CN114467738A - Stem of noble dendrobium cultivation wall - Google Patents

Abstract

The utility model belongs to the technical field of dendrobium planting, in particular to a dendrobium cultivation wall, aiming at the problem of high maintenance cost caused by the need of monitoring nutrients in the wall in real time in the prior art, the dendrobium cultivation wall comprises a curtain wall body with a rectangular tubular structure, wherein a cavity is arranged in the curtain wall body, arc-shaped grooves which are distributed at equal intervals and are parallel to each other are formed in one side of the curtain wall body, C-shaped rods with upward openings are clamped in the arc-shaped grooves, water suction holes which are distributed at equal intervals are formed in the bottom of each arc-shaped groove, through holes which are overlapped with the water suction holes are formed in the surfaces of the C-shaped rods, and water collection groove clamping grooves with upward openings are fixed on the inner wall of the curtain wall body below the water suction holes. According to the utility model, the root of the dendrobe body can penetrate through the water absorption hole to absorb nutrients remained on the water absorption cotton, a certain amount of water can be stored in the water collection clamping groove at the bottom of the water absorption cotton, the development space of the root of the dendrobe body is enlarged, and the influence on growth due to narrow space is avoided.

Description

Stem of noble dendrobium cultivation wall

Technical Field

The utility model relates to the technical field of dendrobium planting, in particular to a dendrobium cultivation wall.

Background

At present, the common planting method of the traditional Chinese medicinal materials comprises the following steps: the method is characterized in that ground planting is carried out in soil on the ground, because roots of the traditional Chinese medicinal materials are in contact with the soil, pests are easily bred, the traditional Chinese medicinal materials can only be planted on the ground surface in the soil, plane planting is adopted, a large number of planting spaces cannot be utilized, so that the planting amount is greatly reduced, economic returns obtained by a large number of traditional Chinese medicinal material planting farmers are low, the rapid development of the traditional Chinese medicinal material planting industry cannot be really promoted, the dendrobium officinale can be planted on trees at present, but the space of one tree is limited, and the normal growth of the trees can be influenced by planting on the trees for a long time; therefore, a stereoscopic planting tool which can replace the tree is needed.

The retrieved Chinese patent number is CN201721087333.8 discloses a dendrobium planting wall. The utility model provides a dendrobium planting wall, which comprises a double wall body, namely an inner wall and an outer wall, wherein the double wall body is used for binding the root growth of dendrobium; a clamping cavity is formed between the inner wall and the outer wall; planting holes leading to the clamping cavity are formed in the inner wall and the outer wall; the bottoms of the inner wall and the outer wall are provided with water outlets leading to the clamping cavity; however, the planting mode needs to continuously inject nutrients and water into the inner cavity to ensure internal wetting, so that a large amount of cost is wasted; therefore, a new planting wall capable of maintaining nutrients for a long time is needed.

Disclosure of Invention

The utility model provides a dendrobium cultivation wall, aiming at solving the problem that in the prior art, the maintenance cost is high due to the fact that nutrients in the wall need to be monitored in real time.

In order to achieve the purpose, the utility model adopts the following technical scheme: a dendrobium cultivation wall comprises a curtain wall body, wherein a cavity is arranged in the curtain wall body, the curtain wall body is of a rectangular tubular structure, arc-shaped grooves are formed in one side of the curtain wall body and are distributed equidistantly and are parallel to each other, C-shaped rods with upward openings are clamped in the arc-shaped grooves, water suction holes are formed in the bottoms of the arc-shaped grooves and are distributed equidistantly, through holes which are overlapped with the water suction holes are formed in the surfaces of the C-shaped rods, a water collecting groove clamping groove with an upward opening is fixed on the inner wall of the curtain wall body below the water suction holes, water suction cotton and a steel wire mesh are inserted into the water collecting clamping groove respectively, the areas of the water suction cotton and the steel wire mesh are as large as each other, the area of the water suction cotton is larger than the opening size of the water suction holes, a pressing clamp is rotatably connected to one side, far away from the water suction cotton, of the water collecting clamping groove, is made of spring steel materials, one end, far away from the water collecting clamping groove, of the pressing clamp, is arranged in a bent shape and tightly attached to the surface of the steel wire mesh, thereby can be when using, when the root of the stem of noble dendrobium body in the C shape pole absorbed the nutrient in the C shape pole, can continue to pass the suction hole and absorb remaining nutrient on the cotton that absorbs water to also can save certain moisture in the draw-in groove that absorbs water cotton bottom catchments, the inside of curtain body is close to the back and is fixed with the inlet tube, and the inlet tube is connected with a plurality of standpipes that are parallel to each other through pipe connection spare, and the top of standpipe all distributes has the shower nozzle, and the jet hole position is just to the cotton that absorbs water in the shower nozzle, thereby can only need open the switch of inlet tube and can carry out moisture to the cotton that absorbs water when using and supply, the cotton that absorbs water that is close to below the top layer only needs to spray the cotton saturation of absorbing water on top, later continues to spray again and can soak the cotton that absorbs water of bottom.

