CN209897907U - Tissue culture bottle for seedling raising of purple common trident bletilla striata - Google Patents

Abstract

The utility model provides a purple trident tuber of hyacinth bletilla group banks up bottle with earth of growing seedlings, including last bottle, lower bottle, bottle lid, group banks up dish, nutrient solution supply area, layer board, connecting portion, nourishment supply tube, through-hole, stopple, cultivation groove with earth. A tissue culture disc is arranged in the lower bottle body and is bridged at the corresponding position of the upper end of the lower bottle body, and a culture groove is arranged at the upper end of the tissue culture disc; the nutrient supply pipe penetrates through the middle position of the upper end of the bottle cap and penetrates through the lower end of the tissue culture disc to be connected with the supporting plate. The utility model discloses purple trident tuber of hyacinth bletilla group banks up bottle with earth is grown seedlings, sets up the bottle through group and forms with lower bottle connection to form can be in the seedling maturity, when practicing thrift out the bottle greatly, and can not cause the injury because of going out the bottle to rhizome and stem leaf. Avoid the harm that the bacterium invasion caused to the seedling when opening the bottle lid and supply nutrients among the prior art. Can greatly improve the bottle-out rate and the transplanting survival rate, and has very high practicability.

Description

Tissue culture bottle for seedling raising of purple common trident bletilla striata

Technical Field

The utility model relates to a tuber of hyacinth bletilla cultivation equipment technical field, in particular to set up bottle with earth of purple trident tuber of hyacinth bletilla seedlings of growing seedlings.

Background

The bletilla striata is dried rhizome of bletilla striata of bletilla genus of Orchidaceae family. Can be used for treating pulmonary tuberculosis hemoptysis, bronchiectasis, hemoptysis, gastric ulcer, hematemesis, hematuria, and hematochezia; mainly produced in Sichuan, Yunnan, Shaanxi, Gansu provinces and other provinces, and cultivated in all parts of the country; the existing bletilla striata tissue culture bottle is single in structure, and a bottle cap needs to be opened to supply nutrients to the bottle cap in the using process, so that bacteria invade along with the opening of the bottle cap to damage bletilla striata seedlings after long-time operation; meanwhile, when the seedlings of the splendid achnatherum are mature and need to be moved out for cultivation, the existing tissue culture bottle needs to be transplanted in a single plant, so that the damage to the cultivated seedlings cannot be avoided, and the later stage transplanting efficiency and the survival rate are directly influenced.

SUMMERY OF THE UTILITY MODEL

For solving the not enough among the prior art, the to-be-solved technical problem of the utility model is to provide a need not to open the group and organize the bottle and can carry out the purple flower trident tuber of hyacinth bletilla group that the nourishment supplied with to grow seedlings and group banks up the bottle with earth.

The scheme of the utility model is that:

a tissue culture bottle for seedling raising of bletilla striata with trifoliate violet comprises an upper bottle body, a lower bottle body, a bottle cap, a tissue culture tray, a nutrient solution supply area, a supporting plate, a connecting part, a nutrient supply pipe, a through hole, a hole plug and a culture groove. The whole tissue culture bottle is of a cylindrical transparent hollow structure, and the upper bottle body and the lower bottle body are buckled together to form a connecting part. The upper bottle body is arranged at the upper end of the whole tissue culture bottle; the lower bottle body is arranged at the lowest end of the whole tissue culture bottle; the bottle cap is arranged at the uppermost end of the whole tissue culture bottle; the bottle cap and the upper bottle body are connected into a whole. A tissue culture disc is arranged in the lower bottle body and is bridged at the corresponding position of the upper end of the lower bottle body, and a culture groove is arranged at the upper end of the tissue culture disc; the cultivating groove is in an arc groove structure. The nutrient supply pipe penetrates through the middle position of the upper end of the bottle cap and penetrates through the lower end of the tissue culture disc to be connected with the supporting plate. The supporting plate is arranged at the corresponding position in the middle of the lower end of the tissue culture disc and is bonded with the tissue culture disc. The lower end of the tissue culture disc is of a hollow structure to form a nutrient solution supply area. The center of the bottle cap is also provided with a through hole; the upper end of the through hole is also provided with a hole plug for sealing the whole bottle body cultivation growth area.

