CN211982847U

CN211982847U - Codonopsis pilosula seedling transplantation culture rack

Info

Publication number: CN211982847U
Application number: CN201922042074.2U
Authority: CN
Inventors: 张玉强
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-23
Filing date: 2019-11-23
Publication date: 2020-11-24
Anticipated expiration: 2029-11-23

Abstract

The utility model discloses a codonopsis pilosula seedling raising and transplanting cultivation frame, which comprises cultivation tanks and seedling raising bodies, wherein the seedling raising bodies are respectively placed in the cultivation tanks, the top ends of the seedling raising bodies are assembled with snap rings along openings, the upper ends of the seedling raising bodies are assembled with connecting plates, through holes corresponding to the number of the seedling raising bodies are formed in the connecting plates, the seedling raising bodies respectively vertically pass through the through holes, and lifting structures are assembled on the connecting plates; this culture rack is transplanted in growing seedlings of radix codonopsis, and is rational in infrastructure, the modern design, adopt detachable structure between the seedling body and the cultivation jar, the overwhelming majority root system of radix codonopsis seedling is all internal at growing seedlings, when both separate, can not harm the root system, the seedling body adopts biodegradable material simultaneously, can directly bury the seedling body in soil when transplanting, need not separate seedling and seedling body, and can go up and down simultaneously with the seedling body on a connecting plate through elevation structure, staff's labour has been reduced, be convenient for plant on a large scale.

Description

Codonopsis pilosula seedling transplantation culture rack

Technical Field

The utility model relates to a technical field that grows seedlings specifically is a Codonopsis pilosula is grown seedlings and is transplanted culture rack.

Background

Radix codonopsitis is a commonly used traditional tonifying medicine in China, and the radix codonopsitis produced in Shanxi Shandangshen area is used as a superior product in ancient times, so that the radix codonopsitis has the effects of tonifying middle-jiao and Qi, and tonifying spleen and lung. Radix Codonopsis has effects of enhancing immunity, dilating blood vessel, lowering blood pressure, improving microcirculation, and improving hemopoiesis function. In addition, the composition has an effect of improving leucocyte reduction caused by chemotherapy and radiotherapy. Therefore, the industrialized planting of the codonopsis pilosula has wide market prospect.

The codonopsis pilosula is planted by a seed direct seeding method and a seedling transplanting method generally, and the codonopsis pilosula produced by the seed direct seeding method has good quality, but the production period of the codonopsis pilosula reaches three to five years. The codonopsis pilosula produced by the seedling transplanting method is suitable for large-scale industrialized planting due to the relatively short production period. However, root systems are easily damaged in the seedling and transplanting process, root buds are rotten to cause seedling shortage, the success rate of planting is greatly affected, and therefore the codonopsis pilosula seedling and transplanting cultivation frame is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a codonopsis pilosula is grown seedlings and is transplanted culture rack to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a codonopsis pilosula seedling raising and transplanting cultivation frame comprises a plurality of cultivation tanks and seedling raising bodies corresponding to the cultivation tanks in number, wherein the cultivation tanks are uniformly distributed in an array mode, the seedling raising bodies are respectively placed in the cultivation tanks, clamping rings are assembled at the top ends of the seedling raising bodies along openings, a connecting plate is assembled at the upper ends of the seedling raising bodies, through holes corresponding to the seedling raising bodies in number are formed in the connecting plate, the seedling raising bodies vertically penetrate through the through holes respectively, the clamping rings are clamped on the upper surfaces of the connecting plate, and a lifting structure is assembled on the connecting plate;

the lifting structure comprises a pair of supporting columns with the same structure, the supporting columns are positioned on the left side and the right side of the connecting plate, threaded rods are spirally assembled in the supporting columns, connecting cylinders are assembled at the upper ends of the threaded rods together, the threaded rods are rotatably connected with the connecting cylinders, rotating shafts penetrate through the connecting cylinders, bearings are assembled on the left side and the right side of an inner cavity of each connecting cylinder, a pair of bearing outer rings are installed on the inner ring surfaces of the connecting cylinders, the rotating shafts penetrate through a pair of bearing inner rings and are fixedly connected with the bearing inner rings, a pair of first gears with the same structure are assembled on the rotating shafts and are respectively positioned on the left side and the right side of the connecting cylinders, the first gears are respectively meshed with a second gear, the pair of second gears are respectively sleeved on the threaded rods, connecting rods are assembled on the left side and the right side of the lower end of each connecting, the right end of the rotating shaft is provided with a rotating handle.

