CN206448360U - Ground Connection in Intelligent Building - Google Patents

Abstract

The utility model discloses an intelligent building with better cooling effect. An intelligent building, comprising a building, a water spray pipe is provided on the outside of the building, a plurality of atomizing nozzles are provided on the side of the water spray pipe facing the building, an inclined water collection tank is provided under the building, and the water collection tank is provided under the building. The lowest point of the water tank is provided with a water collection pipe, the end of the water collection pipe is provided with a filter device, the filter device is provided with a water distribution pipe, the end of the water distribution pipe is provided with an underground water distribution cooling platform, and the water distribution cooling The platform is provided with a water storage tank connected with the water distribution cooling platform, the water storage tank is provided with a water pump for delivering water to the spray pipe, and the top of the building is provided with a solar panel for supplying power to the water pump. A temperature sensor is provided to control the opening and closing of the water pump according to the feedback signal. When the temperature sensor senses that the temperature is too high, the water pump is controlled to extract the cooling water in the water storage tank, and the atomizing nozzle on the water spray pipe is sprayed to the outside of the building to clean and cool the building.

Description

Intelligent Building

technical field

The utility model relates to the field of intelligent buildings, in particular to an intelligent building.

Background technique

At present, high-rise buildings use traditional air-conditioning to cool down when the temperature is high in summer, which consumes a lot of power resources.

The utility model patent whose authorization notification number is CN202843527U discloses a kind of building cleaning cooling device. The utility model has the cooling effect by spraying water to the outer wall of the building. However, the utility model patent has the following problems: in the process of continuous circulation of the cooling water, the temperature of the water will rise, resulting in a continuous decline in the cooling effect.

Utility model content

The purpose of the utility model is to provide an intelligent building with better cooling effect.

The above-mentioned technical purpose of the utility model is achieved through the following technical solutions: an intelligent building, including a building, the outside of the building is provided with a water spray pipe, and the water spray pipe is provided with a plurality of atomizers on the side facing the building. Sprinkler, an inclined sump is provided under the building, a water collection pipe is provided at the lowest point of the sump, and a filter device is provided at the end of the water collection pipe, and a water distribution pipe is provided on the filter device, and a water distribution pipe of the water distribution pipe The end is provided with an underground water distribution cooling platform, and the water distribution cooling platform is provided with a water storage tank connected with the water distribution cooling platform, and the water storage tank is provided with a water pump for delivering water to the spray pipe, so The top of the building is provided with a solar panel for supplying power to the water pump, and the building is provided with a temperature sensor that controls the opening and closing of the water pump according to the feedback signal.

Through the above technical scheme, when the temperature sensor senses that the temperature is too high, the water pump using the solar panel as the power source is controlled to extract the cooling water in the water storage tank, and after it is transported to the side of the building through the water spray pipe, it is sprayed to the side of the building through the atomizing nozzle. The outside of the building cools down the building, and also plays a role in cleaning the outer wall of the building. The cooling water flowing down along the outer wall of the building is collected by the water collection tank and then transported to the filter device by the water collection pipe. After being filtered by the filter device, the water flow is distributed on the water distribution cooling platform located underground through the water distribution pipe. Low, so that the cooling water is cooled. After the cooling water is cooled, it is stored again in the water storage tank. When the temperature sensor senses that the temperature is lower than the set value, the water pump stops sending water.

It is further set as follows: the water distribution cooling table includes an inclined stainless steel table top and the connection end with the water distribution pipe is a higher end, and both sides of the stainless steel table top are provided with water baffles.

Through the above technical scheme, an inclined stainless steel table is set to make the cooling water spread on the stainless steel table through the water distribution pipe, so that the cooling water flows from the higher end to the lower end. In this process, the cooling water has a larger heat exchange area, increasing the heat exchange efficiency. Moreover, the heat conduction effect of stainless steel is relatively good, which can accelerate cooling, and at the same time, it will not cause rust due to contact with cooling water. Water baffles are set on both sides of the stainless steel table to prevent cooling water from flowing out from both sides of the water distribution cooling table.

It is further provided that: the lower end of the stainless steel table is converged to form a water outlet, and the water outlet is provided with a water inlet pipe connected to the water storage tank.

Through the above technical solution, the lower end of the stainless steel table is converged into a smaller water outlet, so that the water inlet pipe can wrap the entire water outlet inside, and then transport it to the water storage tank through the water outlet.

It is further set as follows: the filter device includes a filter tank, the inner wall of the filter tank is provided with abutting strips in a circle, the abutting strips are provided with filter plates, and the upper end surfaces on both sides of the filter plates are With handle.

