CN114982529A - Tea tree breeding device capable of improving survival rate - Google Patents

Abstract

The invention discloses a tea tree breeding device capable of improving the survival rate, which structurally comprises a breeding device, a box door, a display screen, a box body and a support.

Description

Tea tree breeding device capable of improving survival rate

Technical Field

The invention relates to the technical field of tea tree breeding, in particular to a tea tree breeding device capable of improving the survival rate.

Background

In the planting process of tea trees, seedling raising treatment needs to be carried out on tea tree seeds firstly, the tea tree breeding is used for later-stage tea tree cultivation, the tea tree breeding is a method and measure for breeding new tea tree species, the tea tree breeding technology can be divided into conventional breeding and new-technology breeding, the former comprises systematic seed selection (namely single plant seed selection), group seed selection, mixed seed selection, cross breeding, heterosis utilization, polyploid breeding, radiation breeding and the like, the latter comprises haploid breeding, high-light-efficiency breeding, tissue culture, somatic cell hybridization, laser breeding and the like, and when the tea trees are bred, places needing improvement are formed:

when tea trees are bred, tea tree seeds are normally planted in a plurality of cultivation tanks in a cultivation box, the planted tea tree seedlings are bred and watered quickly and conveniently through a plurality of water spraying heads, when the seedlings grow to a proper degree, the seedlings are dug out by using an artificial tool to be transplanted, the survival rate is effectively improved, when the tea tree seedlings are sprayed by the plurality of water spraying heads, the water spraying heads spray and water from top to bottom, so that the sprayed water is sequentially reduced from the upper part to the lower part, the tea tree seedlings on the cultivation tanks are not uniformly sprayed in the batch watering process of the tea tree seedlings, the growth of the tea trees is influenced, the seedlings are dug out and transplanted by directly using a tool shovel in the later period, the roots of the seedlings are difficult to touch and damage due to the fact that the tips of the tool shovel hardly touch, and the later-period cultivation is directly influenced, resulting in a decreased survival rate for tea plant breeding.

Disclosure of Invention

Aiming at the defects in the prior art, the invention is realized by the following technical scheme: the utility model provides a can improve tea tree breeding device of survival rate, its structure includes breeding device, chamber door, display screen, box, support, breeding device establishes inside the box, the box passes through hinged joint with the chamber door, the support is installed to the bottom half, be equipped with the display screen on the box.

As the further optimization of the invention, the cultivating device comprises a transmission conveying piece, a connecting seat, a rotating component, a flow dividing pipe, a spraying piece, a water tank and a cultivating box, wherein the transmission conveying piece is arranged at the bottom of the cultivating box, the rotating component is arranged in the cultivating box, the cultivating box is fixedly connected to the connecting seat, the cultivating box is provided with the spraying piece communicated with the cultivating box, the spraying piece is communicated with the water tank, the water tank is connected with the flow dividing pipe, the other end of the flow dividing pipe is connected to the inside of the cultivating box, and the cultivating box is arranged in the box body.

The rotating assembly comprises a plurality of placing supporting parts, belt pulleys, reinforcing rings, a central rotating shaft, hanging cross rods, a conveying belt and herringbone connecting rods, wherein the placing supporting parts are connected with the herringbone connecting rods, one ends of the herringbone connecting rods, far away from the placing supporting parts, are connected with the hanging cross rods through rotating shafts, the hanging cross rods are connected with the belt pulleys in an inserted mode, the belt pulleys are connected with the central rotating shaft in an inosculating mode, the reinforcing rings are connected in the middle of the hanging cross rods, the belt pulleys are in transmission connection with the conveying belt, and the placing supporting parts are arranged inside the cultivating box.

As further optimization of the invention, the placing support piece comprises an installation clamping seat, a seedling tray and an adjusting bolt, the seedling tray is installed in the installation clamping seat, the installation clamping seat is connected with the seedling tray through the adjusting bolt, the installation clamping seat is connected with a herringbone connecting rod, and the installation clamping seat is arranged in the cultivation box.

