CN109328727B - Green energy-saving house structure and construction method thereof - Google Patents

Abstract

The invention provides a novel green energy-saving house structure and a construction method thereof, belonging to the field of house buildings. The green plants can be planted outside the house building, so that the house is green and energy-saving. The rainwater irrigation device is reasonable in structural design, rainwater can be reasonably utilized for irrigation, maintenance period and frequency are reduced, and construction efficiency is improved.

Description

Green energy-saving house structure and construction method thereof

Technical Field

The invention relates to the field of house buildings, in particular to a novel green energy-saving house structure and a construction method thereof.

Background

At present, some houses need to be provided with greening facilities outside the buildings when put into use after the buildings are finished, so that the buildings are kept warm and cool, and the houses are attractive. The additional greening facilities in the later stage have relatively high cost and are inconvenient to maintain.

Disclosure of Invention

The invention provides a novel green energy-saving house structure and a construction method thereof, and aims to solve the problems in the prior art.

The invention is realized by the following steps:

the utility model provides a novel green energy-conserving housing structure, includes building body, building body's the outside is provided with a plurality of planting grooves, building body's the outside is provided with the drain pipe, the top intercommunication of drain pipe building body's top, the bottom intercommunication of drain pipe plants the groove.

Furthermore, the bottom of planting the groove is connected with the water leakage pipe, the bottom of water leakage pipe extends to the bottom of building body.

Further, the outside of building body is provided with the multiunit device that waters, each group the device that waters includes a runner, the runner rotates with building body to be connected, the week side of runner is provided with a plurality of water pitchers that water, the device that waters be used for to water in the planting groove.

Furthermore, a rotating shaft is arranged on the building body, the rotating shaft is rotatably connected with the building body, and the rotating wheel is connected with the rotating shaft; the watering tank can rotate to the position right above the planting groove.

Furthermore, the rotating wheel is connected with a plurality of connecting shafts, and the connecting shafts are arranged in parallel with the axis of the rotating wheel; a connecting hole is formed in the top of the watering can, and the connecting shaft penetrates through the connecting hole to enable the watering can to be hinged with the rotating wheel;

the planting groove comprises a planting frame, the planting frame is connected to the building body, the top of the planting frame is of an open structure, a screen plate is arranged at the top of the planting frame, the screen plate is located at one end, away from the planting frame, of the building body, a growth area is formed between the screen plate and the building body, and the watering tank can run right above the screen plate.

Further, a driving mechanism is arranged in the building body and connected with the rotating shaft, and the driving mechanism is used for driving the rotating shaft to rotate and driving the rotating wheel to rotate.

Furthermore, the bottom of the watering can is provided with an openable bottom plate, the bottom of the watering can also comprises a base plate, the base plate is fixedly connected with the watering can, the bottom plate is hinged with the base plate, and the bottom plate and the base plate are arranged adjacently; the watering tank is characterized in that a motor is arranged at the bottom of the watering tank, an output shaft of the motor is connected with a control block, the control block is conical, the larger end of the control block is connected with the output shaft of the motor, and the smaller end of the control block faces the bottom plate; when the motor operates, the control block can move along the linear direction, the base plate can be kept in a horizontal state when the larger end of the control block is attached to the base plate, and the base plate can be opened downwards after the larger end of the control block is separated from the base plate.

A construction method of a novel green energy-saving house structure is used for constructing the green energy-saving house structure and comprises the following steps:

building a building body;

arranging a planting groove on the outer side of the building body;

and arranging a drain pipe on the outer side of the building body, so that the top end of the drain pipe is communicated with the top of the building body, and the bottom end of the drain pipe is communicated with the planting groove.

