CN117598195A - Rice cultivation auxiliary device - Google Patents

Abstract

The invention discloses a rice cultivation auxiliary device in the technical field of rice cultivation devices, which comprises a seedling raising box with an opening at the upper side, wherein a plurality of partition boards are arranged in the seedling raising box, the partition boards divide the seedling raising box into a plurality of seedling raising cavities, water through holes are formed in the side walls of the bottoms of the seedling raising cavities, a supporting plate is fixedly connected in the seedling raising cavities, the cross section of the supporting plate is in a cross shape, the partition boards are rotatably connected with a plurality of supporting plates for sealing the seedling raising cavities, a plurality of driving parts for driving the supporting plates to rotate are arranged on the partition boards, a receiving groove for receiving the rotating supporting plates is formed in the seedling raising cavities, and the height of the partition boards is lower than that of the seedling raising box. By adopting the technical scheme of the invention, the rice seeds are supported by sectional culture, and meanwhile, the damage to the root systems of the rice seedlings during transplanting and pulling out is reduced.

Description

Rice cultivation auxiliary device

Technical Field

The invention belongs to the technical field of rice cultivation devices, and particularly relates to a rice cultivation auxiliary device.

Background

When new varieties of rice are developed, seedlings are placed in a rice incubator for cultivation. The seedling raising tray is an indispensable component of the rice transplanter and has the main function of realizing the seedling raising process of rice seedlings. The seedling raising tray is made of polyvinyl chloride as raw material and is formed by processing plastic suction through a special process formula, and has the characteristics of light weight, easiness in carrying, convenience in storage and preservation and low use cost. Different rice transplanting machines are provided with rice seedling raising trays with different specifications, and are generally divided into a hard rice seedling raising tray and a soft rice seedling raising tray. The wading height of rice is inconvenient to adjust to current sprout cultivation dish, and simultaneously, the sprout cultivation hole that current sprout cultivation dish set up reserves the diameter unable adjustment, consequently can't cut apart fixedly when the rice is immature, leads to the rice to be askew form, influences cultivation quality, so need make the improvement to it.

In order to solve the above-mentioned problem, patent publication number CN217217585U discloses a rice cultivation auxiliary device, including the artificial containers, the artificial containers is provided with the inner chamber, and the top of inner chamber is provided with constant temperature mechanism, its characterized in that: the left and right sides chamber wall of inner chamber all is provided with the dead lever, all be provided with cultivation mechanism in the dead lever, cultivation mechanism is including cultivating dish and sprout cultivation basket, both ends all are provided with the guide bar about cultivating the dish, the top of cultivating the dish all is provided with the threaded rod, the top of threaded rod is all fixed and is provided with the carousel, both ends all are provided with the rectangle pole about the sprout cultivation basket, the bottom embedding of threaded rod in the rectangle pole.

Above-mentioned auxiliary device is cultivated to rice, through threaded rod, spacing frame, gag lever post and butt piece's cooperation, the realization can be to the adjustment of wading height of rice seedling, but when utilizing the rice seed to sprout and obtain the rice seedling, the rice seed is less to fall from the gap of sprout cultivation basket easily, when the sprout cultivation basket is for holding the rice seed design for less gap, after the completion of the rice seedling is grown seedlings later, need pull out the transplantation with the rice seedling, it has a large amount of roots to plug in the too little gap, pull out again easily with the broken of rice seedling root system, damage rice seedling root system reduces the rice seedling quality, and grow seedlings and plant for high density, root system between the rice seedling plant can intertwine, can also lead to the root system damage of rice when separating the rice seedling.

Disclosure of Invention

In order to solve the problems that rice seeds fall from gaps of a seedling raising basket easily in the prior art, when the seedling raising basket is designed to be a small gap for holding the rice seeds, after the rice seedlings are raised, the rice seedlings are required to be pulled out and transplanted, a large number of root systems are plugged into the small gap, the root systems of the rice seedlings are damaged by pulling out, and the quality of the rice seedlings is reduced.

