface layer 23 and a plurality of heat dissipation pipes 24. Any two heat dissipation pipes 24 are connected to each other in a "S" shape. ” type distribution, the upper part of the radiation surface layer 23 is covered with a metal cover 231 for direct contact and heating by human hands, the heat dissipation pipe 24 and the drainage pipe 22 are connected to form a return flow, and the drainage pipe 22 is provided with a control device for controlling the inflow of water. The power-on valve 221 is connected to the power switch 222 .

A hot spot is set inside the wall body 1 (the wall can emit heat, and people can lean on the wall to take heat or sit on the edge of the hot spot), and the side of the drainage pipe 22 is connected to the heat pipe 24, and any two heat pipes 24 are mutually connected to each other. The connection is distributed on the radiation surface layer 23 in a loop shape, the hot water in the drainage pipe 22 enters the heat dissipation pipe 24, and a metal cover 231 is sleeved on the radiation panel. The metal cover 231 is a good thermal conductor. When the heat is radiated, the heat is transmitted to the outside of the wall 1 for human contact through the conduction of the metal cover 231. When heating is not required in summer or other times, the user can manually turn off the power switch 222. The power switch 222 controls the power-on When the valve 221 is closed, the hot water in the drainage pipe 22 will no longer flow into the heat dissipation pipe 24 in the radiant panel, and the metal plate will no longer emit heat.

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

The upper transmission pipe 211 is connected to the solar water tower 10. The temperature of the water in the solar water tower 10 is hot, and the water flow in the residential water tower 101 is cool. When the first valve 103 is not opened, the water in the residential water tower 101 will not The water flows into the solar water tower 10, so the water entering the upper transmission pipe 211 is hot. In summer, the wall 1 needs to introduce cool tap water to cool the wall 1. At this time, only the first valve 103 needs to be opened, and the residential water The cool tap water in the tower 101 will enter the solar water tower 10, and then the water will be transported to the upper transmission pipe 211 through the solar water tower.

As an improved specific embodiment, the upper transmission pipe 211 is provided with a first solenoid valve 4 for controlling the outflow of water, the wall 1 is perpendicular to the ground, and the end of the wall 1 away from the ground is provided with a water outlet Hole 5, the position of the first solenoid valve 4 corresponds to the water outlet hole 5, the first solenoid valve 4 is connected to the power switch, when the first solenoid valve 4 is opened, water flows out of the water outlet hole 5.

When a fire comes and there is no fire extinguisher around, people often use water to extinguish the fire. A first solenoid valve 4 is arranged on the transmission pipe to control the outflow of water. The first solenoid valve 4 is connected to the induction switch 7. When the induction switch 7 When turned on, the first solenoid valve 4 is opened, and the water in the upper end transfer pipe 211 will be sprayed to the outside through the water outlet hole 5 to extinguish the fire.

As an improved specific embodiment, the door handle is provided with a temperature sensor 6, the inductive switch 7 is wirelessly connected to the temperature sensor 6, and the temperature sensor 6 is provided with a temperature threshold. When the external temperature reaches the set value When the temperature threshold is reached, the temperature sensor 6 triggers the induction switch 7, and the induction switch 7 controls the first solenoid valve 4 to open.

When the fire is about to spread to the door, the temperature of the door handle is the highest (because most of the door handles are made of metal), and a temperature sensor 6 is set on the door handle. Assuming that the temperature threshold set in the temperature sensor 6 is 80°, then When the temperature on the door handle reaches 80°, it means that there is a fire in the building, and the temperature sensor 6 drives the solenoid valve to open, so that the water flows out of the water outlet 5. Due to the advent of fire, some circuits may be cut off, so the induction switch The power supply on 7 should be a backup power supply, so that it can be ensured that even when the normal power supply is cut off, the backup power supply can still supply power.

As an improved specific embodiment, the heat absorbing material is an aluminum silicate heat insulating material.

Aluminum silicate thermal insulation material, also known as aluminum silicate composite thermal insulation coating, is a new type of environmental protection wall 1 thermal insulation material, which conforms to national building standards. A new type of green inorganic single-component packaging dry powder thermal insulation coating made of auxiliary materials. Before construction, the thermal insulation coating is prepared with water and then scraped on the surface of the wall to be insulated. After drying, a microporous mesh can be formed. The thermal insulation layer of high-strength structure, this kind of coating will not produce harmful substances that threaten the health of users.

As an improved specific embodiment, the sound-absorbing cotton 8 is provided on the sound insulation layer 12 , and the sound-absorbing cotton 8 is provided with a number of evenly distributed small holes 81 .

The sound-absorbing cotton 8 is a man-made inorganic fiber. Quartz sand, limestone, dolomite and other natural ores are used as the main raw materials, and some chemical raw materials such as soda ash and borax are used to melt into glass. After constant friction and collision, it is consumed.

As an improved specific embodiment, the heat insulating layer 13 is provided with heat insulating material.

Heat insulating material is arranged in the heat insulating layer 13, the heat of the heat absorbing layer 11 has enough time to heat the water in the drainage pipe 22, and the heat from the outside will not enter the room in summer, resulting in The temperature of the room is too high, causing discomfort to the occupants.

As an improved specific embodiment, the heat insulating material is aerogel felt.