According to the novel green energy-saving house structure and the construction method thereof, green plants can be planted outside the house building, so that the house is green and energy-saving. The rainwater irrigation device is reasonable in structural design, rainwater can be reasonably utilized for irrigation, maintenance period and frequency are reduced, and construction efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a novel green energy-saving house structure provided by an embodiment of the invention;

FIG. 2 is a schematic structural diagram of a watering device in a novel green energy-saving house structure provided by the embodiment of the invention;

FIG. 3 is a schematic structural diagram of a planting groove in a novel green energy-saving house structure provided by an embodiment of the invention;

FIG. 4 is a schematic structural diagram of a watering can in the new energy-saving green house structure provided by the embodiment of the invention, wherein the watering can is closed;

FIG. 5 is a schematic structural diagram of a watering can in the new energy-saving green house structure according to an embodiment of the present invention, wherein the watering can is opened;

fig. 6 is a schematic structural diagram of a watering device in a novel green energy-saving house structure provided by the embodiment of the invention.

Summary of reference numerals: the water-saving planting device comprises a building body 101, a planting groove 102, a water discharge pipe 103, a water leakage pipe 104, a watering device 105, a watering tank 106, a rotating wheel 107, a rotating shaft 108, a connecting shaft 109, a connecting hole 110, a planting frame 111, a screen plate 112, a growing area 113, a placing platform 114, a bottom plate 115, a base plate 116, a connecting plate 117, a motor 118 and a control block 119.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

For example, please refer to FIGS. 1-6.

The embodiment provides a novel green energy-saving house structure and a construction method thereof, which can plant green plants outside house buildings to ensure that the house is green and energy-saving. The rainwater irrigation device is reasonable in structural design, rainwater can be reasonably utilized for irrigation, maintenance period and frequency are reduced, and construction efficiency is improved.

As shown in fig. 1, the novel green energy-saving house structure comprises a building body 101, wherein a plurality of planting grooves 102 are arranged on the outer side of the building body 101, a water drainage pipe 103 is arranged on the outer side of the building body 101, the top end of the water drainage pipe 103 is communicated with the top of the building body 101, and the bottom end of the water drainage pipe 103 is communicated with the planting grooves 102.

Further, the bottom of the planting groove 102 is connected with a water leakage pipe 104, and the bottom of the water leakage pipe 104 extends to the bottom of the building body 101.

Furthermore, a plurality of groups of watering devices 105 are arranged on the outer side of the building body 101, each group of watering devices 105 comprises a rotating wheel 107, the rotating wheel 107 is rotatably connected with the building body 101, a plurality of watering cans 106 are arranged on the periphery of the rotating wheel 107, and the watering devices 105 are used for watering the planting grooves 102.

Further, a rotating shaft 108 is arranged on the building body 101, the rotating shaft 108 is rotatably connected with the building body 101, and the rotating wheel 107 is connected with the rotating shaft 108; the watering pot 106 can be rotated to a position just above the planting groove 102.

Furthermore, the rotating wheel 107 is connected with a plurality of connecting shafts 109, and the connecting shafts 109 are arranged in parallel with the axis of the rotating wheel 107; a connecting hole 110 is formed at the top of the pouring tank 106, and the connecting shaft 109 passes through the connecting hole 110 to enable the pouring tank 106 to be hinged with the rotating wheel 107;

the planting tank 102 comprises a planting frame 111, the planting frame 111 is connected to the building body 101, the top of the planting frame 111 is of an open structure, a screen plate 112 is arranged at the top of the planting frame 111, the screen plate 112 is located at one end, far away from the building body 101, of the planting frame 111, a growth area 113 is formed between the screen plate 112 and the building body 101, and the watering tank 106 can run right above the screen plate 112.

Further, a driving mechanism is arranged in the building body 101, the driving mechanism is connected to the rotating shaft 108, and the driving mechanism is used for driving the rotating shaft 108 to rotate and driving the rotating wheel 107 to rotate.