In order to achieve the above object, the technical scheme of the present invention is as follows: the utility model provides a rice cultivation auxiliary device, including upside open-ended sprout cultivation box, be equipped with a plurality of baffles in the sprout cultivation box, the baffle separates the sprout cultivation box into a plurality of sprout cultivation chamber, all is equipped with the limbers on the sprout cultivation chamber bottom lateral wall, sprout cultivation intracavity fixedly connected with backup pad, the cross-section of backup pad is "ten" font, the baffle rotates and is connected with a plurality of layer boards that are used for sealing the sprout cultivation chamber, be equipped with a plurality of driving pieces that are used for driving layer board pivoted on the baffle, be equipped with the receipts groove that is used for receiving the layer board after rotating in the sprout cultivation chamber, the baffle height is less than the sprout cultivation box height.

After the scheme is adopted, the following beneficial effects are realized: the user adjusts the layer board to the position that seals the sprout cultivation chamber earlier to scatter the rice seed on the layer board, because the baffle highly is less than the sprout cultivation box height, makes the baffle upper surface can deposit the nutrient solution, is used for supplementing the nutrition for the rice seed, and the layer board seals the sprout cultivation chamber, and the nutrient solution can not flow into in the sprout cultivation chamber. The supporting plate is a rigid body, so that the roots emitted by rice seeds are difficult to insert, and the roots cannot extend downwards but transversely grow.

When the rice seeds send out partial root systems, the supporting plate is rotated by the driving piece and can be received in the receiving groove, at the moment, the rice seeds can fall on the supporting plate, and the nutrient solution can flow into the bottom of the seedling raising cavity, and the bottom of the seedling raising cavity is provided with water through holes, so that the nutrient solution can spread into all the seedling raising cavities. Because the rice seeds have partial root systems, the rice seeds can be blocked on the supporting plate instead of falling into the nutrient solution. The rice seeds continue to develop on the support plate. Because of the existence of the partition plates, the root system can extend downwards instead of transversely growing, so that the probability that the root systems among rice seedling plants can be intertwined is reduced. Meanwhile, the supporting plate is of a plate-shaped structure, four large holes are formed in the periphery of the cross shape, the root system of the rice seedling is difficult to wind the supporting plate, so that damage to the root system of the rice seedling can be hardly caused when the rice seedling is pulled out for transplanting, the rice seedling can be planted in a large density, and the integrity of the root is extremely high.

Compared with the prior art, the rice seeds are cultivated in two sections, so that the problem that rice seedlings are entangled in gaps or between seedlings in close planting is solved, damage to root systems of the rice seedlings in subsequent transplanting or separating is reduced, and the growth of the rice seedlings after transplanting is facilitated; meanwhile, the rice seeds enter the next stage of culture through the rotation of the supporting plate, so that the manual work intensity is reduced, and meanwhile, the culture space is saved.

Further, including one side open-ended incubator, set up the ventilation hole on the incubator, be equipped with a plurality of sprout cultivation boxes in the incubator, sprout cultivation box all with incubator lateral wall sliding connection, the incubator rotates to be connected with and is used for sealing the transparent chamber door of incubator.

The beneficial effects are that: compared with direct seeding, the independent seedling raising has the advantages that rice seeds cannot be stolen by mice, insects and birds, so that the seedling raising box is protected by the incubator, and the protection effect is enhanced. The seedling raising boxes are all in sliding connection with the side walls of the incubator, so that a user can conveniently sow rice seeds and transplant rice seeds. The transparent box door can provide light for rice seedlings, and a user can observe the growth condition of the rice seedlings conveniently. The ventilation holes can exchange air in the incubator with the outside, so that normal physiological activities of rice seedlings are ensured.

Further, fixedly connected with nutrient solution mixes jar on the lateral wall of artificial containers, is equipped with a plurality of shower nozzles in the artificial containers, and the shower nozzle is located the upside of different sprout cultivation boxes respectively, and the bottom of nutrient solution mixes jar is equipped with the water pump, and the water pump passes through water pipe and shower nozzle intercommunication.

The beneficial effects are that: because the partition plate is arranged, the nutrient solution can flow, but after the nutrient solution stock solution is poured, the nutrient solution stock solution is not easy to diffuse, so that the nutrient solution mixing tank is used, and the nutrient solution is mixed and then added into the seedling raising box. The nutrient solution is pumped into the spray head by a water pump to add the nutrient solution for the seedling raising box.

Further, the bottom of the nutrient solution mixing cylinder is provided with a motor, the motor is vertically arranged, and the output shaft of the motor is fixedly connected with a plurality of stirring blades.

The beneficial effects are that: the stirring blade is driven to rotate by the motor to mix the nutrient solution, so that the manual work intensity is reduced.

