CN114258803A

CN114258803A - Planting greenhouse for wild dendrobium officinale

Info

Publication number: CN114258803A
Application number: CN202111262577.6A
Authority: CN
Inventors: 陈乃伟; 鲁雪伟; 马兴华
Original assignee: Shaoxing Rulin Biotechnology Co ltd
Current assignee: Shaoxing Rulin Biotechnology Co ltd
Priority date: 2021-10-28
Filing date: 2021-10-28
Publication date: 2022-04-01
Anticipated expiration: 2041-10-28
Also published as: CN114258803B

Abstract

The invention discloses a planting greenhouse for wild dendrobium officinale, and relates to the technical field of wild dendrobium officinale planting. The planting greenhouse capable of preventing wild dendrobium officinale from being cold-resistant comprises a frame device, wherein the frame device comprises two moisturizing layers, the two moisturizing layers are arranged in a bilateral symmetry manner, the front end and the rear end of the inner side wall of each moisturizing layer are fixedly connected with a first frame, the upper end of the first frame extends out of each moisturizing layer, the inner side of each moisturizing layer is provided with a central layer, the central layers are not in contact with the moisturizing layers, the number of the central layers is two, the two central layers are arranged in a bilateral symmetry manner, the front end and the rear end of the inner side wall of each central layer are fixedly connected with a second frame, the upper ends of the second frames extend out of the central layers, the upper ends of the first frames and the second frames are positioned on the same vertical plane, and the inner sides of the central layers are provided with heat preservation layers, this prevent planting big-arch shelter of wild dendrobii officmalis caulis cold tolerance makes dendrobii officmalis caulis carry out the winter protection in comparatively sealed environment and handles, helps the better growth of dendrobii officmalis caulis.

Description

Planting greenhouse for wild dendrobium officinale

Technical Field

The invention relates to the technical field of wild dendrobium officinale planting, in particular to a greenhouse for planting wild dendrobium officinale.

Background

The Dendrobium candidum is a perennial herb plant of Dendrobium (Dendrobium) of Orchidaceae (Orchidaceae), is named as 'black clover', is one of rare Chinese herbal medicines recorded in Chinese pharmacopoeia 2010 edition, is positioned at the head of 'Jiuda xiancao', and has the effects of nourishing yin, clearing heat, benefiting stomach, promoting fluid production and the like. The dendrobium officinale is a precious endangered plant with key secondary protection in China, is produced in southwest of Anhui province, eastern Zhejiang, western Fujian province, northwest Guangxi province, Sichuan and southeast Yunnan, has extremely low natural reproduction rate and slow growth, and is completely eradicated by excessive mining and wild dendrobium officinale.

The wild dendrobium officinale is suitable for growing in a cool, humid and air-smooth environment, but the wild dendrobium officinale is frigid, so that the survival rate of the wild dendrobium officinale planted in a greenhouse in winter is low, and the wild dendrobium officinale is very difficult to plant.

Disclosure of Invention

The invention aims to provide a planting greenhouse for wild dendrobium officinale, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the planting greenhouse for wild dendrobium officinale comprises a frame device, wherein the frame device comprises two moisturizing layers, the two moisturizing layers are arranged in a bilateral symmetry manner, the front end and the rear end of the inner side wall of each moisturizing layer are fixedly connected with a first frame, the upper end of the first frame extends out of each moisturizing layer, the inner side of each moisturizing layer is provided with a central layer, the central layers are not in contact with the moisturizing layers, the two central layers are arranged in a bilateral symmetry manner, the front end and the rear end of the inner side wall of each central layer are fixedly connected with a second frame, the upper ends of the second frames extend out of the central layers, the upper ends of the first frames and the second frames are positioned on the same vertical plane, the inner side of each central layer is provided with a heat preservation layer, the two heat preservation layers are arranged in a bilateral symmetry manner, and the heat preservation is not in contact with the central layers, two be provided with frame three on the lateral wall of heat preservation jointly, the shape of frame three is the U style of calligraphy, the both sides of frame three correspond fixed connection respectively on the inside wall of heat preservation, the quantity of frame three is three, and is three the even distribution of three equidistance of frame is two between the heat preservation, the equal fixedly connected with spring of the upper surface left and right sides of frame three is one.

