CN210054158U - Vegetable cultivation bed in fish-vegetable symbiotic system - Google Patents

Abstract

The utility model discloses a vegetable cultivating bed in a fish-vegetable symbiotic system, which comprises a cultivating bed, wherein cultivating frames are laid on the upper surface of the cultivating bed, bayonet locks are arranged in the cultivating bed at equal intervals, water inlet grooves and water drainage grooves are respectively arranged on the two sides of the cultivating bed in the length direction, a pushing mechanism of the cultivating frames is arranged at the right end of the cultivating bed, a linear telescopic motor is arranged at the left end of the cultivating bed, and a controller for controlling the telescopic motor and the pushing mechanism is arranged, because the device is provided with the linear telescopic motor, the cultivating frames are pushed to move from left to right on the cultivating bed, the arranged pushing mechanism can push the cultivating frames to a washing pool, the arranged water inlet grooves can ensure the nutrient supply of vegetables on the cultivating frames, and the arranged water drainage grooves can convey redundant nutrients back to a liquid storage pool, therefore, the utility model can ensure the automatic control of the growth and harvesting of vegetables, the operation of the vegetable harvesting production line from growth is facilitated, the investment of labor cost is greatly reduced, and the vegetable harvesting production line is worthy of popularization.

Description

Vegetable cultivation bed in fish-vegetable symbiotic system

Technical Field

The utility model relates to a in the fish-vegetable intergrowth system, vegetables cultivation technical field specifically is a vegetable cultivation bed in fish-vegetable intergrowth system.

Background

Aquaponics (Aquaponics) is a novel compound cultivation system, two originally completely different farming techniques of Aquaculture (Aquaculture) and hydroponic cultivation (Hydroponics) are adopted, and scientific cooperative symbiosis is achieved through ingenious ecological design, so that the ecological symbiotic effect that water is not changed during fish cultivation, water quality is not worried, and plants are not fertilized and grow normally is achieved.

However, in the existing fish-vegetable symbiotic system, the cultivation bed of the Shanghai green vegetables cannot be operated in a production line, a large amount of labor investment is needed, and the production cost is increased, especially when organic vegetables are planted.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a vegetable cultivation bed in fish-vegetable intergrowth system.

In order to solve the technical problem, the technical scheme of the utility model is that the vegetable cultivation bed in the fish-vegetable symbiotic system comprises a cultivation bed arranged in a glass greenhouse and bed legs for supporting the cultivation bed, the cultivation bed comprises a fixing groove in the shape of a groove, and a pin is connected to the inner shaft of the fixing groove;

a cultivation frame is arranged on the upper surface of the cultivation bed, two linear telescopic motors are arranged at the left end of the cultivation bed, and a push plate is arranged on a motor shaft of each linear telescopic motor;

a water inlet groove and a water drainage groove are respectively formed in the side edges of the cultivation bed in the length direction, a pushing mechanism is arranged on the other side of the cultivation bed, opposite to the linear telescopic motor, and the pushing mechanism is connected with the cultivation bed through an arc-shaped guide plate;

a controller for controlling the linear telescopic motor to stretch and control the pushing mechanism to work is arranged on the bed leg positioned on one side of the linear telescopic motor;

a plurality of rolling shafts are arranged in the pushing mechanism, and the rolling shafts are connected with two motors arranged on the pushing mechanism;

the cultivation frame comprises a drain hole, a water receiving tank and a planting hole, the drain hole is positioned on one side of the drain tank, the water receiving tank and the planting hole are arranged on the same plane, and the water receiving tank is positioned on one side of the water inlet tank;

the left end of the water inlet tank is connected with water inlet pipes, water outlet pipes are arranged in the water inlet tank at equal intervals, the water outlets of the water outlet pipes are over against the water receiving tank, and the positions of the water outlet pipes and the bayonet locks are consistent;

the controller is internally provided with a singlechip after manual programming, and is communicated with the linear telescopic motor and the motor through a wiring harness assembly.

