CN210959815U - Upright post type split automatic watering strawberry cultivation device - Google Patents

Abstract

The utility model provides a column type split automatic watering strawberry cultivation device, belonging to the technical field of strawberry cultivation devices, the concrete technical proposal comprises a base, a cultivation unit arranged above the base, a driving mechanism for driving the cultivation unit to rotate, a soil humidity sensor, a soil moisture controller and a spraying unit; the soil humidity sensor is connected with the soil moisture controller and used for detecting the humidity of the humus soil layer of the cultivation unit; the spraying unit is arranged above the cultivation unit and is connected with the soil moisture controller through a lead. The strawberry cultivation device of the utility model can lead the strawberry plants to receive uniform illumination, the soil permeability is good, and the strawberry plants can grow better; additionally the utility model discloses a strawberry cultivation device adopts the cultivation unit of layering, and it is planted and transports conveniently, and unnecessary water and nutrient solution can retrieve reuse, can not cause the waste of water and nutrient solution.

Description

Upright post type split automatic watering strawberry cultivation device

Technical Field

The utility model belongs to the technical field of the strawberry cultivation device, concretely relates to stand type split formula automatic watering strawberry cultivation device.

Background

The strawberry branches and tendrils are fast to propagate, so that a large amount of land area is occupied by cultivating on the ground, and the land utilization rate and the yield per unit area are low; meanwhile, stems and leaves of strawberry plants are basically paved on the ground and are shorter, and insufficient illumination can be caused if some tall plants are shielded. Therefore, more and more people tend to cultivate strawberry plants using special cultivation apparatuses, but the conventional strawberry cultivation apparatuses have the following problems:

1. the traditional upright column type strawberry cultivation device is generally of a fixed structure, and due to the structure, the intensity of light received by each surface of a strawberry plant is not uniform, so that the growth of the strawberry plant is influenced;

2. the humus soil layer in the cultivation column is thick, so that the air permeability of the soil is poor, and if water is poured in the cultivation column, the root system of the strawberry plant is rotten;

3. the traditional strawberry cultivation device is designed to be very high in order to plant more strawberry plants at one time, and is very inconvenient to plant and transport;

4. when watering and spraying nutrient solution, the excess water and nutrient solution directly flow off along the bottom of the cultivation device, which causes the waste of water and nutrient solution.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem, the utility model provides a column type split formula automatic watering strawberry cultivation device can make the illumination that the strawberry plant received even, and the soil gas permeability of planting is good, adopts the layering to plant, plants and transports conveniently, and unnecessary water and nutrient solution can retrieve reuse, can not cause the waste of water and nutrient solution. The specific technical scheme is as follows:

a column-type split automatic watering strawberry cultivation device comprises a base and a cultivation unit arranged above the base, and further comprises a driving mechanism for driving the cultivation unit to rotate, a soil humidity sensor, a soil moisture controller and a spraying unit;

the soil moisture controller is connected with the cultivation unit through a soil moisture sensor, and the soil moisture sensor is used for detecting the humidity of a humus soil layer of the cultivation unit;

the spraying unit is arranged above the cultivation unit and is connected with the soil moisture controller through a lead.

Further inject, the unit that sprays includes wet return, shower nozzle, wet return and water pump, the wet return passes through water pump and wet return intercommunication, the output of wet return is connected with the shower nozzle, the shower nozzle setting is just connected with soil moisture controller through the wire in the top of cultivation unit.

Further, the driving mechanism comprises a motor and a transmission unit, and the motor is connected with the base through the transmission unit.

Further, the upper end face of the base is connected with a transmission shaft, and the motor is connected with the transmission shaft through a transmission unit.

Further limiting, the cultivation unit comprises an outer barrel and an inner barrel concentrically arranged in the outer barrel, the inner barrel and the outer barrel are arranged above the water return tank, a plurality of humus soil layers are arranged between the outer barrel and the inner barrel, a plurality of absorption sponge layers are arranged in the inner barrel, the humus soil layers correspond to the absorption sponge layers one by one, and the spray heads are arranged above the absorption sponge layers;

the outer barrel is provided with air holes and planting openings;

the inner cylinder is a water permeable part and is used for permeating water on the absorption sponge layer into the humus soil layer.

Further limit, the cultivation unit also comprises a mesh partition plate, and the mesh partition plate is connected to the lower end faces of the inner cylinder and the outer cylinder.

