CN209891441U - Compound environmental protection wall body of intelligence - Google Patents

Abstract

The utility model discloses an intelligent composite environmental protection wall, which comprises a heating plate arranged in the wall, wherein the heating plate comprises a plurality of evenly distributed drainage tubes, both ends of the drainage tubes are provided with a first communicating tube and a second communicating tube for communicating the drainage tubes, the first communicating tube is provided with a pressure relief valve, the second communicating tube is connected with a baffle, the baffle divides the drainage tubes into a hot air guide tube for upward gas flow and a cold air guide tube for downward gas flow, backflow can be formed between the hot air guide tube and the cold air guide tube, the lower end of the hot air guide tube is provided with an air inlet tube, the lower end of the cold air guide tube is provided with an exhaust tube, the air inlet tube is connected with a solar energy gas storage pool by adopting a pipeline, the exhaust tube is connected with the solar energy gas storage pool by adopting a pipeline, the air inlet tube, the solar air storage pool is provided with the fan for absorbing air, and the wall can keep dry and prevent the wall from mildewing.

Description

Compound environmental protection wall body of intelligence

Technical Field

The utility model relates to a construction field, more specifically the compound environmental protection wall body of intelligence that says so relates to.

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; the curtain wall is a light outer wall hung between external frameworks or floor slabs, the external filler wall and the curtain wall bear wind load and earthquake load, various wall bodies have the same problem, namely the moisture-proof effect is poor, especially in the rainy season in the south, water drops can be attached to the wall body in the house, and if the water drops are attached to the wall body for a long time, the wall body is easy to mildew.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a compound environmental protection wall body of intelligence, this wall body can keep dry, prevents that the wall body from going mouldy.

In order to achieve the above purpose, the utility model provides a following technical scheme: an intelligent composite environment-friendly wall body comprises a heating plate arranged in the wall body, wherein the heating plate comprises a plurality of uniformly distributed drainage tubes, the drainage tubes are separated from one another, a first communicating pipe and a second communicating pipe for communicating the drainage tubes are arranged at two ends of the drainage tubes, a pressure relief valve is arranged on the first communicating pipe, a baffle is connected onto the second communicating pipe, the baffle divides the drainage tubes into a hot air flow guiding pipe for enabling gas to flow upwards and a cold air flow guiding pipe for enabling gas to flow downwards, backflow can be formed between the hot air flow guiding pipe and the cold air flow guiding pipe, an air inlet pipe is arranged at the lower end of the hot air flow guiding pipe, an exhaust pipe is arranged at the lower end of the cold air flow guiding pipe, the air inlet pipe is connected with a solar gas storage pool through a pipeline, the exhaust pipe is connected with the solar, still be provided with the circulating pump that is used for driving gas circulation in the inlet duct, be provided with the fan that is used for absorbing gaseous on the solar energy gas storage pond.

Further, set up the gas storage pond between intake pipe and the intake pipe, intake pipe and intake pipe all insert inside the gas storage pond, still set up the gas injection mouth that has the inflow of external gas on the gas storage pond, the gas injection mouth adopts pipeline and external connection.

Furthermore, the air inlet pipe is connected with the solar gas storage pool through a pipeline, and the air inlet pipe is connected with the solar gas storage pool through a pipeline.

Furthermore, the air inlet pipe is provided with an electromagnetic valve, the electromagnetic valve is connected with a relay for controlling the opening and closing of the electromagnetic valve, and the relay is arranged outside the wall body.

Furthermore, a heating pipe for heating air is arranged in the flow guide pipe.

Furthermore, the heating pipe is an electrothermal film heating body.

The utility model has the advantages that:

