CN216973971U - Green environment-friendly energy-saving house - Google Patents

Abstract

The utility model belongs to the technical field of house construction, and particularly relates to a green environment-friendly energy-saving house which comprises a civil structure and drainage eaves formed on two sides of the civil structure, wherein a drainage pipeline is installed at the bottom of each drainage eaves, a water storage tank is also arranged on the adjacent side of the civil structure, the bottom of the drainage pipeline is connected with the water storage tank, planting equipment is installed inside each drainage eaves and close to a ridge, each planting equipment comprises a planting seat and planting cups which are arranged on the planting seats at equal intervals, each planting equipment further comprises a circulating pipeline arranged at the bottom of each planting seat, two ends of each circulating pipeline are respectively fixed at two ends of each drainage eaves and correspond to the planting cups, each circulating pipeline is fixed at the bottom of each drainage eaves through hanging pieces clamped on the annular wall of each circulating pipeline, a dredging assembly is arranged on one side of each circulating pipeline, and a planting substrate for planting green plants is filled in each planting cup. The utility model realizes the collection and reuse of rainwater, and has better effects of environmental protection, shading and heat absorption.

Description

Green environment-friendly energy-saving house

Technical Field

The utility model belongs to the technical field of house construction, and particularly relates to a green environment-friendly energy-saving house.

Background

The house building is an entity for providing life, production, work or other activities for users or investors in a planning and designing place, the house building structure is divided into categories according to building materials of main bearing components such as beams, columns and walls of a house, the design of the house structure aims to ensure that the built structure is safe and applicable, can meet the requirements of various expected functions within a specified year, and is economical and reasonable.

The problems existing in the prior art are as follows:

along with the development of the technology level, buildings and living needs of people are met, and the concept of environmental protection and green development is started: in the life cycle of building, furthest resources are saved, the environmental protection and pollution abatement, with the building of nature harmonious intergrowth, but in prior art, planting technique appears in the afforestation district of district mostly, and less the involving to the cultivation on roof, in the area that weather is hot throughout the year, the temperature on roof is in the high temperature state for a long time, for making indoor cooling, then will adopt more powerful cooling device, make indoor reaching suitable temperature, cause the excessive waste of resource.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a green environment-friendly energy-saving house which can collect and recycle rainwater and has better environment-friendly and shady heat absorption effects.

The technical scheme adopted by the utility model is as follows:

the utility model provides a green energy-conserving house, includes the civil engineering structure to and the drainage eaves that forms in civil engineering structure both sides, drainage pipe is installed to the bottom of drainage eaves, and the adjacent side that is located the civil engineering structure still is provided with the storage water tank, drainage pipe's bottom and water tank connection, the inside of drainage eaves is close to the ridge and installs planting equipment.

The planting equipment comprises a cultivation seat and planting cups which are arranged on the cultivation seat at equal intervals.

The planting equipment is still including setting up the circulating line in cultivating the seat bottom, the both ends of circulating line are fixed respectively at the both ends of drainage eaves, and correspond with cultivating the cup, the circulating line is fixed in the bottom of drainage eaves through the piece that hangs of joint on its cliff, circulating line one side is provided with the mediation subassembly.

The interior of the cultivation cup is filled with a cultivation substrate for cultivating green plants.

One side of the circulating pipeline, which is far away from the dredging component, is provided with two connecting pipe fittings, and the pipeline connected on the connecting pipe fittings is connected with the water storage tank.

Cultivate the inside of seat and be equipped with the standing groove that the seat was cultivated in the adaptation, standing groove and the quantity looks adaptation of cultivating the seat, it is a plurality of be provided with the tye that is linked together between the standing groove.

And two ends of the circulating pipeline are correspondingly arranged and communicated with the launder.

The dredging component comprises a dredging pipe body communicated with the circulating pipeline, a blocking net is arranged at the water outlet end of the dredging pipe body, the bottom of the dredging pipe body is arranged in a protruding mode, and the periphery side of the dredging pipe body is inclined towards the middle to form a bucket-shaped discharge end.

