CN112673850B - Anti-fog and anti-rot potato planting device based on greenhouse - Google Patents

Abstract

The invention discloses a greenhouse-based anti-fogging and anti-rot potato planting device, which belongs to the technical field of greenhouse planting and comprises a suspension box assembly, wherein a wire collecting box is arranged at the bottom of a greenhouse transverse bracket; the condensate recovery assembly comprises a condensate cover arranged above the planting box; the pneumatic power storage assembly comprises a lower connecting rod cavity fixedly connected with the outer surface of the arc-shaped support plate; according to the invention, the water vapor in the greenhouse is condensed and collected through the condensate recovery component, the soil loosening structure arranged at the end part of the condensate recovery component loosens planting soil, so that the water can be quickly absorbed during irrigation, the volatilization amount of the water vapor is reduced, negative pressure is formed in the multi-groove water collecting plate, after the limit reset is relieved by the air blocking block, the air in the air storage pipe is pressed into the multi-groove water collecting plate, the water condensation is collected, the porosity of the soil is improved, the water is quickly absorbed, the problem of fogging in the greenhouse is further reduced, the problem of rot of plants is avoided, and the survival rate of the planted plants is improved.

Description

Anti-fog and anti-rot potato planting device based on greenhouse

Technical Field

The invention relates to the technical field of greenhouse planting, in particular to a greenhouse-based anti-fogging and anti-rot potato planting device.

Background

Potatoes, belonging to the Solanaceae family, annual herbaceous plants, tubers are edible, and are the fourth most important food crops worldwide, next to wheat, rice and corn. Potato is also known as yam egg, potato, sweet potato, jerusalem artichoke, sweet potato, sun potato, egg, potato, etc. Potatoes are also known differently at different countries, such as the united states name irish yam beans, the russian name dutch yams, the french apple, the german pear, the italian beans, the peru bar, etc. With wheat, rice, corn, sorghum and known as five crops worldwide. The potato tubers contain a large amount of starch, can provide abundant calories for human bodies, are rich in protein, amino acid, multiple vitamins and minerals, and especially have the vitamin content which is the most complete of all grain crops, and become a second staple food in European and American countries, especially North America. Potatoes are native to the andes mountain area in south america, and the artificial cultivation history was first traced to the peru southern area of about 8000 to 5000 years before the male element. Potatoes are produced mainly in China, russia, india, ukraut, the United states, etc. China is the country with the highest total yield of potatoes in the world.

Because vegetables irrigation moisture is comparatively abundant in the big-arch shelter, and the transpiration effect of plant, the inside environment that forms a high temperature and high humidity of big-arch shelter, the vapor will upward movement this time, meet the outside cold air of big-arch shelter after the big-arch shelter and will lead to the inside fog that appears of big-arch shelter, the fog in the big-arch shelter will cause the influence to the growth of the crops in the canopy, because the fog is too heavy in the big-arch shelter, humidity in the canopy will exceed standard, and the fog drops on vegetables after the condensation becomes the drop of water droplet, can cause the vegetables to appear rotting disease, especially some infectious disease, will cause serious influence to the growth, the quality etc. of vegetables once take place, for this reason, we propose a potato planting device based on the fog of big-arch shelter.

Disclosure of Invention

The invention aims to provide a greenhouse-based anti-fogging and anti-rot potato planting device, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a greenhouse-based anti-fogging and anti-rot potato planting device comprises a frame,

The hanging box assembly comprises a greenhouse transverse support, a wire collecting box is arranged at the bottom of the greenhouse transverse support, a motor and a wire winding wheel are arranged in the wire collecting box, a planting box is arranged below the wire collecting box, and the planting box is hung below the wire collecting box through a first stay wire;

the condensate recovery assembly comprises a condensate cover arranged above the planting box, a water pipe is fixedly inserted into the top end of the condensate cover, a flow guide pipe is connected to the bottom edge of the condensate cover, and the bottom end of the flow guide pipe is connected with an arc-shaped support plate;

The pneumatic power storage assembly comprises a lower connecting rod fixedly connected with the outer surface of the arc-shaped support plate, the top end of the lower connecting rod is movably connected with an upper connecting rod, and the top end of the upper connecting rod extends into the inner cavity of the power storage pipe.

Further, the arc extension board is equipped with a plurality of and is circumference form distribution, arc extension board top and collar swing joint, just the arc extension board group connects to be the structure that the surface is the sphere, the water conservancy diversion passageway has all been seted up to the arc extension board inner chamber, just the arc extension board inner chamber is equipped with the multislot water collecting plate, the multislot water collecting plate is circle shaped plate structure and with the activity butt of arc extension board inner wall.