As the utility model discloses a preferred technical scheme: cultivate the bed and adopt square pipe to assemble the welding and form, just cultivate the length of bed and be 2000 meters.

As the utility model discloses a preferred technical scheme: the single chip microcomputer in the controller pushes the cultivation bed to move 0.01 meter leftwards every time by the linear telescopic motor.

As the utility model discloses a preferred technical scheme: the motors are arranged at two ends of the pushing mechanism in the width direction and connected with the rolling shafts at two ends of the pushing mechanism in the width direction.

As the utility model discloses a preferred technical scheme: the planting holes are arranged at equal intervals, and the distance is 0.2 m.

As the utility model discloses a preferred technical scheme: cultivate the frame and adopt the PVC material to make, just cultivate the length of frame and be 6 meters, the width is 0.15 meter.

As the utility model discloses a preferred technical scheme: the water inlet tank is internally provided with two partition plates, and the partition plates divide the inside of the water inlet tank into a first filtering area, a second filtering area and a water purifying area.

As the utility model discloses a preferred technical scheme: and a drain pipe is arranged on the lower bottom surfaces of the first filtering area and the second filtering area, and a gate valve is arranged on the drain pipe.

As the utility model discloses a preferred technical scheme: the model of the water pump is DC30A, and the flow range is as follows: 100L/H-3600L/H.

As the utility model discloses a preferred technical scheme: the water inlet tank is also internally provided with a water pump, and the water pump is positioned in the water purification area.

Adopt above-mentioned technical scheme, the beneficial effects of the utility model are that: because the device sets up the flexible motor of straight line, promotes to cultivate to move from the left hand to the right side on cultivating the bed, the push mechanism of setting can be again with cultivating the washing pond of frame propelling movement, and the intake chamber of setting can guarantee to cultivate the nutrient supply of putting up vegetables, and the water drainage tank of setting can be transported back unnecessary nutrient to holding the pond, consequently the utility model discloses can guarantee the growth of vegetables and reap automated control, make things convenient for vegetables from growing to reaping the pipelining operation, the input of the human cost that significantly reduces.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

fig. 2 is the schematic view of the local structure of the water inlet tank of the present invention.

In the figure: 1. bed legs; 2. a cultivation bed; 3. a linear telescopic motor; 4. pushing the plate; 5. cultivating frames; 6. a water inlet pipe; 7. a water receiving tank; 8. a water outlet pipe; 9. a water inlet groove; 10. an electric motor; 11. a bayonet lock; 12. a roller; 13. a pushing mechanism; 14. a guide plate; 15. fixing grooves; 16. a water discharge tank; 17. planting holes; 18. a drain hole; 19. a wire harness assembly; 20. a controller; 21. a water pump; 22. a water purification area; 23. a second filtration zone; 24. a blow-off pipe; 25. a gate valve; 26. a first filtration zone; 27. a separator.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention. In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically connected, electrically connected or can communicate with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1-2, to achieve the problems noted in the background, the solution of the present invention is as follows: a vegetable cultivation bed in a fish-vegetable symbiotic system comprises a cultivation bed 2 arranged in a glass greenhouse and bed legs 1 supporting the cultivation bed 2, the cultivation bed 2 comprises a groove-shaped fixing groove 15, a bayonet lock 11 is connected with a shaft pin in the fixing groove 15, the contact area of the cultivation frame 5 and the cultivation bed 2 is reduced, the cultivation frame 5 is convenient to slide, when the cultivation frame 5 moves leftwards and moves above the bayonet 11, the bayonet 11 arranged additionally can block the cultivation frame 5 to avoid the cultivation frame 5 from sliding backwards, as the glass greenhouse built by the company and the related temperature control equipment can control the temperature in the greenhouse to be 18-20 ℃ all the time, and the equipped atomization device ensures the indoor humidity, the growth environment of the Shanghai green vegetables is further met, meanwhile, the glass greenhouse can ensure sufficient sunlight, and the illumination requirement of the Shanghai green vegetables is met;