Preferably, frame device's top is provided with power device, power device includes the headstock, the lower extreme of headstock inserts two between the moisturizing layer, width and two moisturizing layer upper ends about the headstock apart from the same, width and two centre layers upper ends about the headstock apart from the same, the lower fixed surface of headstock connects spring one, the kerve has been seted up to the lower surface equidistance of headstock is even, the constant head tank has been seted up on the left and right sides outer wall of headstock, the quantity of constant head tank is four, every side it distributes around two and to have seted up on the lateral wall of headstock, the position of constant head tank corresponds in vertical direction with frame two, the upper end of frame one inserts in the constant head tank and the adaptation.

Preferably, the left side wall and the right side wall of the power box are provided with water flowing holes in a penetrating mode, the upper width and the lower width of each water flowing hole are the same as the distance between the moisturizing layer and the central layer, and when the power box is located at the lowest position, the water flowing holes are just communicated with the space between the moisturizing layer and the central layer.

Preferably, the edges of the upper port of the power box are fixedly connected with wind plates, the wind plates are inclined from one side to the other side, the number of the wind plates is four, and the four wind plates are in height difference at four corners of the power box.

Preferably, the side, close to each other, of the two springs on the same frame III is provided with an air blowing device, the number of the blowing devices is six, the blowing devices comprise blowing pipes, the outer sides of the lower ends of the blowing pipes are provided with air holes, the upper surface of the blast pipe is provided with a column hole which is communicated with the air hole, a blast column is arranged above the blast pipe, the lower end of the air blowing column is inserted into the column hole, the lower surface of the air blowing column is fixedly connected with a second spring, the lower end of the second spring is fixedly connected with the lower inner wall of the column hole, the second spring is positioned in the column hole, the upper end of the blast pipe penetrates through the third fixed connecting frame, the upper end of the blast column is in contact with the lower surface of the power box, the air holes in the three blast devices on the left side are formed forwards, and the air holes in the three blast devices on the right side are formed backwards.

Preferably, a switch device is arranged in the middle of the upper surface of the third frame and comprises a sliding ring, the sliding ring is sleeved outside the third frame, a stand column is fixedly connected to the lower side of the sliding ring, a rotating fan is movably connected to the lower end of the stand column through a bearing, and the horizontal plane where the rotating fan is located below the air blowing device.

Preferably, a first fixed pulley is movably mounted on the lower side of the middle third frame, the number of the first fixed pulleys is two, the two first fixed pulleys are respectively arranged close to the air blowing devices on the two sides, and the two first fixed pulleys are located on the side where the two air blowing devices are close to each other.

Preferably, the lower sides of the three frames on two sides are movably provided with a second fixed pulley, the second fixed pulley is arranged close to the air blowing device, the number of the second fixed pulleys on the three frames on two sides is one, the positions of the second fixed pulleys on the two frames are in central symmetry, the lower ends of the two sides of the sliding ring are fixedly connected with pull ropes, one end of each pull rope far away from the sliding ring is sequentially wound on the outer sides of the first fixed pulley and the second fixed pulley, the left side and the right side of the lower end of the sliding ring are respectively provided with a third spring, the third springs are wound on the pull ropes, one end of the third spring is fixedly connected with the sliding ring, and the other end of the third spring is in contact with the first fixed pulley.

Preferably, both sides are fixedly connected with door plant device respectively around the frame assembly, the door plant device includes the door plant, ventilative mouthful has been seted up on the surface of door plant, and two the one side that the door plant is close has the shielding plate through slide rail sliding connection, the shielding plate is in ventilative mouthful top and ventilative mouthful adaptation, the top of shielding plate is provided with fixed pulley three, fixed pulley three movable mounting is on the door plant, the stay cord is at the upper surface of fixed pulley three and fixed connection shielding plate of the round trip of the one end of keeping away from the sliding ring, moisturizing layer, center layer, heat preservation respectively with door plant fixed connection.