Further, the cross section of the planting opening is in a semicircular shape with the diameter of 50-90 mm.

Further, the distance between the adjacent humic soil layers is 50-100 mm.

Further, at least one cultivation unit is arranged, and the plurality of cultivation units are detachably connected.

Further, a movable wheel is connected below the base.

Compared with the prior art, the utility model has the advantages of it is following:

1. the utility model discloses a but stand type split automatic watering strawberry cultivation device includes the base, is provided with the cultivation unit in the base top, is provided with in the top of cultivation unit and sprays the unit, sprays the unit and comprises wet return, shower nozzle, wet return and water pump, and the wet return passes through water pump and wet return intercommunication, and the output at the wet return is connected to the shower nozzle, and the shower nozzle still is connected with soil moisture sensor through soil moisture controller. Soil moisture sensor passes to the soil moisture controller with the humus soil layer humidity value that detects, and the soil moisture controller makes the judgement to this humidity value, if judge humus soil layer lack of water, then the control shower nozzle is opened and is watered for the cultivation unit, if the water of watering is too much, unnecessary water can flow into the return water tank through cultivation unit, and the water in the return water tank can pass through water pump and wet return entering shower nozzle to reuse. The automatic watering device can water or nutrient solution to the cultivation device at irregular intervals, soil is not lack of water, redundant water or nutrient solution can be recycled, waste of water or nutrient solution is avoided, and resources are saved.

2. The utility model discloses a cultivation unit includes bleeder vent, planting mouth, humus soil layer, absorption sponge layer, urceolus, inner tube and mesh baffle, urceolus and inner tube set up at the up end of mesh baffle with one heart, the absorption sponge layer sets up in the inside of inner tube, the humus soil layer sets up between the intermediate layer of inner tube and urceolus, the humus soil layer sets up with absorption sponge layer one-to-one, the inner tube is permeable member, can permeate the water on the absorption sponge layer in the humus soil layer, avoided through such infiltration mode that water directly waters and produce the impact on the humus soil layer, destroy the structure of humus soil layer; the outer barrel is provided with the air holes and the planting openings, so that the planting is convenient, meanwhile, the air holes can ensure the air permeability of a humus soil layer, and the root system of strawberry plants cannot be rotten; the cultivation unit has at least one and connect through detachable mode between a plurality of cultivation units, and every cultivation unit can plant and transport alone like this, and it is all fairly convenient to plant and transport.

3. The utility model discloses a strawberry cultivation device is still including removing wheel, motor and drive unit, removes the wheel and installs the below at the base, and the motor passes through drive unit and transmission shaft connection, and is very convenient when removing the device, and it is rotatory that the motor can drive the transmission shaft through drive unit to it is rotatory to drive whole device, makes every strawberry plant can both receive even illumination, and growth is flourishing more.

4. The utility model discloses a strawberry cultivation device not only can plant crops such as lettuce, spinach or green vegetables, also can plant the scindapsus aureus, and potted landscape such as the chlorophytum comosum is green to be planted, is the cultivation device of a section multipurpose.

Drawings

Fig. 1 is a schematic structural view of the strawberry cultivation device of the present invention;

FIG. 2 is a schematic cross-sectional view of a cultivation unit;

the cultivation method comprises the following steps of 1-cultivation unit, 101-air holes, 102-planting opening, 103-humus soil layer, 104-absorption sponge layer, 105-outer cylinder, 106-inner cylinder, 107-mesh partition plate, 2-soil humidity sensor, 3-soil moisture controller, 4-water return pipe, 5-spray head, 6-water return tank, 7-base, 8-moving wheel, 9-motor and 10-transmission shaft.

Detailed Description

The technical solution of the present invention will be further explained below with reference to the drawings and the embodiments, but the present invention is not limited to the embodiments explained below.

Referring to fig. 1, for the utility model discloses a but stand type split automatic watering strawberry cultivation device, the device includes base 7, cultivation unit 1, soil moisture sensor 2, soil moisture controller 3, spray unit and actuating mechanism, cultivation unit 1 is by humus soil layer 103, absorb sponge layer 104, urceolus 105, inner tube 106 and mesh baffle 107 constitute, the up end fixed connection mesh baffle 107 of urceolus 105 and inner tube 106, inner tube 106 is made by the material of water-permeable and inner tube 106 is inside to have placed absorption sponge layer 104, be provided with bleeder vent 101 and planting mouth 102 on the urceolus 105, bleeder vent 101 can guarantee that soil has good gas permeability, carry the strawberry plant through planting mouth 102 on humus soil layer 103, humus soil layer 103 sets up between the intermediate layer of inner tube 106 and urceolus 105, and in the top of mesh baffle 107.

