CN207135630U - Cultivation device - Google Patents

Abstract

A cultivation device includes: a base with a plurality of placement spaces; a plurality of cultivation grooves arranged in multiple layers along the horizontal and vertical directions of the base on the plurality of placement spaces; a top shunt pipe device provided on the base The top of the base, and the top shunt pipe device includes a first delivery joint and a plurality of first shunt delivery pipes; and a nutrient solution tank is provided at the bottom end of the base, and the nutrient solution tank includes a pumping motor, and the pumping motor includes a first Two conveying joints; one end of the second conveying pipe is connected to the first conveying joint, and the other end is connected to the second conveying joint. The water pumping motor pumps the water or nutrient solution in the nutrient solution tank to the top shunt pipe device through the second conveying pipe. , the top shunt pipe device transports water or nutrient solution to a plurality of cultivation tanks located on the topmost layer of the multi-layer form through a plurality of first shunt conveying pipes.

Description

cultivation device

technical field

The utility model relates to a cultivation device, in particular to a cultivation device which can be used for soil cultivation or hydroponic cultivation and has a water or nutrient solution circulation system.

Background technique

With the improvement of food safety awareness, and in the era of soaring vegetable prices caused by unstable production and harvest due to various natural disasters, such as typhoons, heavy rains, and pollution from pesticide residues and heavy metals, there is a need To change the farming method of habitual farming, people began to try to grow some fruits and vegetables at home, hoping to grow self-sufficient food that does not use pesticides and heavy metals, zero pollution and natural food.

On the other hand, when people are cultivating plants at home, whether they are soil-plowed plants or hydroponic plants, they need to water and fertilize the plants at regular intervals to prevent the plants from growing and dying, especially in hot summer. More moisture is needed, so the intervals will be shorter. However, people generally go out during the day, and they may forget to water the plants before going out, or they have watered before going out but the weather is hot and the water evaporates, so the plants cannot be watered in time, and finally the plants die.

Based on the above reasons, how to design a new type of cultivation device with automatic water supply or nutrient solution and allow water or nutrient solution to be automatically circulated, so that plants can obtain water in real time, is a problem to be solved.

Utility model content

In order to achieve the aforementioned purpose, the utility model provides a cultivation device, comprising: a base with a plurality of placement spaces, a plurality of cultivation grooves are arranged in multiple placement spaces in a multi-layered form along the horizontal direction and the vertical direction of the base Above; a top shunt pipe device, which is arranged on the top of the base, and the top shunt pipe device includes a first delivery joint and a plurality of first shunt delivery pipes; and a nutrient solution tank, which is arranged at the bottom end of the base, and The nutrient solution water tank includes a pumping motor, and the water pumping motor includes a second delivery joint; wherein, one end of a second delivery pipe is connected to the first delivery joint, and the other end is connected to the second delivery joint, and the pumping motor connects the water in the nutrient solution tank Water or nutrient solution is pumped to the top distribution pipe device through the second delivery pipe; wherein, a plurality of first distribution delivery pipes are connected to the topmost cultivation tank in the multi-layer form, and the top distribution pipe device is passed through a plurality of first distribution delivery pipes The water or nutrient solution is transported to the topmost cultivation tank in the multi-layer form, and the topmost cultivation tank in the multi-layer form transports water or nutrient solution to the cultivation of another layer in the multi-layer form through multiple drainage pipes In the multi-layer form, the multiple cultivation tanks of one layer are connected to the multiple cultivation tanks of the other layer in the multi-layer form through multiple drainage pipes; The troughs are connected to the nutrient solution tank through a plurality of drainage pipes, so that the bottommost cultivation tanks in the multi-layer form can deliver water or nutrient solution to the nutrient solution tank through the plurality of drainage pipes.

