CN209824730U - A cultivation equipment for dendrobii officmalis caulis - Google Patents

Abstract

The utility model relates to a dendrobium officinale's planting technical field discloses a cultivation equipment for dendrobium officinale. The greenhouse comprises a cultivation ridge field layer, wherein a greenhouse is arranged above the cultivation ridge field layer and comprises a greenhouse framework and a shading net arranged at the top of the greenhouse framework; both sides of the cultivation bed field layer are provided with drainage structures along the extension direction of the greenhouse framework, the cultivation bed field layer comprises a nylon layer and a substrate layer which are sequentially arranged from bottom to top, and the cross section of the nylon layer is in a downward convex minor arc shape; the matrix layer comprises uniformly distributed wood blocks and stones filled between the wood blocks, and the upper part of the matrix layer is used for cultivating the dendrobium. Through the setting of net of shading, drainage structures, nylon layer and matrix layer for a cultivation equipment for dendrobii officmalis caulis has the simulation natural growth, improves the ability of ventilating, improves the advantage of dendrobii officmalis caulis quality, provides the matrix that has higher gas permeability and water permeability simultaneously, solves the rotten problem of dendrobii officmalis caulis root.

Description

A cultivation equipment for dendrobii officmalis caulis

Technical Field

The utility model relates to a planting technical field of dendrobii officmalis caulis, specifically speaking relates to a cultivation equipment for dendrobii officmalis caulis.

Background

Dendrobium officinale is a rare medicinal herb plant of the family England orchidaceae, genus Dendrobium, and has the effects of benefiting stomach, promoting fluid production, nourishing yin, clearing heat, moistening lung, relieving cough, prolonging life, enhancing immunity, resisting oxidation, reducing blood sugar, reducing blood lipid, preventing and resisting cancer. Wild dendrobium officinale grows in warm, humid, scattered light, ventilated, good-root-system-ventilation and good-drainage environments, trees and rock seams are attached to the wild dendrobium officinale to grow in a climbing or hanging mode, requirements on natural growth environments and climatic conditions are very strict, and due to the obvious effect of the wild dendrobium officinale, wild dendrobium officinale resources are mined and exhausted in a limited manner for a long time, and market requirements can be met only through artificial planting. At present, the problem that the root of the dendrobium officinale is rotted mainly exists in the artificial planting technology of the dendrobium officinale, the air permeability and the water permeability of the root of the dendrobium officinale are made to be very important, the existing artificial planting of the dendrobium officinale is mainly planted in a greenhouse, the greenhouse basically fixes and shades the rain all the year round, and the problems of unsmooth air flow in the greenhouse, high humidity and poor air permeability and water permeability of planting substrates generally exist.

SUMMERY OF THE UTILITY MODEL

Fix to plant the big-arch shelter that exists among the prior art and hide the cloudy rain, the gas permeability is poor and plant the gas permeability of matrix and the poor defect of water permeability, the utility model provides a cultivation equipment for dendrobii officmalis caulis. The greenhouse can be irrigated by rainwater, has good ventilation property, and provides the function of planting matrix with good ventilation and water permeability.

In order to solve the above technical problem, the present invention solves the above technical problems.

A cultivation device for Dendrobium officinale comprises a cultivation bed field layer, a greenhouse is arranged above the cultivation bed field layer, and the greenhouse comprises a greenhouse framework and a shading net arranged at the top of the greenhouse framework; both sides of the cultivation bed field layer are provided with drainage structures along the extension direction of the greenhouse framework, the cultivation bed field layer comprises a nylon layer and a substrate layer which are sequentially arranged from bottom to top, and the cross section of the nylon layer is in a downward convex minor arc shape; the matrix layer comprises uniformly distributed wood blocks and stones filled between the wood blocks, and the upper part of the matrix layer is used for cultivating the dendrobium.