Preferably, in order to ensure that nutrient solution in the nutrient supply area can be smoothly absorbed by seedlings in the culture groove at the upper end of the tissue culture tray, the tissue culture tray is made of water absorbing materials.

Preferably, the connecting part is formed by mutually buckling an outer bulge at the lower end of the upper bottle body and an inner bulge at the upper end of the lower bottle body.

Preferably, the upper bottle body is in threaded connection with a connecting part formed by the lower bottle body.

Preferably, the number of the culture grooves at the upper end of the tissue culture disc is several.

The utility model discloses purple trident tuber of hyacinth bletilla group banks up bottle with earth is grown seedlings, sets up the bottle through group and forms with lower bottle connection to form can be in the seedling maturity, when practicing thrift out the bottle greatly, and can not cause the injury because of going out the bottle to rhizome and stem leaf. Simultaneously, when carrying out the nourishment when needing in the ground bottle and supply, need not to open the upper bottle body and can carry out the nourishment and supply, avoid among the prior art opening the bottle lid and supply the harm that the nourishment was caused to the bacterium invasion. Can greatly improve the bottle-out rate and the transplanting survival rate, and has very high practicability.

Drawings

FIG. 1: do the utility model discloses the structure sketch map of the trident tuber of hyacinth bletilla group banks up bottle with earth of purple flower.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in figure 1, the tissue culture bottle for seedling raising of bletilla striata trifoliata comprises an upper bottle body 1, a lower bottle body 2, a bottle cap 3, a tissue culture tray 4, a nutrient solution supply area 5, a supporting plate 6, a connecting part 7, a nutrient supply pipe 8, a through hole 9, a hole plug 10 and a culture groove 11. Whole group banks up the bottle with earth and becomes cylindrical transparent hollow structure, goes up bottle 1 and sets up together with 2 locks of lower bottle, forms connecting portion 7. The upper bottle body 1 is arranged at the upper end of the whole tissue culture bottle; the lower bottle body 2 is arranged at the lowest end of the whole tissue culture bottle; the bottle cap 3 is arranged at the uppermost end of the whole tissue culture bottle; the bottle cap 3 is connected with the upper bottle body 1 into a whole. A tissue culture disc 4 is arranged in the lower bottle body 2, the tissue culture disc 4 is bridged at the corresponding position of the upper end of the lower bottle body 2, and a culture groove 11 is arranged at the upper end of the tissue culture disc 4; the cultivating groove 11 is in an arc groove structure. The nutrient supply pipe 8 penetrates through the middle position of the upper end of the bottle cap 3 and penetrates through the lower end of the tissue culture disc 4 to be connected with the supporting plate 6. The supporting plate 6 is arranged at the corresponding position of the middle part of the lower end of the tissue culture disc 4 and is bonded with the tissue culture disc 4. The lower end of the tissue culture disc 4 forms a hollow structure to form a nutrient solution supply area 5, and the nutrient solution supply area 5 is mainly used for supplying and containing nutrient solution in the tissue culture bottle. The center of the bottle cap 3 is also provided with a through hole 9; the upper end of the through hole 9 is also provided with a hole plug 10 for sealing the whole bottle body cultivation growth area.

Preferably, the tissue culture tray 4 is made of water absorbing material so that the nutrient solution in the nutrient supply area can be smoothly absorbed by the seedlings in the culture groove 11 at the upper end of the tissue culture tray 4.

Preferably, the connecting part 7 is formed by mutually fastening an outer protrusion at the lower end of the upper bottle body 1 and an inner protrusion at the upper end of the lower bottle body 2.

Preferably, the upper body 1 is screwed with the connecting part 7 formed by the lower body 2.

Preferably, the number of the culture grooves 11 at the upper end of the tissue culture dish 4 is several.