Further, the bottom of the watering can 106 is provided with an openable bottom plate 115, the bottom of the watering can 106 further comprises a base plate 116, the base plate 116 is fixedly connected with the watering can 106, the bottom plate 115 is hinged with the base plate 116, and the base plate 115 is arranged adjacent to the base plate 116; a motor 118 is arranged at the bottom of the watering tank 106, an output shaft of the motor 118 is connected with a control block 119, the control block 119 is conical, the larger end of the control block 119 is connected with the output shaft of the motor 118, and the smaller end of the control block 119 faces the bottom plate 115; the motor 118 is operated to move the control block 119 in a linear direction, the control block 119 maintains the bottom plate 115 in a horizontal state when the larger end of the control block 119 is attached to the bottom plate 115, and the bottom plate 115 is opened downward when the larger end of the control block 119 is separated from the bottom plate 115.

The embodiment also provides a construction method of the novel green energy-saving house structure, which is used for constructing the green energy-saving house structure and comprises the following steps:

building a building body 101;

a planting groove 102 is arranged on the outer side of the building body 101;

a drain pipe 103 is provided outside the building body 101, such that the top end of the drain pipe 103 communicates with the top of the building body 101, and the bottom end of the drain pipe 103 communicates with the planting groove 102.

The building body 101 may be a residential building or an office building. The planting groove 102 is used for planting green plants, and preferably green plants capable of climbing on a wall are adopted, so that the plants can grow upwards to cover the whole building body 101. The outside drain pipe 103 that sets up of building body 101 is used for getting rid of the ponding at building body 101 top, can conduct the rainwater again simultaneously to planting in the groove 102, makes the rainwater irrigate planting the green of planting in the groove 102, make full use of rainwater to can reduce the maintenance frequency.

The bottom of the planting groove 102 is also connected with a water leakage pipe 104, and redundant rainwater in the planting groove 102 can be leaked through the water leakage pipe 104, so that green plants planted in the planting groove 102 cannot be drowned.

A watering device 105 is provided outside the building body 101 for watering the planting pot 102. The watering device 105 has a plurality of watering tanks 106, and plants in the planting tank 102 can be irrigated by storing water in the watering tanks 106 and injecting the water in the watering tanks 106 into the planting tank 102. The watering device 105 comprises a round rotating wheel 107, and the rotating wheel 107 is connected to the wall of the building body 101 through a rotating shaft 108; the rotating wheel 107 is connected with the rotating shaft 108 and then can synchronously rotate, and the rotating shaft 108 is rotatably connected with the wall body, so that the rotating shaft 108 can rotate along the axis of the rotating shaft and drive the rotating wheel 107 to rotate.

The pouring water tank 106 is hinged with the rotating wheel 107, so that the pouring water tank 106 can keep the front face upward no matter which angle the rotating wheel 107 rotates to, and water stored in the pouring water tank cannot be poured from the opening at the top. In the embodiment, each group of watering devices 105 is responsible for watering three planting troughs 102, and three watering tanks 106 are arranged on one wheel 107, each watering tank 106 corresponds to one planting trough 102, and the three watering tanks 106 can be positioned right above the planting troughs 102 at the same time. The three watering tanks 106 can be simultaneously arranged in the planting groove 102, so that the irrigation efficiency is improved. A plurality of watering devices 105 may be provided on the exterior of the building body 101.

The connecting shaft 109 arranged on the rotating wheel 107 is used for connecting the watering can 106, the connecting shaft 109 is arranged in parallel to the axis of the rotating wheel 107, and the connecting shaft 109 penetrates through the connecting hole 110, so that the watering can 106 can rotate around the connecting shaft 109, and the watering can 106 can be kept vertical all the time in the rotating process of the rotating wheel 107.

The planting frame 111 is a solid structure of the planting groove 102, and the planting groove 102 is formed in the planting frame 111. The screen 112 is arranged on the top of the planting frame 111, and the top of the planting frame 111 is divided into two areas, namely the screen 112 and the growth area 113. The roots of the plants are tied in the soil in the planting groove 102, and branches and leaves of the plants grow upwards from the growing area 113. When watering is carried out, the watering can 106 can be rotated to the position right above the screen plate 112 by rotating the rotating wheel 107, so that water stored in the watering can 106 can flow downwards into the screen plate 112 and flow into the planting groove 102 from the screen plate 112.