Through the utility model discloses a top of greenhouse skeleton only sets up shading net for the rainwater can get into in the greenhouse irrigates the iron sheet dendrobium on the matrix layer when sunshine can obtain the separation, and then the natural growth environment of simulation iron sheet dendrobium, thereby improves the quality of iron sheet dendrobium, and simultaneously, shading net can also improve the air permeability in the greenhouse, is favorable to the growth of iron sheet dendrobium; through the arrangement of the drainage structure and the nylon layer, excessive rainwater entering the substrate layer can flow into the drainage structure to be drained, so that the rotting of the roots of the dendrobium officinale caused by excessive accumulated water is prevented, and meanwhile, the nylon layer can block soil at the bottom of the substrate layer and the cultivation bed field layer and prevent the soil from being mixed; through the setting that the matrix layer includes billet and stone, make billet and billet on the one hand, all there is the clearance between billet and stone and the stone, and then make intraformational air of matrix and rainwater can circulate, the gas permeability and the water permeability on matrix layer have been increased, the billet is rotten simultaneously and can be provided the nutrition for dendrobium officinale, the stone can provide micro-mineral substance for dendrobium officinale, thereby be favorable to dendrobium officinale's growth, on the other hand, the stone can not rot, the billet rot add the billet can, need not whole to plant again, and the cost is saved. The utility model discloses an above technical scheme for a cultivation equipment for dendrobium officinale has simulation natural growth, improves the ability of ventilation, improves the advantage of dendrobium officinale quality, provides the matrix that has higher gas permeability and water permeability simultaneously, solves the rotten problem of dendrobium officinale root.

Preferably, the volume filling ratio of the wood blocks to the stone blocks is 7:3, so that the problem of root rot of the dendrobium officinale is solved better.

Preferably, the minimum thickness of the substrate layer is not less than 15 cm. Because the nylon layer is minor arc, the middle part of the nylon layer is the highest position, the middle part of the substrate layer is the minimum thickness of the substrate layer, and the minimum thickness of the substrate layer is not less than 15cm, so that the whole substrate layer is ensured to have better ventilation and water permeation, and the growth of the dendrobium officinale is facilitated.

Preferably, the grain size of the wood blocks is 3-6cm and the grain size of the stone blocks is 3-5cm, so that the gaps between the wood blocks, the wood blocks and the stone blocks preferably satisfy air permeability and water permeability.

Preferably, a supporting seat is arranged on the outer side of the drainage structure, a sliding groove is formed in the upper side face of the supporting seat along the length direction of the supporting seat, a screw rod is rotatably arranged in the sliding groove along the length direction of the sliding groove, the screw rod is driven to rotate through a servo motor, and the servo motor is arranged at one end of the supporting seat; the top of supporting seat is equipped with the shower mount pad, and the shower mount pad includes the installation piece, and the below of installation piece is equipped with the slide rail that is located the spout and with lead screw threaded connection, and the top of installation piece is equipped with the bracing piece, and the upper portion department of bracing piece is equipped with the mounting hole, and the mounting hole department that corresponds the bracing piece is equipped with the shower, is equipped with one end open-ended in the shower and sprays the chamber, the lateral wall of shower along radially be equipped with the hole that leaks that sprays the chamber intercommunication, spray the chamber one end opening forms the water inlet.

In the utility model, the spray pipe can irrigate the dendrobium officinale planted on the matrix layer through the arrangement of the spray pipe; the spraying cavity, the water inlet and the water leakage holes are arranged, so that water can enter the spraying cavity from the water inlet and can leak out from the water leakage holes, and the dendrobium officinale planted on the substrate layer can be uniformly irrigated; the spray pipe is installed through the arrangement of the spray pipe installation seat; through the setting of spout, lead screw, servo motor and slide rail for servo motor drives the lead screw and rotates and then makes the slide rail remove along the spout, and then drives the removal of shower mount pad, thereby realizes that the shower removes to irrigate the iron sheet dendrobium on the matrix layer, and wherein the setting of spout makes the shower mount pad obtain spacingly, thereby prevents that the shower mount pad from breaking away from the supporting seat.

Preferably, a rotating groove is formed in the upper side face of the mounting block, and a limiting ring is arranged at an opening of the rotating groove; the supporting rod comprises a rotating rod, the bottom end of the rotating rod is positioned in the rotating groove and is provided with a baffle sheet matched with the limiting ring; be equipped with the ascending rotation chamber of opening in the dwang, rotate intracavity threaded connection and have the screw rod, the mounting hole is located screw rod upper portion.