The utility model discloses purple trident tuber of hyacinth bletilla group banks up bottle with earth of growing seedlings, during the use: open connecting portion 7, cultivate the tuber of hyacinth bletilla and plant and place in cultivating groove 11, then be connected fixedly with lower bottle 2 with last bottle 1, go up 1 upper end stopple 10 of bottle and articulate in 8 upper ends of nourishment supply tube for it cultivates the space to organize to form in the bottle to organize with earth. When the interior nutrient solution that needs of culture tank 11 supplies with, with nutrient solution through nutrient supply tube 8 carry the nutrient supply district can, when the seedling is ripe, only need open upper flask 1, outside the group culture bottle can be shifted out whole group culture dish 4 with tissue culture dish to the pulling nutrient supply tube 8, can reach the result of use.

The utility model discloses purple trident tuber of hyacinth bletilla group banks up bottle with earth is grown seedlings, sets up the bottle through group and forms with lower bottle connection to form can be in the seedling maturity, when practicing thrift out the bottle greatly, and can not cause the injury because of going out the bottle to rhizome and stem leaf. Simultaneously, when carrying out the nourishment when needing in the ground bottle and supply, need not to open the upper bottle body and can carry out the nourishment and supply, avoid among the prior art opening the bottle lid and supply the harm that the nourishment was caused to the bacterium invasion. Can greatly improve the bottle-out rate and the transplanting survival rate, and has very high practicability.

The embodiments of the present invention have been described in detail, 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 (5)

1. The utility model provides a purple trident tuber of hyacinth bletilla group banks up bottle with earth of growing seedlings which characterized in that: comprises an upper bottle body (1), a lower bottle body (2), a bottle cap (3), a tissue culture tray (4), a nutrient solution supply area (5), a supporting plate (6), a connecting part (7), a nutrient supply pipe (8), a through hole (9), a hole plug (10) and a cultivation groove (11); the whole tissue culture bottle is in a cylindrical transparent hollow structure, and the upper bottle body (1) and the lower bottle body (2) are buckled together to form a connecting part (7); the upper bottle body (1) is arranged at the upper end of the whole tissue culture bottle; the lower bottle body (2) is arranged at the lowest end of the whole tissue culture bottle; the bottle cap (3) is arranged at the uppermost end of the whole tissue culture bottle; the bottle cap (3) is connected with the upper bottle body (1) into a whole; a tissue culture disc (4) is arranged in the lower bottle body (2), the tissue culture disc (4) is bridged at the corresponding position of the upper end of the lower bottle body (2), and a culture groove (11) is arranged at the upper end of the tissue culture disc (4); the cultivating groove (11) is in an arc groove structure; the nutrient supply pipe (8) penetrates through the middle position of the upper end of the bottle cap (3) and penetrates through the lower end of the tissue culture disc (4) to be connected with the supporting plate (6); the supporting plate (6) is arranged at the corresponding position of the middle part of the lower end of the tissue culture disc (4) and is bonded with the tissue culture disc (4); the lower end of the tissue culture disc (4) is of a hollow structure to form a nutrient solution supply area (5); the center of the bottle cap (3) is also provided with a through hole (9); the upper end of the through hole (9) is also provided with a hole plug (10) for sealing the whole bottle body cultivation growth area.

2. The tissue culture bottle for cultivating bletilla striata seedlings as claimed in claim 1, wherein: the tissue culture disc (4) is made of water absorption materials.

3. The tissue culture bottle for cultivating bletilla striata seedlings as claimed in claim 1, wherein: the connecting part (7) is formed by mutually buckling an outer bulge at the lower end of the upper bottle body (1) and an inner bulge at the upper end of the lower bottle body (2).

4. The tissue culture bottle for cultivating bletilla striata seedlings as claimed in claim 1 or 3, wherein: the upper bottle body (1) is in threaded connection with a connecting part (7) formed by the lower bottle body (2).

5. The tissue culture bottle for cultivating bletilla striata seedlings as claimed in claim 2, wherein: the number of the culture grooves (11) at the upper end of the tissue culture disc (4) is a plurality.

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