Preferably in this scheme, the degree of depth of arc wall equals half of curtain body thickness, and the equal joint of outer wall of C shape pole has the staple bolt, and the staple bolt passes through the fix with screw on the surface of curtain body, one side outer wall that C shape pole is close to the arc wall is opened has a plurality of mounting holes, and all inlays the non-slip raised who is equipped with rubber material in the mounting hole.

Preferably in this scheme, sliding connection has a plurality of trees bed charge that open the crack in the spout of C shape pole, and the spraying plastics processing is done to the inside and outside wall of C shape pole to can avoid when the sun shines when using quick conduction heat to influence stem of noble dendrobium root to grow, and also can be used to cultivate some young seedlings that the root system does not arrive.

Preferably in the scheme, an eccentric wheel pump is additionally arranged in the middle of the water inlet pipe, the eccentric wheel pump is of a cylindrical structure with a cavity arranged therein, a rotating wheel is connected to the inner portion of the eccentric wheel pump in a rotating mode, three rectangular slots which are in central symmetric distribution are formed in the outer wall of the circumference of the rotating wheel, inserting plates are connected into the rectangular slots in a sliding mode, compression springs are fixed between the tail ends of the inserting plates and the bottoms of the rectangular slots, the width of each inserting plate is matched with the height of an inner cavity of the eccentric wheel pump, a transmission rod is connected to the middle of the rotating wheel in a rotating mode, the circle center of the transmission rod is not located at the same position as the circle center of a shell of the eccentric wheel pump, jacks are formed in the two sides, close to the rotating wheel, of the outer wall of the shell of the eccentric wheel pump, a communicating pipe and a water outlet pipe are respectively inserted into the two jacks, a speed reduction motor is fixed to one end, far away from the eccentric wheel pump, and the speed reduction motor is fixed on the inner wall of the curtain wall through bolts, thereby can be when using through gear motor's drive can be to spouting water in the inlet tube or the nutrient solution pressurization after spout to the cotton surface that absorbs water to reduce the waste of water, make the root that the hydroenergy can be more enough is absorbing water cotton or stem of noble dendrobium.

Preferably in this scheme, the wire net all opens the aperture with the position that the cotton middle part of absorbing water just right the shower nozzle to can directly pass the cotton root of stem of noble dendrobium of absorbing water with partly water when using in the C shape pole, improved the stem of noble dendrobium absorption efficiency.

Preferably, in the scheme, the outer wall of the transmission rod is further sleeved with a driving belt pulley, a channel steel beam with a downward opening is fixed on the inner wall of the top of the curtain wall body, a sliding strip is slidably connected inside the channel steel beam, hanging plates are fixed on the lower surfaces of the sliding strip between the spray head and the absorbent cotton, rectangular holes are formed in the middle of the hanging plates, water distribution grid plates are arranged in the rectangular holes, the water distribution grid plates in the same rectangular hole are divided into two groups, the water distribution directions of the two groups are opposite, a fixing plate strip is fixed on the lower surface of the channel steel beam above the driving belt pulley, an axial rod and a bearing seat are respectively fixed on one side of the fixing plate strip close to the spray head from top to bottom, a rotating shaft is rotatably connected in the bearing seat, a driven belt pulley which is in transmission connection with the driving belt pulley is sleeved on the outer wall of the rotating shaft, and a swinging rod is sleeved on the outer wall of the axial rod, and the top of swinging arms leaves the tooth of fan-shaped structure in advance, and the lower surface welding of sliding strip has the rack with tooth intermeshing to give and can utilize the rotation of transfer line to drive two sets of constantly switching in the grid tray that divides water when using, and then with the even dispersion of shower nozzle spun water to the surface of cotton that absorbs water, rivers pass the root of aperture direct injection stem of noble dendrobium body when waiting to move to the intermediate position.