Compared with the prior art, the invention has the beneficial effects that:

(1) this planting big-arch shelter of wild dendrobii officmalis caulis, wild dendrobii officmalis caulis likes moist and generally can carry out artifical planting in rainy environment, in rainy weather, the rainwater can be gradually fill up the headstock, make headstock push down spring one, thereby slide along the constant head tank downwards, in the time of the slide bottommost, the discharge orifice can communicate with the space between moisturizing layer and the central layer, the in-process that continues the rain like this can be with the rainwater that overflows follow the moisturizing layer and the gap between the central layer pour into the soil of lower part into, soil around the dendrobii officmalis caulis can be soaked like this, outer rivers can hinder follow-up canopy internal water dispersion simultaneously and lose, guarantee moist environmental space in the canopy.

(2) This planting big-arch shelter of wild dendrobii officmalis caulis, the rainwater strikes the headstock on, under the effect of spring one, can make the headstock bullet that does not stop in frame device's top move, the bullet of headstock can make the blast column bounce inside the blast pipe, thereby continuous follow wind hole blowout air current, the opening direction in the wind hole of the air-blast device of the left and right sides is different, thereby make the air current of the left and right sides of revolving fan different, it rotates to drive the revolving fan, offer through ventilative mouthful, guarantee like this that the air in the canopy is unblocked all the time.

(3) This planting big-arch shelter of wild dendrobii officmalis caulis, when the environment of gale appears, the gale can take place the contact with the aerofoil, the gale that one side blown makes the headstock slope, the spring of cooperation bottom is one like this, make the headstock still shake, cooperation air-blast device thereby make the fan anticlockwise rotate, if the gale is for blowing from preceding inside that then can enter into the big-arch shelter from the ventilative mouthful in the place ahead backward, the fan receives the thrust with right side air-blast device syntropy this moment, according to magnus effect, the fan can remove along frame three-dimensional right side this moment, make the direction of stay cord to fixed pulley three like this extend, thereby make the shielding plate slide down and cover ventilative mouthful, otherwise, the gale blows in from the rear side, the operation is the same, avoid the gale to air-dry big-arch shelter internal environment, guarantee that the internal environment does not receive external wind influence.

(4) This planting big-arch shelter of wild dendrobium officinale, design through frame device, set up the big-arch shelter into the space of inside and outside three-layer, be responsible for between moisturizing layer and the centre layer and let in rivers, guarantee humid environment, leave the air between centre layer and the heat preservation, thereby the inside and outside three-layer can be better keeps warm to the inside environment of big-arch shelter, and avoid thermal loss, thereby carry out the protection of multilayer to wild dendrobium officinale, make it in comparatively sealed environment, carry out the winter protection and handle, the better growth of help dendrobium officinale.

(5) This planting big-arch shelter of wild dendrobii officmalis caulis, through power device's setting, cooperation headstock can be so that big-arch shelter motion protection dendrobii officmalis caulis's living environment in heavy rain and strong wind environment, and makes the big-arch shelter can change the form according to the environment through the strength among the natural environment to make the change that the big-arch shelter adapted to the environment more, and simultaneously more green.

Drawings

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

FIG. 2 is a schematic view of the frame assembly of the present invention;

FIG. 3 is a schematic view of a door panel assembly according to the present invention;

FIG. 4 is an enlarged view of the invention at A;

fig. 5 is a schematic view of the blowing device of the present invention.