Preferably, each of the plurality of cultivation tanks is arranged on a plurality of placement spaces by a connecting device, and each of the plurality of cultivation tanks includes: a small water tank, including an accommodating space, and the bottom of the small water tank includes a Drain hole; a planting cup fixedly arranged on the small water tank, and the planting cup includes a certain planting hole and a plurality of water inlet holes; a water absorbing device, arranged in the planting hole, and the water absorbing device has a length; and a high and low water level control The flow pipe is arranged in the small water tank, and the high and low water level control flow pipe has a length, and a part of the high and low water level control flow pipe extends through the drain hole and protrudes from the bottom of the small water tank; wherein, one end of the drainage and drainage pipe is connected to the high and low water level The protruding part of the water level control pipe, the other end of the drainage and drainage pipe is connected to one of the plurality of water inlet holes of another planting cup of another cultivation tank.

Preferably, the connection device includes: a wall piece with multiple fixing devices, and the cultivation tank is set on multiple placement spaces through the wall piece and the multiple fixing devices; a connecting plate connected to the wall piece and has a connection structure and a supporting structure, one end of the supporting structure is arranged on the connecting plate through the connecting structure, and the supporting structure is rotated through the connecting structure; wherein, the small water tank is fixedly arranged on the other end of the supporting structure.

Preferably, the cultivating device of the present invention further includes a plurality of platform placement racks, the plurality of platform placement racks are arranged on the base, and the plurality of cultivation tanks are directly placed on the plurality of platform placement racks.

Preferably, one of the plurality of platform racks is connected to another one of the plurality of platform racks.

Preferably, the cultivating device of the present invention further includes a plurality of plant growth lamps and a reflection device, the plurality of plant growth lamps are arranged on the base, and the reflection device is arranged on the top of the base.

Preferably, a plurality of plant growth lamps are respectively arranged at the top, middle and bottom of the base.

Preferably, the plant growth lamp is arranged on the base by a plurality of connecting ropes, and the plant growth lamp includes a plurality of buckles, the connecting rope hooks the buckle with a plurality of hooks, and the connecting rope includes a button , the height of the plant growth lamp is adjusted by buttons, and the plant growth lamp is rotatably arranged in the buckle.

Preferably, the length of the water absorbing device extends to the bottom inside the small water tank.

Preferably, the planting cup includes cultivating soil, and the cultivating soil absorbs water by contacting the water absorbing device.

Preferably, the multiple fixing devices are multiple hooks.

Preferably, the support structure is L-shaped.

Description of drawings

Those skilled in the art can have a better understanding of the various aspects of the present invention as well as its specific features and advantages after reading the following detailed description with reference to the accompanying drawings, wherein the accompanying drawings include:

Fig. 1 is a schematic structural view illustrating a cultivation device of an embodiment of the present invention;

Fig. 2A is a schematic structural view illustrating a cultivation tank according to an embodiment of the present invention;

Fig. 2B is a schematic diagram illustrating the structure of a planting cup in a cultivation tank according to an embodiment of the present invention;

Fig. 2C is a schematic diagram illustrating the structure of a cultivation tank and a connecting device according to an embodiment of the present invention;

Fig. 2D is a schematic diagram illustrating the top view of a cultivation tank according to an embodiment of the present invention;

Fig. 2E is a schematic diagram illustrating the connection mode of a plurality of cultivation tanks according to an embodiment of the present invention;

Fig. 3A is a schematic structural view illustrating a platform placement frame according to an embodiment of the present invention;

Fig. 3B is a schematic diagram illustrating the connection of multiple platform racks according to an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating the development of a reflecting device according to an embodiment of the present invention; and

Fig. 5 is a schematic diagram illustrating the structure of a lifting device according to an embodiment of the present invention.