In the utility model, the rotating rod and the screw rod are arranged, so that the rotating rod is manually rotated to drive the screw rod to extend out of and retract into the rotating cavity, and further the height of the supporting rod is adjusted, thereby the spray pipe is more convenient for the irrigation of the dendrobium officinale planted on the matrix layer; through the setting of rotating groove, spacing ring and separation blade for the spacing ring blocks that the separation blade breaks away from and rotates the inslot and then can't break away from and rotate the groove when making the dwang can rotate.

Drawings

FIG. 1 is a schematic view of a cultivation apparatus for Dendrobium officinale according to example 1;

fig. 2 is a schematic view of the support seat in embodiment 1;

fig. 3 is a schematic view of a shower mount in embodiment 1;

FIG. 4 is a schematic view of a shower pipe in example 1;

fig. 5 is a schematic vertical cross-sectional view of the shower mount in embodiment 1.

The names of the parts indicated by the numerical references in the drawings are as follows: 101. cultivating a ridge field layer; 111. a greenhouse framework; 112. a shading net; 121. a drainage structure; 122. a nylon layer; 123. a substrate layer; 131. a supporting seat; 132. a shower pipe mounting base; 133. a shower pipe; 211. a chute; 212. a screw rod; 213. a servo motor; 311. mounting blocks; 312. a slide rail; 321. a support bar; 322. mounting holes; 411. a water leakage hole; 412. a water inlet; 413. a spray chamber; 511. a rotating groove; 512. a limiting ring; 521. rotating the rod; 522. a baffle plate; 523. a rotation chamber; 531. a screw.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention only and are not limiting.

Example 1

As shown in fig. 1 to 5, the embodiment provides a cultivation device for dendrobium officinale, which comprises a cultivation ridge field layer 101, wherein a greenhouse is arranged above the cultivation ridge field layer 101, and comprises a greenhouse framework 111 and a shading net 112 arranged on the top of the greenhouse framework 111; both sides of the cultivation bed layer 101 are provided with drainage structures 121 along the extension direction of the greenhouse framework 111, the cultivation bed layer 101 comprises a nylon layer 122 and a substrate layer 123 which are sequentially arranged from bottom to top, and the cross section of the nylon layer 122 is in a downward convex minor arc shape; the matrix layer 123 comprises uniformly distributed wood blocks and stones filled between the wood blocks, and the dendrobium is cultivated above the matrix layer 123.

Only the shading net 112 is arranged at the top end of the greenhouse framework 111 in the embodiment, so that sunlight can be blocked, rainwater can enter the greenhouse to irrigate the dendrobium officinale on the substrate layer 123, the natural growth environment of the dendrobium officinale can be simulated, the quality of the dendrobium officinale can be improved, and meanwhile, the shading net 112 can improve the ventilation property in the greenhouse and is beneficial to the growth of the dendrobium officinale; through the arrangement of the drainage structure 121 and the nylon layer 122, excessive rainwater entering the substrate layer 123 can flow into the drainage structure 121 to be drained, so that rotting of the root of the dendrobium officinale caused by excessive accumulated water is prevented, and meanwhile, the nylon layer 122 can block soil at the bottom of the substrate layer 123 and the cultivation bed field layer 101 and prevent the soil from being mixed; through the setting that matrix layer 123 includes billet and stone, make billet and billet on the one hand, all there is the clearance between billet and stone and the stone, and then make air and rainwater in the matrix layer 123 can circulate, the gas permeability and the water permeability of matrix layer 123 have been increased, the billet rot can provide the nutrition for dendrobium officinale, the stone can provide micro-mineral substance for dendrobium officinale, thereby be favorable to dendrobium officinale's growth, on the other hand, the stone can not rot, the billet rot add the billet can, need not whole planting again, the cost is saved. The utility model discloses an above technical scheme for a cultivation equipment for dendrobium officinale has simulation natural growth, improves the ability of ventilation, improves the advantage of dendrobium officinale quality, provides the matrix that has higher gas permeability and water permeability simultaneously, solves the rotten problem of dendrobium officinale root.