In the figure: 1. a frame means; 101. a moisture retention layer; 102. a first frame; 103. a center layer; 104. a second frame; 105. a heat-insulating layer; 106. a third frame; 107. a first spring; 2. a power plant; 201. a power box; 202. a bottom groove; 203. positioning a groove; 204. a water flowing hole; 205. a wind plate; 3. a blower device; 301. a blast pipe; 302. a wind hole; 303. a post hole; 304. a blowing column; 305. a second spring; 4. a switching device; 401. a slip ring; 402. a column; 403. rotating the fan; 404. a first fixed pulley; 405. a second fixed pulley; 406. pulling a rope; 407. a third spring; 5. a door panel device; 501. a door panel; 502. a ventilation opening; 503. a shielding plate; 504. and a third fixed pulley.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a planting greenhouse for wild dendrobium officinale comprises a frame device 1, wherein the frame device 1 comprises two moisturizing layers 101, the two moisturizing layers 101 are arranged in bilateral symmetry, the front end and the rear end of the inner side wall of each moisturizing layer 101 are fixedly connected with a first frame 102, the upper end of the first frame 102 extends out of the moisturizing layers 101, the inner side of each moisturizing layer 101 is provided with a central layer 103, the central layers 103 are not in contact with the moisturizing layers 101, the number of the central layers 103 is two, the two central layers 103 are arranged in bilateral symmetry, the front end and the rear end of the inner side wall of each central layer 103 are fixedly connected with a second frame 104, the upper ends of the second frames 104 extend out of the central layers 103, the upper ends of the first frames 102 and the second frames 104 are located on the same vertical plane, the inner side of each central layer 103 is provided with a heat preservation layer 105, the number of the heat preservation 105 is two, the two heat preservation 105 are arranged in bilateral symmetry, and the heat preservation 105 is not in contact with the central layers 103, be provided with three frame 106 on two heat preservation 105's the lateral wall jointly, three 106 of frame's shape is the U style of calligraphy, and the both sides of three frame 106 correspond fixed connection respectively on heat preservation 105's inside wall, and three 106 of frame's quantity is three, and three 106 equidistance even distribution of frame is between two heat preservation 105, and the equal fixedly connected with spring 107 of the upper surface left and right sides of three frame 106.

Frame device 1's top is provided with power device 2, power device 2 includes headstock 201, the lower extreme of headstock 201 inserts between two moisturizing layers 101, the left and right sides width of headstock 201 is the same with the distance between two moisturizing layers 101 upper ends, the left and right sides width of headstock 201 is the same with the distance between two center layer 103 upper ends, headstock 201's lower fixed surface connects spring 107, the lower surface equidistance of headstock 201 is even has seted up kerve 202, constant head tank 203 has been seted up on the left and right sides outer wall of headstock 201, the quantity of constant head tank 203 is four, it distributes around two and to have seted up on the lateral wall of every side headstock 201, the position of constant head tank 203 corresponds in vertical direction with frame one 102 and frame two 104, under the initial condition, insert in the constant head tank 203 and the adaptation in the upper end of frame one 102, headstock 201 is transparent material.

The left side wall and the right side wall of the power box 201 are provided with water flowing holes 204 in a penetrating mode, the upper width and the lower width of each water flowing hole 204 are the same as the distance between the moisturizing layer 101 and the central layer 103, and when the power box 201 is located at the lowest position, the water flowing holes 204 are just communicated with the space between the moisturizing layer 101 and the central layer 103.

All fixedly connected with aerofoil 205 at the last port edge of headstock 201, aerofoil 205 presents the trend of slope from one side to the other side, and the quantity of aerofoil 205 is four, and four aerofoil 205 all present the difference in height in the four corners of headstock 201.

The side, close to each other, of each of the two first springs 107 on the same frame three 106 is provided with six blowing devices 3, each blowing device 3 comprises a blowing pipe 301, the outer side of the lower end of each blowing pipe 301 is provided with an air hole 302, the upper surface of each blowing pipe 301 is provided with a column hole 303, each column hole 303 is communicated with the air hole 302, a blowing column 304 is arranged above each blowing pipe 301, the lower end of each blowing column 304 is inserted into the column hole 303, the lower surface of each blowing column 304 is fixedly connected with a second spring 305, the lower end of each second spring 305 is fixedly connected with the lower inner wall of each column hole 303, each second spring 305 is located inside each column hole 303, the upper end of each blowing pipe 301 penetrates through the fixedly connected frame three 106, the upper end of each blowing column 304 is in contact with the lower surface of the power box 201, the air holes 302 on the three blowing devices 3 on the left side are opened forwards, the air holes 302 on the three blowing devices 3 on the right side are opened backwards, the column hole 303 is sized slightly larger than the blast column 304.