The spraying unit consists of a water return pipe 4, a spray head 5, a water return groove 6 and a water pump, wherein the water return groove 6 is arranged below an upper inner cylinder 106 and an outer cylinder 105 of the spraying unit, the water return groove 6 is communicated with the water return pipe 4 through the water pump, the output end of the water return pipe 4 is connected with the spray head 5, the spray head 5 is arranged above the absorption sponge layer 104, and the spray head 5 is connected with the soil humidity sensor 2 through a soil moisture controller 3; the lower end of the water return tank 6 is connected with the base 7 through a transmission shaft 10.

The driving mechanism is composed of a motor 9 and a transmission unit, the transmission unit is in belt transmission or chain transmission, the motor 9 is connected with a transmission shaft 10 on the base 7 through a belt or a chain, and the whole device is driven to rotate through the transmission shaft 10.

The cultivation units 1 are at least one, and the cultivation units 1 are connected in a detachable connection mode, wherein the detachable connection mode can be threaded connection or buckling connection. Referring to fig. 2, the inner cylinder 106 is made of permeable stone or a permeable fiberboard, the cross section of the planting opening 102 is a semicircle with a diameter of 50-90 mm, the outer surface of the outer cylinder 105 is provided with air holes 101, and the distance between adjacent humus soil layers 103 is 50-100 mm. The soil moisture controller 3 is from Shanghai Chujing electric company, and has the following model: CJG-8000.

The utility model discloses a strawberry cultivation device still can be used to plant crops such as lettuce, spinach or green vegetables, also can plant the scindapsus aureus, and potted landscape such as chlorophytum comosum is green to be planted, is the cultivation device of a section multipurpose.

Example 1

The two cultivation units 1 in this embodiment are a first cultivation unit and a second cultivation unit, the upper end face of the second cultivation unit is slightly larger than the lower end face of the first cultivation unit, and when the two cultivation units are connected, the lower end face of the first cultivation unit is directly clamped into the upper end face of the second cultivation unit. The inner cylinder 106 is made of permeable stones, the cross section of the planting opening 102 is a semicircle with the diameter of 60 mm, the outer surface of the outer cylinder 105 is provided with air holes 101, the distance between adjacent humus soil layers is 100 mm, the number of the moving wheels 8 is 3, and the transmission unit is in belt transmission.

When planting, plant the strawberry plant through the planting mouth 102 of second cultivation unit earlier, fix the lower extreme of second cultivation unit in the upper end of return water tank 3, plant the strawberry plant through the planting mouth 102 of the first cultivation unit of rethread, connect the top at the second cultivation unit with first cultivation unit. After connection, a power supply of a motor 9 is connected, the motor 9 drives a transmission shaft 10 to rotate through a belt, and then the transmission shaft 10 drives the water return groove 6, the first cultivation unit and the second cultivation unit to rotate, so that the strawberry plants receive uniform illumination; the soil humidity sensor 2 transmits the humidity value of the humus soil layer 103 to the soil moisture controller 3, the soil moisture controller 3 compares the humidity value of the humus soil layer 103 transmitted by the soil humidity sensor 2 with a set humidity value, when the comparison result shows that the humidity value transmitted by the soil humidity sensor 2 is smaller than the set humidity value, the soil moisture controller 3 controls the switch of the spray nozzle 5 to be opened to spray water or nutrient solution to the absorption sponge layer 104, and the water or nutrient solution absorbed on the absorption sponge layer 104 permeates into the humus soil layer 103 through the inner cylinder 106 and is absorbed by the root system of the strawberry plant; water or nutrient solution which is not absorbed by the absorption sponge layer 104 in time flows into the water return tank 6 through the first cultivation unit and the second cultivation unit, the water or nutrient solution in the water return tank 6 is pressurized by a pump, then enters the spray head 5 through the water return pipe 4, and is sprayed out of the spray head 5 again for recycling, so that the waste of the water or nutrient solution is avoided; when the position of the device needs to be moved, the device can be driven to move through the rotation of the moving wheels 8, and manual carrying is not needed.

