CN211548432U - Energy-saving building house - Google Patents

Abstract

The utility model discloses an energy-conserving formula building house all connects rainwater collection mechanism in the both sides top of building main part, and rainwater collection mechanism sets up respectively two inclined planes below on roof all sets up the water tank in the both sides below of building main part, and every water tank all sets up correspondingly the below that the mechanism was collected to the rainwater, every water tank all passes through the conveyer pipe intercommunication rainwater collection mechanism all sets up first water pump in every water tank the both sides inboard of building main part all sets up the cooling tube, and first water pipe is all connected to the water inlet of every cooling tube, and the tip of first water pipe all connects correspondingly the delivery end of first water pump, the second water pipe is all connected to the delivery port of every cooling tube, and the delivery port intercommunication of second water pipe is corresponding the water tank. The utility model has the advantages that: this device can be collected the rainwater for house cooling and closestool wash, still generate electricity through solar energy, practice thrift the electric energy.

Description

Energy-saving building house

Technical Field

The utility model relates to a building house technical field especially relates to an energy-conserving formula building house.

Background

A house is a building that lives people or stores things. The house is a base body of a family, and the house is a trusting for human survival, so that people can avoid all interference from the outside, and the family can enjoy free life with own relatives. The idea of house is deeply influencing people, and people all strive to own their house. Generally, the roof is arranged on the building, the walls are arranged around the building, the building can prevent wind and rain, keep out cold and preserve heat, and is used for people to work, live, study, entertain and store materials in the building, and the building is provided with a fixed foundation, and the floor height is generally in a permanent place with the height of more than 2.2 meters. However, the existing houses usually rely on external power supply and water supply, and especially in summer, the air conditioner needs to be started for refrigeration due to hot weather, so that electric energy is wasted, and the air conditioner is easy to get 'sick' due to frequent air blowing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an energy-saving building house.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an energy-saving building house comprises a building main body and a roof, wherein a row of mounting grooves are respectively arranged on the inclined planes at the two sides of the roof, each mounting groove is internally provided with a solar cell panel, rainwater collecting mechanisms are connected above two sides of the building main body and are respectively arranged below two inclined planes of the roof, the lower parts of two sides of the building main body are respectively provided with a water tank, each water tank is arranged below the corresponding rainwater collecting mechanism and is communicated with the rainwater collecting mechanism through a conveying pipe, all set up first water pump in every water tank the both sides wall inboard of building main body all sets up the cooling tube, and first water pipe is all connected to the water inlet of every cooling tube, and the tip of first water pipe all connects correspondingly the play water end of first water pump, the delivery port of every cooling tube all connects the second water pipe, and the delivery port intercommunication of second water pipe is corresponding the water tank.

Preferably, rainwater collecting mechanism includes the V template, and the V template is connected on building subject's the side, sets up the baffle in a side of the top of V template, baffle and form the collecting vat between building subject's the side, sets up the through-hole in the middle of the bottom of collecting vat, and the below of through-hole is connected the conveyer pipe, sets up the filter screen at the opening part of through-hole.

Preferably, all set up filter screen pull throughs on building main body's the both sides face, two filter screen pull throughs all set up correspondingly the top of filter screen.

Preferably, filter screen pull throughs is in including the fixed plate that the symmetry set up, and two fixed plate settings all are equipped with the rotation hole on two fixed plates on building subject's the side, and two rotate the coaxial setting in hole, rotate downthehole rotation connection axis of rotation at two, circumference equipartition flabellum in the axis of rotation, and all flabellums all set up between two corresponding fixed plates, all are equipped with the brush hair on every flabellum, the brush hair with corresponding the filter screen corresponds the setting.

Preferably, each water tank is internally provided with a second water pump, a water outlet of one second water pump is connected with a third water pipe, the third water pipe is connected with a shunt pipe, the shunt pipe is arranged on the roof, two rows of branch pipes are arranged on the shunt pipe and are arranged oppositely, the other second water pump is used for supplying water to the toilet bowl, a screen is horizontally arranged in the water tank and is arranged above the second water pump.

Preferably, the cooling tube is an S-bend.