Through the above technical scheme, a circle of abutment strips is set on the filter tank of the filter device so that the filter plate can be placed on the filter plate through the abutment strips, so that when more impurities remaining after filtering have accumulated on the filter plate, it can Pick up the filter plate by the handle and clean the impurities on the filter plate.

It is further provided that a rubber sealing gasket is arranged around the lower end surface of the filter plate.

Through the above technical solution, a rubber sealing gasket is provided around the lower end surface of the filter plate to form a seal between the filter plate and the abutting strip. In this way, even if the abutment strip is not very smooth, the filter plate can form a seal between the rubber gasket and the abutment strip, so that impurities will not leak out from the gap between the two.

It is further configured that: an activated carbon layer is provided under the filter plate, and the bottom of the filter tank is connected with the water distribution pipe.

Through the above-mentioned technical scheme: an activated carbon layer is arranged under the filter plate to absorb small particle impurities and odor-generating substances in the cooling water. The cooling water is further purified and then enters the water distribution pipe.

It is further set as: the connecting end of the water distribution pipe and the bottom of the filter tank is provided with a filter net.

Through the above technical scheme, a filter screen is provided at the connection end of the water distribution pipe and the bottom of the filter tank so that the activated carbon in the activated carbon layer will not enter the replenishment cooling platform through the water distribution pipe.

It is further set as: an insulation layer is provided on the outside of the water storage tank.

Through the above technical solution, an insulation layer is provided outside the water storage tank so that the cooled cooling water in the water storage tank can be kept at a lower temperature for a longer period of time.

To sum up, the beneficial effects of the utility model are: cooling the heated cooling water through the water distribution cooling platform, so that the cooling water used for cooling is always maintained at a lower temperature and has a better cooling effect; The battery board is used to provide electric energy for the water pump, saving energy consumption.

Description of drawings

Fig. 1 is the structural representation of embodiment;

Fig. 2 is the enlarged view of place A in Fig. 1;

Fig. 3 is a schematic cross-sectional view of the filter device in the embodiment.

Reference signs: 1. building; 2. temperature sensor; 3. water spray pipe; 4. water pump; 5. atomizing nozzle; 6. solar panel; 7. water collection tank; 8. water collection pipe; 10. Filter tank; 11. Contact strip; 12. Filter plate; 13. Rubber gasket; 14. Handle; 15. Activated carbon layer; 16. Water distribution pipe; 17. Water distribution cooling platform; 18. Stainless steel table; 19. Water retaining plate; 20, water outlet; 21, water inlet pipe; 22, water storage tank; 23, insulation layer; 24, filter screen; 25, water distribution hole.

detailed description

Below in conjunction with accompanying drawing, the utility model is described in further detail.

This specific embodiment is only an explanation of the utility model, and it is not a limitation of the utility model. Those skilled in the art can make modifications to the embodiment without creative contribution according to needs after reading this specification, but as long as they are within the utility model All new claims are protected by patent law.

As shown in FIG. 1 , an intelligent building includes a building 1 on which a temperature sensor 2 is installed, and a water spray pipe 3 is arranged on the outside of the building 1 . When the temperature sensor 2 senses that the temperature exceeds the set value, the water pump 4 is started to deliver water to the water spray pipe 3, and then the building 1 is sprayed with water to cool down the building 1 through the atomizing nozzle 5 installed on the water spray pipe 3 towards the building 1 side. A solar panel 6 is installed on the roof to collect and store solar energy to provide power for the water pump 4 .

As shown in Figures 1 and 3, a sump 7 arranged around the building 1 is installed on the side of the lower end of the building 1. The side walls of the sump 7 are closely attached to the outer wall of the building 1, so that the cooling water can be absorbed by the sump as much as possible. 7 recycling. The sump 7 is slightly inclined, and the lowest point of the sump 7 is connected with a water collection pipe 8, so that the water in the sump 7 converges to the side of the water collection pipe 8 at the lowest point and is transported to the filter device 9 through the water collection pipe 8. The filter device 9 includes a filter tank 10 , the inner wall of the filter tank 10 is welded with an abutment bar 11 in a circle, and the filter plate 12 is placed on the abutment bar 11 . A circle of rubber gasket 13 is glued around the lower end surface of the filter plate 12, so that when the filter plate 12 is placed on the abutment bar 11, there will be no larger gap between the abutment bar 11, so that impurities will not pass through the two sides. The gap between them leaks out. A handle 14 is respectively welded on the both sides of the filter plate 12 upper end, when the filter plate 12 accumulates more impurities remaining after filtering, the filter plate 12 can be taken out by the handle 14 for cleaning. In the filter tank 10, there is a layer of activated carbon layer 15 at the position below the filter plate 12 to absorb fine impurities and odor-generating substances in the water.