1. in the prior art, most of the walls have poor moisture-proof effect, especially in the rainy season in the south, water drops can adhere to the walls in homes, and if the water drops adhere to the walls for a long time, the walls are easy to mildew, therefore, the technical scheme is that the heating plate is arranged in the walls and has the function of radiating heat to evaporate water on the walls, so as to avoid the mildew of the walls, the heating plate consists of a plurality of drainage tubes which are uniformly distributed, the drainage tubes between any two adjacent drainage tubes can not be communicated, the upper ends of the drainage tubes are provided with first communicating pipes which communicate the upper ends of the drainage tubes, the lower ends of the drainage tubes are provided with second communicating pipes which communicate the lower ends of the drainage tubes, therefore, gas can flow among the drainage tubes to form backflow through the arrangement of the first communicating pipes and the second communicating pipes, the baffle divides the second communicating pipe into a left part and a right part, so that a plurality of drainage pipes are divided into a hot air flow guiding pipe and a cold air flow guiding pipe, the air inlet pipe is communicated with the solar gas storage pool, the solar gas storage pool absorbs solar energy to heat gas, a pressure valve is arranged in the air inlet pipe, when the pressure reaches a certain threshold value, the pressure valve is opened, the gas in the solar gas storage pool enters the air inlet pipe (the pressure valve is arranged, the advantage is that the gas is prevented from infinitely entering the air inlet pipe, the air pressure in the drainage pipe is overhigh, and the drainage pipe bursts), the heated gas enters the hot air flow guiding pipe through the air inlet pipe (compared with the prior art that the solar energy heating saves energy), the gas is transmitted along the length direction of the drainage pipes through a circulating pump, a fan is arranged outside the solar gas storage pool, and the fan can gather the external gas together, store in solar energy pond of holding, the outside heat dissipation material that is of hot-air honeycomb duct, consequently, the heat in the hot-air honeycomb duct can distribute out through the heat dissipation material, after gaseous cooling, gaseous then can flow out to the gas outlet in following the cold-air honeycomb duct, continue to heat in finally flowing into solar energy pond of holding, treat and get into the hot-air honeycomb duct in gas injection mouth 6 again after the gas heating, so reciprocal, because the wall body receives the steam that distributes out in the hot-air honeycomb duct comparatively dry, then moisture on the wall can be evaporated, so alright with prevent that the wall body from leading to the wall body to go mildy because moisture is too much.

2. Because present solar thermal energy air heater has not been popularized yet, not all have solar thermal energy air heater in the family, if the family does not have solar thermal energy air heater, then in the installation of hot plate, intake pipe and intake pipe direct connection gas storage tank, be provided with the gas injection mouth that supplies the outside to pour into gas into in the gas storage tank on the gas storage tank, the outside pours into gas into in the gas storage tank, gas in the gas storage tank gets into the hot air honeycomb duct from the intake pipe, the gas in the hot air honeycomb duct is heated to the heating pipe, the heat of heating back gas distributes the heat through the cooling tube, the heat that distributes out permeates into inside the wall body, the evaporation is attached to the little water droplet on the wall body.

3. The solenoid valve has been set up on the pipeline, open after the solenoid valve circular telegram, gaseous 6 inflow hot-air honeycomb ducts through the gas injection mouth, after the outage, the solenoid valve is closed, gaseous being difficult to through gas injection mouth 6, consequently, the gaseous backward flow that can not form in the drain, get into south weather and just can adhere to the dribble on the wall body when mostly only in plum rain season, consequently, should be provided with the relay that is used for controlling the solenoid valve switch, the relay sets up at the wall body outside, because whole hot plate all directly sets up inside the wall body in wall body installation, it controls its switch to hardly direct contact hot plate at later stage user, consequently, set up the relay in the wall body outside, then the user can directly come the switch of control solenoid valve through the relay.

4. The electric heating wire is arranged in the heating pipe, the heating pipe is filled with insulating materials such as magnesia powder, the electric heating wire is packaged and fixed in the middle of the pipe, so that the electric heating wire is not contacted with the pipe wall, two ends of the electric heating wire are respectively communicated with a power supply, after the electric heating wire is electrified, current passes through the electric heating wire, the electric heating wire generates heat, the heat is radiated by the magnesia powder to heat gas, and the electric heating wire cannot be burnt out.

5. The copper-aluminum composite radiator has the advantages of corrosion resistance, portability and quick heat dissipation.

Drawings

FIG. 1 is a schematic plan view of a wall;

fig. 2 is another schematic plane structure diagram of the wall.

Reference numerals: 1. heating plates; 2. a drainage tube; 21. a hot air duct; 22. a cold air draft tube; 3. a first communication pipe; 31. a second communicating pipe; 32. a pressure relief valve; 33. a baffle plate; 4. an air inlet pipe; 44. a pressure valve; 441. a circulation pump; 41. an exhaust pipe; 5. a gas storage tank; 51. a solar energy storage pool; 52. a fan; 6. a gas injection port; 7. an electromagnetic valve; 8. heating the tube.