Wherein, the reference signs are explained as follows:

1 cultivation device

10 base

20 Top Shunt Tube Assembly

30 cultivation tanks

40 nutrient tank

50 Second delivery tube

60 Grow Lights

70 reflector

80 platform rack

101 placement space

201 First delivery joint

203 First diversion delivery pipe

301 drain drainage pipe

303 wall pieces

305 connecting plate

307 Support structure

309 small sink

311 drain hole

313 planting cup

315 Suction device

317 high and low water level flow control pipe

401 Pump motor

403 Second Delivery Joint

601 connecting rope

603 buttons

605 Buckle

607 hook

3031 Fixtures

3051 connection structure

3131 Planting hole

3133 water inlet

Detailed ways

The implementation of the present utility model will be described in more detail below in conjunction with the drawings and reference signs, so that those skilled in the art can implement it after studying this specification.

FIG. 1 is a schematic diagram for illustrating the structure of a cultivation device according to an embodiment of the present invention. Please refer to FIG. 1 , in an implementation of the present invention, a cultivation device 1 includes a base 10 , a top shunt pipe device 20 , a plurality of cultivation tanks 30 and a nutrient solution tank 40 . Wherein, the base 10 has a plurality of placement spaces 101, and a plurality of cultivation grooves 30 are arranged on the plurality of placement spaces 101 in a multi-layer form along the horizontal direction and the vertical direction of the base 10. In the present utility model, the multi-layer form It can be, for example, a multi-layer grid as shown in FIG. 1 . The top shunt pipe device 20 is disposed on the top of the base 10 , and the top shunt pipe device 20 includes a first delivery joint 201 and a plurality of first shunt delivery pipes 203 . The liquid nourishing tank 40 is arranged on the bottom of the base 10, and the liquid nourishing tank 40 includes a pumping motor 401, and the pumping motor 401 is arranged in the inside of the liquid nourishing tank 40, as shown in Figure 1, and the pumping motor 401 includes a second Delivery joint 403 . It should be understood that, in one embodiment of the present invention, the base 10 is a metal grid, and in other embodiments, the base 10 can be a wall or a wooden board.

On the other hand, in an embodiment of the present utility model, one end of a second delivery pipe 50 is connected to the first delivery joint 201, and the other end is connected to the second delivery joint 403. The water or nutrient solution in the liquid water tank 40 is pumped to the top shunt pipe device 20 through the second delivery pipe 50 , so that the top shunt pipe device 20 can further provide water or nutrient solution to a plurality of cultivation tanks 30 . More specifically, the plurality of first distribution pipes 203 of the top shunt pipe device 20 are connected to the topmost cultivation tanks 30 in the plurality of storage spaces 101, and the top shunt pipe device 20 is transported through the first distribution pipes. The pipe 203 transports the water or the culture solution to the topmost cultivation tanks 30 in the multi-layer form, and the topmost cultivation tanks 30 in the multi-layer form further transfer the water or culture solution to the water or culture through a plurality of drainage pipes 301. The liquid is transported to a plurality of cultivation tanks 30 of another layer in the multi-layer form, and a plurality of cultivation tanks 30 of one layer in the multi-layer form are connected with a plurality of drainage pipes 301 of another layer in the multi-layer form. Cultivation tank 30 is connected.

In addition, the plurality of cultivation tanks 30 at the bottom of the multi-layer form are connected to the nutrient solution tank 40 through a plurality of drainage pipes, so that the plurality of cultivation tanks 30 at the bottom of the multi-layer form are connected to the nutrient tank 40 through a plurality of drainage pipes 301. Further transport the water or nutrient solution to the nutrient solution tank 40, and the water or nutrient solution in the nutrient solution tank 40 will be delivered to the top shunt pipe device 20 again through the second delivery pipe 50, so that the cycle goes round and round to form a circulatory system.

Fig. 2A is a schematic diagram for illustrating the structure of a cultivation tank according to an embodiment of the present invention; Fig. 2B is a schematic top view illustrating the structure of a planting cup in a cultivation tank according to an embodiment of the present invention. Please refer to Fig. 1, Fig. 2A and 2B, in an embodiment of the present invention, each of a plurality of cultivation tanks 30 includes a small water tank 309, a fixed planting cup 313, a water absorbing device 315 and a high and low water level flow control pipe 317 . The small water tank 309 includes an accommodating space and the bottom of the small water tank 309 includes a drainage hole 311 .