Further, a plurality of fluorescent lamps are arranged in the incubator and are respectively positioned on the upper sides of different seedling raising boxes.

The beneficial effects are that: external illumination is affected by weather, stability cannot be maintained, and sunlight in the incubator is difficult to reach every corner. The fluorescent lamp can keep illumination of rice seedlings, so that the rice seedlings grow faster.

Further, the incubator lateral wall fixedly connected with temperature detector and thermoelectric refrigeration piece, temperature detector and thermoelectric refrigeration piece signal connection.

The beneficial effects are that: the external temperature can be influenced by weather, the stability can not be kept, and the growth of rice seedlings can be influenced by supercooling or overheating. The temperature in the incubator is detected by a temperature detector, and the temperature in the incubator is increased or decreased by a thermoelectric refrigerating sheet.

Further, the side wall of one side of the seedling raising box, which is close to the transparent box door, is provided with an observation window.

The beneficial effects are that: the observation of the root of the rice seedling can help the user to judge the growth state of the rice seedling. The growth state of the root system of the rice seedling is observed through the observation window, so that the growth condition of the rice seedling can be better known.

Further, a dust screen is arranged in the vent hole.

The beneficial effects are that: even if protected by the incubator, insects may climb into the incubator from the vent holes, and the pallet needs to have good water tightness, dust may affect the water tightness between the pallet and the partition. Can further reduce the probability that the insect got into the artificial containers when keeping ventilation through setting up the dust screen, reduce the water tightness influence between dust to layer board and the baffle simultaneously.

Drawings

Fig. 1 is a schematic view of a seedling raising box.

Fig. 2 is a schematic view of an incubator.

Fig. 3 is a schematic view of the support plate.

Fig. 4 is a schematic view of a nutrient solution mixing bowl.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: seedling raising box 1, partition plate 2, backup pad 3, layer board 4, accommodation groove 5, incubator 6, ventilation hole 7, transparent chamber door 8, nutrient solution mixing jar 9, shower nozzle 10, water pump 11, motor 12, stirring leaf 13, fluorescent lamp 14, thermoelectric refrigeration piece 15, temperature detector 16.

Example 1

An embodiment is substantially as shown in figures 1 to 4:

the utility model provides a rice cultivation auxiliary device, including upside open-ended sprout cultivation box 1, the screw fixation has a plurality of baffles 2 in the sprout cultivation box 1, baffle 2 separates sprout cultivation box 1 into a plurality of sprout cultivation chamber, the limbers have all been seted up on the sprout cultivation chamber bottom lateral wall, sprout cultivation intracavity bonding is fixed with backup pad 3, backup pad 3 'S cross-section is "ten" font, baffle 2 rotates and is connected with a plurality of layer boards 4 that are used for sealing the sprout cultivation chamber, screw fixation has a plurality of driving pieces that are used for driving layer board 4 pivoted on the baffle 2, the driving piece is step motor, step motor' S model is HS3401S, the sprout cultivation intracavity has been seted up and has been used for receiving to put behind the rotation layer board 4 put groove 5, baffle 2 highly is less than sprout cultivation box 1 height.

The specific implementation process is as follows: the user adjusts the layer board 4 to the position that seals the sprout cultivation chamber earlier to scatter the rice seeds on layer board 4, because baffle 2 highly is less than sprout cultivation box 1 height, makes baffle 2 upper surface can deposit the nutrient solution for supplementing the nutrition for the rice seeds, and layer board 4 seals the sprout cultivation chamber, and the nutrient solution can not flow into in the sprout cultivation chamber. The pallet 4 is a rigid body, and roots of rice seeds are difficult to insert, so that the roots do not extend downward, but grow laterally. The root system of the rice seeds can develop to a proper size more quickly.

When the rice seeds send out partial root systems, the supporting plate 4 is rotated by the driving piece, the supporting plate 4 can be received in the receiving groove 5, at the moment, the rice seeds can fall on the supporting plate 3, and the nutrient solution can flow into the bottom of the seedling raising cavity, and the bottom of the seedling raising cavity is provided with water through holes, so that the nutrient solution can spread into all the seedling raising cavities. Since the rice seeds have partial root systems, the rice seeds are blocked on the supporting plate 3 instead of falling into the nutrient solution. The rice seeds continue to develop on the support plate 3. Because of the partition plate 2, the root system can extend downwards instead of transversely growing, so that the probability that the root systems between rice seedling plants can be intertwined is reduced. Hydroponic plants grow along with the hydroponic plants, the hydroponic plants do not have soil for supporting and are easy to topple, and the partition plates 2 can support rice seedlings, so that the probability of toppling is reduced. The backup pad 3 is platelike structure, only has four macropores around "cross", and the root system of rice seedling is difficult to twine backup pad 3, therefore can hardly produce the harm to the rice seedling root system when extracting to transplant, makes rice seedling can plant at a large density, and root integrity is high.

