CN204185899U - Green energy-saving buildings rainwater collecting and treating system - Google Patents

Abstract

The utility model relates to a kind of rain water collecting system, is specifically related to a kind of Green energy-saving buildings rainwater collecting and treating system.Technical problem to be solved there is provided a kind of totally enclosed type, energy-conserving and environment-protective, nature, healthy, comfortable Green energy-saving buildings rainwater collecting and treating system, the technical scheme adopted is: be provided with the water storage module be made up of multiple HDPE rain pipe in underground aqua storage tank, the water inlet of described underground aqua storage tank is provided with into water filter well, the delivery port that described rainwater collection connects pond is connected with the water inlet filtering flow abandoning apparatus, the delivery port of described filtration flow abandoning apparatus is connected with water inlet filter well through filter core, the delivery port of described underground aqua storage tank is provided with dredge pump and greening irrigation pump, the utility model is widely used in the rainwater-collecting of energy saving building.

Description

Green and energy-saving building rainwater collection and treatment system

technical field

The utility model relates to a rainwater collection system, in particular to a rainwater collection and treatment system for green energy-saving buildings.

Background technique

At present, with the development of urbanization, there are more and more buildings. The increase of buildings, on the one hand, squeezes and occupies a large amount of land and green space, and on the other hand, the domestic garbage generated in the buildings is increasing day by day, which brings great difficulties to garbage disposal. How to quickly improve the urban environment, improve the quality of citizens’ living and working environments, alleviate atmospheric dust, purify the air, protect the top of buildings, prolong the service life of roof building materials, alleviate the urban heat island effect, heat insulation, reduce the use of air conditioners, and save Energy, reducing urban noise, increasing air humidity, purifying water sources, improving the utilization rate of land resources, and recyclable domestic waste generated in buildings are problems that need to be solved urgently.

Utility model content

The utility model overcomes the shortcomings of the prior art, and the technical problem to be solved is to provide a fully enclosed, energy-saving, environment-friendly, natural, healthy and comfortable green energy-saving building rainwater collection and treatment system.

In order to solve the above-mentioned technical problems, the technical solution adopted by the utility model is: a green energy-saving building rainwater collection and treatment system, including a rainwater receiving pool, a filtering and discarding device and an underground water storage pool, and the underground water storage pool is provided with a plurality of A water storage module composed of HDPE rainwater pipes, the water inlet of the underground water storage tank is provided with a water inlet filter well, the water outlet of the rainwater receiving tank is connected with the water inlet of the filtering and discarding device, and the filtering and discarding device The water outlet is connected with the water inlet filter well through the filter element, and the water outlet of the underground storage tank is provided with a sewage pump and a greening irrigation pump.

The utility model adopts a fully enclosed building, and realizes green planting, solar power generation, solar heating, rainwater collection, and domestic waste recycling by setting a heating and heating air-conditioning system, a rainwater collection and treatment system, an emission collection and treatment system, and a solar photoelectric conversion system in the building. Treatment and other functions can effectively reduce the pollution of the external environment to the living environment in the building, and recreate a green, natural, energy-saving and environmentally friendly living space suitable for human survival.

Description of drawings

Fig. 1 is a structural schematic diagram of a rainwater collection and treatment system for a green energy-saving building of the present invention.

Figure 2 is a schematic diagram of the overall structure of the utility model in use.

FIG. 3 is a schematic structural diagram of the heating and air-conditioning system in FIG. 2 .

FIG. 4 is a schematic structural diagram of the discharge collection and treatment system in FIG. 2 .

FIG. 5 is a schematic structural diagram of the photovoltaic lightning protection system in FIG. 2 .

In the figure: 1 is the building body, 2 is the heating and air conditioning system, 3 is the rainwater collection and treatment system, 4 is the discharge collection and treatment system, 5 is the solar photoelectric conversion system, 6 is the solar collector, 7 is the water exchange tank , 8 is the floor heating coil, 9 is the collector heat exchange tube, 10 is the floor heating heat exchange tube, 11 is the heat collection circulation pump, 12 is the floor heating circulation pump, 13 is the source heat pump heat exchange tube, 14 is the air source heat pump, 15 is the rainwater receiving tank, 16 is the HDPE rainwater pipe, 17 is the filtering and discarding device, 18 is the underground water storage tank, 19 is the water storage module, 20 is the water inlet filter well, 21 is the sewage pump and the greening irrigation pump, 22 is the thickness Grille grit settling device, 23 is regulating tank, 24 is anaerobic fermentation tank, 25 is biogas slurry digester, 26 is biogas positive and negative pressure protector, 27 is gas-water separator, 28 is control meter, 29 is photovoltaic For the lightning protection system, 30 is the lightning-termination belt, 31 is the photovoltaic power generation device, 32 is the steel column, 33 is the ground electrode, and 34 is the MEB equipotential bonding busbar.