The utility model has the advantages that: the utility model provides an energy-conserving formula building house can generate electricity through solar cell panel, collects the mechanism through the rainwater and collects the water tank with the rainwater in, in the first water pump extraction cold water entering cooling pipe through the water tank, then get back to the water tank again in, can take away the heat in the house at this in-process, has realized the cooling to the house, makes the resident family more comfortable.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving building provided by the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic view of the structure of a cooling tube;

fig. 4 is a sectional view of the water tank.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the utility model provides a pair of energy-conserving formula building house, including building subject 1 and roof 2, all set up one row of mounting groove on the both sides inclined plane of roof 2, all set up solar cell panel 3 in every mounting groove, absorb solar energy through solar cell panel 3 and generate electricity, provide the electric energy for all electrical apparatus in this building.

Rainwater collection mechanisms 4 are connected to the upper portions of two sides of a building body 1, the rainwater collection mechanisms 4 are arranged below two inclined planes of a roof 2 respectively, each rainwater collection mechanism 4 comprises a V-shaped plate 4.1, the V-shaped plates 4.1 are fixed to the side faces of the building body 1 through bolts, a baffle plate 4.2 is welded to one side face of the upper portion of each V-shaped plate 4.1, the V-shaped plates 4.1 and the baffle plate 4.2 form a collecting groove 4.3 between the side faces of the building body 1, a through hole is formed in the middle of the bottom of the collecting groove 4.3, a conveying pipe 6 is welded to the lower portion of the through hole, rainwater slides down along the inclined plane of the roof 2 to the collecting groove 4.3 during raining and then enters the through hole, a filter screen 4.4 is welded to the opening of the through hole, and.

As shown in fig. 2, in order to prevent debris from blocking up filter screen 4.4 all set up the filter screen pull throughs on building subject 1's the both sides face, two filter screen pull throughs all set up correspondingly filter screen 4.4's top, the filter screen pull throughs is including the fixed plate 1.1 that the symmetry set up, two fixed plates 1.1 pass through the bolt fastening on building subject 1's side, all be equipped with the rotation hole on two fixed plates 1.1, two rotate the coaxial setting of hole, rotate downthehole rotation at two and connect axis of rotation 1.2, weld a set of flabellum 1.3 on axis of rotation 1.2, a set of flabellum 1.3 circumference equipartition, all flabellums 1.3 all set up between corresponding two fixed plates 1.1.1, all fixed brush hair 1.4 on every flabellum 1.3, brush hair 1.4 and corresponding sticky filter screen 4.4 corresponds the setting.

When the rainwater falls down along the inclined plane of the roof 2, the rainwater falls on the fan blades 1.3 to drive the fan blades 1.3 to rotate, so that the brush hairs 1.4 on the fan blades 1.3 clean the sundries falling on the filter screen 4.4.

All place water tank 5 in the both sides below of building subject 1, every water tank 5 all sets up correspondingly the rainwater is collected the below of mechanism 4, and conveyer pipe 6 is all connected to the top side of every water tank 5, and the rainwater of collecting in the collecting box 4.3 passes through in conveyer pipe 6 gets into water tank 5, and welding screen cloth 5.5 in water tank 5, screen cloth 5.5 level sets up, can carry out the secondary filtration through screen cloth 5.5 in rainwater gets into water tank 5.

As shown in fig. 3, cooling pipes 8 are disposed on the inner sides of both side walls of the building body 1, and the cooling pipes 8 are S-shaped bent pipes, so that the cooling effect is better.

As shown in fig. 4, a first water pump 7 is placed in each water tank 5, a first water pipe 9 is welded to a water inlet of each cooling pipe 8, a corresponding water outlet end of the first water pump 7 is welded to the end portion of each first water pipe 9, a second water pipe 10 is welded to a water outlet of each cooling pipe 8, a water outlet of the second water pipe 10 is communicated with the corresponding water tank 5, water in the water tank 5 is extracted through the first water pump 7 and enters the cooling pipe 8, and then the water is returned to the water tank 5 through the second water pipe 10, so that the house can be cooled in the process.

All be equipped with second water pump 5.1 in every water tank 5, one of them second water pump 5.1 is used for lavatory closestool water supply, can the water economy resource, the delivery port welding third water pipe 5.2 of another second water pump 5.1, shunt tubes 5.3 are connected to third water pipe 5.2, shunt tubes 5.3 pass through the bolt fastening on roof 2, weld two rows of branch pipes 5.4 on shunt tubes 5.3, two rows of branch pipes 5.4 communicate with shunt tubes 5.3, two rows of branch pipes 5.4 set up relatively, extract cold water through second water pump 5.1, then water through two rows of branch pipes 5.4 to roof 2, lower the temperature to roof 2, can cooperate cooling tube 8 to use when lowering the temperature to roof 2, the effect of lowering the temperature is better, and the water that branch pipe 5.4 flowed out can get back to in water tank 5 again through rainwater collection mechanism 4, can the water economy resource.

