CN114514846A

CN114514846A - Energy-efficient seedling growth breeding device

Info

Publication number: CN114514846A
Application number: CN202210263839.9A
Authority: CN
Inventors: 鞠健; 马元凯; 朱海涛
Original assignee: Taian Guilaishan Forest Farm Guilaishan National Forest Park Management Committee Shandong Taian Guilaishan Provincial Nature Reserve Management Service Center
Current assignee: Taian Guilaishan Forest Farm Guilaishan National Forest Park Management Committee Shandong Taian Guilaishan Provincial Nature Reserve Management Service Center
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2022-05-20

Abstract

The invention discloses a high-efficiency energy-saving seedling raising and cultivating device for forestry, which comprises a water pump, a water pipe, a seedling raising box, a rotary disc and a motor, wherein the water pump is communicated with the lower end of the water pipe, the upper end of the water pipe is connected with the upper end of the left side of the seedling raising box, the rotary plate slightly rotates, the rotary plate downwards extrudes the upper end surface of a partition plate, a top rod and a sealing plate are kept still, water is dripped and leaked downwards through a lower leakage hole at the moment, seedlings cultivated in a lower planting groove are irrigated and sprayed with water, the seedlings on the upper layer and the lower layer are ensured to be uniformly subjected to moisture nutrients, the water is precipitated in sand carried in the water in a lower guide frame through a precipitation plate, the precipitated water is filtered through a water filtering hole on the upper layer of an opening and closing plate at the upper layer, the water enters a water outlet pipe through the pumping of the water pump, and a cutting rod on the outer side of an impact shaft rotates around a guide ring at the moment, thereby cutting the sand in the moisture, avoiding great sand granule to enter into the inside jam that takes place of water pump.

Description

Energy-efficient seedling growth breeding device

Technical Field

The invention relates to the field of seedling growth, in particular to an efficient and energy-saving seedling growth cultivation device.

Background

Grow seedlings and be exactly to cultivate the meaning of seedling, former meaning is at the nursery, hotbed or seedling raising box cultivate the seedling, go to planting in with transplanting to the soil, seedling raising box is when cultivating the seedling, need water the seedling, thereby spray through the irrigation and make the seedling absorb the nutrient, but because seedling raising box is inside to separate the placing to many strains of seedling through the layering, and at the in-process that the irrigation sprayed, the sprinkler head is installed in seedling raising box's upper end, the absorbed moisture of seedling that causes the lower floor is than the upper strata fewly, thereby it is relatively poor to lead to the seedling cultivation effect of lower floor, spray unnecessary moisture circulation recycle to the irrigation for energy-conserving needs simultaneously, and the root of seedling is wrapped up the sand, the sand flows down along with moisture, enter into inside the water pump, cause the inside jam of water pump easily, thereby lead to moisture circulation recycle's effect to weaken.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the efficient and energy-saving seedling growth cultivation device structurally comprises a water pump, a water pipe, a seedling raising box, a rotating disc and a motor, wherein the water pump is communicated with the lower end of the water pipe, the upper end of the water pipe is connected with the upper end of the left side of the seedling raising box, the rotating disc is arranged on the surface of the seedling raising box, the motor rotates synchronously with the rotating disc through a belt, the seedling raising box comprises a box body, a sprayer, a planting mechanism and a circulating mechanism, the sprayer is arranged at the upper end inside the box body and communicated with the upper end of the water pipe, the sprayer is located above the planting mechanism, the planting mechanism rotates synchronously with the rotating disc, the circulating mechanism is arranged at the lower end inside the box body and located below the planting mechanism, and the left end of the circulating mechanism is communicated with the water pump.

As a further improvement of the invention, the planting mechanism comprises a rotating plate, planting grooves, water permeable holes and a lower leakage mechanism, the middle end of the rotating plate and the rotating disc synchronously rotate, the planting grooves are embedded in the upper end of the rotating plate, the water permeable holes penetrate through the lower end of the inner side of the planting grooves, the upper end face of the lower leakage mechanism is abutted against the middle end of the bottom face of the rotating plate, the number of the rotating plates is three, and the three rotating plates synchronously rotate through the three rotating discs outside.