In this embodiment, the volume filling ratio of the wood blocks to the stone blocks is 7:3, which better solves the problem of root rot of dendrobium officinale.

In this embodiment, the minimum thickness of the substrate layer 123 is not less than 15 cm. Because the nylon layer 122 is in a minor arc shape, the middle part of the nylon layer 122 is the highest position, the middle position of the substrate layer 123 is the minimum thickness position of the substrate layer 123, and the minimum thickness of the substrate layer 123 is not less than 15cm, so that the whole substrate layer 123 is ensured to have better air permeability and water permeability, and the growth of the dendrobium officinale is facilitated.

In this embodiment, the length of the wood block is 3-6cm, and the length of the stone block is 3-5cm, so that the gaps between the wood block and the wood block, between the wood block and the stone block, and between the stone block and the stone block preferably satisfy air permeability and water permeability.

In this embodiment, the outer side of the drainage structure 121 is provided with a support seat 131, the upper side surface of the support seat 131 is provided with a sliding groove 211 along the length direction of the support seat 131, a screw rod 212 is rotatably arranged in the sliding groove 211 along the length direction of the sliding groove 211, the screw rod 212 is driven to rotate by a servo motor 213, and the servo motor 213 is arranged at one end of the support seat 131; the shower pipe mounting seat 132 is arranged above the supporting seat 131, the shower pipe mounting seat 132 comprises a mounting block 311, a sliding rail 312 which is positioned in the sliding groove 211 and is in threaded connection with the screw rod 212 is arranged below the mounting block 311, a supporting rod 321 is arranged above the mounting block 311, a mounting hole 322 is arranged at the upper part of the supporting rod 321, a shower pipe 133 is arranged at the mounting hole 322 corresponding to the supporting rod 321, a spraying cavity 413 with one open end is arranged in the shower pipe 133, a water leakage hole 411 communicated with the spraying cavity 413 is radially arranged on the side wall of the shower pipe 133, and the water inlet 412 is formed at the opening of one end of the spraying cavity 413.

Through the arrangement of the spray pipes 133 in the embodiment, the spray pipes 133 can irrigate the dendrobium officinale planted on the substrate layer 123; the spraying cavity 413, the water inlet 412 and the water leakage holes 411 are arranged, so that water can enter the spraying cavity 413 from the water inlet 412 and can leak out through the water leakage holes 411, and the dendrobium officinale planted on the substrate layer 123 can be uniformly irrigated; by arranging the shower pipe mounting seat 132, the shower pipe 133 is mounted; through the setting of spout 211, lead screw 212, servo motor 213 and slide rail 312 for servo motor 213 drives lead screw 212 and rotates and then makes slide rail 312 remove along spout 211, and then drives the removal of shower mount pad 132, thereby realizes that shower 133 removes the dendrobium officinale on to the matrix layer 123 and irrigates, wherein the setting of spout 211, makes shower mount pad 132 obtain spacingly, thereby prevents that shower mount pad 132 from breaking away from supporting seat 131.

In this embodiment, a rotating groove 511 is provided on the upper side surface of the mounting block 311, and a limiting ring 512 is provided at an opening of the rotating groove 511; the support rod 321 comprises a rotating rod 521, the bottom end of the rotating rod 521 is positioned in the rotating groove 511 and is provided with a baffle 522 matched with the limiting ring 512; a rotating cavity 523 with an upward opening is arranged in the rotating rod 521, a screw 531 is connected to the rotating cavity 523 through internal threads, and the mounting hole 322 is located at the upper part of the screw 531.

Through the arrangement of the rotating rod 521 and the screw 531 in the embodiment, the rotating rod 521 is manually rotated to drive the screw 531 to extend out of and retract into the rotating cavity 523, so that the height of the supporting rod 321 is adjusted, and the spraying pipe 133 can conveniently irrigate the dendrobium officinale planted on the substrate layer 123; through the arrangement of the rotating groove 511, the limiting ring 512 and the blocking piece 522, the limiting ring 512 blocks the blocking piece 522 from being separated from the rotating groove 511, so that the rotating rod 521 can rotate and cannot be separated from the rotating groove 511 at the same time.