Preferably in this scheme, the back of curtain body is close to the bottom and is fixed with the plug pin sleeve pipe, and has plugged in the plug pin sleeve pipe, can be with the curtain body tightly fixed subaerial through the setting of plug pin.

To sum up, the beneficial effect in this scheme is:

1. according to the dendrobium cultivation wall, the water absorption cotton arranged on the back of the water absorption hole can continuously penetrate through the water absorption hole to absorb nutrients remained on the water absorption cotton when the root of the dendrobium body in the C-shaped rod absorbs the nutrients in the C-shaped rod in use, certain water can be stored in the water collection clamping groove at the bottom of the water absorption cotton, the development space of the root of the dendrobium body is enlarged, and growth is prevented from being influenced by narrow space;

2. according to the dendrobium cultivation wall, the spray head which is arranged in the curtain wall body and is right opposite to the absorbent cotton can supplement water to the absorbent cotton only by opening a switch of the water inlet pipe when the dendrobium cultivation wall is used, the absorbent cotton which is close to the top layer and below the top layer only needs to be sprayed with the absorbent cotton at the top end to be saturated, and then the absorbent cotton at the bottom can be completely soaked by continuously spraying;

3. according to the dendrobium cultivation wall, the two groups of water-separation grid plates which move left and right are arranged, so that water or nutrient solution sprayed out of the water inlet pipe can be pressurized and sprayed to the surface of the absorbent cotton under the driving of the speed reduction motor when the dendrobium cultivation wall is used, the waste of water is reduced, and more water can act on the absorbent cotton or the roots of dendrobium;

4. this kind of stem of noble dendrobium cultivation wall, through belt pulley and the swinging arms that set up, can utilize the rotation of transfer line to drive two sets of constantly switching in the grid tray that divides water when using, and then with the even dispersion of shower nozzle spun water to the cotton surface that absorbs water, rivers pass the root of aperture direct injection stem of noble dendrobium body when treating to move to the intermediate position.

Drawings

Fig. 1 is a schematic cross-sectional structure view of a dendrobium nobile cultivation wall provided by the utility model;

FIG. 2 is a schematic view of an eccentric wheel pump structure of a dendrobium cultivation wall according to the present invention;

FIG. 3 is a schematic perspective view of a curtain wall body of a dendrobium cultivation wall according to the present invention;

FIG. 4 is a schematic perspective view of a water-dividing grid plate of a dendrobium cultivation wall according to the present invention;

fig. 5 is an enlarged schematic structural view of a position a in fig. 1 of the dendrobium nobile cultivation wall provided by the utility model.

In the figure: the water-absorbing curtain wall comprises a curtain wall body 1, an arc-shaped groove 101, a water outlet pipe 2, an eccentric wheel pump 3, a water absorbing sponge 4, a pressure plate clamp 5, a spray head 6, a water dividing grid plate 7, a hanging plate 8, a channel steel beam 9, a 901 fixing batten, a sliding strip 10, a rack 1001, a swinging rod 11, a water absorbing hole 12, a tree bed charge 13, a hoop 14, a C-shaped rod 15, an antiskid bulge 1501, a through hole 16, a driving belt pulley 17, a speed reducing motor 18, a transmission rod 19, an inserting nail 20, a water inlet pipe 21, a rotating wheel 22, a 2201 compression spring 2202 rectangular slot, a 2203 inserting plate, a driven belt pulley 23, an axle center rod 24 and a conveyor belt 25.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1-5, a dendrobium cultivation wall comprises a curtain wall body 1 with a rectangular tubular structure, wherein a cavity is arranged in the curtain wall body 1, arc-shaped grooves 101 which are distributed at equal intervals and are parallel to each other are formed in one side of the curtain wall body 1, C-shaped rods 15 with upward openings are clamped in the arc-shaped grooves 101, water suction holes 12 which are distributed at equal intervals are formed in the bottoms of the arc-shaped grooves 101, through holes 16 which are overlapped with the water suction holes 12 are formed in the surfaces of the C-shaped rods 15, a water collection groove clamping groove with an upward opening is fixed on the inner wall of the curtain wall body 1 below the water suction holes 12, water suction cotton 4 and a steel wire mesh are respectively inserted into the water collection clamping groove, the water suction cotton 4 and the steel wire mesh have the same area, the area of the water suction cotton 4 is larger than the opening size of the water suction holes 12, one side, far away from the water suction cotton 4, of the water collection clamping groove is rotatably connected with a pressing clamp 5, and the pressing clamp 5 is made of a spring steel material, one end of the pressing sheet clamp 5 far away from the water collecting clamping groove is arranged in a bent shape and tightly attached to the surface of the steel wire mesh, therefore, when in use, when the root of the dendrobium body in the C-shaped rod 15 absorbs the nutrients in the C-shaped rod 15, the dendrobium body can continuously penetrate through the water absorption holes 12 to absorb the nutrients remained on the absorbent cotton 4, and certain water can be stored in the water collecting clamping groove at the bottom of the absorbent cotton 4, a water inlet pipe 21 is fixed in the curtain wall body 1 close to the back, the water inlet pipe 21 is connected with a plurality of vertical pipes which are parallel to each other through pipe connectors, spray heads 6 are distributed on the top ends of the vertical pipes, the positions of spray holes in the spray heads 6 are opposite to the absorbent cotton 4, thereby can only need open the switch of inlet tube 21 when using can carry out moisture to cotton 4 that absorbs water and supply, be close to cotton 4 that absorbs water below the top layer and only need spray the saturation with the cotton 4 that absorbs water on top, later continue to spray and can soak the cotton that absorbs water of bottom is whole again.