The middle of the upper surface of the middle frame III 106 is provided with a switch device 4, the switch device 4 comprises a sliding ring 401, the sliding ring 401 is sleeved outside the frame III 106, the lower side of the sliding ring 401 is fixedly connected with a vertical column 402, the lower end of the vertical column 402 is movably connected with a rotating fan 403 through a bearing, and the horizontal plane where the rotating fan 403 is located below the air blowing device 3.

The lower side of the middle frame III 106 is movably provided with two fixed pulleys I404, the two fixed pulleys I404 are respectively close to the air blowing devices 3 on the two sides, and the two fixed pulleys I404 are positioned on the side where the two air blowing devices 3 are close to each other.

The fixed pulleys II 405 are movably mounted on the lower sides of the frames III 106 on the two sides, the fixed pulleys II 405 are arranged close to the air blowing device 3, the number of the fixed pulleys II 405 on each frame III 106 on the two sides is one, the positions of the fixed pulleys II 405 on the two frames III 106 are in central symmetry, pull ropes 406 are fixedly connected to the lower ends of the two sides of the sliding ring 401, one end, far away from the sliding ring 401, of each pull rope 406 is sequentially wound on the outer sides of the fixed pulleys I404 and the fixed pulleys II 405, the fixed pulleys I404 and the fixed pulleys II 405 wound by the pull ropes 406 form a group, the fixed pulleys I404 and the fixed pulleys II 405 in the group are in the same longitudinal row, springs III 407 are arranged on the left side and the right side of the lower end of the sliding ring 401, the springs III 407 are wound on the pull ropes 406, one end of each spring III 407 is fixedly connected with the sliding ring 401, and the other end of each spring III 407 is in contact with the fixed pulley I404.

Frame device 1's front and back both sides respectively fixedly connected with door plant device 5, door plant device 5 includes door plant 501, ventilative mouthful 502 has been seted up on door plant 501's surface, that one side that two door plants 501 are close mutually has shielding plate 503 through slide rail sliding connection, shielding plate 503 is in ventilative mouthful 502 top and ventilative mouthful 502 adaptation, shielding plate 503's top is provided with three fixed pulleys 504, three fixed pulleys 504 movable mounting is on door plant 501, stay cord 406 is in that one end wiring three fixed pulleys 504 of keeping away from sliding ring 401 and fixed connection shielding plate 503's upper surface, moisturizing layer 101, center layer 103, heat preservation 105 respectively with door plant 501 fixed connection.

The working principle is as follows:

the first step is as follows: wild dendrobium officinale is favored to wet and generally can be planted artificially in rainy environment, in rainy weather, the headstock 201 can be filled gradually with rainwater, make headstock 201 push down spring one 107, thereby slide down along positioning groove 203, when the slide is bottommost, discharge orifice 204 can communicate with the space between moisturizing layer 101 and the central layer 103, the in-process of continuing to rain like this can be with the rainwater that overflows pour into the soil of lower part into from the gap between moisturizing layer 101 and the central layer 103, can soak soil around the dendrobium officinale like this, outer rivers can hinder follow-up canopy water dispersion loss simultaneously, guarantee moist environmental space in the canopy.

The second step is that: on the headstock 201 was hit to the rainwater, under the effect of spring 107, can make headstock 201 the elasticity that the top of frame device 1 does not stop, the elasticity of headstock 201 can make the blast column 304 at the inside elasticity of blast pipe 301, thereby continuous from wind hole 302 blowout air current, the opening direction of the wind hole 302 of the air-blowing device 3 of the left and right sides is different, thereby make the air current of commentaries on classics fan 403 left and right sides different, it rotates to drive commentaries on classics fan 403, through seting up of ventilative mouthful 502, guarantee like this that the air in the canopy is unblocked all the time.

The third step: when the environment of strong wind appears, the strong wind can contact with the wind plate 205, the strong wind blown at one side makes the power box 201 incline, cooperate the spring 107 at the bottom like this, make the power box 201 still shake, cooperation blower device 3 thus make the fan 403 anticlockwise rotate, if the strong wind is from the inside that enters into the big-arch shelter from the ventilative mouthful 502 in the place ahead for blowing backward, fan 403 receives the thrust with right side blower device 3 syntropy this moment, according to magnus effect, fan 403 can remove to the right side along frame three 106 this moment, make stay cord 406 extend to the direction of fixed pulley three 504 like this, thereby make the shielding plate 503 slide down and cover ventilative mouthful 502, otherwise, the strong wind blows from the rear side, the operation is the same, avoid the strong wind to air-dry the big-arch shelter internal environment, guarantee that the internal environment does not receive external wind influence.