The invention further optimizes the content, the installation clamping seat comprises a lifting support rod, triangular supports, a plug board, support rods, limiting blocks, a protective blocking piece, a cultivation groove and an outer frame, the lifting support rod is plugged in the middle position of the lower end in the outer frame, the triangular supports are connected to two sides of the other end of the lifting support rod, the triangular supports and the lifting support rod are connected to the middle position of the bottom of the plug board, a plurality of support rods are plugged in the top of the plug board, the other end of each support rod is plugged in the protective blocking piece, the protective blocking piece is arranged on the cultivation groove, the cultivation grooves are provided with a plurality of cultivation grooves, the plurality of cultivation grooves are arranged on a seedling tray, the limiting blocks connected with the seedling tray are arranged between the seedling tray and the outer frame, the seedling tray is connected with the outer frame through adjusting bolts, the outer frame is connected with herringbone connecting rods, and the outer frame is arranged in the cultivation box.

The protective blocking piece comprises two blocking plates, an inserting block and a connecting clamping piece, the two blocking plates are symmetrically inserted into the two connecting clamping pieces, one end, far away from the blocking plates, of the connecting clamping piece is fixedly connected with the side edge of the inserting block, the inserting block is inserted into the supporting rod, and the blocking plates are arranged on the cultivation groove.

As a further optimization of the invention, the connecting clamping piece comprises a drawing limiting piece, an inosculating strip, a first connecting plate, a connecting channel, a second connecting plate and a butt-joint plug-in piece, wherein the drawing limiting piece is connected between the first connecting plate and the second connecting plate, the inosculating strip and the connecting channel are arranged on the first connecting plate and the second connecting plate, the connecting channel is connected with the butt-joint plug-in piece, the second connecting plate is connected with the baffle, and the first connecting plate is fixedly connected with the side edge of the plug-in block.

As the further optimization of the invention content, two triangular supports are symmetrically arranged at two sides of the lifting support rod, and the two triangular supports are connected to form a T-shaped structure.

As a further optimization of the invention, the first connecting plate and the second connecting plate are connected through an anastomosis strip to form an L-shaped structure.

Advantageous effects

The tea tree breeding device capable of improving the survival rate has the following beneficial effects:

1. the tea tree cultivation device comprises a rotary component, a transmission conveying component, a connecting seat, a rotary component, a flow dividing pipe, a spraying component, a water tank and a cultivation box, wherein the rotary component is arranged on the transmission conveying component in a distributed mode, the rotary component is driven by the transmission conveying component to rotate in the cultivation box at a uniform speed, the spraying component and the flow dividing pipe are connected to the top and the left side and the right side of the cultivation box respectively, and the spraying component and the flow dividing pipe are matched with each other to spray and water tea tree young seeds on the rotary component.

2. According to the tea tree seed spraying device, the placing support pieces, the belt pulley, the reinforcing ring, the central rotating shaft, the hanging cross rods, the conveying belt and the herringbone connecting rods are combined, the hanging cross rods are radially and uniformly distributed at equal intervals by taking the central rotating shaft as the center, the positions of the hanging cross rods are limited by the reinforcing ring, so that the intervals among the hanging cross rods are kept consistent, the end parts of the hanging cross rods are connected with the herringbone connecting rods, the placing support pieces are connected onto the hanging cross rods under the action of the herringbone connecting rods, the belt pulley is connected with the transmission conveying pieces under the action of the conveying belt to drive the placing support pieces to rotate at a constant speed, the placing support pieces are in vertical rotating motion in the cultivation box, the placing support pieces are in intermittent contact with high humidity, and tea tree seed seedlings can be uniformly and effectively sprayed.

3. According to the invention, the seedling tray is arranged on the outer frame through the combined arrangement of the lifting support rod, the triangular support, the insertion plate, the support rod, the limiting block, the protection blocking piece, the cultivation groove and the outer frame, the seedling tray is fixedly connected with the outer frame through the adjusting bolt, the limiting block is used for limiting the seedling tray to prevent the seedling tray from moving left and right on the outer frame, the top of the support rod is inserted into the cultivation groove, tea tree seedlings to be cultivated are scattered and cultivated on the cultivation groove, when transplanting is required after cultivation is finished, the triangular support and the lifting support rod stably combine the insertion plate and the support rod to jack the cultivation groove upwards, the cultivation groove is displayed outwards, and the protection blocking piece is separated from the cultivation groove, so that the tea tree seedlings and cultivation soil can be taken down from the cultivation groove for transplanting.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of a device for breeding tea trees according to the present invention, which can improve the survival rate;

FIG. 2 is a schematic view showing the internal structure of the cultivation apparatus of the present invention.