the upper surface of the cultivation bed 2 is provided with a cultivation frame 5, the left end of the cultivation bed 2 is provided with two linear telescopic motors 3, a motor shaft of each linear telescopic motor 3 is provided with a push plate 4, the linear telescopic motors 3 adopt a rated voltage of 380V and a rated rotating speed of 1500rpm, the overall dimension is 0.06 meter, and the stroke is 1 meter;

the side edges of the cultivation bed 2 in the length direction are respectively provided with a water inlet groove 9 and a water drainage groove 16, the water inlet groove 9 stores nutrient solution fermented by fish manure, pressure stability when the water pump 21 pumps water is ensured, the water pump 21 is prevented from idling without water, the other side of the cultivation bed 2 opposite to the linear telescopic motor 3 is provided with a pushing mechanism 13, the pushing mechanism 13 is connected with the cultivation bed 2 through an arc-shaped guide plate 14, and when the cultivation frame 5 moves to the right end of the cultivation bed 2, the arc-shaped guide plate 14 can prevent the cultivation frame 5 from vertically falling on the pushing mechanism 13 to damage the cultivation frame 5 and scatter vegetables;

a controller 20 for controlling the extension and retraction of the linear extension motor 3 and controlling the work of the pushing mechanism 13 is arranged on the bed leg 1 positioned at one side of the linear extension motor 3, and the pushing stroke of the linear extension motor 3 can be actually adjusted according to the variety of the planted vegetables by setting the program in the controller 20;

a plurality of rolling shafts 12 are arranged in the pushing mechanism 13, the rolling shafts 12 are connected with two motors 10 arranged on the pushing mechanism 13, the motors 10 are used for driving the rolling shafts 12 at the two ends of the cultivation bed 2 to roll, so that the cultivation frame 5 is driven to move, the cultivation frame 5 can be effectively prevented from slipping on the rolling shafts 12 due to the driving of the two ends, and meanwhile, the motors 10 are arranged at the two ends of the cultivation bed 2, so that the normal work of vegetable receiving personnel cannot be influenced;

the cultivation frame 5 comprises a drain hole 18, a water receiving tank 7 and a planting hole 17, the drain hole 18 is positioned on one side of the drain groove 16, the water receiving tank 7 and the planting hole 17 are arranged on the same plane, the water receiving tank 7 is positioned on one side of the water inlet tank 9, nutrient solution of a water pump 21 is received by the water receiving tank 7 and flows to the drain hole 18 through the cultivation frame 5, and the drain hole 18 is arranged at the upper end of the front side of the cultivation frame 5, so that the consistent water level in the cultivation frame 5 can be ensured, the water flow speed is reduced, and the loss of vegetable matrix is avoided;

the left end of intake chamber 9 is connected with inlet tube 6, the equidistance is equipped with outlet pipe 8 in the intake chamber 9, outlet pipe 8's delivery port is just right the top of water receiving tank 7, just outlet pipe 8 with bayonet lock 11 positions are unanimous, guarantee to cultivate and can receive the nutrient solution after 5 remove at every turn.

The controller 20 is internally provided with a singlechip after manual programming, the controller 20 is in circuit communication with the linear telescopic motor 3 and the motor 10 through a wiring harness assembly 19, and the operation of equipment is controlled through the controller 20.

Wherein: cultivate bed 2 and adopt square pipe to assemble the welding and form, just cultivate the length of bed 2 and be 2000 meters, after cultivating the blue or green field planting of shanghai on the frame 5 and moving from left to right, shanghai green vegetables are ripe.