Example 2

The number of the cultivation units 1 in this embodiment is four, and the cultivation units are a first cultivation unit, a second cultivation unit, a third cultivation unit and a fourth cultivation unit, wherein the inner surfaces of the lower ends of the first cultivation unit, the second cultivation unit and the third cultivation unit are provided with threads, the outer surfaces of the upper ends of the second cultivation unit, the third cultivation unit and the fourth cultivation unit are provided with threads, and when the cultivation units are connected, the first cultivation unit, the second cultivation unit, the third cultivation unit and the fourth cultivation unit are connected through the threads from top to bottom. The inner cylinder 106 is made of a permeable fiberboard, the cross section of the planting opening 102 is a semicircle with the diameter of 90 mm, the outer surface of the outer cylinder 105 is provided with air holes 101, the distance between adjacent humus soil layers is 80 mm, 4 moving wheels 8 are provided, and the transmission unit is in belt transmission.

When the strawberry cultivation device is used for planting, strawberry plants are planted through the planting openings 102 of the fourth cultivation unit, the lower end of the fourth cultivation unit is fixed at the upper end of the water return groove 6, the strawberry plants are planted through the planting openings 102 of the first cultivation unit, the second cultivation unit and the third cultivation unit, the second cultivation unit and the first cultivation unit are sequentially connected above the fourth cultivation unit from bottom to top, after the connection, a power supply of the motor 9 is connected, the motor 9 drives the transmission shaft 10 to rotate through a belt, then the water return groove 6, the first cultivation unit, the second cultivation unit, the third cultivation unit and the fourth cultivation unit are driven to rotate through the transmission shaft 10, and the strawberry plants receive uniform illumination; the soil humidity sensor 2 transmits the humidity value of the humus soil layer 103 to the soil moisture controller 3, the soil moisture controller 3 compares the humidity value of the humus soil layer 103 transmitted by the soil humidity sensor 2 with a set humidity value, when the comparison result shows that the humidity value transmitted by the soil humidity sensor 2 is smaller than the set humidity value, the soil moisture controller 3 controls the switch of the spray nozzle 5 to be opened to spray water or nutrient solution to the absorption sponge layer 104, and the water or nutrient solution absorbed on the absorption sponge layer 104 permeates into the humus soil layer 103 through the inner cylinder 106 and is absorbed by the root system of the strawberry plant; water or nutrient solution which is not absorbed by the absorption sponge layer 104 in time flows into the water return tank 6 through the first cultivation unit, the second cultivation unit, the third cultivation unit and the fourth cultivation unit, the water or the nutrient solution in the water return tank 6 is pressurized by a pump, then enters the spray head 5 through the water return pipe 4, and is sprayed out of the spray head 5 again for recycling, so that the waste of the water or the nutrient solution is avoided; when the position of the device needs to be moved, the device can be driven to move through the rotation of the moving wheels 8, and manual carrying is not needed.

Example 3

This strawberry cultivation device can be used for planting lettuce in this embodiment, and cultivation unit 1 has three, is first cultivation unit, second cultivation unit and third cultivation unit respectively, and the lower terminal surface of first cultivation unit is less than the lower terminal surface of second cultivation unit slightly, and the lower terminal surface of second cultivation unit is less than the up end of third cultivation unit slightly, and when connecting, the lower terminal surface of second cultivation unit directly blocks in the up end of third cultivation unit, and the lower terminal surface of first cultivation unit directly blocks in the up end of second cultivation unit. The inner cylinder 106 is made of permeable stones, the cross section of the planting opening 102 is a semicircle with the diameter of 50 mm, the outer surface of the outer cylinder 105 is provided with air holes 101, the distance between adjacent humus soil layers is 80 mm, 6 moving wheels are arranged, and the transmission unit is in chain transmission.

