CN211322279U - Tea tree cuttage cabinet of growing seedlings - Google Patents

Abstract

The utility model discloses a tea tree cuttage cabinet of growing seedlings, include the tank bracket, educate seedling tray and educate seedling cup, be equipped with a plurality of layers on the tank bracket and educate seedling tray, educate seedling tray with the tank bracket passes through sliding linkage, educate seedling tray and be equipped with and place educate seedling cup's through-hole, educate seedling cup's lateral wall and open from the rim of a cup to bottom direction and have a pair of mutual symmetry be the banding breach, it is equipped with the miniature pipe that extends to the bottom of a cup from the rim of a cup on seedling cup's the inner wall, be equipped with the raceway on the tank bracket, the one end of raceway is connected miniature pipe, be equipped with first time-controlled valve on the raceway, each layer of tank bracket all is equipped with atomizer and LED lamp, atomizer connects the spray pipe, be equipped with the second time-. The utility model has the advantages of save occupation of land space, prevent to transplant and hinder the root, promote the cuttage to take root and improve the survival rate.

Description

Tea tree cuttage cabinet of growing seedlings

Technical Field

The utility model relates to a plant seedling growing technical field especially relates to a tea tree cuttage cabinet of growing seedlings.

Background

In the production and planting process of modern tea, in order to maintain the excellent shape of an excellent female parent while rapidly expanding the planting scale of tea trees, a cutting technology adopting asexual propagation is widely applied to tea tree seedling culture. The conventional tea tree cutting seedlings are planted in a nursery, and roots are easy to be damaged when the cutting seedlings are transplanted after the cutting seedlings survive; the traditional nursery garden is directly watered and fertilized on the surface of a matrix, so that seedlings are easy to root shallowly and have underdeveloped growing root systems, and the seedlings are easy to die after being transplanted out of the nursery garden; the environmental temperature and humidity are not easy to control, and the non-rooted scions are easy to die due to drought.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned technical problem, the utility model provides a tea tree cuttage cabinet of growing seedlings has the advantage of sparingly taking up an area of the space, preventing to transplant and hindering the root, promoting the cuttage to take root and improve the survival rate.

The technical scheme of the utility model is that:

the utility model provides a tea tree cuttage cabinet of growing seedlings, includes the tank bracket, educates seedling tray and educates seedling cup, be equipped with a plurality of layers on the tank bracket and educate seedling tray, educate seedling tray with the tank bracket passes through sliding linkage, educate seedling tray and be equipped with on be equipped with and place educate seedling cup's through-hole, educate seedling cup's lateral wall from the rim of a cup to bottom direction open have a pair of mutual symmetry be banding breach, be equipped with the micro duct that extends to the bottom of a cup from the rim of a cup on educating seedling cup's the inner wall, be equipped with the raceway on the tank bracket, the one end of raceway is connected micro duct, be equipped with first time control valve on the raceway, each layer of tank bracket all is equipped with atomizer and LED lamp, atomizer connects the spray pipe, be.

The tea tree cuttage seedling cultivation is carried out by adopting the seedling cultivation cabinet, and the multilayer seedling cultivation plate is arranged in the seedling cultivation cabinet, so that the occupied area can be saved, and the control on the growth environment variable of the cuttage seedlings is facilitated;

the seedling cup is in an inverted frustum shape, the side wall of the seedling cup is provided with mutually symmetrical splits, a seedling and a transplanting matrix are placed in the seedling cup, then the seedling cup is placed in the through hole of the seedling tray, the through hole is smaller than the opening of the seedling cup, the opening of the seedling cup is folded and the split on the side wall is contracted in the process of placing the seedling cup in the through hole, the matrix in the cup is compressed, and the matrix is tightly attached to the scion to facilitate rooting; the cutting seedlings survive and take roots, and then are transplanted, in order to guarantee the survival rate of the transplantation, the roots of the seedlings are protected from being damaged as much as possible and carry more soil, the side walls of the seedling-raising cups are provided with cracks, the seedling-raising cups are taken out of the through holes in the seedling-raising tray during the transplantation, the shape of the seedling-raising cups is restored, the cutting medium is easily separated from the seedling-raising cups, the roots are not easy to be damaged, and the survival rate of the transplantation is improved;

the micro guide pipe extends into the bottom of the seedling cup, water or fertilizer liquid can be directly conveyed to the bottom layer of the substrate, the downward growth of the roots of the cutting seedlings can be helped, the seedlings have developed root systems, and the survival rate of later-stage transplanting is improved;

in the cutting process, because the scion is lack of a root system, the scion is easy to lose moisture and die before rooting, so that an atomizing spray head controlled by a second time control valve is adopted to maintain air humidity and surface humidity of a cutting branch, the temperature is reduced, transpiration is reduced, and the dry death of the scion is prevented;

the LED lamps are arranged to provide illumination for photosynthesis of leaves on the scion, so that organic matter synthesis is promoted, and the root growth speed is increased;

to summer up, the utility model has the advantages of save occupation of land space, prevent to transplant and hinder the root, promote the cuttage and take root and improve the survival rate.