Detailed ways

Below in conjunction with accompanying drawing, the specific embodiment that the utility model is made will be further described.

As shown in Figures 1 to 5, the building body 1 is a closed space, the building body is a closed space formed by steel structure connectors and the middle foamed polyurethane double-layer steel plate wall, and the building body 1 is provided with a heating system. Thermal air conditioning system 2, rainwater collection and treatment system 3, discharge collection and treatment system 4, solar photoelectric conversion system 5, through green farms, heating and heating air conditioning system 2, rainwater collection and treatment system 3, discharge collection and treatment system 4 and solar photoelectric conversion system 5. The solar photoelectric conversion system is the same as the existing technology. Through the above system, the heating of buildings, domestic water, rainwater collection and treatment, greening sprinkler irrigation, domestic garbage, and waste recycling can be realized, thereby creating a sealed, green, energy-saving and environmentally friendly environment. The environment is a natural and comfortable human living environment.

Wherein, the heating and air-conditioning system 2 includes a solar heat collector 6, a water exchange tank 7 and a floor heating coil 8, the solar heat collector 6 is installed on the roof of the building body 1, and the heat exchange tank 7 is provided with The heat collector heat exchange pipe 9 and the ground heating heat exchange pipe 10, the water inlet pipe and the water outlet pipe of the solar heat collector 6 are respectively connected with the water inlet and the water outlet of the heat collector heat exchange pipe 9, and the solar heat collector The water inlet pipe of the device 6 is provided with an instant heat circulation pump 11, and the water inlet pipe and the return pipe of the floor heating coil 8 are respectively connected with the water inlet and the water outlet of the floor heating heat exchange pipe 10, and the water inlet and outlet of the floor heating coil 8 are respectively connected. The water pipe is provided with a ground heating circulation pump 12, the water inlet of the water exchange tank 7 is connected with the domestic water supply pipe, the water outlet of the water exchange tank 7 is connected with the domestic water pipe, and an active heat pump is also arranged in the water exchange tank 7 The heat exchange pipe 13, the water inlet pipe and the water outlet pipe of the air source heat pump 14 are respectively connected with the water inlet and water outlet of the heat exchange pipe 13 of the source heat pump, and the water outlet pipe and the water inlet pipe of the air source heat pump 14 are respectively connected with the floor heating The water inlet pipe and the water return pipe of the coil pipe 8 are connected.

When the solar energy is sufficient in winter, the solar heat collector 6 absorbs heat and stores heat through the heat exchange tank 7, and the floor heating coil 8 absorbs the heat in the heat exchange tank 7 for heating, and the heat exchange tank 7 can also meet the needs of daily life. Water use, when heating, can meet the indoor temperature of 18 degrees Celsius in winter, and the temperature of hot water for bathing can reach 40 degrees Celsius, which can fully meet the needs of daily life; but when the solar energy is insufficient, the heat source can be supplemented by the air source heat pump 14; at the same time, when the solar energy is sufficient in summer At this time, it can fully meet the demand for domestic water, and the air source heat pump 14 can also be used to supplement and cool the cold source through the floor heating coil 8, which is energy-saving, environmentally friendly, and low in energy consumption.

The rainwater collection and treatment system 3 includes a rainwater receiving tank 15, a filtering and discarding device 17, and an underground water storage tank 18. The underground water storage tank 18 is provided with a water storage module 19 made of a plurality of HDPE rainwater pipes. The underground water storage tank 18 The water inlet is provided with a water inlet filter well 20, and the water outlet of the rainwater receiving pool 15 is connected with the water inlet of the filtering and discarding device 17, and the water outlet of the filtering and discarding device 17 is connected to the water inlet filtering well through the filter core. 20 are connected, and the water outlet of the underground storage tank 18 is provided with a sewage pump and a greening irrigation pump 21.