The fourth step: through frame device 1's design, set up the big-arch shelter into the space of inside and outside three-layer, be responsible for between moisturizing layer 101 and the centre layer 103 and let in rivers, guarantee humid environment, leave the air between centre layer 103 and the heat preservation 105, thereby the inside and outside three-layer can be better keeps warm to the inside environment of big-arch shelter, and avoid thermal loss, thereby carry out the protection of multilayer to wild dendrobium officinale, make it in comparatively sealed environment, carry out the winter protection and handle, the better growth of help dendrobium officinale.

The fifth step: through power device 2's setting, cooperation headstock 201 can make big-arch shelter motion protection dendrobium officinale's living environment in heavy rain and strong wind environment, and makes the big-arch shelter can change the form according to the environment through strength among the natural environment to make the change of big-arch shelter adaptation environment more, and simultaneously more green.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a wild dendrobium officinale's planting big-arch shelter, includes frame device (1), frame device (1) is including moisturizing layer (101), the quantity of moisturizing layer (101) is two, two moisturizing layer (101) bilateral symmetry sets up its characterized in that: the utility model discloses a moisture preservation and protection device, including moisture preservation layer (101), center layer (103), center layer (102), moisture preservation layer (101) are stretched out to the upper end of frame one (102), the inboard of moisture preservation layer (101) is provided with center layer (103), center layer (103) and moisture preservation layer (101) contactless, the quantity of center layer (103) is two, two center layer (103) bilateral symmetry sets up, both ends all fixedly connected with frame two (104) around the inside wall of center layer (103), center layer (103) is stretched out to the upper end of frame two (104), the upper end of frame one (102) and frame two (104) is in on same vertical plane, the inboard of center layer (103) is provided with heat preservation (105), the quantity of heat preservation (105) is two heat preservation (105) bilateral symmetry sets up, heat preservation (105) and center layer (103) contactless, two be provided with frame three (106) on the lateral wall of heat preservation (105) jointly, the shape of frame three (106) is the U style of calligraphy, the both sides of frame three (106) correspond fixed connection respectively on the inside wall of heat preservation (105), the quantity of frame three (106) is three, and is three the even distribution of frame three (106) equidistance is two between heat preservation (105), the equal fixedly connected with spring (107) of the upper surface left and right sides of frame three (106).

2. The planting greenhouse of wild dendrobium officinale according to claim 1, characterized in that: the upper portion of the frame device (1) is provided with a power device (2), the power device (2) comprises a power box (201), the lower end of the power box (201) is inserted between two moisturizing layers (101), the left and right width of the power box (201) is the same as the distance between the upper ends of the two central layers (103), the lower surface of the power box (201) is fixedly connected with a first spring (107), the lower surface of the power box (201) is uniformly provided with a bottom groove (202) at equal intervals, positioning grooves (203) are formed in the outer walls of the left side and the right side of the power box (201), the number of the positioning grooves (203) is four, each side of the power box (201) is provided with two frames which are distributed from front to back, and the position of the positioning grooves (203) corresponds to the first frame (102) and the second frame (104) in the vertical direction, the upper end of the first frame (102) is inserted into the positioning groove (203) and is matched with the positioning groove.

3. The planting greenhouse of wild dendrobium officinale according to claim 2, characterized in that: the power box is characterized in that water flowing holes (204) are formed in the left side wall and the right side wall of the power box (201) in a penetrating mode, the upper width and the lower width of each water flowing hole (204) are the same as the distance between the moisture preservation layer (101) and the central layer (103), and when the power box (201) is located at the lowest position, the water flowing holes (204) are just communicated with the space between the moisture preservation layer (101) and the central layer (103).