FIG. 3 is a side view of the rotating assembly of the present invention.

FIG. 4 is a schematic top view of the tray of the present invention.

Fig. 5 is a schematic view of the internal structure of the mounting socket of the present invention.

FIG. 6 is a cross-sectional view of the protective barrier according to the present invention.

Fig. 7 is a schematic view of the internal structure of the engagement fastener of the present invention.

In the figure: the cultivation device 1, a box door 4, a display screen 2, a box body 5, a support 3, a transmission conveying piece Q1, a connecting seat E3, a rotating assembly Y5, a shunt pipe W2, a spraying piece I7, a water tank T4, a cultivation box U6, a placing support piece R11, a belt pulley U14, a reinforcing ring T12, a central rotating shaft P16, a hanging cross rod Y13, a conveying belt I15, a herringbone connecting rod A17, a mounting clamping seat D21, a seedling tray F23, an adjusting bolt G22, a lifting support rod K31, a triangular support Z33, a plug board C35, a supporting rod L32, a limiting block V36, a protective blocking piece B38, a cultivation groove X34, an outer frame V37, a baffle C41, a plug block V43, a clamping piece N42, an engaging limiting piece E51, an anastomotic bar I56, a first connecting plate Y54, a connecting channel T52, a second U52 and a plug-in-joint.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a can improve tea tree breeding device of survival rate, its structure includes breeding device 1, chamber door 4, display screen 2, box 5, support 3, breeding device 1 establishes inside box 5, box 5 passes through hinged joint with chamber door 4, support 3 is installed to 5 bottoms of box, be equipped with display screen 2 on box 5.

Referring to fig. 2, the cultivation device 1 includes a transmission element Q1, a connection seat E3, a rotation assembly Y5, a diversion pipe W2, a spraying element I7, a water tank T4 and a cultivation box U6, the transmission element Q1 is installed at the bottom of the cultivation box U6, the rotation assembly Y5 is installed inside the cultivation box U6, the cultivation box U6 is fixedly connected to the connection seat E3, the cultivation box U6 is provided with the spraying element I7 communicated with the connection seat, the spraying element I7 is communicated with the water tank T4, the water tank T4 is connected with the diversion pipe W2, the other end of the diversion pipe W2 is connected inside the cultivation box U6, and the cultivation box U6 is installed inside the box body 5.

The branch pipe W2 is used for being matched with a spraying piece I7, the spraying piece I7 and the branch pipe W2 are connected with a water tank T4, and the spraying piece I7 and the branch pipe W2 are respectively connected to the top and the left and right sides of the incubator U6, so that tea tree seedlings in the incubator U6 can be effectively sprayed and watered.

Referring to fig. 3, the rotating assembly Y5 includes a plurality of placing holders R11, a belt pulley U14, a reinforcing ring T12, a central rotating shaft P16, a hanging cross bar Y13, a conveying belt I15, and a herringbone connecting rod a17, the placing holders R11 are provided with a plurality of herringbone connecting rods a17, the plurality of placing holders R11 are connected with the herringbone connecting rods a17, one end of the herringbone connecting rod a17 away from the placing holder R11 is connected with the hanging cross bar Y13 through a rotating shaft, the hanging cross bar Y13 is provided with a plurality of hanging cross bars Y13 inserted into the belt pulley U14, the belt pulley U14 is connected with the central rotating shaft P16 in a matching manner, the reinforcing ring T12 is connected to the middle position of the hanging cross bar Y13, the belt pulley U14 is connected with the conveying belt I15 in a transmission manner, and the placing holder R11 is arranged inside the cultivating box U6.