Wherein: the singlechip in the controller 20 can be programmed manually, namely the growth period of the Shanghai green vegetables after field planting is calculated in advance, and then the stroke of the linear telescopic motor 3 every day is controlled, so that the limit that the Shanghai green vegetables can be ripe when the cultivation frame 5 moves from left to right is ensured; for example, at the temperature of 18-20 ℃, the growth cycle of the Shanghai green is about 20 days, and at the moment, the linear telescopic motor 3 is controlled to push the cultivation bed 2 to move leftwards for 0.01 meter each time, and the time interval is 24 hours, so that the cultivation frame 5 can be moved every day, and the streamlined production of the Shanghai green vegetables is met.

Wherein: the motors 10 are installed at two ends of the pushing mechanism 13 in the width direction and connected with the rollers 12 at two ends of the pushing mechanism 13 in the width direction, and the rollers 12 are driven to rotate by the rotation of the motors 10, so that the cultivation shelves 5 are conveyed to the cleaning area.

Wherein: the planting holes 17 are arranged at equal intervals, and the distance is 0.2 m, so that the space requirement for the growth of the green vegetables in the Shanghai is guaranteed.

Wherein: cultivate frame 5 and adopt the PVC material to make, just cultivate the length of frame 5 and be 6 meters, the width is 0.15 meters, the space demand of further assurance Shanghai green vegetables growth.

Wherein: the inside two baffles 27 that are equipped with of intake chamber 9, baffle 27 cuts apart into first filtering area 26, second filtering area 23 and water purification district 22 with the inside of intake chamber 9, and baffle 27 can utilize the physical principle, and the impurity in the quality of water deposits after evolving, guarantees that water pump 21 can not inhale impurity.

Wherein: and a drain pipe 24 is arranged on the lower bottom surfaces of the first filtering area 26 and the second filtering area 23, and a gate valve 25 is arranged on the drain pipe 24, so that impurities in the first filtering area 26 and the second filtering area 23 can be conveniently discharged.

Wherein: the model of the water pump 21 is DC30A, and the flow range is: 100L/H ~ 3600L/H, satisfy the water supply demand, guarantee that the growth nutrient of the blue and green vegetables in the upper sea is supplied with sufficiently, water pump 21 also is connected with controller 20 simultaneously, consequently, can pass through the inside switch of controller 20, the opening and closing of single water pump 21 of control, and then avoid endless waste, except installing water pump 21 fixed equidistance in the intake chamber 9, can also utilize water pump 21 small, also can fix outlet pipe 8 on cultivating frame 5 when cultivating frame 5 and removing, and then can drive water pump 21 and remove in the intake chamber 9 when cultivating frame 5 and removing, realize water pump 21 and the synchronous operation who cultivates frame 5, when cultivating frame 5 and moving push mechanism 13, it can to take off outlet pipe 8 and water pump 21.

Wherein: still be equipped with water pump 21 in the intake chamber 9, just water pump 21 is located in water purification district 22, further avoid water pump 21 to inhale impurity and cause burning out of water pump 21.

The utility model discloses a theory of operation is: firstly, feeding nutrient solution fermented by fish manure into a water inlet tank 9 through a water inlet pipe 6;

the cultivation frame 5 is placed on the cultivation bed 2, then the planted green vegetables of the Shanghai are placed in the planting holes 17, at the moment, the controller 20 controls the water pump 21 to be started, nutrient solution is sent into the cultivation frame 5, meanwhile, the water outlet pipe 8, the cultivation frame 5 and the drainage groove 16 form a circulating water flow, namely, the water pump 21 sends the nutrient solution into the cultivation frame 5 through the water outlet pipe 8, the cultivation frame 5 sends the nutrient solution into the drainage groove 16 through the drainage hole 18 arranged on the front side, then the nutrient solution is sent into the water storage groove arranged on the outside through the drainage groove 16, and the pump body in the water storage groove sends the nutrient solution into the water inlet groove 9 again through the water inlet pipe 6 and sequentially circulates;

then controlling the linear telescopic motor 3 to push the cultivation frame 5 rightwards until the linear telescopic motor 3 reaches a set stroke, withdrawing the linear telescopic motor 3, and putting the cultivation frame 5 into the formed space again;

when cultivating on frame 5 transplants push mechanism 13, cultivate the vegetables on the frame 5 in the picking, cultivate the frame 5 after the picking and send into the washing district through push mechanism 13, wash.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (10)