As a further improvement of the invention, the lower leakage mechanism comprises a partition plate, a guide elastic rod, a sealing plate, a lower leakage hole and a push rod, wherein the upper end surface of the partition plate is abutted against the middle end of the bottom surface of the rotating plate, the upper end of the guide elastic rod penetrates through the partition plate in a clearance fit manner, the bottom of the sealing plate is abutted against the upper end surface of the partition plate, the sealing plate is fixed with the top of the push rod, the lower end of the push rod is fixedly arranged inside the push rod, the lower leakage hole penetrates through the partition plate, the push rod penetrates through the inner part of the lower leakage hole in a clearance fit manner, six guide elastic rods are arranged, and three guide elastic rods are in one group and are respectively arranged at the left end and the right end of the partition plate.

As a further improvement of the invention, the circulating mechanism comprises a lower guide frame, a water filtering mechanism, three settling plates and a crushing mechanism, wherein the lower guide frame is fixedly embedded at the lower end in the box body, the water filtering mechanism is arranged in the lower guide frame, the settling plates are arranged on the bottom surface of the inner side of the lower guide frame and are abutted against the lower end of the water filtering mechanism, the crushing mechanism is arranged at the left end in the lower guide frame, the lower guide frame is communicated with the water pump, the lower end of the lower guide frame is of an inclined structure with the right end higher than the left end, the water filtering mechanisms are distributed in the lower guide frame at equal intervals, and the lower ends of the three water filtering mechanisms gradually increase from right to left.

As a further improvement of the invention, the water filtering mechanism comprises an opening and closing plate, a torsion shaft and water filtering holes, wherein the upper end of the opening and closing plate is hinged with the upper end of the inner side of the lower guide frame through the torsion shaft, the water filtering holes penetrate through the inner part of the upper end of the opening and closing plate, the lower end of the opening and closing plate is abutted to the settling plate, and the water filtering holes are of a cavity structure with a wide inlet and a narrow outlet.

As a further improvement of the invention, the crushing mechanism comprises a water outlet pipe, an impact shaft, cutting rods, guide rings and springs, wherein the water outlet pipe is arranged at the left end inside the lower guide frame and is communicated with the water pump, the impact shaft is arranged at the center inside the water outlet pipe, the cutting rods are welded on the outer sides of the impact shaft, the guide rings penetrate through the cutting rods in a clearance fit manner, the springs are welded on the outer sides of the cutting rods, and the four cutting rods are arranged on four directions outside the impact shaft.

The invention has the beneficial effects that:

1. drive the rolling disc through starter motor and rotate, at this moment the rotor plate carries out slight rotation, improve the homogeneity that the seedling received and sprays moisture, the rotor plate down extrudees the baffle up end simultaneously, ejector pin and closing plate remain motionless, and the small opening separates with the closing plate bottom surface down, at this moment moisture then down drips through the small opening down, plant the seedling that the inslot portion was cultivated to the lower floor and irrigate and spray moisture, guarantee that upper and lower two-layer seedling evenly receives the nutrient of moisture.

2. Moisture deposits through the inside sand that carries in with moisture of precipitation board at guide frame down, thereby the moisture after the sediment permeates through from the drainage hole on switching board upper strata on the upper strata and filters, and inside moisture entered into the outlet pipe through the extraction of water pump, the pole of cutting in this moment the impact shaft outside rotated round the guide ring to the sand in the moisture is cut, avoids great sand granule to enter into the inside emergence of water pump and blocks up.

Drawings

Fig. 1 is a schematic structural view of an efficient and energy-saving seedling growth cultivation device of the invention.

Fig. 2 is a schematic view of the internal structure of a seedling raising box of the present invention.

Fig. 3 is a perspective and partially enlarged view of a planting mechanism according to the present invention.

FIG. 4 is a schematic diagram of a top view and a partial side view of a bottom drain mechanism according to the present invention.

Fig. 5 is a schematic diagram of the internal structure of a circulation mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a water filtering mechanism according to the present invention.

FIG. 7 is a schematic side view of a shredder mechanism according to the present invention.