Preferably, a temperature and humidity sensor is arranged on the cabinet frame.

The temperature and humidity sensor is arranged on the cabinet frame, so that the temperature and humidity in the seedling raising cabinet are monitored, the growth temperature and humidity of the tea tree cutting seedlings are conveniently regulated, and the survival rate of the tea tree cutting seedlings is improved;

preferably, the distance between two adjacent through holes on the seedling raising plate is 4cm-8 cm.

The distance between the cuttage seedling is controlled, and the seedling is prevented from being sheltered from each other after growing to a certain height, and the illumination of the LED lamp is influenced.

Preferably, the distance between the two seedling culture plates adjacent to each other up and down of the cabinet frame is 15cm-30 cm.

The layer height of the cabinet frame is limited to 15cm-30cm, and enough space is reserved to prevent seedlings from mutually shielding light and blocking spray diffusion along with the growth of cuttage seedlings.

The utility model has the advantages that:

1. the utility model has the advantages of saving occupied space, preventing the roots from being damaged by transplanting, promoting the cuttage to take root and improving the survival rate;

2. the temperature and humidity sensor is arranged on the cabinet frame, so that the temperature and humidity in the seedling raising cabinet are monitored, the growth temperature and humidity of the tea tree cutting seedlings are conveniently regulated, and the survival rate of the tea tree cutting seedlings is improved;

3. controlling the distance between the cutting seedlings to prevent the seedlings from shading each other to influence LED light irradiation after the seedlings grow to a certain height;

4. the layer height of the cabinet frame is limited to 15cm-30cm, and enough space is reserved to prevent seedlings from mutually shielding light and blocking spray diffusion along with the growth of cuttage seedlings.

Drawings

Fig. 1 is a schematic structural view of a seedling cup in embodiment 1 of the present invention;

FIG. 2 is a sectional view of a micro duct of a seedling cup according to embodiment 1 of the present invention;

fig. 3 is a schematic view of the overall structure of the seedling raising cabinet of embodiments 1-4 of the present invention.

Description of reference numerals:

1. a cabinet frame; 101. a slide rail; 2. a seedling raising plate; 201. a through hole; 3. seedling raising cups; 301. a breach; 302. a micro catheter; 4. a water delivery pipe; 5. a first time control valve; 6. an atomizing spray head; 7. a spray tube; 8. a second time controlled valve; 9. an LED lamp; 10. temperature and humidity sensor.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

example 1:

as shown in fig. 1-3, a tea tree cuttage cabinet of growing seedlings, includes tank bracket 1, educates seedling tray 2 and educates seedling cup 3, be equipped with a plurality of layers on tank bracket 1 and educate seedling tray 2, educate seedling tray 2 with tank bracket 1 passes through slide rail 101 and connects, it places to be equipped with on educate seedling tray 2 educate seedling cup 3's through-hole 201, educate seedling cup 3's lateral wall from the rim of a cup to bottom direction and open and have a pair of mutual symmetry be banding breach 301, be equipped with on educating seedling cup 3's the inner wall and extend to the micro duct 302 of bottom of a cup from the rim of a cup, be equipped with raceway 4 on tank bracket 1, the one end of raceway 4 is connected micro duct 302, be equipped with first time control valve 5 on raceway 4, each layer of tank bracket 1 all is equipped with atomizer 6 and LED lamp 9, atomizer 6 connects spray pipe 7, be equipped with second time control valve 8 on spray pipe.