The rainwater collection and treatment system 3 mainly collects and utilizes rainwater, receives 15 rainwater through the rainwater receiving tank, first filters the received rainwater through the filter and discarding device 17, and then stores it in the water storage module 19 composed of multiple HDPE rainwater pipes , When green watering is required, it can be used directly, and the stored water can also be treated by sedimentation, filtration, disinfection, and nanofiltration membrane technology for domestic water use, effectively saving energy.

The discharge collection and treatment system 4 includes a thick and fine grid grit settling device 22, a regulating tank 23 and an anaerobic fermentation tank 24. The sewage outlet is connected to the inlet of the regulating tank 23 through the thick and fine grid grit settling device 22, and the outlet of the regulating tank 23 It is connected with the inlet of anaerobic fermentation tank 24, and the sewage outlet of described anaerobic fermentation tank 24 is connected with biogas slurry digester 25, and the biogas slurry digester 25 is provided with greening irrigation pump; The gas outlet is connected to the gas-water separator 27 through the biogas positive and negative pressure protector 26, and the gas-water separator 27 is connected to the control meter 28 through the desulfurization tower and the flame arrester.

The emission collection and treatment system 4 mainly recycles domestic garbage and domestic excrement to realize biogas energy. The coarse and fine grid grit settling device 22 performs initial filtration on domestic garbage and domestic excrement, and conducts precipitation and separation through the regulating tank 23 , the anaerobic fermentation is carried out through the anaerobic fermentation tank 24, and the obtained biogas is transported to the kitchen through the positive and negative pressure protector 26, the gas-water separator 27, the desulfurization tower, the flame arrester, and the control meter 28 to realize the utilization of biogas; The sediment produced by the fermentation tank 24 flows into biogas and biogas slurry tanks for recovery and storage, so as to realize green watering of green farms and plantation of green plants and vegetables.

The photovoltaic lightning protection system 29 includes a lightning-termination belt 30 and a photovoltaic power generation device 31. The photovoltaic panel support in the photovoltaic power generation device 31 is connected to the lightning-termination belt 30, and the lightning-termination belt 30 is connected to the steel column 32 of the building body 1. The building The bottom of the object body 1 is pre-embedded with a ground electrode 33, and the steel column 32 is connected to the ground electrode. The DC combiner box, DC power distribution cabinet, and PE busbar of the AC power distribution cabinet in the photovoltaic power generation device 31 are all connected to the MEB through the MEB line. The equipotential bonding busbar 34 is connected, and the MEB equipotential bonding busbar 34 is connected to the grounding electrode 33 . The photovoltaic power generation device 31 generates electricity through a photovoltaic panel, a DC combiner box, a DC power distribution cabinet, a photovoltaic controller, an inverter and an AC power distribution cabinet. Among them, the photovoltaic panel support is connected to the lightning-termination belt 30 through the MEB line, the DC combiner box, the DC power distribution cabinet and the AC power distribution cabinet are connected to the MEB equipotential bonding busbar 34 through the MEB line, and the large metal in the building body The components and metal pipes are all connected to the MEB equipotential bonding busbar 34, and the MEB equipotential bonding busbar 34 is connected to the grounding electrode 33, thus playing the role of lightning protection.

The utility model adopts a fully enclosed building to reduce the pollution of the external environment to the living environment in the building, realize green planting, solar power generation, solar heating, rainwater collection, domestic garbage recycling and other functions in the building, and recreate a suitable for human survival. Green, natural, energy-saving and environment-friendly living space.

The above embodiments of the utility model have been described in detail in conjunction with the accompanying drawings, but the utility model is not limited to the above-mentioned embodiments. The various changes made below should also be regarded as the protection scope of the present utility model.

Claims (1)

1. Green energy-saving buildings rainwater collecting and treating system, it is characterized in that: comprise rainwater collection and connect pond (15), filter flow abandoning apparatus (17) and underground aqua storage tank (18), the water storage module (19) be made up of multiple HDPE rain pipe is provided with in described underground aqua storage tank (18), the water inlet of described underground aqua storage tank (18) is provided with into water filter well (20), the delivery port that described rainwater collection connects pond (15) is connected with the water inlet filtering flow abandoning apparatus (17), the delivery port of described filtration flow abandoning apparatus (17) is connected with water inlet filter well (20) through filter core, the delivery port of described underground aqua storage tank (18) is provided with dredge pump and greening irrigation pump (21).