Through the arrangement, water flowing downwards cannot fall on the branches and leaves during watering, and cannot flow to the outside of the planting groove 102 due to blocking of the branches and leaves, so that the water poured by the watering tank 106 can basically and completely flow into the net plate 112 and enter the planting groove 102, water is not wasted, accumulated water cannot be caused to the outside of a building, and the environment is protected.

A U-shaped placing table 114 is formed on the top of the planting frame 111, the mesh plate 112 is placed on the placing table 114, the mesh plate 112 can be stably connected to the top of the planting frame 111, a gap is formed between the mesh plate 112 and the top of the planting frame 111, water flowing down from the watering tank 106 can be temporarily stored in the space, and slowly flows into the planting groove 102, so that the water is not easy to spill.

The driving mechanism for driving the rotating shaft 108 is arranged in the building body 101, so that the rotating wheel 107 can be electrically driven, the labor can be saved when a worker works, and the control can be accurately performed.

Watering can 106 sets up remote control unit, can open watering can 106 through remote control unit, can control watering can 106 remotely, can be opened when making watering can 106 be in higher position, conveniently waters the operation.

The connection plate 117 is the base plate of the watering can 106, and the watering can 106 is connected to the runner 107 by the connection plate 117. The watering can 106 stores water, the base plate 116 is in a permanent closed state, the base plate 115 is connected with the base plate 116 after the base plate 115 is closed, the bottom of the watering can 106 is closed, and water in the watering can 106 cannot flow out.

The motor 118 is connected to a control block 119, so that the control block 119 can move linearly along the length direction of the output shaft of the motor 118 when the motor 118 is rotated. Allowing the control block 119 to be moved under the base plate 115 and removed from under the base plate 115.

The floor 115 is in a hinged relationship with the base 116 such that when the control block 119 is removed from beneath the floor 115, the floor 115 opens downwardly under the force of gravity to allow water within the watering can 106 to flow out.

Control block 119 is tapered with the larger end connected to the output shaft of motor 118 and the smaller end closer to floor 115 so that when control block 119 is moved toward floor 115, the tapered outer surface of control block 119 allows floor 115 to be pushed up more smoothly, so that there is no binding between floor 115 and control block 119, and so that when floor 115 is opened, more gently, water within pitcher 106 flows out more gently.

When watering is carried out, each watering can 106 is moved to the position right above the planting groove 102, a remote control opening device on the watering can 106 is operated through a remote controller in a remote control mode, the bottom plate 115 is opened, water in the watering can 106 flows out, and plants are irrigated.

The construction method provided by the embodiment is used for constructing the house structure, and the house structure with the structure can be constructed through the construction method.

The drain pipe 103 is provided outside the building body 101, so that rainwater on the top of the building body 101 can flow into the planting groove 102 along the drain pipe 103 to irrigate green plants in the planting groove 102.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (3)

1. A green energy-saving house structure is characterized by comprising a building body, wherein a plurality of planting grooves are formed in the outer side of the building body, a drain pipe is arranged on the outer side of the building body, the top end of the drain pipe is communicated with the top of the building body, and the bottom end of the drain pipe is communicated with the planting grooves;

a plurality of groups of watering devices are arranged on the outer side of the building body, each group of watering devices comprises a rotating wheel, the rotating wheel is rotatably connected with the building body, a plurality of watering tanks are arranged on the peripheral sides of the rotating wheels, and the watering devices are used for watering the planting tanks; the building body is provided with a rotating shaft, the rotating shaft is rotatably connected with the building body, and the rotating wheel is connected with the rotating shaft; the watering tank can rotate to the position right above the planting groove; the rotating wheel is connected with a plurality of connecting shafts, and the connecting shafts are arranged in parallel with the axis of the rotating wheel; a connecting hole is formed in the top of the watering can, and the connecting shaft penetrates through the connecting hole to enable the watering can to be hinged with the rotating wheel;