The tea tree cutting seedling cultivation is carried out by adopting the seedling cultivation cabinet, and the multilayer seedling cultivation plate 2 is arranged in the seedling cultivation cabinet, so that the occupied area can be saved, and the growth environment variable of the cutting seedling can be conveniently controlled;

the seedling cup 3 is in an inverted frustum shape, the side wall of the seedling cup 3 is provided with the mutually symmetrical cracks 301, seedlings and transplanting substrates are placed in the seedling cup 3, then the seedling cup 3 is placed in the through hole 201 of the seedling tray 2, the through hole 201 is smaller than the opening of the seedling cup 3, the opening of the seedling cup 3 is folded in and the cracks 301 on the side wall shrink in the process that the seedling cup 3 is placed in the through hole 201, the substrate in the cup is compressed, and the substrate is tightly attached to the scion to facilitate rooting; transplanting is carried out after the cutting seedlings survive and take roots, in order to guarantee the transplanting survival rate, the roots of the seedlings are protected from being damaged as much as possible and carry more soil, the side walls of the seedling cup 3 are provided with the cracks 301, when in transplanting, the seedling cup 3 is taken out of the through holes 201 on the seedling tray 2, the shape of the seedling cup 3 is restored, the cutting matrix is easily separated from the seedling cup 3, the roots are not easy to be damaged, and the transplanting survival rate is improved;

the micro guide pipe 302 extends into the bottom of the seedling cup 3, water or fertilizer liquid can be directly conveyed to the bottom layer of the substrate, the downward growth of the roots of the cuttage seedlings can be helped, the seedlings have developed root systems, and the survival rate of later-stage transplantation is improved;

in the cutting process, because the scion wood lacks a root system, the scion wood is easy to lose moisture and die before rooting, so that the atomizing spray head 6 controlled by the second time control valve 8 is adopted to maintain the air humidity and the surface humidity of the cutting branches, reduce the temperature and reduce transpiration to prevent the scion wood from being died;

the LED lamps 9 are arranged to provide illumination for photosynthesis of leaves on the scion, so that organic matter synthesis is promoted, and the root growth speed is increased;

to summer up, the utility model has the advantages of save occupation of land space, prevent to transplant and hinder the root, promote the cuttage and take root and improve the survival rate.

Example 2:

as shown in fig. 3, the embodiment 2 is an improvement on the embodiment 1, and a temperature and humidity sensor 10 is arranged on the cabinet frame 1.

A temperature and humidity sensor 10 is arranged on the cabinet frame 1, so that the temperature and humidity in the seedling raising cabinet are monitored, the growth temperature and humidity of the tea tree cutting seedlings are conveniently regulated, and the survival rate of the tea tree cutting seedlings is improved;

example 3:

as shown in fig. 3, the embodiment 3 is improved on the basis of the embodiment 2, and the distance between two adjacent through holes 201 on the seedling raising tray 2 is 4cm-8 cm.

The distance between the cuttage seedling is controlled, and the seedling is prevented from being shielded to a certain height and affecting the illumination of the LED lamp 9.

Example 4:

as shown in fig. 3, the embodiment 4 is an improvement on the embodiment 3, and the distance between two seedling raising trays 2 adjacent to each other above and below the cabinet frame 1 is 15cm-30 cm.

The height of the layer 1 of the cabinet frame is limited to 15cm-30cm, and enough space is reserved to prevent seedlings from mutually shielding light and blocking spray diffusion along with the growth of cuttage seedlings.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (4)

1. The utility model provides a tea tree cuttage cabinet of growing seedlings, its characterized in that includes the tank bracket, educates seedling tray and educates seedling cup, be equipped with a plurality of layers on the tank bracket and educate seedling tray, educate seedling tray with the tank bracket passes through sliding rail connection, educate seedling tray and be equipped with on the seedling tray and place educate seedling cup's through-hole, educate seedling cup's lateral wall from the rim of a cup to bottom direction open have a pair of mutual symmetry be banding breach, it extends to the bottom of a cup's miniature pipe to be equipped with on seedling cup's the inner wall from the rim of a cup, be equipped with the raceway on the tank bracket, the one end of raceway is connected miniature pipe, be equipped with first time control valve on the raceway, each layer of tank bracket all is equipped with atomizer and LED lamp, atomizer connects the spray pipe.

2. The cabinet for raising seedlings of tea trees by cutting according to claim 1, wherein a temperature and humidity sensor is arranged on the cabinet frame.

3. The cabinet for raising tea trees by cutting according to claim 2, wherein the distance between two adjacent through holes on the seedling raising tray is 4cm-8 cm.

4. The cabinet for raising seedlings of cutting tea trees according to claim 3, wherein the distance between two seedling raising trays adjacent to each other above and below the cabinet frame is 15cm-30 cm.

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