CN215898511U - Intelligent high-yield seedbed for seedling cultivation - Google Patents

Abstract

The utility model discloses an intelligent high-yield seedbed for seedling cultivation, which relates to the technical field of seedling cultivation and comprises a bearing frame, wherein the outer wall of the bearing frame is connected with pulleys through a support, the outer sides of the pulleys are wound and connected with pull ropes, a bearing plate is arranged above the inner side of the bearing frame, two sides of the bearing plate are respectively connected with the head end and the tail end of each pull rope, and the inner side of the bearing plate is provided with a reserved hole. According to the utility model, after the electric push rod drives the middle part of the pull rope to move downwards, the pull rope moves along the outer side of the pulley, so that the bearing plate connected with the pull rope moves downwards, the bearing plate can drive the movable rod in spiral connection with the bearing plate to rotate when moving downwards, the stirring assembly II below the outer wall of the movable rod rotates, and the bottom end of the stirring assembly II is tightly attached to the bottom end inside the nutrition box to rotate, so that the nutrition thick matter inside the nutrition box can be stirred, the components of the nutrient solution are uniformly distributed, the absorption efficiency of seedlings is improved, and the purpose of high yield is realized.

Description

Intelligent high-yield seedbed for seedling cultivation

Technical Field

The utility model relates to the technical field of seedling cultivation, in particular to an intelligent high-yield seedbed for seedling cultivation.

Background

With the development of agricultural technology and the progress of times, seedling cultivation is the initial work of studying one growth state of different types of seedlings by agricultural science experimenters, and the seedling cultivation involves a variety of equipment and equipment, and the seedbed is one of them, and simultaneously, some environments and conditions of seedling cultivation have: temperature and humidity, sunlight, moisture, nutrition, etc.

When the seedbed that current seedling was cultivated is used, its inconvenient thick attitude thing of nutrition in to the nutrient solution stirs the processing, leads to the component distribution of nutrient solution uneven, influences the absorption of seedling to be difficult for turning over the soil operation to the seedling by oneself, make the seedling in the cultivation in-process, the easy air feed is not enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that when an existing seedbed for seedling cultivation is used, the nutrient thick substances in nutrient solution are inconvenient to stir, so that the components of the nutrient solution are unevenly distributed, the absorption of seedlings is influenced, the seedlings are difficult to turn over soil automatically, and the seedlings are easy to supply insufficient air in the cultivation process.

In order to achieve the purpose, the utility model adopts the following technical scheme:

an intelligent high-yield seedbed for seedling cultivation, comprising:

the outer wall of the bearing frame is connected with pulleys through a support, pull ropes are wound and connected to the outer sides of the pulleys, a bearing plate is arranged above the inner side of the bearing frame, two sides of the bearing plate are respectively connected with the head end and the tail end of each pull rope, a preformed hole is formed in the inner side of the bearing plate, a culture dish is placed in the preformed hole, a spiral hole is formed in the middle of the inner side of the bearing plate, and a movable rod is installed in the spiral hole;

the nutrition box, the nutrition box is installed in the inboard top that bears the frame, and the inside bottom fixedly connected with fixing base of nutrition box, be connected for rotating between the bottom of fixing base and movable rod, and the outer wall top of movable rod is pegged graft and is had stirring subassembly one, the one end of stirring subassembly one is connected with the fixed block, stirring subassembly two is installed to the outer wall below of movable rod, and the top of movable rod installs the lock lid, the top of lock lid is fixed with temperature sensor.

Preferably, the middle part of stay cord has cup jointed solid fixed ring, and solid fixed ring's bottom is connected with electric putter, electric putter's bottom is connected with the inboard bottom middle part that bears the frame.

Preferably, the structure of the second stirring assembly is matched with that of the first stirring assembly, and the bottom end of the second stirring assembly is attached to the bottom end of the interior of the nutrition box.

Preferably, the movable rod passes through the spiral hole and constitutes revolution mechanic with the loading board, and the movable rod passes through cell body, lock lid and stirring subassembly one constitutes detachable construction.

Preferably, the fixing ring is in threaded connection with the electric push rod, and the fixing ring is distributed at one half of the pull rope.

Preferably, the preformed hole is distributed in the inner side of the bearing plate in a matrix shape, and the inner wall of the preformed hole is attached to the outer wall of the culture dish.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. according to the utility model, after the electric push rod drives the middle part of the pull rope to move downwards, the pull rope moves along the outer side of the pulley, so that the bearing plate connected with the pull rope moves downwards, the bearing plate can drive the movable rod in spiral connection with the bearing plate to rotate when moving downwards, the stirring assembly II below the outer wall of the movable rod rotates, and the bottom end of the stirring assembly II is tightly attached to the bottom end inside the nutrition box to rotate, so that the nutrition thick matter inside the nutrition box can be stirred, the components of the nutrient solution are uniformly distributed, the absorption efficiency of seedlings is improved, and the purpose of high yield is realized.