The reinforcing rings T12 are used for matching with the hanging cross bar Y13, the hanging cross bar Y13 is provided with a plurality of the reinforcing rings, the hanging cross bar Y13 is limited on the corresponding position through the reinforcing rings T12, so that when a plurality of hanging cross bars Y13 rotate simultaneously, the intervals of the hanging cross bars Y13 are equal, and the intervals between the hanging cross bars Y13 are prevented from being large or small.

Referring to fig. 4, the placing tray R11 includes an installation cassette D21, a seedling tray F23, and an adjusting bolt G22, the seedling tray F23 is installed inside the installation cassette D21, the installation cassette D21 is connected to the seedling tray F23 through the adjusting bolt G22, the installation cassette D21 is connected to a herringbone connecting rod a17, and the installation cassette D21 is installed inside the cultivation box U6.

Referring to fig. 5, the mounting seat D21 includes a lifting support rod K21, a triangular support Z21, a plug board C21, a support rod L21, a limit block V21, a protective barrier B21, a plurality of culture grooves X21 and an outer frame V21, the lifting support rod K21 is inserted in the middle position of the lower end inside the outer frame V21, two sides of the other end of the lifting support rod K21 are connected with the triangular support Z21, the triangular support Z21 and the lifting support rod K21 are connected to the middle position of the bottom of the plug board C21, a plurality of support rods L21 are inserted in the top of the plug board C21, the other end of each support rod L21 is inserted in the protective barrier B21, the protective barrier B21 is arranged on the culture groove X21, a plurality of culture grooves X21 are arranged on the culture tray F21, the plurality of culture grooves X21 are arranged on the seedling tray F21, the seedling tray F21 is connected to the limit block V21 connected to the outer frame V21 through bolts, the outer frame V21, the seedling tray 21 is connected to the outer frame 21, and the seedling tray 21 a V21 is connected to the seedling adjusting rod 21, the outer frame V37 is arranged inside the incubator U6.

Referring to fig. 5, two triangular supports Z33 are symmetrically arranged on two sides of the lifting support bar K31, and the two are connected to form a T-shaped structure.

The triangular supports Z33 and the lifting support rods K31 are used for being matched with the plugboard C35, the triangular supports Z33 and the lifting support rods K31 are connected to form a T-shaped structure and stably supported at the lower end of the plugboard C35, so that the stability of the plugboard C35 is kept, and the plugboard C35 can stably balance and jack up the cultivation groove X34 upwards through the support rods L32.

Referring to fig. 6, the protective blocking member B38 includes two blocking plates C41, an inserting block V43, and an engaging fastener N42, the blocking plate C41 is provided with two blocking plates C41 symmetrically inserted into the two engaging fasteners N42, one end of the engaging fastener N42 far from the blocking plate C41 is fixedly connected to the side edge of the inserting block V43, the inserting block V43 is inserted into the supporting rod L32, and the blocking plate C41 is provided on the cultivation tank X34.

Example two

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a can improve tea tree breeding device of survival rate, its structure includes breeding device 1, chamber door 4, display screen 2, box 5, support 3, breeding device 1 establishes inside box 5, box 5 passes through hinged joint with chamber door 4, support 3 is installed to 5 bottoms of box, be equipped with display screen 2 on box 5.

Referring to fig. 2, the cultivating device 1 includes a transmission element Q1, a connecting base E3, a rotation assembly Y5, a diversion pipe W2, a spraying element I7, a water tank T4 and an incubator U6, the transmission element Q1 is installed at the bottom of the incubator U6, the rotation assembly Y5 is installed inside the incubator U6, the incubator U6 is fixedly connected to the connecting base E3, the incubator U6 is provided with the spraying element I7 communicated with the connection, the spraying element I7 is communicated with the water tank T4, the water tank T4 is connected with the diversion pipe W2, the other end of the diversion pipe W2 is connected to the inside of the incubator U6, and the incubator U6 is installed inside the incubator 5.

The shunt pipe W2 is used for being matched with a spraying piece I7, the spraying piece I7 and the shunt pipe W2 are connected with a water tank T4, and the spraying piece I7 and the shunt pipe W2 are respectively connected to the top and the left side and the right side of the cultivating box U6, so that tea tree seedlings in the cultivating box U6 can be effectively sprayed and watered.