The planting cup 313 is a funnel-shaped and hollow form, that is, there is an opening above the planting cup 313, the funnel-shaped planting cup 313 can be fixedly arranged on the small water tank 309 by its own shape, or can be fixed by a Device (not shown in the figure) connects and fixes the planting cup 313 with the small water tank 309, and the planting cup 313 includes a planting hole 3131 and a plurality of water inlet holes 3133, and the plurality of water inlet holes 3133 are arranged on the surface of the planting cup 313 And it can be disposed adjacent to the planting hole 3131 in a surrounding manner, as shown in FIG. 2B .

The water absorbing device 315 is disposed in the planting hole 3131 , and the water absorbing device 315 has a length. On the other hand, each of the plurality of cultivation tanks 30 is arranged on the plurality of placement spaces 101 through a connection device, and the detailed structure of the connection device will be described later.

The high and low water level control pipe 317 is disposed in the small water tank 309 and is hollow and has a length. A part of the high and low water level control pipe 317 extends through the drain hole 311 and protrudes from the bottom of the small water tank 309 . In addition, one end of the drainage pipe 301 can be connected to the protruding part of the high and low water level control pipe 317 . During implementation, when water or nutrient solution is injected into the accommodation space of the small water tank 309 through the water inlet 3133 and the drainage and drainage pipe 301, the water level will continue to rise. When the water level reaches the top of the high and low water level control flow pipe 317, the water or The nutrient solution will start to flow into the high and low water level control pipe 317 , and further flow into another cultivation tank 309 through the drainage pipe 301 .

On the other hand, when the cultivation tank 309 is used for soil cultivation, the water inlet 3133 that is not connected to the drainage and drainage pipe 301 on the planting cup 313 can be blocked by a plurality of plugs, and then the culture soil is placed in the planting cup. 313, and the cultivation soil will be in contact with the water absorbing device 315, and finally the seedlings will be planted in the planting cup 313. When water is poured into the small tank 309 , the water can be absorbed by the water absorbing device 315 , and the cultivation soil can absorb water by contacting the water absorbing device 315 . When the cultivation tank 309 is hydroponic cultivation, the nutrient solution can be injected into the small water tank 309, and the plants and seedlings are placed in the water absorbing device 315 in the planting hole 3131 to fix. The water absorbing device 315 is, for example, a sponge or rock wool. After the nutrient solution is injected into the small water tank 309, the nutrient solution can soak the water absorbing device 315 and the root system of the plant and seedling to absorb the nutrient solution.

Fig. 2C is a schematic diagram, in order to illustrate the structure of the cultivation tank and the connecting device of an embodiment of the utility model; Fig. 2D is a top view schematic diagram, in order to illustrate the structure of the cultivation tank of an embodiment of the utility model; Fig. 2E is a The schematic diagram is used to illustrate the connection mode of the cultivation tank of an embodiment of the present invention. Please refer to Fig. 1, Fig. 2A to Fig. 2E, in one embodiment of the present invention, the cultivation tank 30 including the small water tank 309, the planting cup 313, the water absorbing device 315 and the high and low water level flow control pipe 317 can be set by a connecting device On the plurality of placing spaces 101 , the connecting device includes a wall piece 303 , a connecting plate 305 and a supporting structure 307 .

The wall sheet 303 has a plurality of fixing devices 3031, and the cultivation tank 30 is arranged on a plurality of placement spaces 101 in a multi-layer form by the wall sheet 303 and a plurality of fixing devices 3031; the connecting plate 305 is connected to the wall sheet 303 and has a connecting structure 3051, the connection structure 3051 can be a screw, for example; the support structure 307 is L-shaped, and one end of the support structure 307 is rotatably arranged on the connection plate 305 through the connection structure 3051, so that the support structure 307 can be left by the connection structure 3051 , Rotate right. In one embodiment of the utility model, the plurality of fixing devices 3031 can be a plurality of hooks, and in other embodiments of the utility model, if the base 10 is a wall, the plurality of fixing devices 3031 can be a plurality of nails, The nail can pass through the wall piece 303 and drive into the wall.