Compared with the prior art, the beneficial effects of the utility model are that: this culture rack is transplanted in growing seedlings of radix codonopsis, and is rational in infrastructure, and the modern design, adopt detachable structure between the seedling body and the cultivation jar, the overwhelming majority root system of radix codonopsis seedling is all internal at growing seedlings, when both separate, can not harm the root system, the survival rate of radix codonopsis has been increased, the seedling body adopts biodegradable material simultaneously, can directly bury the seedling body in soil when transplanting, need not separate seedling and seedling body, the survival rate of seedling has further been increased, and can go up and down simultaneously with the seedling body on a connecting plate through elevation structure, staff's labour has been reduced, be convenient for plant on a large scale.

Drawings

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

FIG. 2 is a cross-sectional view taken along line F-F' of FIG. 1.

1-cultivating tank, 2-seedling culturing body, 3-clamping ring, 4-connecting plate, 5-through hole, 6-lifting structure, 61-support column, 62-threaded rod, 63-connecting cylinder, 64-rotating shaft, 65-bearing, 66-first gear, 67-second gear, 68-connecting rod, 69-rotating handle, 7-mounting plate and 8-spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: the utility model provides a culture rack is transplanted in growing seedlings of radix codonopsis, it includes a plurality of culture tank 1 and the body of growing seedlings 2 that corresponds with culture tank 1 quantity, a plurality of culture tank 1 become array evenly distributed, the body of growing seedlings 2 places respectively in culture tank 1, the body of growing seedlings 2 top is equipped with snap ring 3 along the opening, the body of growing seedlings 2 upper end is equipped with connecting plate 4, set up the through-hole 5 that corresponds with the body of growing seedlings 2 quantity on the connecting plate 4, the body of growing seedlings 2 is vertical respectively to pass through-

hole

5, and 3 joints of snap ring are in connecting plate 4 upper surface, be equipped with elevation structure 6 on connecting plate 4.

With breeding jar 1 fixed with subaerial, broadcast the seed and cultivate soil in the body of growing seedlings 2, will grow seedlings the body 2 and pass through-hole 5, make 3 cards of snap ring on the body of growing seedlings 2 on connecting plate 4, through adjusting elevation structure 6, control connecting plate 4 descends, lie in breeding jar 1 up to the lower extreme of the body of growing seedlings 2, fill the space between the body of growing seedlings 2 and breeding jar 1 and cultivate soil, when needs are transplanted, lift the body of growing seedlings 2 through elevation structure 6 and transplant.

The lifting structure 6 comprises a pair of supporting columns 61 with the same structure, the pair of supporting columns 61 are positioned at the left side and the right side of the connecting plate 4, threaded rods 62 are spirally assembled in the supporting columns 61, connecting cylinders 63 are assembled at the upper ends of the pair of threaded rods 62 together, the threaded rods 62 are rotatably connected with the connecting cylinders 63, rotating shafts 64 penetrate through the connecting cylinders 63, bearings 65 are assembled at the left side and the right side of an inner cavity of the connecting cylinders 63, outer rings of the pair of bearings 65 are installed on the inner ring surfaces of the connecting cylinders 63, the rotating shafts 64 penetrate through inner rings of the pair of bearings 65, the rotating shafts 64 are fixedly connected with the inner rings of the bearings 65, a pair of first gears 66 with the same structure are assembled on the rotating shafts 64, the pair of first gears 66 are respectively positioned at the left side and the right side of the connecting cylinders 63, the first gears 66 are respectively engaged and connected with second gears 67, the pair of second gears 67 are, the right end of the rotating shaft 64 is provided with a rotating handle 69.

The support 61 is fixed on the ground, the handle 69 is rotated by clockwise rotation, the rotating handle 69 is rotated to drive the rotating shaft 64 to rotate, meanwhile, the first gear 66 on the rotating shaft 64 rotates along with the rotating shaft, and then the second gear 67 meshed with the first gear 66 is driven to rotate, the threaded rod 62 is driven to rotate in the support 61 by the rotation of the second gear 67, so that the threaded rod 62 ascends to drive the connecting cylinder 63 to ascend, the connecting cylinder 63 is connected with the connecting cylinder 63 through the connecting rod 68, the connecting cylinder 63 ascends to drive the connecting plate 4 to ascend, the seedling raising body 2 is pulled out of the cultivating tank 1 when the connecting plate 4 ascends to be transplanted, and the threaded rod 62 descends when the handle 69 is rotated counterclockwise to place the seedling raising body 2 in the cultivating tank 1.

Preferably, the threads of the pair of threaded rods 62 are reversed, and when the first gear 66 drives the second gear 67 to rotate, the rotation direction between the pair of second gears 67 is reversed, and the threads of the pair of threaded rods 62 are reversed, so that the pair of threaded rods 62 can be lifted or lowered simultaneously.

Preferably, the clamping ring 3 and the seedling raising body 2 are integrally formed by injection molding.