In the utility model, the depth of the arc-shaped groove 101 is equal to half of the thickness of the curtain wall body 1, the outer walls of the C-shaped rods 15 are respectively clamped with the anchor ear 14, the anchor ears are fixed on the surface of the curtain wall body 1 through screws, the outer wall of one side of the C-shaped rods 15, which is close to the arc-shaped groove 101, is provided with a plurality of mounting holes, and the mounting holes are respectively embedded with the anti-skid protrusions 1501 made of rubber.

Wherein, C shape pole 15's spout sliding connection have a plurality of trees bed charge 13 that open the crack, and the spraying plastics processing is done to C shape pole 15's inside and outside wall to can avoid when the sun shines when quick conduction heat influences the stem of noble dendrobium root and grow when using, and also can be used for cultivating some young seedlings that the root system is not up to the coming.

Wherein, the centre of inlet tube 21 add and be equipped with eccentric wheel pump 3, and eccentric wheel pump 3 establishes the cylindrical structure of cavity in for, and the internal rotation of eccentric wheel pump 3 is connected with runner 22, the circumference outer wall of runner 22 open and have three rectangle slot 2202 that are central symmetric distribution, and equal sliding connection has picture peg 2203 in the rectangle slot 2202, all be fixed with compression spring 2201 between the tail end of picture peg 2203 and the tank bottom of rectangle slot 2202, and the width of picture peg 2203 and the high looks adaptation of eccentric wheel pump 3 inner chamber, the centre of runner 22 rotates and is connected with transfer line 19, and the centre of a circle of transfer line 19 is not on a bit with the shell centre of a circle of eccentric wheel pump 3, the both sides that the outer wall of eccentric wheel pump 3 shell is close to runner 22 all opened the jack, and peg graft respectively in two jacks and have communicating pipe and outlet pipe 2, the one end that eccentric wheel pump 3 was kept away from to transfer line 19 is fixed with gear motor 18, gear motor 18 passes through the bolt fastening on the inner wall of curtain body 1 to can be spraying to the surface of cotton 4 that absorbs water after can be to spun water or nutrient solution pressurization in inlet tube 21 through gear motor's drive when using, thereby reduce the waste of water, make the root of cotton 4 or the stem of noble dendrobium that absorbs water can be more.

Furthermore, the positions of the middle parts of the steel wire mesh and the absorbent cotton 4, which are opposite to the spray head 6, are provided with small holes, so that part of water can directly penetrate through the absorbent cotton 4 to be sprayed on the root of the dendrobium in the C-shaped rod 15 when the device is used, and the absorption efficiency of the dendrobium is improved.