In the figure: the device comprises a water pump-1, a water pipe-2, a seedling raising box-3, a rotating disc-4, a motor-5, a box body-31, a sprayer-32, a planting mechanism-33, a circulating mechanism-34, a rotating plate-331, a planting groove-332, water permeable holes-333, a lower leakage mechanism-334, a partition-34 a, a guide elastic rod-34 b, a sealing plate-34 c, a lower leakage hole-34 d, a top rod-34 e, a lower guide frame-341, a water filtering mechanism-342, a settling plate-343, a crushing mechanism-344, an opening and closing plate-42 a, a torsion shaft-42 b, a water filtering hole-42 c, a water outlet pipe-44 a, an impact shaft-44 b, a cutting rod-44 c, a guide ring-44 d and a spring-44 e.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 4:

the invention relates to a high-efficiency energy-saving seedling raising and cultivating device, which structurally comprises a water pump 1, a water delivery pipe 2, a seedling raising box 3, a rotating disc 4 and a motor 5, wherein the water pump 1 is communicated with the lower end of the water delivery pipe 2, the upper end of the water pipe 2 is connected with the upper end of the left side of the seedling raising box 3, the rotating disc 4 is arranged on the surface of the seedling raising box 3, the motor 5 and the rotary disc 4 synchronously rotate through a belt, the seedling raising box 3 comprises a box body 31, a sprayer 32, a planting mechanism 33 and a circulating mechanism 34, the sprayer 32 is arranged at the upper end inside the box body 31, and the sprayer 32 is communicated with the upper end of the water delivery pipe 2, the sprayer 32 is positioned above the planting mechanism 33, the planting mechanism 33 and the rotating disc 4 rotate synchronously, the circulating mechanism 34 is arranged at the lower end in the box body 31, and the circulating mechanism 34 is positioned below the planting mechanism 33, and the left end of the circulating mechanism 34 is communicated with the water pump 1.

Wherein, it includes the rotor plate 331, plants groove 332, the hole 333 of permeating water, leaks mechanism 334 down to plant mechanism 33, rotor plate 331 middle-end rotates with the rolling disc 4 is synchronous, the inside upper end of rotor plate 331 has inlayed and plants groove 332 to it has the hole 333 of permeating water to plant the inboard lower extreme of groove 332, it is inconsistent with rotor plate 331 bottom surface middle-end to leak mechanism 334 up end down, rotor plate 331 is equipped with threely altogether to carry out synchronous rotation through outside three rolling disc 4, thereby leak mechanism 334 down and extrude the lower of lower extreme, make and leak down and form the space between mechanism 334 and the hole 333 of permeating water, down with moisture, ensure that the inside planting of lower floor's seedling planting groove 332 obtains abundant moisture.

Wherein, the lower leakage mechanism 334 comprises a baffle plate 34a, a guide elastic rod 34b, a sealing plate 34c, a lower leakage hole 34d and a top rod 34e, the upper end surface of the partition plate 34a is abutted against the middle end of the bottom surface of the rotating plate 331, the upper end of the guiding elastic rod 34b penetrates through the partition plate 34a by clearance fit, the bottom of the sealing plate 34c is abutted against the upper end surface of the partition plate 34a, the sealing plate 34c is fixed to the top of the top rod 34e, the lower end of the top rod 34e is fixedly installed inside the top rod 34e, the lower leakage hole 34d penetrates through the partition 34a, and the top rods 34e penetrate through the lower leakage holes 34d in a clearance fit manner, six of the guide elastic rods 34b are arranged, three of the guide elastic rods are in a group and are respectively arranged at the left end and the right end of the partition plate 34a, thereby providing the partition plate 34a with bilaterally symmetric lifting elastic force and ensuring the partition plate 34a to move up and down smoothly.

The specific use mode and function of the embodiment are as follows:

in the invention, the water pump 1 is started to convey water to the sprayer 32 through the water conveying pipe 2 to irrigate and spray the seedlings planted in the planting tank 332, so that the seedlings can obtain nutrients, the redundant water flows to the upper end surface of the clapboard 34a through the water permeable holes 333, during the irrigation and spraying processes, the rotating disc 4 is driven to rotate by the starting motor 5, at the moment, the rotating plate 331 slightly rotates, the uniformity of the sprayed moisture on the seedlings is improved in the rotating process, at the same time, the rotating plate 331 presses the upper end surface of the partition 34a downward, at this time, the partition 34a presses downward along the guide elastic rod 34b, at this time, the push rod 34e and the sealing plate 34c are kept still, and the lower leakage hole 34d is separated from the bottom surface of the sealing plate 34c, at this time, the moisture is leaked downward through the lower leakage hole 34d, the seedlings cultivated in the lower planting groove 332 are irrigated and sprayed with water, and the seedlings on the upper layer and the lower layer are guaranteed to be evenly supplied with water.