Referring to fig. 3, the rotating assembly Y5 includes a plurality of placing holders R11, a belt pulley U14, a reinforcing ring T12, a central rotating shaft P16, a hanging cross bar Y13, a conveying belt I15, and a herringbone connecting rod a17, the placing holders R11 are provided with a plurality of herringbone connecting rods a17, the plurality of placing holders R11 are connected with the herringbone connecting rods a17, one end of the herringbone connecting rod a17 away from the placing holder R11 is connected with the hanging cross bar Y13 through a rotating shaft, the hanging cross bar Y13 is provided with a plurality of hanging cross bars Y13 inserted into the belt pulley U14, the belt pulley U14 is connected with the central rotating shaft P16 in a matching manner, the reinforcing ring T12 is connected to the middle position of the hanging cross bar Y13, the belt pulley U14 is connected with the conveying belt I15 in a transmission manner, and the placing holder R11 is arranged inside the cultivating box U6.

The reinforcing ring T12 is used for matching with the hanging cross bar Y13, the hanging cross bar Y13 is provided with a plurality of hanging cross bars, the hanging cross bar Y13 is limited on the corresponding position through the reinforcing ring T12, so that when a plurality of hanging cross bars Y13 rotate simultaneously, the intervals of the hanging cross bars Y13 are equal, and the intervals among the hanging cross bars Y13 are prevented from being large or small.

Referring to fig. 4, the placing tray R11 includes an installation cassette D21, a seedling tray F23, and an adjusting bolt G22, the seedling tray F23 is installed inside the installation cassette D21, the installation cassette D21 is connected to the seedling tray F23 through the adjusting bolt G22, the installation cassette D21 is connected to a herringbone connecting rod a17, and the installation cassette D21 is installed inside the cultivation box U6.

Referring to fig. 5, the mounting seat D21 includes a lifting support rod K21, a triangular support Z21, a plug board C21, a support rod L21, a limit block V21, a protective block B21, a plurality of culture slots X21 and an outer frame V21, the lifting support rod K21 is inserted into the middle position of the lower end inside the outer frame V21, the triangular support Z21 is connected to both sides of the other end of the lifting support rod K21, the triangular support Z21 and the lifting support rod K21 are connected to the middle position of the bottom of the plug board C21, a plurality of support rods L21 are inserted into the top of the plug board C21, the other end of each support rod L21 is inserted into the protective block B21, the protective block B21 is arranged on the culture slot X21, the plurality of culture slots X21 are arranged on the seedling culture tray F21, the limit block V21 connected to the outer frame F21 is connected to the seedling culture tray F21, the V21 is connected to the adjusting rod 21, and the V21, the outer frame V37 is arranged inside the incubator U6.

Referring to fig. 5, two triangular supports Z33 are symmetrically arranged on two sides of the lifting support bar K31, and the two are connected to form a T-shaped structure.

The triangular support Z33 and the lifting support rod K31 are used for being matched with the plugboard C35, the triangular support Z33 and the lifting support rod K31 are connected to form a T-shaped structure and stably supported at the lower end of the plugboard C35, so that the stability of the plugboard C35 is kept, and the plugboard C35 can stably and evenly jack up the cultivation tank X34 upwards through the support rod L32.

Referring to fig. 6, the protective blocking member B38 includes two blocking plates C41, an inserting block V43, and two engaging blocks N42, the blocking plate C41 is symmetrically inserted into the two engaging blocks N42, one end of the engaging block N42 far away from the blocking plate C41 is fixedly connected to a side edge of the inserting block V43, the inserting block V43 is inserted into the supporting rod L32, and the blocking plate C41 is disposed on the cultivation groove X34.

The baffle C41 is used for cooperating with the cultivation tank X34, the two sides of the cultivation tank X34 are connected with the baffle C41, the two baffles C41 cooperate with the cultivation tank X34 to limit and protect cultivation soil in the cultivation tank X3526, the soil is prevented from loosening, when tea tree seedlings needing to be cultivated are transplanted, the two baffles C41 are outwards moved out and separated from the soil at the same time, and the tea tree seedlings and the cultivation soil are taken down from the cultivation tank X34 to be transplanted.