Further, the outer wall of the transmission rod 19 is further sleeved with a driving pulley 17, the inner wall of the top of the curtain wall body 1 is fixed with a channel steel beam 9 with a downward opening, the inside of the channel steel beam 9 is connected with a sliding strip 10 in a sliding manner, the lower surface of the sliding strip 10 is positioned between the spray head 6 and the absorbent cotton 4 and is fixed with a hanging plate 8, the middle part of the hanging plate 8 is provided with a rectangular hole, the rectangular hole is internally provided with a water distribution grid plate 7, the water distribution grid plates 7 in the same rectangular hole are divided into two groups, the water distribution directions of the two groups are opposite, the lower surface of the channel steel beam 9 is positioned above the driving pulley 17 and is fixed with a fixed lath 901, one side of the fixed lath 901 close to the spray head 6 is respectively fixed with an axis rod 24 and a bearing seat from top to bottom, the bearing seat is rotatably connected with a rotating shaft, the outer wall of the rotating shaft is sleeved with a driven pulley 23 which is mutually forms a transmission connection with the driving pulley 17, and the outer wall of axle center pole 24 has cup jointed swinging arms 11, and the top of swinging arms 11 reserves the tooth of fan-shaped structure, and the lower surface welding of slide bar 10 has the rack 1001 with tooth intermeshing to give and can utilize the rotation of transfer line 19 to drive two sets of continuous switching in the water diversion grid tray 7 when using, and then with the even dispersion of shower nozzle 6 spun water to the surface of cotton 4 that absorbs water, rivers pass the root of aperture direct injection stem of noble dendrobium body when moving to the intermediate position.

Further, the back of the curtain wall body 1 is close to the bottom and is fixed with a plug pin sleeve, and the plug pin 20 is plugged in the plug pin sleeve, and the curtain wall body can be tightly fixed on the ground through the arrangement of the plug pin 20.

The working principle is as follows: when the curtain wall is used, the curtain wall body 1 is fixed at a place suitable for growth of the dendrobium body regularly through the inserted nails 20, then the tree bed charge with the cracks penetrates into the C-shaped rod 15, the direction of the cracks is consistent with that of the openings of the C-shaped rod 15, then the C-shaped rod 15 is fixed in the arc-shaped groove 101 in the front face of the curtain wall body 1 through the anchor ear 14, the through hole 16 in the C-shaped rod 15 is overlapped with the water suction hole 12, then the water absorption cotton 4 and the steel wire mesh are inserted into the water collection clamping groove in the inner wall of the curtain wall body 1 together, and then the dendrobium body in the cracks is watered by spraying liquid from the outside; after the root breaks through the gap, the root can pass through the through hole 16 and the water suction hole 12 to directly contact the water suction cotton, the speed reduction motor and the valve of the water inlet pipe 21 are started periodically, the rotation of the transmission rod 19 is utilized to drive the two groups of the water diversion grid plates 7 to be switched continuously, then the water sprayed by the spray head 6 is uniformly dispersed to the surface of the water suction cotton 4, and when the water is moved to the middle position, the water flow passes through the small hole to directly penetrate the root of the dendrobium body.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. A dendrobium cultivation wall comprises a curtain wall body (1) with a rectangular tubular structure, wherein a cavity is formed in the curtain wall body (1), arc-shaped grooves (101) which are distributed equidistantly and are parallel to each other are formed in one side of the curtain wall body (1), C-shaped rods (15) with upward openings are clamped in the arc-shaped grooves (101), water suction holes (12) which are distributed equidistantly are formed in the bottoms of the arc-shaped grooves (101), through holes (16) which are overlapped with the water suction holes (12) are formed in the surfaces of the C-shaped rods (15), the dendrobium cultivation wall is characterized in that a water collecting groove with an upward opening is fixedly formed in the position, below the water suction holes (12), of the inner wall of the curtain wall body (1), a water collecting groove with an upward opening is fixedly formed in the inner side of the water collecting groove, water suction cotton (4) and a steel wire mesh are respectively inserted in the water collecting groove, the water suction cotton (4) and the steel wire mesh are as large in area, the water suction cotton (4) is larger in area than the water suction groove (12), one side, far away from the water suction cotton (4), a pressure clamp (5) is rotatably connected, and the preforming presss from both sides (5) and makes for the spring steel material, and the one end that the clamping groove that catchments was kept away from in preforming clamp (5) sets up to the bending form and tightly pastes on the surface of wire net, the inside of curtain body (1) is close to the back and is fixed with inlet tube (21), and inlet tube (21) are connected with a plurality of standpipes that are parallel to each other through the union coupling, and the top of standpipe all distributes and has shower nozzle (6), and the jet hole position is just to cotton (4) absorb water in shower nozzle (6).