As shown in FIGS. 1 to 3 , a water distribution pipe 16 is connected below the filter tank 10 , and a filter screen 24 is installed at the connection end of the water distribution pipe 16 and the filter tank 10 . The water distribution pipe 16 is arranged at the higher end of the inclined stainless steel table top 18 of the water distribution cooling table 17 located underground, and the lower end of the water distribution pipe 16 has a plurality of water distribution holes 25 to distribute the cooling water on the entire stainless steel table 18, so that The cooling water has a larger heat exchange area, which speeds up the cooling speed of the cooling water. Both sides of the stainless steel table 18 are welded with a water retaining plate 19, so that the cooling water can not be lost when flowing on the stainless steel table 18. The inclined stainless steel platform 18 converges into a smaller water outlet 20 at the lower end, and then the cooling water passing through the water outlet 20 is introduced into the water storage tank 22 through the water inlet pipe 21 . The outer side of the water storage tank 22 is covered with an insulating layer 23 to slow down the temperature rise rate of the cooling water in the water storage tank 22 . The water pump 4 is connected with the water storage tank 22 to extract the cooling water in the water storage tank 22 .

When the temperature sensor 2 detects that the temperature is higher than the set value, the water pump 4 extracts the cooling water in the water storage tank 22 to flush the outer wall of the building 1 to cool down the building 1 . When the cooling water flows to the water collection tank 7, it is recovered by the water collection tank 7 and then enters the filter device 9. After being filtered in two stages by the filter plate 12 and the activated carbon layer 15, it is transported to the water distribution cooling platform 17 through the water distribution pipe 16 and the underground temperature is relatively low. The heat exchange between the air and the stainless steel table top 18 reduces the temperature of the cooling water, and the cooled cooling water is stored in the water storage tank 22 again. When the temperature sensor 2 detects that the temperature is lower than the set value, the water pump 4 stops working.

Claims (8)

1. An intelligent building, comprising a building (1), the outside of the building (1) is provided with a water spray pipe (3), and the water spray pipe (3) is provided with a plurality of fogging pipes towards the building (1) side. The sprinkler head (5) is characterized in that: the underside of the building (1) is provided with an inclined sump (7), the lowest point of the sump (7) is provided with a water collection pipe (8), and the water collection pipe ( 8) is provided with a filter device (9) at the end, and the filter device (9) is provided with a water distribution pipe (16), and the end of the water distribution pipe (16) is provided with an underground water distribution cooling platform (17). Described water distribution cooling platform (17) is provided with the water storage tank (22) that communicates with distribution water cooling platform (17), and described water storage tank (22) is provided with water delivery in the spray pipe (3) A water pump (4), the top of the building (1) is provided with a solar panel (6) for supplying power to the water pump (4), and the building (1) is provided with a temperature sensor ( 2). 2. The intelligent building according to claim 1, characterized in that: the water distribution cooling platform (17) includes an inclined stainless steel table (18) and the connection end with the water distribution pipe (16) is a higher end, the stainless steel Both sides of the table top (18) are provided with water baffles (19). 3. The intelligent building according to claim 2, characterized in that: the lower end of the stainless steel table (18) is converged to form a water outlet (20), and the water outlet (20) is provided with a water outlet connected to the storage tank. Water inlet pipe (21) in the water tank (22). 4. The intelligent building according to claim 1, characterized in that: the filter device (9) includes a filter tank (10), and the inner wall of the filter tank (10) is provided with abutting strips in a circle (11), the abutment bar (11) is provided with a filter plate (12), and the upper end surfaces of both sides of the filter plate (12) are provided with handles (14). 5. The intelligent building according to claim 4, characterized in that: a rubber gasket (13) is provided around the lower end surface of the filter plate (12). 6. The intelligent building according to claim 4, characterized in that: an activated carbon layer (15) is provided under the filter plate (12), and the bottom of the filter tank (10) communicates with the water distribution pipe (16). 7. The intelligent building according to claim 6, characterized in that: a filter net (24) is provided at the bottom connecting end of the water distribution pipe (16) and the filter tank (10). 8. The intelligent building according to claim 1, characterized in that: an insulation layer (23) is provided outside the water storage tank (22).