1. The utility model provides a bed is cultivated to vegetables among fish-vegetable symbiotic system, is including installing cultivation bed (2) in glass warmhouse booth and support bed leg (1) of cultivating bed (2), its characterized in that: the cultivation bed (2) comprises a fixing groove (15) which is arranged in a groove shape, and a bayonet lock (11) is connected to an inner shaft pin of the fixing groove (15);

a cultivation frame (5) is arranged on the upper surface of the cultivation bed (2), two linear telescopic motors (3) are arranged at the left end of the cultivation bed (2), and a push plate (4) is arranged on a motor shaft of each linear telescopic motor (3);

a water inlet groove (9) and a water drainage groove (16) are respectively formed in the side edge of the cultivation bed (2) in the length direction, a pushing mechanism (13) is arranged on the other side, opposite to the linear telescopic motor (3), of the cultivation bed (2), and the pushing mechanism (13) is connected with the cultivation bed (2) through an arc-shaped guide plate (14);

a controller (20) for controlling the linear telescopic motor (3) to stretch and control the pushing mechanism (13) to work is arranged on the bed leg (1) positioned at one side of the linear telescopic motor (3);

a plurality of rollers (12) are arranged in the pushing mechanism (13), and the rollers (12) are connected with two motors (10) arranged on the pushing mechanism (13);

the cultivation frame (5) comprises a drain hole (18), a water receiving tank (7) and a planting hole (17), wherein the drain hole (18) is positioned on one side of the drain tank (16), the water receiving tank (7) and the planting hole (17) are arranged on the same plane, and the water receiving tank (7) is positioned on one side of the water inlet tank (9);

the left end of the water inlet groove (9) is connected with a water inlet pipe (6), water outlet pipes (8) are arranged in the water inlet groove (9) at equal intervals, the water outlet of each water outlet pipe (8) is over against the water receiving groove (7), and the positions of the water outlet pipes (8) and the bayonet locks (11) are consistent;

the controller (20) is internally provided with a singlechip after manual programming, and the controller (20) is in circuit communication with the linear telescopic motor (3) and the motor (10) through a wiring harness assembly (19).

2. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 1, wherein: cultivate bed (2) and adopt square pipe to assemble the welding and form, just the length of cultivating bed (2) is 2000 meters.

3. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 1, wherein: the linear telescopic motor (3) pushes the cultivation bed (2) to move 0.01 meter leftwards at each time.

4. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 1, wherein: the motors (10) are installed at two ends of the pushing mechanism (13) in the width direction and are connected with the rolling shafts (12) at two ends of the pushing mechanism (13) in the width direction.

5. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 1, wherein: the planting holes (17) are arranged at equal intervals, and the distance is 0.2 m.

6. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 1, wherein: cultivate frame (5) and adopt the PVC material to make, just cultivate the length of frame (5) and be 6 meters, the width is 0.15 meter.

7. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 1, wherein: two clapboards (27) are arranged inside the water inlet tank (9), and the clapboards (27) divide the inside of the water inlet tank (9) into a first filtering area (26), a second filtering area (23) and a water purifying area (22).

8. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 7, wherein: and a drain pipe (24) is arranged on the lower bottom surfaces of the first filtering area (26) and the second filtering area (23), and a gate valve (25) is arranged on the drain pipe (24).

9. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 7, wherein: still be equipped with water pump (21) in intake antrum (9), just water pump (21) are located in water purification district (22).

10. A vegetable cultivation bed in a fish-vegetable symbiotic system according to claim 9, wherein: the model of the water pump (21) is DC30A, and the flow range is as follows: 100L/H-3600L/H.

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