2. The dendrobium nobile cultivation wall of claim 1, characterized in that, the degree of depth of arc wall (101) equals half of curtain wall body (1) thickness, and the equal joint of the outer wall of C shape pole (15) has staple bolt (14), and the staple bolt passes through the fix with screw on the surface of curtain wall body (1), one side outer wall that C shape pole (15) are close to arc wall (101) is opened has a plurality of mounting holes, and all inlays in the mounting hole and is equipped with non-skid protrusions (1501) of rubber material.

3. The dendrobium nobile cultivation wall as claimed in claim 1, wherein the C-shaped rod (15) has a plurality of split tree bottom materials (13) connected in a sliding groove in a sliding manner, and the inner and outer walls of the C-shaped rod (15) are subjected to plastic spraying treatment.

4. The dendrobium cultivation wall according to claim 1, wherein an eccentric wheel pump (3) is additionally arranged in the middle of the water inlet pipe (21), the eccentric wheel pump (3) is of a cylindrical structure with a cavity arranged inside, a rotating wheel (22) is rotatably connected inside the eccentric wheel pump (3), three rectangular slots (2202) which are distributed in a central symmetry manner are formed in the outer wall of the circumference of the rotating wheel (22), inserting plates (2203) are slidably connected inside the rectangular slots (2202), compression springs (2201) are fixed between the tail ends of the inserting plates (2203) and the bottoms of the rectangular slots (2202), the width of the inserting plates (2203) is matched with the height of the inner cavity of the eccentric wheel pump (3), a transmission rod (19) is rotatably connected in the middle of the rotating wheel (22), the circle center of the transmission rod (19) is not in the same position as the circle center of the outer shell of the eccentric wheel pump (3), and jacks are formed in the two sides of the outer wall of the outer shell of the eccentric wheel pump (3) close to the rotating wheel (22), and a communicating pipe and a water outlet pipe (2) are respectively inserted in the two jacks, one end of the transmission rod (19) far away from the eccentric wheel pump (3) is fixed with a speed reducing motor (18), and the speed reducing motor (18) is fixed on the inner wall of the curtain wall body (1) through bolts.

5. The dendrobium cultivation wall as claimed in claim 4, wherein the middle parts of the steel wire mesh and the absorbent cotton (4) facing the spray head (6) are provided with small holes.

6. The dendrobium cultivation wall as claimed in claim 5, wherein the outer wall of the transmission rod (19) is further sleeved with a driving belt pulley (17), a channel steel beam (9) with a downward opening is fixed on the inner wall of the top of the curtain wall body (1), a sliding strip (10) is connected inside the channel steel beam (9) in a sliding mode, hanging plates (8) are fixed on the lower surfaces of the sliding strip (10) between the spray head (6) and the absorbent cotton (4), rectangular holes are formed in the middle of the hanging plates (8), water distribution grid plates (7) are arranged in the rectangular holes, the water distribution grid plates (7) in the same rectangular hole are divided into two groups, the water distribution directions of the two groups are opposite, a fixed lath (901) is fixed on the lower surface of the channel steel beam (9) above the driving belt pulley (17), and a shaft center rod (24) and a bearing seat are fixed on one side of the fixed lath (901) close to the spray head (6) from top to bottom respectively, and the bearing frame internal rotation is connected with the pivot, the outer wall of pivot cup joints driven pulley (23) of being connected with drive pulley (17) transmission of each other formation, and the outer wall of axle center pole (24) has cup jointed swinging arms (11), and the top of swinging arms (11) is reserved has the tooth of fan-shaped structure, and the lower surface welding of slip strip (10) has rack (1001) of intermeshing with the tooth, utilize the rotation of transfer line (19) to drive two sets of continuous switching in the grid tray (7) that divides water when using, and then with the even dispersion of shower nozzle (6) spun water to the surface of cotton (4) that absorbs water, rivers pass the root of aperture direct injection stem of noble dendrobium body when treating to the intermediate position.

7. The dendrobium nobile cultivation wall as claimed in claim 1, wherein the back of the curtain wall body (1) is fixed with a plug pin sleeve near the bottom end, and a plug pin (20) is plugged in the plug pin sleeve, and the curtain wall body can be tightly fixed on the ground through the arrangement of the plug pin (20).

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