The bottom lateral wall of mediation body is provided with that the sealing ring is protruding, the protruding bottom of sealing ring sets up inside annular, and the bottom of mediation body just is located and is equipped with integrated into one piece's row's material convex nozzle in the sealing ring is protruding.

The inside of annular inlays and is equipped with the sealing ring pad, and the sealing ring pad overlaps to be established at the outer wall of arranging the material convex nozzle.

The bottom of mediation body is equipped with the stopcock, the top of stopcock sets up sealed bulge loop, the internal diameter of sealed bulge loop is greater than the external diameter of arranging the protruding mouth to the adaptation sets up the inside at the annular, sealed bulge loop and row material protruding mouth threaded connection.

The method is as follows.

The utility model has the technical effects that:

according to the utility model, for buildings with lower floors, the water storage tank can be arranged on the ground surface or buried underground, for buildings with higher floors, the water storage tank can be arranged on the outer wall of the building, a water pump and a water quality filter are additionally arranged inside the water storage tank, the bottom of the water drainage pipeline is connected with one end of the water quality filter, the other end of the water quality filter is connected with the water pump, when rainy seasons occur, water flow is collected inside the water storage tank through the water drainage pipeline, the water inside the water storage tank is filtered through the water quality filter and then is pumped into the circulating pipeline at one end of the water storage tank through the water pump, after the water flow circulates, impurities falling off from a culture substrate in the water are intercepted through the dredging component G and enter the other end of the circulating pipeline, and then the water flow is discharged into the inside of the water storage tank, and rainwater is collected and reused, so that a better environment-friendly effect is realized.

Drawings

FIG. 1 is a schematic view of a civil structure and a drainage eave structure of the present invention;

FIG. 2 is a schematic view of the construction of the planting device of the present invention;

FIG. 3 is a schematic structural view of a drainage eave and a planting device section in the present invention;

FIG. 4 is an enlarged detail view of FIG. 3A of the present invention;

FIG. 5 is a schematic diagram of the release mechanism of the present invention;

figure 6 is a schematic structural view of a cross section of a pull through assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a civil structure; 2. a drainage eave; 3. a water discharge pipeline; 4. a water storage tank; 5. planting equipment; 6. cultivating seats; 601. a placement groove; 602. a launder; 7. cultivating and planting cups; 8. a circulation pipe; 9. a hanger; 10. a pipe fitting; G. a dredging component; 11. dredging the pipe body; 12. blocking; 13. the sealing ring is convex; 14. a ring groove; 15. a discharge convex nozzle; 16. a sealing ring gasket; 17. a pipe plug; 18. and sealing the convex ring.

Detailed Description

In order that the objects and advantages of the utility model will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely intended to describe an environmentally friendly and energy efficient house or several specific embodiments of the present invention and does not strictly limit the scope of the utility model as specifically claimed.

As shown in fig. 1-2, a green environment-friendly energy-saving house, including civil engineering structure 1, and drainage eaves 2 that form in civil engineering structure 1 both sides, drainage pipe 3 is installed to the bottom of drainage eaves 2, the adjacent side that is located civil engineering structure 1 still is provided with storage water tank 4, drainage pipe 3's bottom and storage water tank 4 are connected, the inside of drainage eaves 2 is close to the ridge and installs planting equipment 5, planting equipment 5 is including cultivating seat 6, and equidistant setting cultivates cup 7 on cultivating seat 6, planting equipment 5 is still including setting up the circulating line 8 in cultivating seat 6 bottom, the both ends of circulating line 8 are fixed respectively at the both ends of drainage eaves 2, and correspond with cultivation cup 7, circulating line 8 fixes the bottom at drainage eaves 2 through the pendant 9 of joint on its rampart, circulating line 8 one side is provided with mediation subassembly G.

