Disclosure of Invention
The invention provides a green building system, which aims to solve the problems in the prior art.
The invention is realized by the following steps:
a green building system comprises a building body, wherein a plurality of planting frames are arranged on the outer side of the building body at intervals along the horizontal direction; the outer side of the building body is also provided with a drain pipe and a watering pipe, the drain pipe is arranged along the vertical direction, the watering pipe is arranged along the horizontal direction, 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 watering pipe; the watering pipe is arranged above the planting frame, and a water outlet is formed in the watering pipe.
Furthermore, a water receiving port is formed in the side portion of the planting frame, a water inlet pipe is connected to the water receiving port, and the water inlet pipe is rotatably connected with the water receiving port; the water outlet is connected with a water outlet pipe, the water outlet is connected with the water outlet pipe through a connecting pipe, the water outlet pipe is L-shaped, and one end of the water outlet pipe is connected with the water inlet pipe.
Further, the outside of delivery port is provided with the external screw thread, the outlet pipe is close to the outside of the one end of connecting pipe is provided with the external screw thread, the inner wall at the both ends of connecting pipe is provided with the internal thread, the connecting pipe with the outlet pipe reaches the equal spiro union of outlet pipe.
Furthermore, a feeding pipe is arranged on the watering pipe, an end cover is arranged at the top of the feeding pipe, and the feeding pipe is arranged between the two planting frames; the watering pipe is also provided with a shutoff valve, and the feeding pipe is arranged between the shutoff valve and the drain pipe.
Furthermore, the outside of water receiving mouth forms go-between and the spacing ring that the interval set up, the inner wall of inlet tube is provided with the joint ring, the joint ring joint in the go-between reaches between the spacing ring.
Furthermore, the end part of the watering pipe is also connected with an L-shaped water replenishing pipe, the bottom end of the watering pipe is bent to form a water outlet, and the water outlet and the water replenishing pipe are respectively arranged at two ends of the watering pipe.
Further, the planting frame comprises a panel far away from the building body, and the panel is in an inclined structure, so that the width of the top of the planting frame is larger than that of the bottom of the planting frame.
Further, the watering pipe is connected to the building body through a plurality of connectors.
According to the green building system provided by the invention, the building is provided with the planting frame for planting green plants after the construction is finished, and the watering pipe for watering the planting frame is arranged, so that the planting frame is irrigated by rainwater, the water quantity can be saved, and the maintenance cost can be reduced.
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 green building system, also can become green building, and this kind of building just has the planting frame that can be used for planting green planting after the construction is accomplished to have the watering pipe of watering for planting the frame, it utilizes the rainwater to irrigate planting the frame, can the water conservation, reduces maintenance cost.
As shown in fig. 1, the green building system comprises a building body 101, wherein a plurality of planting frames 102 are arranged on the outer side of the building body 101 at intervals along the horizontal direction; the outer side of the building body 101 is further provided with a drain pipe 103 and a watering pipe 104, the drain pipe 103 is arranged along the vertical direction, the watering pipe 104 is arranged along the horizontal direction, the top end of the drain pipe 103 is communicated with the top of the building body 101, and the bottom end of the drain pipe 103 is communicated with the watering pipe 104; the watering pipe 104 is arranged above the planting frame 102, and a water outlet 105 is formed in the watering pipe 104.
As shown in fig. 1, a water receiving opening 106 is formed in the side portion of the planting frame 102, a water inlet pipe 107 is connected to the water receiving opening 106, and the water inlet pipe 107 is rotatably connected to the water receiving opening 106; the water outlet 105 is connected with a water outlet pipe 108, the water outlet 105 is connected with the water outlet pipe 108 through a connecting pipe 109, the water outlet pipe 108 is L-shaped, and one end of the water outlet pipe 108 is connected with the water inlet pipe 107.
As shown in fig. 3, an external thread is disposed on the exterior of the water outlet 105, an external thread is disposed on the exterior of one end of the water outlet pipe 108 close to the connecting pipe 109, internal threads are disposed on the inner walls of two ends of the connecting pipe 109, and the connecting pipe 109 is screwed with the water outlet pipe 108 and the water outlet pipe 108.
As shown in fig. 6, a feeding pipe 110 is arranged on the watering pipe 104, an end cover 111 is arranged at the top of the feeding pipe 110, and the feeding pipe 110 is arranged between the two planting frames 102; the pouring pipe 104 is further provided with a shut-off valve 112, and the feeding pipe 110 is interposed between the shut-off valve 112 and the water discharge pipe 103.