When the cultivation equipment for the dendrobium officinale of the embodiment is used specifically, firstly, a greenhouse framework 111 is built, then a shading net 112 is laid on the greenhouse framework 111, then a nylon layer 122 is laid on a cultivation bed-course layer 101, then a matrix layer 123 is laid above the nylon layer 122, then drainage structures 121 are arranged on the cultivation bed-course layers 101 on two sides of the matrix layer 123, and finally the dendrobium officinale is cultivated on the matrix layer 123; when the dendrobium officinale needs to be watered, water is injected into the spraying pipe 133, and the servo motor 213 is started to drive the spraying pipe 133 to move back and forth along the supporting seat 131 to water and irrigate the dendrobium officinale; when the height of the spray pipe needs to be adjusted when the plant of the dendrobium officinale is higher or lower, the rotating rod 521 is manually rotated to enable the screw 531 to ascend or descend, and then the spray pipe 133 ascends or descends, so that the dendrobium officinale plant cannot be damaged when the spray pipe is movably irrigated.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a cultivation equipment for dendrobii officmalis caulis, its characterized in that: comprises a cultivation bed field layer (101), wherein a greenhouse is arranged above the cultivation bed field layer (101), and comprises a greenhouse framework (111) and a shading net (112) arranged at the top of the greenhouse framework (111); both sides of the cultivation bed layer (101) are provided with drainage structures (121) along the extension direction of the greenhouse framework (111), the cultivation bed layer (101) comprises a nylon layer (122) and a substrate layer (123) which are sequentially arranged from bottom to top, and the cross section of the nylon layer (122) is in an upward convex minor arc shape; the matrix layer (123) comprises uniformly distributed wood blocks and stones filled among the wood blocks, and the dendrobium is cultivated above the matrix layer (123).

2. The cultivation device for dendrobium officinale according to claim 1, wherein the cultivation device comprises: the volume filling ratio of the wood blocks to the stone blocks is 7: 3.

3. The cultivation device for dendrobium officinale according to claim 2, wherein the cultivation device comprises: the minimum thickness of the substrate layer (123) is not less than 15 cm.

4. The cultivation device for dendrobium officinale according to claim 3, wherein the cultivation device comprises: the particle size of the wood block is 3-6cm, and the particle size of the stone block is 3-5 cm.

5. The cultivation device for dendrobium officinale according to claim 4, wherein the cultivation device comprises: a supporting seat (131) is arranged on the outer side of the drainage structure (121), a sliding groove (211) is formed in the upper side face of the supporting seat (131) along the length direction of the supporting seat (131), a screw rod (212) is rotatably arranged in the sliding groove (211) along the length direction of the sliding groove (211), the screw rod (212) is driven to rotate through a servo motor (213), and the servo motor (213) is arranged at one end of the supporting seat (131); the top of supporting seat (131) is equipped with shower mount pad (132), shower mount pad (132) are including installation piece (311), the below of installation piece (311) is equipped with slide rail (312) that is located spout (211) and with lead screw (212) threaded connection, the top of installation piece (311) is equipped with bracing piece (321), the upper portion department of bracing piece (321) is equipped with mounting hole (322), mounting hole (322) department that corresponds bracing piece (321) is equipped with shower (133), be equipped with one end open-ended spraying cavity (413) in shower (133), the lateral wall of shower (133) radially is equipped with and sprays hole (411) that leaks that cavity (413) communicate, spraying cavity (413) one end opening forms water inlet (412).

6. The cultivation device for dendrobium officinale according to claim 5, wherein the cultivation device comprises: a rotating groove (511) is formed in the upper side face of the mounting block (311), and a limiting ring (512) is arranged at an opening of the rotating groove (511); the supporting rod (321) comprises a rotating rod (521), the bottom end of the rotating rod (521) is positioned in the rotating groove (511) and is provided with a baffle piece (522) matched with the limiting ring (512); a rotating cavity (523) with an upward opening is arranged in the rotating rod (521), a screw (531) is connected to the rotating cavity (523) in a threaded manner, and the mounting hole (322) is located at the upper part of the screw (531).