IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0142016
(2009-07-20)
|
등록번호 |
US-8646205
(2014-02-11)
|
우선권정보 |
KR-10-2009-0003210 (2009-01-15); WO-PCT/KR2009/000539 (2009-02-04); KR-10-2009-0028440 (2009-04-02) |
국제출원번호 |
PCT/KR2009/004003
(2009-07-20)
|
§371/§102 date |
20110624
(20110624)
|
국제공개번호 |
WO2010/082717
(2010-07-22)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Lexyoume IP Meister, PLLC.
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
10 |
초록
▼
The present invention relates to a fabricated landscape architecture system that can simply form landscape architecture of a wall surface or the like. The fabricated landscape architecture system, includes a plurality of support plates (60), a plurality of cultivation boxes (10) and water supply pip
The present invention relates to a fabricated landscape architecture system that can simply form landscape architecture of a wall surface or the like. The fabricated landscape architecture system, includes a plurality of support plates (60), a plurality of cultivation boxes (10) and water supply pipes (30). The plurality of support plates (60) are arranged in one or more lines in a vertical or horizontal direction and include a plurality of fastening holes and pipe grooves (13). The plurality of cultivation boxes (10) are formed in the shape of a box of which one surface is open. A plurality of fastening protrusion (25) to be inserted into the fastening holes, pipe grooves (13) positioned so as to face the pipe grooves (13) of the support plates (60) and the assembly holes are formed on the bottom of the cultivation box (10). The water supply pipes (38) are provided between the pipe grooves (63) of the support plates (60) and the pipe grooves (13) of the cultivation boxes, and include a plurality of water supply protrusions.
대표청구항
▼
1. A fabricated landscape architecture system comprising: a plurality of support plates that are arranged in one or more lines in a vertical or horizontal direction and include a plurality of fastening holes and pipe grooves;a plurality of cultivation boxes that are formed in the shape of a box of w
1. A fabricated landscape architecture system comprising: a plurality of support plates that are arranged in one or more lines in a vertical or horizontal direction and include a plurality of fastening holes and pipe grooves;a plurality of cultivation boxes that are formed in the shape of a box of which one surface is open, a plurality of fastening protrusions inserted into the fastening holes, pipe grooves positioned so as to face the pipe grooves of the support plates, and assembly holes being formed on a bottom of the cultivation boxes; andwater supply pipes that are provided between the pipe grooves of the plurality of support plates and the pipe grooves of the cultivation boxes and include a plurality of water supply protrusions. 2. The fabricated landscape architecture system of claim 1, wherein two or more fastening holes formed at the support plates and two or more fastening protrusions formed at one of the cultivation boxes are formed so as to correspond to each other, and the fastening protrusions formed at one cultivation box are arranged so that a longer side thereof are orthogonal to each other. 3. The fabricated landscape architecture system of claim 1, wherein a plurality of locking pieces are formed at an end of each of the fastening protrusions so as to be locked to the fastening holes and retained while being inserted into each fastening hole. 4. The fabricated landscape architecture system of claim 3, wherein the locking pieces are formed only at the fastening protrusions arranged in the same direction. 5. The fabricated landscape architecture system of claim 1, wherein one surface of the support plates facing the bottom of the cultivation boxes is formed in the shape of a step. 6. The fabricated landscape architecture system of claim 5, wherein one surface of the support plate is formed of inclined planes that are inclined with respect to a plane by an angle of 3 to 60° and arranged in the shape of several steps. 7. The fabricated landscape architecture system of claim 1, wherein the bottom of the cultivation box is formed as an inclined plane that is inclined with respect to a vertical plane by an angle of 3 to 60°. 8. The fabricated landscape architecture system of claim 1, wherein an open end of the cultivation box is formed as an inclined plane that is inclined with respect to a vertical plane by an angle of 3 to 60°. 9. The fabricated landscape architecture system of claim 1, further comprising a wick of which one end is exposed to each of the cultivation boxes through each of the water supply protrusions formed at the water supply pipes and the other end is provided so as to cross an inner space of each of the water supply pipes in a radial direction, a plurality of wicks supplying water flowing in the water supply pipes to the cultivation boxes. 10. The fabricated landscape architecture system of claim 1, further comprising a frame that is provided to form a rim along the circumference of the plurality of support plates. 11. The fabricated landscape architecture system of claim 1, wherein connecting grooves into which connectors for connecting a plurality of adjacent support plates are inserted are formed at corners of the support plates, the connecting grooves are formed in a H shape by integral connection of a pair of parallel portions with a predetermined gap therebetween, one of the pair of parallel portions is inserted into a connecting groove of one side of the support plates and the other of the pair of parallel portions is inserted into a connecting groove of the other side of the support plates. 12. The fabricated landscape architecture system of claim 1, wherein the water supply pipes are arranged on the support plates so as to correspond to a predetermined area, and the water supply pipes and the support plates are integrated so as to form one set. 13. The fabricated landscape architecture system of claim 1, wherein locking protrusions are formed in the pipe grooves of the support plates so that the water supply pipes are not easily separated from the pipe grooves when inserted into the pipe grooves. 14. The fabricated landscape architecture system of claim 1, wherein two or more root support straps are provided in a diagonal direction at vents that are formed on side surfaces of the cultivation boxes facing each other. 15. The fabricated landscape architecture system of claim 1, further comprising a water supply device that supplies water to the water supply pipes, wherein the water supply device includes a water source that supplies water, a main water supplying pipe that controls water is the water source to the water supply pipes and having a water control valve installed therein, a drain pipe that is connected to an end of the water supply pipes and connected to the ground or a drainage and having a drain control valve installed therein, a temperature measurer installed in the support plates, a rainfall sensor installed in the support plates, and a controller that supplies a control signal to the water supply control valve and the drain control valve according to signals input from the temperature measurer and the rainfall sensor. 16. The fabricated landscape architecture system of claim 15, wherein, when a measured value input from the temperature measurer is lower than a predetermined temperature, the controller applies a control signal to change the water control valve to a close state and simultaneously applies a control signal to change a drain control signal to an open state so as to maintain a drain state, and when the measure value input from the temperature measurer is higher than the predetermined temperature, the controller applies a control signal to change the water supply control valve to an open state and simultaneously applies a control signal to change the drain control signal to a close state so as to maintain a normal water supply state. 17. The fabricated landscape architecture system of claim 15, wherein the controller applies a control to change the water supply control valve to a close state without regard to a measured value input from the temperature measurer when a signal indicating rain is input from the rainfall sensor, and applies a control signal according to the measured value input from the temperature measurer when the signal indicating rain is not input from the rainfall sensor. 18. The fabricated landscape architecture system of claim 17, wherein a pump is installed between the water source and the main water supply pipe, and the controller applies a control signal to stop operation of the pump when the water supply control valve is changed to the close state and applies a control signal to start operation of the pump when the water supply control valve is changed to an open state. 19. The fabricated landscape architecture system of claim 15, further comprising a self-generation unit that generates electricity by using sunlight or wind force and a storage battery that changes electricity generated from the self-generation unit and supplies power to the controller.
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