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 2, the intelligent composite environmental protection wall of the embodiment includes a heating plate 1 disposed inside the wall, the heating plate 1 includes a plurality of drainage tubes 2 uniformly distributed, a plurality of drainage tubes 2 are separated from each other, a plurality of first communication tubes 3 and second communication tubes 31 for communicating the drainage tubes 2 are disposed at both ends of the drainage tubes 2, a pressure release valve 32 is disposed on the first communication tube 3, a baffle 33 is connected to the second communication tube 31, the baffle 33 separates the drainage tubes 2 into a hot air flow guide tube 21 through which gas flows upward and a cold air flow guide tube 22 through which gas flows downward, a backflow can be formed between the hot air flow guide tube 21 and the cold air flow guide tube 22, an air inlet pipe 4 is disposed at a lower end of the hot air flow guide tube 21, an exhaust pipe 41 is disposed at a lower end of the cold air flow guide tube 22, and the air inlet pipe 4, the exhaust pipe 41 is connected with a solar gas storage pool 51 by adopting a pipeline, the intake pipe 4 is provided with a pressure valve 44, the intake pipe 4 is also internally provided with a circulating pump 441 used for driving gas circulation, and the solar gas storage pool 51 is provided with a fan 52 used for absorbing gas.

In the prior art, most of the walls have poor moisture-proof effect, especially in the rainy season in the south, water drops can adhere to the walls in homes, and if the water drops adhere to the walls for a long time, the walls are easy to mildew, so the technical scheme is that the heating plate 1 is arranged in the walls, the heating plate 1 is used for radiating heat to evaporate water on the walls, so the mildew of the walls is avoided, the heating plate 1 consists of a plurality of drainage tubes 2 which are uniformly distributed, the drainage tubes 2 between any two adjacent drainage tubes cannot be communicated, the upper ends of the drainage tubes 2 are provided with first communicating tubes 3, the upper ends of the drainage tubes 2 are communicated through the first communicating tubes 3, the lower ends of the drainage tubes 2 are provided with second communicating tubes 31, the second communicating tubes 31 are communicated with the lower ends of the drainage tubes 2, and therefore, through the arrangement of the first communicating tubes 3 and the second communicating tubes 31, gas can flow among the drainage tubes 2 to form backflow, the baffle 33 divides the second communicating pipe 31 into a left part and a right part, so that the plurality of drainage pipes 2 are divided into a hot air drainage pipe 21 and a cold air drainage pipe 22, the air inlet pipe 4 is communicated with the solar energy storage pool 51, the solar energy storage pool 51 absorbs solar energy to heat the gas, a pressure valve 44 is arranged in the air inlet pipe 4, when the pressure reaches a certain threshold value, the pressure valve 44 is opened, the gas in the solar energy storage pool 51 enters the air inlet pipe 4 (the pressure valve 44 is arranged to prevent the gas from infinitely entering the air inlet pipe 4, so that the air pressure in the drainage pipe 2 is too high, and the drainage pipe 2 bursts), the heated gas enters the hot air drainage pipe 21 through the air inlet pipe 4 (compared with the prior art that the solar energy is saved due to the adoption of electric energy heating), and the gas is transmitted along the length direction of the drainage pipe 2 through the circulating pump 441, set up fan 52 outside solar energy gas storage pool 51, fan 52 can gather together the outside gas, store in solar energy gas storage pool 51, hot-air honeycomb duct 21 is outside to be the heat dissipation material, consequently, the heat in hot-air honeycomb duct 21 can distribute out through the heat dissipation material, after gaseous cooling, gaseous then can flow out to the gas outlet from cold air honeycomb duct 22, continue to heat in finally flowing into solar energy gas storage pool 51, treat that gaseous heating later gets into hot-air honeycomb duct 21 by gas injection mouth 6 in again, so reciprocal, because the wall body receives the steam of distributing out in hot-air honeycomb duct 21 comparatively dry, then moisture on the wall can be evaporated, so alright prevent that the wall body from leading to the wall body moldy because of moisture is too much.

As an improved specific embodiment, a heating pipe 8 for heating air is arranged in the flow guiding pipe, an air storage tank 5 is arranged between the air inlet pipe 4 and the air outlet pipe 41, the air inlet pipe 4 and the air outlet pipe 41 are both inserted into the air storage tank 5, an air injection port 6 for allowing external air to flow in is further formed in the air storage tank 5, and the air injection port 6 is connected with the outside through a pipeline.