According to the invention, the rice seeds are cultivated in two sections, so that the problem that rice seedlings are entangled in gaps or between seedlings during close planting is solved, the damage to root systems of the rice seedlings during subsequent transplanting or separation is reduced, and the growth of the rice seedlings after transplanting is facilitated; meanwhile, the supporting plate 4 rotates, so that rice seeds enter the next stage of cultivation, the labor intensity is reduced, and meanwhile, the cultivation space is saved.

Example two

The difference from the above embodiment is that: including one side open-ended artificial containers 6, offered ventilation hole 7 on the artificial containers 6, be equipped with a plurality of sprout cultivation boxes 1 in the artificial containers 6, sprout cultivation box 1 all passes through spout sliding connection with artificial containers 6 lateral wall, and artificial containers 6 rotates through the hinge to be connected with the transparent chamber door 8 that is used for seal artificial containers 6.

The specific implementation process is as follows: the advantage of direct seeding compared with single seedling raising is that rice seeds cannot be stolen by mice, insects and birds, so that the seedling raising box 1 is protected by the incubator 6, and the protection effect is enhanced. The seedling raising boxes 1 are all in sliding connection with the side wall of the incubator 6, so that a user can conveniently sow rice seeds and transplant rice seeds. The transparent box door 8 can provide light for rice seedlings, and is convenient for a user to observe the growth condition of the rice seedlings. The ventilation holes 7 can exchange air in the incubator 6 with the outside, so that normal physiological activities of rice seedlings are ensured.

Example III

The difference from the above embodiment is that: the side wall of the incubator 6 is fixedly provided with a nutrient solution mixing cylinder 9 by screws, a plurality of spray heads 10 are fixedly adhered in the incubator 6, the spray heads 10 are respectively positioned on the upper sides of different seedling raising boxes 1, the bottom of the nutrient solution mixing cylinder 9 is fixedly provided with a water pump 11 by screws, the model of the water pump 11 is XQP-500, and the water pump 11 is communicated with the spray heads 10 through a water pipe.

The specific implementation process is as follows: the partition plate 2 is provided, so that the nutrient solution can flow, but after the nutrient solution stock solution is poured, the nutrient solution stock solution is not easily diffused, and therefore, the nutrient solution is mixed by using the nutrient solution mixing tank 9 and then added into the seedling raising box 1. Nutrient solution is pumped into the spray head 10 by the water pump 11 to add nutrient solution to the seedling raising box 1.

Example IV

The difference from the above embodiment is that: the motor 12 is fixed on the bottom of the nutrient solution mixing cylinder 9 through screws, the model of the motor 12 is BYG250H, the motor 12 is vertically arranged, and a plurality of stirring blades 13 are welded and fixed on an output shaft of the motor 12.

The specific implementation process is as follows: the stirring blade 13 is driven to rotate through the motor 12, so that the nutrient solution can be mixed, and the manual work intensity is reduced.

Example five

The difference from the above embodiment is that: a plurality of fluorescent lamps 14 are fixed in the incubator 6 by screws, the model of the fluorescent lamps 14 is SZ-T8, and the fluorescent lamps 14 are respectively positioned on the upper sides of different seedling raising boxes 1.

The specific implementation process is as follows: the external light is affected by weather, it is not stable, and it is difficult for the sunlight in the incubator 6 to reach every corner. The fluorescent lamp 14 can keep the illumination of the rice seedlings, so that the rice seedlings grow faster.

Example six

The difference from the above embodiment is that: the temperature detector 16 and the thermoelectric refrigerating piece 15 are fixed on the side wall of the incubator 6 through screws, the model of the temperature detector 16 is HTC-1, the model of the thermoelectric refrigerating piece 15 is TEC2-19008, and the temperature detector 16 is in signal connection with the thermoelectric refrigerating piece 15.