The small water tank 309 is fixedly arranged on the other end of the support structure 307, and the bottom of the small water tank 309 includes an accommodating space and the small water tank 309 includes a drainage hole 311; the planting cup 313 is fixedly arranged on the cultivation tank 30, and the planting cup 313 It includes a planting hole 3131 and a plurality of water inlet holes 3133; the water absorbing device 315 is arranged in the planting hole 3131, and the water absorbing device 315 has a length; one end of the drainage and drainage pipe 301 is connected to the protruding part of the high and low water level control pipe 317, The other end of the drainage pipe 301 is connected to one of the plurality of water inlet holes 3133 of another planting cup 313 of another cultivation tank 30 .

After water or nutrient solution is poured into the accommodating space of the small tank 309 on another floor from the drainage and drainage pipe 301, the high and low water level control pipe 317 can control the water level. , the water or nutrient solution will automatically flow into the high and low water level control tube 317, and then the water or nutrient solution will enter another drainage and drainage tube 301 connected to the protruding part of the high and low water level control tube 317, and then pass through another drainage and drainage tube 301 and enter the small tank 309 on another floor.

On the other hand, cultivation soil can be selectively placed in the planting cup 313, so that the cultivation tank 30 can be selected for soil cultivation or hydroponic cultivation. In addition, when the plants planted in the cultivation grooves 30 start to grow, the cultivation grooves 30 of one layer in the multi-layer form may push up to the cultivation grooves 30 of another layer in the multi-layer form due to the height of the plants. In order to avoid this problem, in an embodiment of the present invention, the small water tank 309 arranged on the support structure 307 in the cultivation tank 30 can be rotated left and right through the connecting structure 3051, so that the multi-layered form The cultivation grooves 30 can be staggered with each other, and the plants planted in the cultivation grooves 30 can grow freely without hitting the cultivation grooves 30 of another layer.

Furthermore, the water-absorbing device 315 disposed in the planting hole 3131 can be a water-absorbing material, such as a sponge. It should be understood that although the length of the water absorbing device 315 shown in FIG.

In addition, as shown in FIG. 1 and FIG. 2E , the cultivation tank 30 in one of the multiple placement spaces 101 in the multi-layer form can transport water or nutrient solution to the other layer in the multi-layer form through its own drainage and drainage pipe 301 In the cultivation tank 30 of the multi-layer form, the cultivation tank 30 at the bottom will further transport water or nutrient solution to the nutrient solution tank 40 through a plurality of drainage pipes 301, and the water or nutrient solution in the nutrient solution tank 40 The liquid will be sent to the top shunt pipe device 20 again through the second delivery pipe 50 , so that the cycle goes round and round to form a circulation system.

FIG. 3A is a schematic diagram for illustrating the structure of the platform rack according to an embodiment of the present invention. Please refer to Fig. 1 and Fig. 3A, in one embodiment of the present utility model, cultivating device 1 further comprises a plurality of platform placement racks 80, and a plurality of platform placement racks 80 are arranged on the base 10, and the cultivation tank 30 can be placed directly Place on the shelf 80 on multiple platforms. In other words, the cultivation tank 30 of the present invention can not only be set on the base 10 by a plurality of fixing devices 3031, but also can be directly placed on a plurality of platform racks 80, so that the base 10 can place more cultivation tanks 30.

FIG. 3B is a schematic diagram for illustrating the connection method of multiple platform racks according to an embodiment of the present invention. Please refer to FIG. 3B , after the platform placing frame 80 is installed on the base 10 , the platform placing frame 80 on the base 10 can be further connected with another platform placing frame 80 . In this way, more cultivation tanks 30 can be placed on the base 10 .