When planting, the lettuce seeds are firstly sown through the planting openings 102 of the third planting unit, the lower end of the third planting unit is fixed at the upper end of the water return groove 6, then the lettuce seeds are sown through the planting openings 102 of the first planting unit and the second planting unit, the second planting unit and the first planting unit are sequentially connected above the third planting unit from bottom to top, after connection, the power supply of the motor 9 is switched on, the motor 9 can drive the transmission shaft 10 to rotate through a chain, then the water return groove 6, the first planting unit, the second planting unit and the third planting unit are driven to rotate through the transmission shaft 10, and the lettuce seedlings receive uniform illumination; the soil humidity sensor 2 transmits the humidity value of the humus soil layer 103 to the soil moisture controller 3, the soil moisture controller 3 compares the humidity value of the humus soil layer 103 transmitted by the soil humidity sensor 2 with a set humidity value, when the comparison result shows that the humidity value transmitted by the soil humidity sensor 2 is smaller than the set humidity value, the soil moisture controller 3 controls the spray nozzle 5 to be opened to spray water or nutrient solution to the absorption sponge layer 104, and the water or nutrient solution absorbed on the absorption sponge layer 104 permeates into the humus soil layer 103 through the inner barrel 106 and is absorbed by the root system of the lettuce seedling; water or nutrient solution which is not absorbed by the absorption sponge layer 104 in time flows into the water return tank 6 through the first cultivation unit, the second cultivation unit and the third cultivation unit, the water or nutrient solution in the water return tank 6 is pressurized by a pump, then enters the spray head 5 through the water return pipe 4, and is sprayed out of the spray head 5 again for recycling, so that the waste of the water or nutrient solution is avoided; when the position of the device needs to be moved, the device can be driven to move through the rotation of the moving wheels 8, and manual carrying is not needed.

Claims (10)

1. The stand column type split automatic watering strawberry cultivation device comprises a base (7) and a cultivation unit (1) arranged above the base (7), and is characterized by further comprising a driving mechanism for driving the cultivation unit (1) to rotate, a soil humidity sensor (2), a soil moisture controller (3) and a spraying unit;

the soil moisture controller (3) is connected with the cultivation unit (1) through a soil moisture sensor (2), and the soil moisture sensor (2) is used for detecting the humidity of a humus soil layer (103) of the cultivation unit (1);

the spraying unit is arranged above the cultivation unit (1) and is connected with the soil moisture controller (3) through a lead.

2. The stand column type split automatic watering strawberry cultivation device according to claim 1, wherein the spraying unit comprises a water return pipe (4), a spray head (5), a water return groove (6) and a water pump, the water return groove (6) is communicated with the water return pipe (4) through the water pump, the spray head (5) is connected to an output end of the water return pipe (4), and the spray head (5) is arranged above the cultivation unit (1) and is connected with the soil moisture controller (3) through a wire.

3. The stand column type split automatic watering strawberry cultivation device according to claim 1, wherein the driving mechanism comprises a motor (9) and a transmission unit, and the motor (9) is connected with the base (7) through the transmission unit.

4. The stand column type split automatic watering strawberry cultivation device according to claim 3, wherein a transmission shaft (10) is connected to an upper end face of the base (7), and the motor (9) is connected with the transmission shaft (10) through a transmission unit.

5. The stand column type split automatic watering strawberry cultivation device according to claim 2, wherein the cultivation unit (1) comprises an outer cylinder (105) and an inner cylinder (106) concentrically arranged inside the outer cylinder (105), the inner cylinder (106) and the outer cylinder (105) are arranged above the water return tank (6), a plurality of humus soil layers (103) are arranged between the outer cylinder (105) and the inner cylinder (106), a plurality of absorption sponge layers (104) are arranged inside the inner cylinder (106), the humus soil layers (103) correspond to the absorption sponge layers (104) one by one, and the spray heads (5) are arranged above the absorption sponge layers (104);

the outer cylinder (105) is provided with air holes (101) and planting openings (102);

the inner cylinder (106) is a water permeable part and is used for permeating water on the absorption sponge layer (104) into the humus soil layer (103).

6. The stand-type split automatic watering strawberry cultivation device according to claim 5, wherein the cultivation unit (1) further comprises a mesh partition plate (107), and the mesh partition plate (107) is connected to the lower end faces of the inner cylinder (106) and the outer cylinder (105).

7. The stand column type split automatic watering strawberry cultivation device according to claim 5, wherein the cross-sectional shape of the planting opening (102) is a semicircle having a diameter of 50 mm to 90 mm.

8. The stand column type split automatic watering strawberry cultivation device according to claim 5, wherein a distance between adjacent ones of the humus soil layers (103) is 50 mm to 100 mm.

9. The stand column type split automatic watering strawberry cultivation device according to claim 5, wherein at least one cultivation unit (1) is provided, and the cultivation units (1) are detachably connected.

10. The stand column type split automatic watering strawberry cultivation device according to claim 4, wherein a moving wheel (8) is connected below the base (7).

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