As shown in fig. 5, a connection ring 113 and a limit ring 114 are formed at an interval outside the water receiving opening 106, a clamping ring 115 is disposed on an inner wall of the water inlet pipe 107, and the clamping ring 115 is clamped between the connection ring 113 and the limit ring 114.
As shown in fig. 1, an L-shaped water replenishing pipe 116 is further connected to an end of the watering pipe 104, a drain opening 117 is formed by bending the bottom end of the watering pipe 104, and the drain opening 117 and the water replenishing pipe 116 are respectively disposed at two ends of the watering pipe 104.
As shown in fig. 2, the planting frame 102 includes a panel 118 far away from the building body 101, and the panel 118 is in an inclined structure such that the width of the top of the planting frame 102 is greater than that of the bottom thereof.
As shown in fig. 1, the watering pipe 104 is connected to the building body 101 through a plurality of connectors.
The planting frame 102 and the watering pipe 104 which are matched with each other are arranged outside the building body 101, so that green plants can be planted in the planting frame 102, and water can be poured into the planting frame 102 through the watering pipe 104.
The watering pipe 104 is arranged outside the wall body, and the watering pipe 104 is used for watering the planting frame 102, so that plants in the planting frame 102 can grow well. The watering pipe 104 is horizontally arranged above the planting frame 102, the watering pipe 104 is connected to a wall, and water in the watering pipe 104 can flow into the planting frame 102 by arranging water leakage holes on the watering pipe 104. The watering pipe 104 is detachably connected with the wall body, so that the watering pipe 104 can be conveniently connected to the wall body during construction, and can be detached from the wall body when not in use.
The number of the planting frames 102 is multiple, and multiple planting frames 102 can be arranged on one wall, or multiple planting frames 102 can be arranged on multiple walls. The watering pipe 104 of the whole green building can be arranged into an integrated structure, so that one watering pipe 104 can be used for irrigating a plurality of planting frames 102.
The side of the planting frame 102 is provided with a water receiving opening 106, and irrigation water can enter the planting frame 102 through the water receiving opening 106. The water receiving opening 106 is connected with a water inlet pipe 107, a water outlet pipe 108 and a connecting pipe 109 in sequence, and the connecting pipe 109 is connected with a water outlet 105 at the bottom of the water inlet pipe 107, so that water in the watering pipe 104 can enter the planting frame 102 through the water outlet 105, the connecting pipe 109, the water outlet pipe 108 and the water inlet pipe 107.
And in this embodiment, set up inlet tube 107 and water receiving mouth 106 to rotate and connect, make inlet tube 107 can rotate relative to water receiving mouth 106, make inlet tube 107 can connect at different angles. The water outlet pipe 108 is provided in an L-shape so that the top end portion thereof can be in the vertical direction. The water outlet pipe 108 is connected with the water outlet 105 through a connecting pipe 109, and the connection of the water outlet pipe and the water outlet 105 is facilitated through the arrangement of the connecting pipe 109. And the connecting pipe 109 and the water outlet 105 and the connecting pipe 109 and the water outlet pipe 108 are in threaded structures, so that the pipe fittings connected through the threads are firm and the connection is very convenient.
When the connection pipe 109 is connected to the water outlet pipe 108 and the water outlet 105, the water outlet pipe 108 is rotated to a proper position, and the connection pipe 109 is rotated to connect the connection pipe 109 to the water outlet 105, so that the connection between the water outlet pipe 108 and the water outlet 105 can be completed. When the connection between the water outlet pipe 108 and the water outlet 105 is released, the connection pipe 109 is rotated downward to separate the connection pipe 109 from the water outlet 105, and the water outlet pipe 108 and the pouring water pipe 104 can be separated.
Through the structure, the planting frame 102 can be connected with the watering pipe 104 at any time, and the connection relationship between the planting frame and the watering pipe can be released at any time. When the water amount in one planting frame 102 is sufficient, the connection between the planting frame 102 and the watering pipe 104 is released, so that the water in the watering pipe 104 cannot enter the planting frame 102, but the water in the watering pipe 104 can still enter other planting frames 102, so that the planting frames 102 cannot be influenced mutually, and the later maintenance of the greening facility is more convenient.
In addition, after the connection pipe 109 is disconnected from the water outlet 105, the water outlet pipe 108 and the water inlet pipe 107 can be rotated downwards, so that the opening of the water outlet pipe 108 faces downwards, the excessive moisture in the planting frame 102 can be discharged from the water outlet pipe 108, water cannot be accumulated in the planting frame 102, and the good growth of plants in the planting frame 102 is maintained. Furthermore, the water receiving opening 106 is disposed at the side of the planting frame 102, so that a certain distance is formed between the water receiving opening 106 and the top of the planting frame 102, and a certain distance is also formed between the water receiving opening 106 and the bottom of the planting frame 102, so that more water in the planting frame 102 can be discharged, and all water in the planting frame 102 cannot be discharged, so that a certain amount of water can be still stored in the planting frame 102, and plants can grow well.