2. In the utility model, after the electric push rod drives the middle part of the pull rope to move upwards, the pull rope moves along the outer side of the pulley, so that the bearing plate connected with the pull rope moves upwards, the top end of the cultivation dish arranged at the bearing plate is gradually attached to the bottom end of the first stirring assembly, the first stirring assembly is driven to rotate through the movable rod in rotation, the soil turning operation at the cultivation dish is completed, and the exchange rate of the seedlings in the cultivation dish and the external air flow is enhanced.

Drawings

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

FIG. 2 is a schematic top view of the carrier plate of the present invention;

FIG. 3 is a schematic view of a connecting structure between the movable rod and the stirring assembly according to the present invention.

Illustration of the drawings:

1. a carrier; 2. a pulley; 3. pulling a rope; 4. a nutrition box; 5. a culture dish; 6. a carrier plate; 7. a first stirring component; 8. a movable rod; 9. a fixed seat; 10. a second stirring component; 11. a fixing ring; 12. an electric push rod; 13. a helical bore; 14. reserving a hole; 15. a fixed block; 16. a snap-fit cover; 17. a temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an intelligent high-yield seedbed for seedling cultivation comprises a bearing frame 1, pulleys 2, a pull rope 3, a nutrition box 4, cultivation dishes 5, a bearing plate 6, a first stirring component 7, a movable rod 8, a fixed seat 9, a second stirring component 10, a fixed ring 11, an electric push rod 12, a spiral hole 13, a preformed hole 14, a fixed block 15, a buckling cover 16 and a temperature sensor 17, wherein the bearing plate 6 is arranged above the inner side of the bearing frame 1, two sides of the bearing plate 6 are respectively connected with the head end and the tail end of the pull rope 3, the preformed hole 14 is arranged on the inner side of the bearing plate 6, the cultivation dishes 5 are arranged in the preformed hole 14, the preformed holes 14 are distributed on the inner side of the bearing plate 6 in a matrix shape, the inner wall of the preformed hole 14 is attached to the outer wall of the cultivation dishes 5, the cultivation dishes 5 can be arranged on the inner side of the preformed hole 14, the cultivation work for cultivating multiple groups of seedlings can be conveniently carried out, the spiral hole 13 is arranged in the middle of the inner side of the bearing plate 6, the movable rod 8 is arranged in the spiral hole 13, the movable rod 8 and the bearing plate 6 form a rotating structure through the spiral hole 13, the movable rod 8 and the first stirring assembly 7 form a detachable structure through the groove body and the buckling cover 16, the buckling cover 16 is manually pulled out, and then the first stirring assembly 7 is lifted up, so that the detachment work between the first stirring assembly 7 and the movable rod 8 can be completed;

the nutrition box 4 is arranged above the inner side of the bearing frame 1, the bottom end inside the nutrition box 4 is fixedly connected with a fixed seat 9, nutrient solution, liquid water and the like can be added into the inner side of the nutrition box 4, the front end and the rear end of the nutrition box are respectively provided with a pipeline connection which is convenient for replacing the liquid stored in the nutrition box, the fixed seat 9 is rotatably connected with the bottom end of a movable rod 8, a stirring assembly I7 is inserted above the outer wall of the movable rod 8, one end of the stirring assembly I7 is connected with a fixed block 15, the fixed block 15 is in an arc-shaped structure and is tightly attached to the inner wall of the movable rod 8 with a hollow structure, a stirring assembly II 10 is arranged below the outer wall of the movable rod 8, a buckling cover 16 is arranged at the top end of the movable rod 8, the structure of the stirring assembly II 10 is matched with the structure of the stirring assembly I7, the bottom end of the stirring assembly II 10 is attached to the bottom end inside the nutrition box 4, the stirring assembly I7 and the stirring assembly II 10 are both composed of a stirring rod and a plurality of stirring teeth, the soil on the top of the culture dish 5 can be stirred through the first stirring component 7, and the nutrient dense-state substances in the nutrient box 4 can be stirred through the second stirring component 10, so that the components of the nutrient solution are uniformly distributed, the top of the buckling cover 16 is fixed with the temperature sensor 17, the temperature sensor 17 is electrically connected with the electric push rod 12, the device can conveniently know the temperature of the surrounding environment through the action of the temperature sensor 17, the electric push rod 12 responds, whether the culture dish 5 needs to be supplemented with water or not is timely adjusted, the outer wall of the bearing frame 1 is connected with the pulley 2 through a support, the outer side of the pulley 2 is wound and connected with the pull rope 3, the middle part of the pull rope 3 is sleeved with the fixing ring 11, the bottom end of the fixing ring 11 is connected with the electric push rod 12, the fixing ring 11 is in threaded connection with the electric push rod 12, and the fixing ring 11 is distributed in one-half of the pull rope 3, through the effect that is threaded connection between solid fixed ring 11 and the electric putter 12, be convenient for accomplish the fastening work between stay cord 3 and the electric putter 12, the bottom of electric putter 12 is connected with the inboard bottom middle part that bears frame 1, start through electric putter 12, go up and down, its pulling stay cord 3, then can drive loading board 6 and settle cultivation ware 5 of loading board 6 department and carry out the elevating work in step, realize the purpose to the work such as the soil turning of the seedling in cultivation ware 5, moisturizing/supplementary nutrition.