Referring to fig. 7, the engaging clip member N42 includes a pulling limiting member E51, an engaging strip I56, a first connecting plate Y54, a connecting channel T52, a second connecting plate U55, and a docking plug R53, the pulling limiting member E51 is connected between a first connecting plate Y54 and a second connecting plate U55, the engaging strip I56 and the connecting channel T52 are respectively disposed on the first connecting plate Y54 and the second connecting plate U55, the connecting channel T52 is connected with the docking plug R53, the second connecting plate U55 is connected with a baffle C41, and the first connecting plate Y54 is fixedly connected with the side edge of the plug block V43.

Referring to fig. 7, the first plate Y54 and the second plate U55 are connected by an anastomosis strip I56 to form an "L" shaped structure.

The pulling limiting piece E51 is used for matching the first connecting plate Y54 and the second connecting plate U55, the pulling limiting piece E51 is connected between the first connecting plate Y54 and the second connecting plate U55, when the second connecting plate U55 moves outwards to be separated from the first connecting plate Y54, the pulling limiting piece E51 can move outwards along with the second connecting plate U55, the second connecting plate U55 is effectively restrained, the second connecting plate 35U 55 is prevented from moving outwards to be deviated, and the second connecting plate U55 can also move stably and move in an oriented matching mode to be connected with the first connecting plate Y54 under the action of the pulling limiting piece E51.

The working principle of the above technical solution is explained as follows:

when the invention is used, the box door 4 is opened, the cultivation soil is dispersed on the plurality of cultivation grooves X34 on the seedling tray F23, the breeding of tea trees is dispersed on the plurality of cultivation grooves X34, the seedling tray F23 is vertically placed on the outer frame V37 after the cultivation of the tea trees is finished, a limit block V36 is connected between the outer frame V37 and the seedling tray F23, the seedling tray F23 is limited by the limit block V36, the seedling tray F23 is prevented from moving left and right on the outer frame V37, the seedling tray F23 is locked and connected with the outer frame V37 by an adjusting bolt G22, the baffles C41 at two sides of the plurality of cultivation grooves X34 are fixedly connected with the second connecting plate U55, the second connecting plate U55 is connected with the first connecting plate Y54 by a pulling limiting piece E51, when the second connecting plate U55 moves outwards to be separated from the first connecting plate 55, the second connecting plate 55 can move outwards along with the pulling limiting piece E55 to effectively move the second connecting plate 55, the second connecting plate U55 can also move stably and inwards to be connected with a first connecting plate Y54 under the action of a drawing limiting piece E51, an anastomosis strip I56 on the side edge of the second connecting plate U55 can be anastomosed and connected with an anastomosis strip I56 on a first connecting plate Y54, the second connecting plate U55 is inserted into a connecting channel T52 on a first connecting plate Y54 and a second connecting plate U55 through a butting plug R53, the first connecting plate Y54 and the second connecting plate U55 can be effectively and stably connected, the second connecting plate U55 is matched with a baffle C41 to limit soil and breeding in the breeding groove X41, the loosening phenomenon of the soil is prevented, the other end of the first connecting plate Y41 is inserted into an insertion block V41, the insertion block V41 is stably inserted into a supporting rod L41, the other end of the supporting rod L41 is connected with the insertion plate C41, the bottom of the insertion plate C41 is connected with a lifting supporting rod K41 and a triangular supporting rod 41 for forming a T41-shaped lifting triangular supporting structure, the stability of the plugboard C35 can be effectively maintained;