the planting tank comprises a planting frame, the planting frame is connected to the building body, the top of the planting frame is of an open structure, a screen plate is arranged at the top of the planting frame and is positioned at one end, far away from the building body, of the planting frame, a growth area is formed between the screen plate and the building body, and the watering tank can run right above the screen plate;

a driving mechanism is arranged in the building body and connected with the rotating shaft, and the driving mechanism is used for driving the rotating shaft to rotate and driving the rotating wheel to rotate; the bottom of the watering can is provided with an openable bottom plate, the bottom of the watering can also comprises a base plate, the base plate is fixedly connected with the watering can, the base plate is hinged with the base plate, and the base plate are arranged adjacently; the watering tank is characterized in that a motor is arranged at the bottom of the watering tank, an output shaft of the motor is connected with a control block, the control block is conical, the larger end of the control block is connected with the output shaft of the motor, and the smaller end of the control block faces the bottom plate; when the motor operates, the control block can move along the linear direction, the base plate can be kept in a horizontal state when the larger end of the control block is attached to the base plate, and the base plate can be opened downwards after the larger end of the control block is separated from the base plate.

2. The green energy-saving house structure according to claim 1, wherein a water leakage pipe is connected to the bottom of the planting groove, and the bottom of the water leakage pipe extends to the bottom of the building body.

3. A construction method of a green energy-saving house structure, which is used for constructing the green energy-saving house structure of any one of claims 1-2, comprising the steps of:

building a building body;

arranging a planting groove on the outer side of the building body;

arranging a drain pipe on the outer side of the building body, enabling the top end of the drain pipe to be communicated with the top of the building body and enabling the bottom end of the drain pipe to be communicated with the planting groove;

a plurality of groups of watering devices are arranged on the outer side of the building body, each group of watering devices comprises a rotating wheel, the rotating wheel is rotatably connected with the building body, a plurality of watering tanks are arranged on the peripheral sides of the rotating wheels, and the watering devices are used for watering the planting tanks; the building body is provided with a rotating shaft, the rotating shaft is rotatably connected with the building body, and the rotating wheel is connected with the rotating shaft; the watering tank can rotate to the position right above the planting groove;

the rotating wheel is connected with a plurality of connecting shafts, and the connecting shafts are arranged in parallel with the axis of the rotating wheel; a connecting hole is formed in the top of the watering can, and the connecting shaft penetrates through the connecting hole to enable the watering can to be hinged with the rotating wheel;

the planting tank comprises a planting frame, the planting frame is connected to the building body, the top of the planting frame is of an open structure, a screen plate is arranged at the top of the planting frame and is positioned at one end, far away from the building body, of the planting frame, a growth area is formed between the screen plate and the building body, and the watering tank can run right above the screen plate;

a driving mechanism is arranged in the building body and connected with the rotating shaft, and the driving mechanism is used for driving the rotating shaft to rotate and driving the rotating wheel to rotate; the bottom of the watering can is provided with an openable bottom plate, the bottom of the watering can also comprises a base plate, the base plate is fixedly connected with the watering can, the base plate is hinged with the base plate, and the base plate are arranged adjacently; the watering tank is characterized in that a motor is arranged at the bottom of the watering tank, an output shaft of the motor is connected with a control block, the control block is conical, the larger end of the control block is connected with the output shaft of the motor, and the smaller end of the control block faces the bottom plate; when the motor operates, the control block can move along the linear direction, the base plate can be kept in a horizontal state when the larger end of the control block is attached to the base plate, and the base plate can be opened downwards after the larger end of the control block is separated from the base plate.

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