Further, for buildings with a relatively lower floor, the water storage tank 4 may be disposed on the ground or buried underground, for buildings with a higher floor, the water storage tank 4 may be disposed on the outer wall of the building, a water pump and a water filter (not shown in the figure) are added inside the water storage tank 4, the bottom of the drainage pipe 3 is connected to one end of the water filter, and the other end of the water filter is connected to the water pump.

Referring to fig. 1-2, the interior of the cultivation cup 7 is filled with a cultivation substrate for cultivating green plants.

Referring to the attached drawings 1-2, one side of the circulating pipeline 8, which is far away from the dredging component G, is provided with two connecting pipe fittings 10, and pipelines connected to the two connecting pipe fittings 10 are connected with the water storage tank 4.

Wherein, when the rainy season comes temporarily, rivers collect in the inside of storage water tank 4 through drainage pipe 3, and the water of storage water tank 4 inside filters the back through water quality filter, squeezes into the circulating line 8 of one end wherein through the water pump, behind the rivers circulation, gets into the other end of circulating line 8 through the impurity that mediation subassembly G interception aquatic culture medium drops, discharges into the inside of storage water tank 4 immediately, through collecting the rainwater and recycling, realizes better environmental protection effect.

Furthermore, nutrient solution for cultivation can be added into the water tank periodically.

Referring to fig. 3-4, the inside of the cultivation base 6 is provided with a placing groove 601 adapted to the cultivation base 6, the placing groove 601 is adapted to the number of the cultivation bases 6, and a plurality of placing grooves 601 are communicated with a water flowing groove 602.

Referring to fig. 3 to 4, both ends of the circulation duct 8 are disposed corresponding to and communicated with the water flowing groove 602.

According to the structure, the water mobility and the water quality are better guaranteed, the survival rate of green plants is increased, and compared with the traditional soil cultivation, the cultivation substrate is used, so that the situation that the soil is drained away along with water flow and lost to cause the survival rate of the green plants to be reduced can be avoided.

Referring to the attached drawings 5-6, the dredging component G comprises a dredging pipe body 11 communicated with the circulating pipeline 8, a blocking net 12 is arranged at the water outlet end of the dredging pipe body 11, the bottom of the dredging pipe body 11 is convexly arranged, the peripheral side surface of the dredging pipe body is inclined towards the middle part to form a hopper-shaped discharge end, a sealing ring bulge 13 is arranged on the side wall of the bottom of the dredging pipe body 11, an inward annular groove 14 is arranged at the bottom of the sealing ring bulge 13, an integrally-formed discharge convex nozzle 15 is arranged at the bottom of the dredging pipe body 11 and positioned in the sealing ring bulge 13, a sealing ring gasket 16 is embedded in the annular groove 14, the sealing ring gasket 16 is sleeved on the outer wall of the discharge convex nozzle 15, a pipe plug 17 is arranged at the bottom of the dredging pipe body 11, a sealing convex ring 18 is arranged at the top of the pipe plug 17, the inner diameter of the sealing convex ring 18 is larger than the outer diameter of the discharge convex nozzle 15 and is arranged in the annular groove 14 in a matching manner, and the sealing convex ring 18 is in threaded connection with the discharge convex nozzle 15, the sealing ring bulge 13 wraps the sealing bulge ring 18, and the sealing bulge ring 18 is in threaded connection with the discharge bulge nozzle 15, so that a good sealing effect is achieved.

Furthermore, a blocking net 12 is arranged at the water outlet end of the dredging pipe body 11, impurities falling off from the culture medium are blocked in the dredging pipe body 11, the impurities are precipitated in the material discharging end of the dredging pipe body 11 under the influence of gravity, a pipe plug 17 is opened by a knob, the internal impurities are discharged, the effect of cleaning the impurities is facilitated, the integral structures are mutually matched, and the functions of better shading, heat absorption, energy conservation and water conservation are achieved.