The heat insulating layer 13 is provided with a heat insulating material, and the heat insulating material adopts aerogel felt. The heat insulating effect of the aerogel felt is 2-5 times that of the traditional heat insulating material. The theoretical service life determined by the Arrhenius experiment for 20 years. Almost as long as the building.

As an improved specific embodiment, a filter 9 is arranged between the lower end connecting pipe and the insulation box 3 , and a filter element 91 is arranged in the filter 9 .

Since the water pipe 2 has not been cleaned for a long time, the water flows through the pipe and then flows out for the user's daily use. Therefore, the water flow flows into the incubator 3 for preliminary filtration, which can ensure the water safety of the customer to a certain extent.

The above are only the preferred embodiments of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions under the idea of the present invention belong to the protection scope of the present invention. It should be pointed out that for those skilled in the art, some improvements and modifications without departing from the principle of the present invention should also be regarded as the protection scope of the present invention.

Claims (10)

1. a kind of MULTIPLE COMPOSITE environment friendly wall, including wall (1) itself and several equally distributed water pipes (2), the water pipe (2) it is internal to be embedded in wall (1), it is characterised in that: the wall (1) includes heat-sink shell (11), puigging (12) and thermal insulation layer (13), the water pipe (2) is set in heat-sink shell (11), and the water pipe (2) includes diversion pipe (21) and the longitudinal direction point of cross direction profiles The drainage tube (22) of cloth, the diversion pipe (21) include upper end transfer tube (211) and lower end transfer tube (212), and the upper end passes Defeated pipe (211) and lower end transfer tube (212) are respectively arranged at the both ends of drainage tube (22), several drainage tubes (22) and upper end The caliber of mutual conduction between transfer tube (211) and lower end transfer tube (212) three, the drainage tube (22) is passed less than upper end The caliber of defeated pipe (211), the upper end transfer tube (211) and lower end transfer tube (212) are arranged each along the length direction of wall (1) Cloth, several drainage tubes (22) are arranged along the short transverse of wall (1), and upper end transfer tube (211) water inlet is set It is equipped with the first circulation pump (25) for adjusting water velocity, is connected with photovoltaic water-raising inverter on the first circulation pump (25) (26), drainage tube (22) outer cover is equipped with heat-absorbing material, and the lower end transfer tube (212) is connected with for storing hot water Incubator (3) is provided with second solenoid valve (41), second electromagnetism between the lower end transfer tube (212) and incubator (3) It is provided on valve (41) temperature inductor (61), is coupled between the temperature inductor (61) and second solenoid valve (41), it is described It is provided with temperature threshold in temperature inductor (61), when water temperature reaches the temperature threshold, second solenoid valve (41) opens water flow In into incubator (3).

2. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 1, it is characterised in that: connected on the drainage tube (22) There is solar energy Circulated power system, the solar energy Circulated power system includes radiation surface layer (23) and several heat-dissipating pipes (24), any two heat-dissipating pipe (24) is interconnected is distributed in " S " type, and radiation surface layer (23) upper cap is equipped with direct for manpower The metal cap (231) of heating is contacted, the heat-dissipating pipe (24) and drainage tube (22) conducting are constituted and flowed back, on the drainage tube (22) It is provided with the energization valve (221) for controlling water flow inflow, the energization valve (221) connect with power switch (222).

3. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 2, it is characterised in that: the upper end transfer tube (211) It is connected with solar energy water tower (10), the solar energy water tower (10) connects urbanite water consumption tower (101), the solar energy water tower (10) It is connected between urbanite water consumption tower (101) using first pipe (102), is provided with the first valve on the first pipe (102) (103), when the first valve (103) is opened, the water energy in urbanite water consumption tower (101) is enough flowed into solar energy water tower (10).

4. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 3, it is characterised in that: the upper end transfer tube (211) On be provided with for control water flow outflow the first solenoid valve (4), the wall (1) is perpendicular to the ground, and the wall (1) is separate The one end on ground is provided with apopore (5), and first solenoid valve (4) is corresponding with the position of apopore (5), first electricity Magnet valve (4) connects power switch, and when the first solenoid valve (4) is opened, water flow is flowed out from apopore (5).

5. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 4, it is characterised in that: be provided with temperature in the door handle It spends sensor (6), the inductive switch (7) connect with temperature sensor (6) wireless telecommunications, sets in the temperature sensor (6) It is equipped with temperature threshold, when external temperature reaches the temperature threshold of setting, temperature sensor (6) triggers inductive switch (7), induction (7) control the first solenoid valve (4) is switched to open.

6. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 5, it is characterised in that: the heat-absorbing material is alumina silicate Thermal insulation material.

7. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 6, it is characterised in that: be arranged on the puigging (12) Have acoustical cotton (8), several equally distributed apertures (81) are provided on the acoustical cotton (8).

8. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 7, it is characterised in that: setting in the thermal insulation layer (13) There is heat-barrier material.

9. a kind of MULTIPLE COMPOSITE environment friendly wall according to claim 8, it is characterised in that: the heat-barrier material is aeroge Felt.

10. a kind of MULTIPLE COMPOSITE environment friendly wall described in any one of -9 according to claim 1, it is characterised in that: under described It is provided with filter (9) between end connecting tube and incubator (3), is provided with filter core (91) in the filter (9).