Preferably, the seedling-raising body 2 and the retainer ring 3 are made of biodegradable material, and the seedling-raising body 2 can be directly buried in soil during transplantation.

Preferably, the lower end of the connecting cylinder 63 is horizontally provided with a plurality of mounting plates 7, an angle of 90 degrees is formed between the mounting plates 7 and the connecting cylinder 63, the lower surface of each mounting plate 7 is provided with a plurality of spray heads 8, the spray heads 8 are connected with a water source through water pipes, and the seedling-raising bodies 2 can be irrigated through the spray heads 8.

Preferably, the number of the mounting plates 7 is the same as the number of columns of the culture tanks 1, the number of the spray heads 8 on each mounting plate 7 is the same as the number of rows of the culture tanks 1, the number of the spray heads 8 is ensured to be the same as the number of the seedling-raising bodies 2, and each seedling-raising body 2 is ensured to be irrigated.

The utility model discloses a

nursery cabinet

2 and 1 disconnect-type design of culture tank can make things convenient for in the transplantation of the nursery cabinet 2, and the root majority of radix codonopsis is in the nursery cabinet 2, so can not harm the root of radix codonopsis when both separate, is favorable to surviving of radix codonopsis, the utility model discloses in can move up the nursery cabinet 2 on a connecting plate 4 on the whole through elevation structure 6, less staff's the amount of labour, it is more convenient when extensive planting.

Claims

1. A codonopsis pilosula seedling and transplanting cultivation frame is characterized by comprising a plurality of cultivation tanks (1) and seedling bodies (2) corresponding to the cultivation tanks (1) in number, wherein the cultivation tanks (1) are uniformly distributed in an array manner, the seedling bodies (2) are respectively placed in the cultivation tanks (1), snap rings (3) are assembled at the top ends of the seedling bodies (2) along openings, connecting plates (4) are assembled at the upper ends of the seedling bodies (2), through holes (5) corresponding to the seedling bodies (2) in number are formed in the connecting plates (4), the seedling bodies (2) vertically penetrate through the through holes (5) respectively, the snap rings (3) are clamped on the upper surfaces of the connecting plates (4), and lifting structures (6) are assembled on the connecting plates (4);

the lifting structure (6) comprises a pair of pillars (61) with the same structure, the pillars (61) are located on the left side and the right side of the connecting plate (4), threaded rods (62) are spirally assembled in the pillars (61), the threaded rods (62) are assembled with connecting cylinders (63) together, the threaded rods (62) are rotatably connected with the connecting cylinders (63), rotating shafts (64) penetrate through the connecting cylinders (63), bearings (65) are assembled on the left side and the right side of the inner cavity of the connecting cylinders (63), the outer rings of the bearings (65) are installed on the inner ring surface of the connecting cylinders (63), the rotating shafts (64) penetrate through the inner rings of the bearings (65), the rotating shafts (64) are fixedly connected with the inner rings of the bearings (65), a pair of gears (66) with the same structure are assembled on the rotating shafts (64), and the pair of gears (66) are respectively located on the left side and the right side of the connecting cylinders (63), first gear (66) mesh connection has No. two gear (67) respectively, and is a pair of No. two gear (67) suit respectively on threaded rod (62), connecting cylinder (63) lower extreme left and right sides is equipped with connecting rod (68), connecting rod (68) are kept away from connecting cylinder (63) and are held vertical the installation in connecting plate (4) upper surface, pivot (64) right-hand member is equipped with rotation handle (69).

2. A Codonopsis pilosula seedling transplantation cultivation shelf according to claim 1, wherein the threads on the pair of threaded rods (62) are reversed.

3. A Codonopsis pilosula seedling and transplanting cultivation rack as claimed in claim 1, wherein the snap ring (3) and the seedling raising body (2) are integrally formed by injection molding.

4. The codonopsis pilosula seedling and transplanting cultivation rack according to claim 1, wherein the seedling body (2) and the snap ring (3) are made of biodegradable materials.

5. A Codonopsis pilosula seedling and transplanting cultivation rack as claimed in claim 1, wherein the lower end of the connecting cylinder (63) is horizontally equipped with a plurality of mounting plates (7), an angle of 90 degrees is formed between each mounting plate (7) and the connecting cylinder (63), the lower surface of each mounting plate (7) is equipped with a plurality of spray heads (8), and the spray heads (8) are connected with a water source through water pipes.

6. A Codonopsis pilosula seedling and transplanting cultivation rack as claimed in claim 5, wherein the number of the mounting plates (7) is the same as the number of columns of the cultivation tanks (1), and the number of the spray heads (8) on each mounting plate (7) is the same as the number of rows of the cultivation tanks (1).