FIG. 4 is a schematic diagram for illustrating the unfolded schematic diagram of the reflective device according to an embodiment of the present invention. Please refer to Fig. 1 and Fig. 4, in one embodiment of the present utility model, cultivation device 1 further comprises a plurality of plant growth lamps 60 and a reflection device 70, and a plurality of plant growth lamps 60 are arranged on the base 10, as shown in Fig. 1 A plurality of plant growth lamps 60 shown in is hung on the top of the base 10, and a plurality of plant growth lamps 60 can be respectively arranged on the top, middle and bottom of the base 10 (the plant growth lamp 60 at the bottom is not shown in the figure ), and the reflection device 70 is foldably arranged on the top of the base 10, and the reflection device 70 can be stored on the top of the base 10 when it is not in use, as shown in FIG. 1 . In addition, the plurality of plant growth lamps 60 can emit light and irradiate the plants cultivated in the cultivation tank 30 to allow the plants to perform photosynthesis. Furthermore, according to the theory, the rate of photosynthesis is directly proportional to the intensity of light. Therefore, in order to make the plants cultivated in the cultivation tank 30 obtain more light waves, the utility model can further use the reflection device 70 to strengthen the light irradiation, and can A lifting device is used to adjust the height of the plant growth lamp to adjust the position of the light wave irradiation.

When the reflection device 70 is in use, the reflection device 70 can be launched from the top of the base 10, and surround a plurality of plant growth lamps 60 and the cultivation grooves 30 on the base 10 to prevent light leakage, as shown in Figure 4 Show. The reflector 70 can further reflect the light waves emitted by the multiple plant growth lamps 60 to the cultivation tank 30, so that the plants cultivated in the cultivation tank 30 can obtain more light and increase the rate of photosynthesis. In an embodiment of the present invention, the reflection device 70 can be an aluminum foil board.

FIG. 5 is a schematic diagram for illustrating the structure of a lifting device according to an embodiment of the present invention. Please refer to Fig. 1, Fig. 4 and Fig. 5, in one embodiment of the present utility model, the plant growth lamp 60 can be arranged on the top of the base 10 by a plurality of connecting ropes 601, and each connecting rope 601 includes a buckle button 603 , the user can further adjust the height of the plant growth lamp 60 by operating the button 603 to slide freely on the plurality of connecting ropes 601 . In addition, a plurality of buckles 605 can be further provided on the plant growth lamp 60, and the connecting rope 601 can be hooked to the buckle 605 by a plurality of hooks 607. At this time, the plant growth lamp 60 can be rotatably arranged on the buckle 605 In this process, the user can adjust the irradiation angle and direction of the plant growth lamp 60 by rotating the plant growth lamp 60 by himself, so that the plant growth lamp 60 can illuminate the place where light waves are needed.

It can be seen from the above that the utility model successfully provides a cultivation device, which can provide both soil cultivation and hydroponics, and the cultivation device can automatically supply water or nutrient solution and allow the water or nutrient solution to be automatically circulated, So that plants can get water and nutrients instantly. Moreover, the cultivating device of the present invention further includes a plurality of plant growth lamps and a reflection device, and the present invention can enhance the photosynthesis rate of the cultivated plants through the elevation of the plant growth lamps and the reflection device.

The above descriptions are only preferred embodiments for explaining the utility model, and are not intended to limit the utility model in any form. Changes should still be included in the scope of protection intended by the utility model.