a plurality of hanging cross bars Y13 are uniformly and equidistantly distributed in a radial shape by taking a central rotating shaft 711 as a center, the position of a hanging cross bar Y13 is limited by a reinforcing ring T12, so that the space between the hanging cross bars Y13 is kept consistent, the end parts of a plurality of hanging cross bars Y13 are connected with a herringbone connecting rod A17, a placing support part R11 is connected with the hanging cross bar Y13 under the action of the herringbone connecting rod A17, a motor shell in a driving connecting seat E3 drives a transmission part Q1 to move, the transmission part Q1 can drive a belt pulley U14 to rotate under the action of a conveying belt I15, a plurality of hanging cross bars Y13 can rotate along with the belt pulley U14 and the reinforcing ring T12 to drive an outer frame V37 to rotate at a uniform speed, the placing support part R11 is connected with a water tank T4 through a spraying part I7 and a shunt pipe W2 in the moving process, the other ends of the spraying part I7 and the W2 are respectively connected with the top parts of a left side and a right side of a cultivation box U72, water is dispersed and conveyed to a spraying piece I7 and a shunt pipe W2 through a water tank T4, tea tree breeding is sprayed and watered through the spraying piece I7 and the shunt pipe W2, a supporting piece R11 is placed in a cultivating box U6 to rotate up and down in a windmill type, the supporting piece is in intermittent contact with high humidity, tea tree young seeds are effectively sprayed and watered, the tea tree young seeds in a cultivating groove X34 can be uniformly sprayed, and the growth of tea trees is facilitated;

when tea trees need to be transplanted after cultivation, the lifting support rod K31 drives the inserting plate C35 to move upwards, the triangular supports Z33 on two sides of the lifting support rod K31 can assist the inserting plate C35 along with the lifting support rod K31, so that balance of the inserting plate C35 is kept, inclination in the moving process of the inserting plate C35 is prevented, the inserting plate C35 can stably drive the supporting rod L32 to move upwards, the top end of the supporting rod L32 is inserted into the inserting block V43, the supporting rod L32 can push the inserting block V43 upwards along with the supporting rod, the supporting rod L43 can push the second connecting plate U43 and the baffle C43 upwards through the first connecting plate Y43, the cultivation groove X43 on the seedling tray F43 can move upwards along with the first connecting plate, after the first connecting plate Y43 and the second connecting plate U43 are moved to a certain position, the abutting inserts R43 are taken out from the connecting channels T43 on the first connecting plate Y43 and the second connecting plate 43, the second connecting plate 43 can be pulled outwards along with the second connecting plate 43, first fishplate bar Y54 can drive baffle C41 outwards shift out simultaneously thereupon and break away from with soil, and the tea tree seedling is transplanted together with cultivating taking off from cultivating groove X34 to the manual work of being convenient for, effectively protects the tea tree seedling to avoid the pointed end of instrument shovel to cause the damage to the seedling rhizome, thereby guarantee the cultivation in seedling later stage, improve the survival rate of tea tree breeding.

In summary, the novel tea tree breeding device capable of improving the survival rate is formed by combining the cultivation device, the box door, the display screen, the box body and the support, tea trees to be cultivated are distributed on the rotating component, the rotating component is driven to rotate at a uniform speed in the cultivation box through the transmission conveying component, the spraying component and the flow dividing component are respectively connected to the top and the left side and the right side of the cultivation box, the spraying component and the flow dividing component are matched with each other to spray and water tea tree seedlings on the rotating component, when transplanting is needed after cultivation is finished, the triangular supports and the lifting support rods stably close the plug boards and the support rods to jack up the cultivation grooves upwards, the cultivation grooves are displayed outwards, and the protection blocking component is separated from the cultivation grooves, so that the tea tree seedlings and cultivation soil can be taken down from the cultivation grooves for transplanting.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (8)

1. The utility model provides a can improve tea tree breeding device of survival rate, its structure includes breeding device (1), chamber door (4), display screen (2), box (5), support (3), its characterized in that:

the cultivation device (1) is arranged on a box body (5), the box body (5) is connected with a box door (4) through a hinge, a support (3) is installed on the box body (5), and a display screen (2) is arranged on the box body (5);

breeding device (1) is including defeated piece (Q1), connecting seat (E3), rotating component (Y5), shunt tubes (W2), sprays piece (I7), water tank (T4), incubator (U6), defeated piece of transmission (Q1) is installed on incubator (U6), rotating component (Y5) are installed in incubator (U6), incubator (U6) fixed connection is on connecting seat (E3), be equipped with on incubator (U6) and spray piece (I7), water tank (T4), shunt tubes (W2) on water tank (T4) are connected on incubator (U6), incubator (U6) are established on box (5).