When raining, the rainwater can be along the both sides inclined plane landing of roof 2, fall in collecting vat 4.3, then 5 interior storages in getting into the water tank through conveyer pipe 6 of collecting vat 4.3 below, when the weather is hot, start two first water pumps 7, water in the extraction water tank 5 through first water pump 7 gets into in the cooling tube 8, then get back to in the water tank 5 again through second water pipe 10, can cool down the house at this in-process, and can also start one of them second water pump 5.1 extraction cold water, then water roof 2 through two rows of branch pipes 5.4, cool down roof 2, can further improve the cooling effect, another second water pump 5.1 is used for lavatory closestool water supply, this building not only can water economy resource and electric energy, and can also cool down the house.

Claims (6)

1. The utility model provides an energy-saving building house, includes building subject (1) and roof (2) all set up one row of mounting groove on the both sides inclined plane of roof (2), all set up solar cell panel (3), its characterized in that in every mounting groove: the rainwater collecting mechanism (4) is connected above two sides of the building main body (1), the rainwater collecting mechanism (4) is respectively arranged below two inclined planes of the roof (2), the water tanks (5) are respectively arranged below two sides of the building main body (1), each water tank (5) is arranged below the corresponding rainwater collecting mechanism (4), each water tank (5) is communicated with the rainwater collecting mechanism (4) through a conveying pipe (6), a first water pump (7) is arranged in each water tank (5), cooling pipes (8) are arranged on the inner sides of two side walls of the building main body (1), a water inlet of each cooling pipe (8) is connected with a first water pipe (9), the end part of each first water pipe (9) is connected with the corresponding water outlet end of the first water pump (7), and a water outlet of each cooling pipe (8) is connected with a second water pipe (10), the water outlet of the second water pipe (10) is communicated with the corresponding water tank (5).

2. An energy saving building house according to claim 1 wherein: rainwater is collected mechanism (4) and is included V template (4.1), and V template (4.1) are connected on the side of building main part (1), set up baffle (4.2) in a side of the top of V template (4.1), baffle (4.2) and form collecting vat (4.3) between the side of building main part (1), set up the through-hole in the middle of the bottom of collecting vat (4.3), the below of through-hole is connected conveyer pipe (6) sets up filter screen (4.4) at the opening part of through-hole.

3. An energy saving building house according to claim 2 wherein: the two side surfaces of the building main body (1) are respectively provided with a filter screen dredging device, and the two filter screen dredging devices are respectively arranged above the corresponding filter screens (4.4).

4. An energy saving building house according to claim 3 wherein: filter screen pull throughs is in including fixed plate (1.1) that the symmetry set up, two fixed plate (1.1) set up on the side of building subject (1), all be equipped with the rotation hole on two fixed plate (1.1), two rotate the coaxial setting in hole, rotate downthehole rotation connection axis of rotation (1.2) at two, circumference equipartition flabellum (1.3) on axis of rotation (1.2), all flabellum (1.3) all set up between corresponding two fixed plate (1.1), all are equipped with brush hair (1.4) on every flabellum (1.3), brush hair (1.4) and corresponding filter screen (4.4) correspond the setting.

5. An energy saving building house according to claim 1 wherein: each water tank (5) is internally provided with a second water pump (5.1), the water outlet of one second water pump (5.1) is connected with a third water pipe (5.2), the third water pipe (5.2) is connected with a shunt pipe (5.3), the shunt pipe (5.3) is arranged on the roof (2), two rows of branch pipes (5.4) are arranged on the shunt pipe (5.3), the two rows of branch pipes (5.4) are oppositely arranged, the other second water pump (5.1) is used for supplying water to a toilet, a screen (5.5) is horizontally arranged in the water tank (5), and the screen (5.5) is arranged above the second water pump (5.1).

6. An energy saving building house according to claim 1 wherein: the cooling pipe (8) is an S-shaped bent pipe.

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