Example 2:

as shown in fig. 5 to 7:

wherein, the circulation mechanism 34 includes a lower guide frame 341, a water filtering mechanism 342, a settling plate 343, and a crushing mechanism 344, the lower guide frame 341 is fixedly installed at the lower end inside the tank 31, the water filtering mechanism 342 is installed inside the lower guide frame 341, the settling plate 343 is installed at the bottom surface inside the lower guide frame 341, the settling plate 343 contacts with the lower end of the water filtering mechanism 342, the crushing mechanism 344 is installed at the left end inside the lower guide frame 341, the lower guide frame 341 is communicated with the water pump 1, the lower end of the lower guide frame 341 is an inclined structure with a higher right end and a lower left end, which is beneficial for guiding the water to one end close to the water pump 1, thereby ensuring the sufficient circulation and recycling of the water, the number of the water filtering mechanisms 342 is three, and the water filtering mechanisms are equidistantly distributed inside the lower guide frame 342, the lower ends of the three water filtering mechanisms gradually increase from right to left, thereby ensuring the three water filtering mechanisms 342 slightly rotate inside the inclined lower guide frame 341, when the recovered water is excessive, the filtering speed is reduced.

The water filtering mechanism 342 includes an opening and closing plate 42a, a torsion shaft 42b, and water filtering holes 42c, wherein the upper end of the opening and closing plate 42a is hinged to the inner upper end of the lower guide frame 341 through the torsion shaft 42b, the water filtering holes 42c penetrate through the upper end of the opening and closing plate 42a, the lower end of the opening and closing plate 42a is in contact with the settling plate 343, and the water filtering holes 42c are in a cavity structure with a wide inlet and a narrow outlet, so that the water on the upper layer can permeate through the water filtering holes, and the filtered water can be prevented from flowing backwards.

The crushing mechanism 344 comprises a water outlet pipe 44a, an impact shaft 44b, cutting rods 44c, guide rings 44d and springs 44e, wherein the water outlet pipe 44a is arranged at the left end inside the lower guide frame 341, the water outlet pipe 44a is communicated with the water pump 1, the impact shaft 44b is arranged at the center inside the water outlet pipe 44a, the cutting rods 44c are welded on the outer side of the impact shaft 44b, the guide rings 44d penetrate through the cutting rods 44c in a clearance fit mode, the springs 44e are welded on the outer side of the cutting rods 44c, the number of the cutting rods 44c is four, the cutting rods 44c are arranged in four directions outside the impact shaft 44b, and the impact shaft 44b is subjected to impact rotation through water, so that the cutting rods 44c cut sand remaining in the water, and the sand is prevented from entering the water pump 1 to be blocked.

The specific use mode and function of the embodiment are as follows:

in the invention, the irrigation spray is absorbed by the seedling, the excess moisture flows downwards to enter the lower guide frame 341, the moisture carries certain sand, the moisture deposits the sand carried in the moisture through the depositing plate 343 in the lower guide frame 341, the deposited moisture permeates from the water filtering holes 42c on the upper layer of the opening and closing plate 42a to be filtered, when the filtered moisture is increased, the upper end of the opening and closing plate 42a rotates around the torsion shaft 42b, at this time, a certain gap exists between the lower end of the opening and closing plate 42a and the bottom of the inner side of the lower guide frame 341 to enable the moisture to flow, when the recovered moisture is excessive, the filtering speed is reduced, then the moisture enters the water outlet pipe 44a through the pumping of the water pump 1, the moisture impacts the impact shaft 44b, at this time, the cutting rod 44c on the outer side of the impact shaft 44b rotates around the guide ring 44, and the spring 44e generates elasticity, thereby cutting the sand in the moisture, avoiding that bigger sand granule enters into water pump 1 inside to take place to block up.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims

1. The utility model provides an energy-efficient seedling growth breeding device, its structure includes water pump (1), raceway (2), seedling raising box (3), rolling disc (4), motor (5), water pump (1) link up mutually with raceway (2) lower extreme to raceway (2) upper end is connected with seedling raising box (3) left side upper end, rolling disc (4) are established on seedling raising box (3) surface to motor (5) rotate its characterized in that through belt and rolling disc (4) synchronization:

seedling raising box (3) include box (31), spray thrower (32), plant mechanism (33), circulation mechanism (34), spray thrower (32) are installed to box (31) inside upper end to spray thrower (32) link up with raceway (2) upper end mutually, spray thrower (32) are located and plant mechanism (33) top, plant mechanism (33) and rolling disc (4) synchronous revolution, circulation mechanism (34) are established at box (31) inside lower extreme to circulation mechanism (34) are located and plant mechanism (33) below, circulation mechanism (34) left end link up with water pump (1) mutually.

2. An energy-efficient seedling growth breeding device as claimed in claim 1, characterized in that: it includes rotor plate (331), plants groove (332), the hole of permeating water (333), leaks mechanism (334) down to plant mechanism (33), rotor plate (331) middle-end rotates with rolling disc (4) are synchronous, the inside upper end of rotor plate (331) has inlayed planting groove (332) to it has the hole of permeating water (333) to plant groove (332) inboard lower extreme, it is inconsistent with rotor plate (331) bottom surface middle-end to leak mechanism (334) up end down.

3. An energy-efficient seedling growth breeding device as claimed in claim 2, characterized in that: the lower leakage mechanism (334) comprises a partition plate (34 a), a guide elastic rod (34 b), a sealing plate (34 c), a lower leakage hole (34 d) and a push rod (34 e), the upper end face of the partition plate (34 a) is abutted to the middle end of the bottom face of a rotating plate (331), the upper end of the guide elastic rod (34 b) penetrates through the partition plate (34 a) in a clearance fit mode, the bottom of the sealing plate (34 c) is abutted to the upper end face of the partition plate (34 a), the sealing plate (34 c) is fixed to the top of the push rod (34 e), the lower end of the push rod (34 e) is fixedly installed inside the push rod (34 e), the lower leakage hole (34 d) penetrates through the partition plate (34 a), and the push rod (34 e) penetrates through the lower leakage hole (34 d) in a clearance fit mode.

4. An energy-efficient seedling growth breeding device as claimed in claim 1, characterized in that: the circulation mechanism (34) comprises a lower guide frame (341), a water filtering mechanism (342), a settling plate (343) and a crushing mechanism (344), the lower guide frame (341) is fixedly installed at the lower end inside the box body (31), the water filtering mechanism (342) is installed inside the lower guide frame (341), the settling plate (343) is arranged on the bottom surface of the inner side of the lower guide frame (341), the settling plate (343) is abutted to the lower end of the water filtering mechanism (342), the crushing mechanism (344) is arranged at the left end inside the lower guide frame (341), and the lower guide frame (341) is communicated with the water pump (1).

5. An energy-efficient seedling growth breeding device as claimed in claim 4, characterized in that: the water filtering mechanism (342) comprises an opening and closing plate (42 a), a torsion shaft (42 b) and a water filtering hole (42 c), the upper end of the opening and closing plate (42 a) is hinged with the upper end of the inner side of the lower guide frame (341) through the torsion shaft (42 b), the water filtering hole (42 c) penetrates through the inner part of the upper end of the opening and closing plate (42 a), and the lower end of the opening and closing plate (42 a) is abutted to the settling plate (343).

6. An energy-efficient seedling growth breeding device as claimed in claim 4, wherein: crushing mechanism (344) include outlet pipe (44 a), impact shaft (44 b), cut pole (44 c), guide ring (44 d), spring (44 e), outlet pipe (44 a) are established and are established at the inside left end of lower guide frame (341) to outlet pipe (44 a) link up with water pump (1) mutually, outlet pipe (44 a) inside center is equipped with impact shaft (44 b), impact shaft (44 b) outside welding has cuts pole (44 c), and guide ring (44 d) adopt clearance fit to run through inside cutting pole (44 c), it has spring (44 e) to cut pole (44 c) outside welding.