The working principle of the utility model is as follows: to the building of comparatively bottom, storage water tank 4 can set up at the earth's surface or bury underground, to high-rise building, storage water tank 4 can establish the outer wall at the building, storage water tank 4 is inside to have added water pump and water quality filter, the bottom of drainage pipe 3 is connected with water quality filter's one end, water quality filter's the other end is connected with the water pump, when rainy season comes temporarily, rivers collect in storage water tank 4's inside through drainage pipe 3, the inside water of storage water tank 4 filters the back through water quality filter, squeeze into the circulating line 8 of one end wherein through the water pump, behind the rivers circulation, through dredging module G interception aquatic cultivation matrix drop's impurity gets into the other end of circulating line 8, discharge immediately to storage water tank 4's inside, through collecting the rainwater and recycling, realize better environmental protection effect.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (9)

1. The utility model provides a green energy-conserving house, includes civil engineering structure (1) to and drainage eaves (2) that form in civil engineering structure (1) both sides, drainage pipe (3) are installed to the bottom of drainage eaves (2), and the adjacent side that is located civil engineering structure (1) still is provided with storage water tank (4), the bottom and the storage water tank (4) of drainage pipe (3) are connected its characterized in that: planting equipment (5) is arranged in the drainage eaves (2) close to the ridge;

the planting equipment (5) comprises a planting seat (6) and planting cups (7) which are arranged on the planting seat (6) at equal intervals;

planting equipment (5) are still including setting up at circulating line (8) of cultivating seat (6) bottom, the both ends of circulating line (8) are fixed respectively at the both ends of drainage eaves (2), and correspond with cultivation cup (7), circulating line (8) are fixed in the bottom of drainage eaves (2) through joint hanging piece (9) on its rampart, circulating line (8) one side is provided with mediation subassembly (G).

2. The environment-friendly energy-saving house as claimed in claim 1, wherein: the interior of the planting cup (7) is filled with a planting substrate for planting green plants.

3. The environment-friendly energy-saving house as claimed in claim 1, wherein: one side of the circulating pipeline (8) far away from the dredging component (G) is provided with two connecting pipe fittings (10), and the pipeline connected on the connecting pipe fittings (10) is connected with the water storage tank (4).

4. The environment-friendly energy-saving house as claimed in claim 1, wherein: cultivate standing groove (601) that seat (6) were cultivated in the inside of seat (6) and be equipped with the adaptation, standing groove (601) and the quantity looks adaptation of cultivating seat (6) are a plurality of be provided with between standing groove (601) and be linked together tye (602).

5. The environment-friendly energy-saving house as claimed in claim 1, wherein: and two ends of the circulating pipeline (8) are correspondingly arranged and communicated with the water flowing groove (602).

6. The environment-friendly energy-saving house as claimed in claim 1, wherein: dredge subassembly (G) including the mediation body (11) that is linked together with circulating line (8), the play water end of mediation body (11) is provided with block net (12), the bottom of mediation body (11) is the protrusion setting to the slope of week side syntropy middle part forms the hopper-shaped discharge end.

7. The environment-friendly energy-saving house as claimed in claim 6, is characterized in that: the bottom lateral wall of mediation body (11) is provided with sealing ring protruding (13), the bottom of sealing ring protruding (13) sets up inside annular (14), and the bottom of mediation body (11) just is located and is equipped with integrated into one piece's row material convex tip (15) in sealing ring protruding (13).

8. The environment-friendly energy-saving house as claimed in claim 7, wherein: the inside of annular (14) is inlayed and is equipped with sealing ring pad (16), and sealing ring pad (16) cover is established at the outer wall of row material convex nozzle (15).

9. The environment-friendly energy-saving house as claimed in claim 7, wherein: the bottom of mediation body (11) is equipped with stopcock (17), the top of stopcock (17) sets up sealed bulge loop (18), the internal diameter of sealed bulge loop (18) is greater than the external diameter of row material convex nozzle (15) to the adaptation sets up the inside at annular (14), sealed bulge loop (18) and row material convex nozzle (15) threaded connection.

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