2. A tea tree breeding device capable of improving the survival rate as claimed in claim 1, wherein: the rotating assembly (Y5) comprises a placing support piece (R11), a belt pulley (U14), a reinforcing ring (T12), a central rotating shaft (P16), a hanging cross bar (Y13), a conveying belt (I15) and a herringbone connecting rod (A17), wherein the placing support piece (R11) is connected with the herringbone connecting rod (A17), the herringbone connecting rod (A17) is connected with the hanging cross bar (Y13), the hanging cross bar (Y13) is connected onto the belt pulley (U14) in an inserted mode, the belt pulley (U14) is connected with the central rotating shaft (P16) in an engaged mode, the hanging cross bar (Y13) is connected with the reinforcing ring (T12), the belt pulley (U14) is in transmission connection with the conveying belt (I15), and the placing support piece (R11) is arranged on the cultivating box (U6).

3. A tea tree breeding apparatus capable of improving survival rate as claimed in claim 2, wherein: the placing support piece (R11) comprises an installation clamping seat (D21), a seedling raising tray (F23) and an adjusting bolt (G22), wherein the installation clamping seat (D21) is connected with the seedling raising tray (F23) through the adjusting bolt (G22), the installation clamping seat (D21) is connected with a herringbone connecting rod (A17), and the installation clamping seat (D21) is arranged on the incubator (U6).

4. A tea tree breeding device capable of improving the survival rate as claimed in claim 3, wherein: the installation clamping seat (D21) comprises a lifting support rod (K31), a triangular support (Z33), an inserting plate (C35), a support rod (L32), a limit block (V36), a protection blocking piece (B38), a cultivation groove (X34) and an outer frame (V37), the lifting support rod (K31) is inserted on the outer frame (V37), the triangular support (Z33) and the lifting support rod (K31) are connected on the insertion board (C35), the supporting rod (L32) is inserted on the protective stopper (B38) and the inserting plate (C35), the protective stopper (B38) is arranged on the cultivating groove (X34), the cultivating groove (X34) is arranged on the seedling tray (F23), a limit block (V36) is connected between the seedling tray (F23) and the outer frame (V37), the seedling raising tray (F23) is connected with an outer frame (V37) through an adjusting bolt (G22), the outer frame (V37) is connected with a herringbone connecting rod (A17), and the outer frame (V37) is arranged inside the incubator (U6).

5. A tea tree breeding device capable of improving the survival rate as claimed in claim 4, wherein: the protective stopper (B38) comprises a baffle (C41), an inserting block (V43) and an engaging clamping piece (N42), the baffle (C41) is inserted into the engaging clamping piece (N42), the engaging clamping piece (N42) is fixedly connected with the inserting block (V43), the inserting block (V43) is inserted into a supporting rod (L32), and the baffle (C41) is arranged on the cultivation groove (X34).

6. A device as claimed in claim 5, wherein the device is adapted to increase survival of a plant as: the connection clamping piece (N42) comprises a traction limiting piece (E51), an anastomosis strip (I56), a first connecting plate (Y54), a connecting channel (T52), a second connecting plate (U55) and a butt-joint plug-in unit (R53), the traction limiting piece (E51) is connected between the first connecting plate (Y54) and the second connecting plate (U55), the anastomosis strip (I56) and the connecting channel (T52) are arranged on the first connecting plate (Y54) and the second connecting plate (U55), the connecting channel (T52) is connected with the butt-joint plug-in unit (R53), the second connecting plate (U55) is connected with a baffle (C41), and the first connecting plate (Y54) is fixedly connected with the side edge of the plug-joint block (V43).

7. The device of claim 4, wherein the device further comprises: the two triangular supports (Z33) are symmetrically arranged at two sides of the lifting support rod (K31) and are connected to form a T-shaped structure.

8. The device of claim 6, wherein the device further comprises: the first connecting plate (Y54) and the second connecting plate (U55) are connected through an anastomosis strip (I56) to form an L-shaped structure.

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