Claims (12)

1. A kind of 1. culture apparatus, it is characterised in that including：

   One pedestal, there are multiple placement spaces, horizontal direction and vertical direction of multiple cultivation beds along the pedestal are with multilayer shape Formula is arranged on the placement space；

   One top flow duct facility, the top of the pedestal is arranged at, and the top flow duct facility includes one first conveying joint And multiple first shunting delivery pipes；And

   One nutrient solution tank, the bottom of the pedestal is arranged at, and a Water-pumping motor is provided with the nutrient solution tank, the Water-pumping motor bag Include one second conveying joint；

   Wherein, one end of one second delivery pipe is connected to the first conveying joint, and the other end is connected to the second conveying joint, should Water-pumping motor pumps the water in the nutrient solution tank or nutrient solution to the top flow duct facility by second delivery pipe；

   Wherein, the first shunting delivery pipe is connected to the cultivation bed of top in the multilayer form, the top isocon Water or nutrient solution are delivered to the cultivation bed positioned at top in the multilayer form by device by the described first shunting delivery pipe In, water or nutrient solution are delivered to the multilayer form by the cultivation bed of top by multiple draining drainage tubes in the multilayer form In in another layer of the cultivation bed, and in the multilayer form wherein one layer of the cultivation bed by the draining drainage tube with Another layer of cultivation bed connection in the multilayer form；

   Wherein, the cultivation bed of the bottom is connected to the nutrient solution tank by the draining drainage tube in the multilayer form, with Allow the cultivation bed of the bottom in the multilayer form that water is delivered in the nutrient solution tank by the draining drainage tube.
2. 2. culture apparatus according to claim 1, it is characterised in that each of the cultivation bed is by an attachment means It is arranged on the placement space, and each of the cultivation bed includes：

   One small tank, including the bottom of an accommodation space and the small tank include an osculum；

   One planting cup, it is fixedly installed on the small tank, and the planting cup includes a field planting hole and multiple inlet openings；

   One water absorber, it is arranged in the field planting hole, and the water absorber has a length；And

   One high-low water level flow control pipe, is arranged in the small tank, and the high-low water level flow control pipe has a length, and the height water A part for position flow control pipe extends through the bottom that the osculum protrudes from the small tank；

   Wherein, one end of the draining drainage tube is connected to the projection of the high-low water level flow control pipe, the draining drainage tube The other end is connected to one of described inlet opening of another planting cup of another cultivation bed.
3. 3. culture apparatus according to claim 2, it is characterised in that the attachment means include：

   One wall flaps, has multiple fixing devices, and the cultivation bed is arranged at the placement sky by the wall flaps and the fixing device Between on；

   One connecting plate, it is connected to the wall flaps and there is an attachment structure；And

   One supporting construction, one end of the supporting construction are rotationally arranged on the connecting plate by the attachment structure,

   Wherein, the small tank is fixedly installed on the other end of the supporting construction.
4. 4. culture apparatus according to claim 1, it is characterised in that further comprise multiple platform racks, it is described flat Platform rack is arranged on the pedestal, and the cultivation bed is placed directly on the platform rack.
5. 5. culture apparatus according to claim 4, it is characterised in that one of described platform rack is connected to institute State another of platform rack.
6. 6. culture apparatus according to claim 1, it is characterised in that further comprise multiple plant growth lamps and a reflection Device, the plant growth lamp are arranged on the pedestal, and the reflection unit is arranged at the top of the pedestal.
7. 7. culture apparatus according to claim 6, it is characterised in that the plant growth lamp is respectively arranged at the pedestal Top, middle-end and bottom.
8. 8. culture apparatus according to claim 6, it is characterised in that the plant growth lamp is set by a plurality of connecting rope In on the pedestal, and including multiple clasps on the plant growth lamp, the connecting rope catches on the clasp by multiple hooks, And each of the connecting rope above includes a button knob, the plant growth lamp is by the button knob adjustment height, the plant Thing growth lamp is rotationally arranged in the clasp.
9. 9. culture apparatus according to claim 2, it is characterised in that the length of the water absorber extends to the small tank Internal bottom.
10. 10. culture apparatus according to claim 2, it is characterised in that the planting cup includes compost, the compost by Moisture is absorbed to by being contacted with the water absorber.
11. 11. culture apparatus according to claim 3, it is characterised in that the fixing device is multiple hooks.
12. 12. culture apparatus according to claim 3, it is characterised in that the supporting construction is L-shaped.