Because present solar hot air ware has not been popularized yet, not all have solar hot air ware in the family, if do not have solar hot air ware at home, then in the installation of hot plate 1, intake pipe 4 and blast pipe 41 direct connection gas storage tank 5, be provided with on the gas storage tank 5 and supply the outside gas injection mouth 6 of gas injection gas storage tank 5 in, the outside is with gas injection gas storage tank 5 in, gas in the gas storage tank 5 gets into hot air honeycomb duct 21 from intake pipe 4, gas in the hot air honeycomb duct 21 is heated to heating pipe 8, the heat of heating back gas distributes the heat through the cooling tube, the heat that distributes out permeates into inside the wall body, evaporate the little water droplet of attached to on the wall body.

As a modified specific embodiment, the air inlet pipe 4 is provided with an electromagnetic valve 7, the electromagnetic valve 7 is connected with a relay for controlling the opening and closing of the electromagnetic valve 7, and the relay is arranged outside the wall.

The intake pipe 4 is provided with the solenoid valve 7, open after the solenoid valve 7 circular telegram, gaseous hot-air honeycomb duct 21 that flows in through gas injection mouth 6, after the outage, solenoid valve 7 closes, it is difficult for gas to pass through gas injection mouth 6, therefore the gas in the drainage tube 2 can not form the backward flow, get into south weather and mostly only can adhere to the dribble on the wall body when plum rain season, consequently, should be provided with the relay that is used for controlling the solenoid valve 7 switch, the relay sets up at the wall body outside, because whole hot plate 1 all just directly sets up inside the wall body in the wall body installation, it controls its switch to hardly direct contact hot plate 1 at later stage user, consequently, set up the relay in the wall body outside, then the user can directly come control solenoid valve 7's switch through.

As a modified specific embodiment, an electric heating wire is arranged in the heating pipe 8.

The heating wire is arranged in the heating pipe 8, the heating pipe 8 is filled with insulating materials such as magnesia powder, the heating wire is packaged and fixed in the middle of the pipe, so that the heating wire is not contacted with the pipe wall, two ends of the heating wire are respectively communicated with a power supply, after the power is on, current passes through the heating wire, the heating wire generates heat, the heat is radiated by the magnesia powder to heat gas, and the heating wire cannot be burnt out.

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 (4)

1. The utility model provides a compound environmental protection wall body of intelligence, is including arranging inside hot plate (1) of wall body in, its characterized in that: the heating plate (1) comprises a plurality of uniformly distributed drainage tubes (2), a plurality of drainage tubes (2) are separated, a plurality of first communicating tubes (3) and second communicating tubes (31) which are used for communicating the drainage tubes (2) are arranged at two ends of each drainage tube (2), a pressure release valve (32) is arranged on each first communicating tube (3), a baffle (33) is connected onto each second communicating tube (31), each baffle (33) separates each drainage tube (2) into a hot air guide tube (21) and a cold air guide tube (22), the hot air guide tube (21) and the cold air guide tube (22) can form backflow, an air inlet pipe (4) is arranged at the lower end of each hot air guide tube (21), an exhaust pipe (41) is arranged at the lower end of each cold air guide tube (22), and the air inlet pipe (4) is connected with a solar energy air storage pool (51) through a pipeline, the exhaust pipe (41) is connected with the solar gas storage pool (51) through a pipeline, the air inlet pipe (4) is provided with a pressure valve (44), the air inlet pipe (4) is further internally provided with a circulating pump (441) used for driving gas circulation, and the solar gas storage pool (51) is provided with a fan (52) used for absorbing gas.

2. The intelligent composite environmental protection wall body of claim 1, wherein: be provided with in the hot-air honeycomb duct and be used for heating the air body heating pipe (8), set up gas storage pool (5) between intake pipe (4) and blast pipe (41), intake pipe (4) and blast pipe (41) all insert inside gas storage pool (5), still set up gas injection mouth (6) that useful external gas flows in on gas storage pool (5), gas injection mouth (6) adopt pipeline and external connection.

3. The intelligent composite environmental protection wall body of claim 2, wherein: the air inlet pipe (4) is provided with an electromagnetic valve (7), the electromagnetic valve (7) is connected with a relay for controlling the electromagnetic valve (7) to be switched on and off, and the relay is arranged outside the wall.

4. The intelligent composite environmental protection wall body of claim 3, wherein: the heating pipe (8) is an electrothermal film heating body.

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