The specific implementation process is as follows: the external temperature can be influenced by weather, the stability can not be kept, and the growth of rice seedlings can be influenced by supercooling or overheating. The temperature in the incubator 6 is detected by a temperature detector 16, and the inside of the incubator is warmed or cooled by a thermoelectric cooling sheet 15.

Example seven

The difference from the above embodiment is that: the side wall of one side of the seedling raising box 1, which is close to the transparent box door 8, is integrally provided with an observation window.

The specific implementation process is as follows: the observation of the root of the rice seedling can help the user to judge the growth state of the rice seedling. The growth state of the root system of the rice seedling is observed through the observation window, so that the growth condition of the rice seedling can be better known. And the height of the growth liquid in the seedling raising box 1 can be observed, and the growth liquid can be added immediately.

Example eight

The difference from the above embodiment is that: a dustproof net is adhered and fixed in the vent hole 7.

The specific implementation process is as follows: even if protected by the incubator 6, insects may climb into the incubator 6 from the vent holes 7, and the pallet 4 needs to have good water tightness, and dust may affect the water tightness between the pallet 4 and the partition plate 2. The dust screen is arranged to further reduce the probability of insects entering the incubator 6 while maintaining ventilation, and reduce the water tightness influence of dust on the space between the pallet 4 and the partition plate 2.

The foregoing is merely an embodiment of the present invention, and a specific structure and characteristics of common knowledge in the art, which are well known in the scheme, are not described herein, so that a person of ordinary skill in the art knows all the prior art in the application day or before the priority date of the present invention, and can know all the prior art in the field, and have the capability of applying the conventional experimental means before the date, so that a person of ordinary skill in the art can complete and implement the present embodiment in combination with his own capability in the light of the present application, and some typical known structures or known methods should not be an obstacle for a person of ordinary skill in the art to implement the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (8)

1. The utility model provides a rice cultivation auxiliary device which characterized in that: including upside open-ended sprout cultivation box, be equipped with a plurality of baffles in the sprout cultivation box, the baffle separates the sprout cultivation box into a plurality of sprout cultivation chamber, all is equipped with the limbers on the sprout cultivation chamber bottom lateral wall, and sprout cultivation intracavity fixedly connected with backup pad, the cross-section of backup pad is "ten" font, and the baffle rotates to be connected with a plurality of layer boards that are used for sealing the sprout cultivation chamber, is equipped with a plurality of driving pieces that are used for driving the layer board pivoted on the baffle, and the sprout cultivation intracavity is equipped with the receipts groove that is used for receiving the layer board after rotating, and the baffle highly is less than the sprout cultivation box height.

2. The rice cultivation auxiliary device as claimed in claim 1, wherein: including one side open-ended artificial containers, offered the ventilation hole on the artificial containers, be equipped with a plurality of sprout cultivation boxes in the artificial containers, sprout cultivation box all with artificial containers lateral wall sliding connection, the artificial containers rotates to be connected with the transparent chamber door that is used for sealing the artificial containers.

3. The rice cultivation auxiliary device as claimed in claim 2, wherein: the lateral wall of the incubator is fixedly connected with a nutrient solution mixing tank, a plurality of spray heads are arranged in the incubator, the spray heads are respectively positioned on the upper sides of different seedling raising boxes, a water pump is arranged at the bottom of the nutrient solution mixing tank, and the water pump is communicated with the spray heads through water pipes.

4. A rice cultivation aid as claimed in claim 3, wherein: the bottom of the nutrient solution mixing cylinder is provided with a motor, the motor is vertically arranged, and the output shaft of the motor is fixedly connected with a plurality of stirring blades.

5. The rice cultivation auxiliary device according to claim 4, wherein: a plurality of fluorescent lamps are arranged in the incubator and are respectively positioned on the upper sides of different seedling raising boxes.

6. The rice cultivation auxiliary device according to claim 5, wherein: the side wall of the incubator is fixedly connected with a temperature detector and a thermoelectric refrigerating sheet, and the temperature detector is in signal connection with the thermoelectric refrigerating sheet.

7. The rice cultivation auxiliary device as defined in claim 6, wherein: the side wall of one side of the seedling raising box, which is close to the transparent box door, is provided with an observation window.

8. The rice cultivation auxiliary device according to claim 7, wherein: a dustproof net is arranged in the vent hole.