The top end of the watering pipe 104 is connected to the top of the building body 101, so that rainwater falling from the top of the building body 101 can flow into the watering pipe 104. Rainwater can be fully utilized, the planting frame 102 can operate well under the natural environment, manual interference is not applied too much, the construction frequency is reduced, and the maintenance cost is reduced.
And the side part of the watering pipe 104 is also connected with a water replenishing pipe 116, water can be filled into the water replenishing pipe 116 when rainwater is insufficient, the water flows along the watering pipe 104 and flows into each planting frame 102 from each water outlet 105, so that workers can water a plurality of planting frames 102 of the green building only by performing water replenishing operation at a fixed place, and convenience is brought to construction.
A bent drain hole 117 is formed at the bottom end of the watering pipe 104, and excess water can be drained through the drain hole 117.
In this embodiment, the surplus moisture in planting frame 102 passes through outlet pipe 108 and discharges, rather than directly discharging downwards from the bottom of planting frame 102 for the drainage department of rectangular shape planting frame 102 only has one, can set up device or the water drainage tank of water receiving under outlet pipe 108, make water in time flow out can not form ponding in the below of green building, make the below of green building can not form ponding when planting frame 102 drainage, be favorable to the indoor of green building to keep dry.
A feeding pipe 110 is provided in the middle of the watering pipe 104, and feeding operation, such as feeding of a chemical, into the watering pipe 104 can be performed through the feeding pipe 110. The liquid medicine is mixed with the water in the watering pipe 104 after entering the watering pipe 104, and then flows into the planting frame 102 from each water outlet 105, so as to play a role in resisting diseases and insects for the plants in the planting frame 102.
The pouring pipe 104 is further provided with a shut-off valve 112, and the flow of the chemical liquid can be controlled by the shut-off valve 112.
In one embodiment, two planting boxes 102 are provided, the two planting boxes 102 share a watering pipe 104, and a shut-off valve 112 and a feeding pipe 110 are provided between the two planting boxes 102. When the chemical needs to be filled into the planting frame 102 at the front end (i.e. the end close to the water discharge pipe 103), the cut-off valve 112 is closed, so that the water in the watering pipe 104 cannot flow towards the rear end, the water in the watering pipe 104 can only flow out from the water outlet 105 at the front end, and the chemical can flow into the planting frame 102 at the front end.
When the liquid medicine needs to be filled into the planting frame 102 at the rear end, the cut-off valve 112 is opened, and the liquid medicine flows to the planting frame 102 at the rear end due to the water flow.
When a plurality of planting frames 102 are arranged, a feeding pipe 110 and a cut-off valve 112 are arranged between every two adjacent planting frames 102, so that the flow direction of the liquid medicine fed into the feeding pipe 110 can be controlled, and the liquid medicine can reasonably flow into the required planting frames 102.
The planting frame 102 may be configured to have a top-sealed structure, leaving only holes for the trunks of plants to pass through.
The connection ring 113 and the limit ring 114 are arranged outside the water receiving opening 106 at intervals, and the clamping ring 115 is arranged on the inner wall of the water inlet pipe 107, so that the three ring pieces can be matched with each other, the water receiving opening 106 and the water inlet pipe 107 are connected in a sealing manner, and the water receiving opening 106 and the water inlet pipe 107 can be conveniently rotated after being connected.
The connecting ring 113 and the limiting ring 114 are formed in a uniform manner, and may be made of a flexible material such as rubber, or may be formed with a rubber ring on the outside thereof such that the outer diameter thereof is larger than the inner diameter of the snap ring 115. When the water receiving port 106 is connected with the water inlet pipe 107, the clamping ring 115 is extruded to enter between the connecting ring 113 and the limiting ring 114, and the clamping ring 115 is clamped through clamping of the connecting ring 113 and the limiting ring 114.
The inlet pipe 107 is sealed after connection to the water receiving opening 106 so that water flowing therethrough does not substantially leak therefrom. And the inlet pipe 107 can be conveniently rotated while rotating the inlet pipe 107.
The panel 118 of the planting frame 102 is inclined, so that the opening at the top of the planting frame 102 is larger, the bottom of the planting frame is smaller, the planting frame is more stable, and meanwhile, the branches and leaves of the plant can grow outwards sufficiently.
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.