4. The planting greenhouse of wild dendrobium officinale according to claim 3, characterized in that: all fixedly connected with aerofoil (205) at the last port edge of headstock (201), aerofoil (205) show the trend of slope from one side to the other side, the quantity of aerofoil (205) is four, four aerofoil (205) all show the difference in height in the four corners department of headstock (201).

5. The planting greenhouse of wild dendrobium officinale according to claim 1, characterized in that: the same one side, close to each other, of the two first springs (107) on the third frame (106) is provided with the air blowing devices (3), the number of the air blowing devices (3) is six, each air blowing device (3) comprises an air blowing pipe (301), an air hole (302) is formed in the outer side of the lower end of each air blowing pipe (301), a column hole (303) is formed in the upper surface of each air blowing pipe (301), the column hole (303) is communicated with the air holes (302), an air blowing column (304) is arranged above each air blowing pipe (301), the lower end of each air blowing column (304) is inserted into the column hole (303), a second spring (305) is fixedly connected to the lower surface of each air blowing column (304), the lower end of the second spring (305) is fixedly connected to the lower inner wall of the column hole (303), the second spring (305) is located inside the column hole (303), and the upper end of each air blowing pipe (301) penetrates through the third frame (106), the upper end of the air blowing column (304) is in contact with the lower surface of the power box (201), air holes (302) in the three air blowing devices (3) on the left side are formed forwards, and air holes (302) in the three air blowing devices (3) on the right side are formed backwards.

6. The planting greenhouse of wild dendrobium officinale according to claim 5, wherein the greenhouse comprises: the middle of the upper surface of the middle frame III (106) is provided with a switch device (4), the switch device (4) comprises a sliding ring (401), the sliding ring (401) is sleeved on the outer side of the frame III (106), the lower side of the sliding ring (401) is fixedly connected with a stand column (402), the lower end of the stand column (402) is movably connected with a rotating fan (403) through a bearing, and the horizontal plane where the rotating fan (403) is located below the air blowing device (3).

7. The planting greenhouse of wild dendrobium officinale according to claim 6, wherein the greenhouse comprises: the lower side of the middle frame III (106) is movably provided with a fixed pulley I (404), the number of the fixed pulley I (404) is two, the two fixed pulley I (404) are respectively close to the air blowing devices (3) on two sides, and the two fixed pulley I (404) are positioned on the side where the two air blowing devices (3) are close to each other.

8. The planting greenhouse of wild dendrobium officinale according to claim 7, wherein the greenhouse comprises: a second fixed pulley (405) is movably arranged at the lower side of the third frame (106) at the two sides, the second fixed pulleys (405) are arranged close to the air blowing device (3), the number of the second fixed pulleys (405) on each frame III (106) on two sides is one, the positions of the second fixed pulleys (405) on the two frames III (106) are in central symmetry, the lower ends of the two sides of the sliding ring (401) are fixedly connected with pull ropes (406), one end of each pull rope (406) far away from the sliding ring (401) is sequentially wound on the outer sides of the first fixed pulley (404) and the second fixed pulley (405), the left side and the right side of the lower end of the slip ring (401) are both provided with a third spring (407), the spring III (407) is wound on the pull rope (406), one end of the spring III (407) is fixedly connected with the sliding ring (401), and the other end of the spring III (407) is in contact with the fixed pulley I (404).

9. The planting greenhouse of wild dendrobium officinale according to claim 8, wherein the greenhouse comprises: the front side and the rear side of the frame device (1) are fixedly connected with door plate devices (5) respectively, each door plate device (5) comprises a door plate (501), a ventilation opening (502) is formed in the surface of each door plate (501), the side, close to each other, of each door plate (501) is connected with a shielding plate (503) in a sliding mode through a sliding rail, each shielding plate (503) is located above the corresponding ventilation opening (502) and matched with the corresponding ventilation opening (502), a fixed pulley three (504) is arranged above each shielding plate (503), the fixed pulley three (504) is movably installed on each door plate (501), one end, far away from the corresponding sliding ring (401), of each pulling rope (406) is in winding connection with the fixed pulley three (504) and fixedly connected with the upper surface of the corresponding shielding plate (503), and the moisture retention layer (101), the central layer (103) and the heat insulation layer (105) are fixedly connected with the door plates (501) respectively.