The working principle is as follows: when the cultivation dish is used, firstly, a worker places the cultivation dish 5 provided with seedlings in advance on the inner side of the preformed hole 14, the bearing plate 6 is used for carrying out bearing operation, then, the temperature sensor 17 (model: WRM-101) is used for knowing the temperature of the surrounding environment, the electric push rod 12 (model: NKLA 4) electrically connected with the electric push rod 12 is used for responding and starting, when the temperature is too high, the electric push rod 12 drives the middle part of the pull rope 3 to move downwards, the pull rope 3 moves along the outer side of the pulley 2, the bearing plate 6 connected with the pull rope 3 moves downwards until the bottom end of the cultivation dish 5 is immersed in the inner side of the nutrition box 4, water replenishing operation is completed, when the seedlings in the cultivation dish 5 need to be subjected to reinforced air supply operation, the electric push rod 12 drives the middle part of the pull rope 3 to move upwards, the pull rope 3 moves along the outer side of the pulley 2, the bearing plate 6 connected with the pull rope 3 moves upwards, then cultivate the top of ware 5 and butt gradually in the bottom of stirring subassembly 7, when moving up the process along with loading board 6, drive movable rod 8 rotatory, then rotate in step with stirring subassembly 7 that movable rod 8 is connected, the event can turn the operation to the soil at cultivation ware 5 top to this strengthens the speed of cultivating the seedling in the ware 5 and external air current exchange, finally, accomplishes the cultivation work of this seedling cultivation intelligence high yield seedbed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a seedling culture intelligence high yield seedbed which characterized in that: the method comprises the following steps:

the cultivation device comprises a bearing frame (1), wherein the outer wall of the bearing frame (1) is connected with a pulley (2) through a support, the outer side of the pulley (2) is wound and connected with a pull rope (3), a bearing plate (6) is arranged above the inner side of the bearing frame (1), two sides of the bearing plate (6) are respectively connected with the head end and the tail end of the pull rope (3), a preformed hole (14) is formed in the inner side of the bearing plate (6), a cultivation vessel (5) is placed in the preformed hole (14), a spiral hole (13) is formed in the middle of the inner side of the bearing plate (6), and a movable rod (8) is installed in the spiral hole (13);

nutrition box (4), nutrition box (4) are installed in the inboard top that bears frame (1), and the inside bottom fixedly connected with fixing base (9) of nutrition box (4), be connected for rotating between the bottom of fixing base (9) and movable rod (8), and peg graft above the outer wall of movable rod (8) and have stirring subassembly (7), the one end of stirring subassembly (7) is connected with fixed block (15), stirring subassembly two (10) are installed to the outer wall below of movable rod (8), and the top of movable rod (8) installs lock lid (16), the top of lock lid (16) is fixed with temperature sensor (17).

2. The seedling cultivation intelligent high-yield seedbed of claim 1, which is characterized in that: the middle part of stay cord (3) has cup jointed solid fixed ring (11), and the bottom of solid fixed ring (11) is connected with electric putter (12), the bottom of electric putter (12) is connected with the inboard bottom middle part that bears frame (1).

3. The seedling cultivation intelligent high-yield seedbed of claim 1, which is characterized in that: the structure of the second stirring assembly (10) is matched with that of the first stirring assembly (7), and the bottom end of the second stirring assembly (10) is attached to the bottom end of the interior of the nutrition box (4).

4. The seedling cultivation intelligent high-yield seedbed of claim 1, which is characterized in that: the movable rod (8) forms a rotating structure with the bearing plate (6) through the spiral hole (13), and the movable rod (8) forms a detachable structure with the first stirring assembly (7) through the groove body and the buckling cover (16).

5. The seedling cultivation intelligent high-yield seedbed of claim 2, characterized in that: the fixing ring (11) is in threaded connection with the electric push rod (12), and the fixing ring (11) is distributed at one half of the pull rope (3).

6. The seedling cultivation intelligent high-yield seedbed of claim 1, which is characterized in that: the preformed holes (14) are distributed on the inner side of the bearing plate (6) in a matrix shape, and the inner walls of the preformed holes (14) are attached to the outer wall of the culture dish (5).

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