Further, the arc extension board is connected with the wire collecting box through a second stay wire, a water collecting tank corresponding to the arc extension board is arranged on the multi-tank water collecting board, the notch of the water collecting tank is connected with the diversion channel through a connecting pipe and communicated with the adjacent water collecting tanks, a water outlet is formed in the top surface of the multi-tank water collecting board, a return pipe is inserted in the water outlet, and the top end of the return pipe is connected with the joint of the condensate hood and the water delivery pipe.

Further, the power storage pipe inner chamber activity is equipped with the gas barrier piece of being connected with last connecting rod, the gas barrier piece top is equipped with the gag lever post that the symmetry set up, the gag lever post top is hook-like structure, the power storage pipe inner wall is equipped with the limiting plate, the equidistant grafting of limiting plate surface has the location shelves pole.

Further, the bottom end of the limiting rod is movably connected with the top surface of the air blocking block, an electric telescopic rod connected with the limiting rod is arranged on one side of the limiting rod, one end of the positioning blocking rod is movably connected with the limiting plate through a torsion spring, the rotating angle of the positioning blocking rod is 90 degrees, an air duct is inserted into the top end of the power storage pipe, and the end part of the air duct is connected with the multi-groove water collecting plate.

Further, be equipped with the subassembly that loosens the soil in planting the case, the subassembly that loosens the soil include with arc extension board external surface fixed connection's arc push rod, arc push rod top activity runs through to planting the case inner chamber, just arc push rod tip swing joint has the tip to link to locate the pole that loosens the soil together, pole tip fixedly connected with divides branch.

Further, the soil loosening rods are connected through limiting springs, irregular air guide channels are formed in the inner cavities of the soil loosening rods and the inner cavities of the branch rods, retaining nets are arranged in the air guide channels, and the branch rods are distributed in a diverging mode.

Further, the bottom of the planting box is provided with a bottom plate, the bottom plate is composed of a plurality of movable plates capable of rotating downwards, and one ends of the movable plates are movably connected with the inner wall of the planting box through reset torsion springs.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the water vapor in the greenhouse is condensed and collected through the condensate recovery assembly, the arc-shaped support plate which is opened outwards drives the arc-shaped push rod to extend into the planting box, the soil loosening structure arranged at the end part of the arc-shaped push rod loosens planting soil, so that moisture can be quickly absorbed during irrigation, the volatilization amount of the water vapor is reduced, the arc-shaped push rod drives the upper connecting rod and the air blocking block to compress the air in the power storage pipe when rotating upwards, so that negative pressure is formed in the multi-groove water collecting plate, after limiting and resetting of the air blocking block are released, the air in the power storage pipe is pressed into the multi-groove water collecting plate, so that the condensate collected in the multi-groove water collecting plate enters the water pipe through the return pipe, and the irrigation operation is carried out again.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the structure of FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the structure A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the inner cavity structure of the power storage tube of the present invention.

In the figure: 100. a suspension box assembly; 101. a greenhouse transverse bracket; 102. a wire collecting box; 103. pulling a first wire; 104. a planting box; 200. a condensate recovery assembly; 201. a condensate cover; 202. a water pipe; 203. a flow guiding pipe; 204. an arc-shaped support plate; 205. a mounting ring; 206. a multi-sump water collection sheet; 207. a second stay wire; 208. a return pipe; 300. a pneumatic power storage assembly; 301. a lower connecting rod; 302. an upper connecting rod; 303. a power storage pipe; 304. a gas barrier block; 305. a limit rod; 306. a limiting plate; 307. positioning a baffle rod; 308. an electric telescopic rod; 309. an air duct; 400. a scarification assembly; 401. an arc push rod; 402. a scarifying rod; 403. a branch rod; 404. a limit spring; 405. a bottom plate; 406. and a reset torsion spring.

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the invention provides a greenhouse-based potato planting device capable of preventing fog and rot, which comprises a suspension box assembly 100, a greenhouse transverse bracket 101, a wire collecting box 102, a motor and a wire winding wheel, a planting box 104, a first stay wire 103 and a second stay wire 103, wherein the bottom of the greenhouse transverse bracket 101 is provided with the wire collecting box 102; the condensate recovery assembly 200 comprises a condensate cover 201 arranged above the planting box 104, wherein the condensate cover 201 is used for condensing and collecting water drops emitted by plants, a water pipe 202 is fixedly inserted into the top end of the condensate cover 201, a flow guide pipe 203 is connected to the bottom edge of the condensate cover 201, and the bottom end of the flow guide pipe 203 is connected with an arc-shaped support plate 204; the pneumatic power storage assembly 300 comprises a lower connecting rod 301 fixedly connected with the outer surface of the arc-shaped support plate 204, the top end of the lower connecting rod 301 is movably connected with an upper connecting rod 302, and the top end of the upper connecting rod 302 extends into the inner cavity of the power storage tube 303.

Referring to fig. 2, the arc support plate 204 is provided with a plurality of circumferentially distributed arc support plates 204, the top ends of the arc support plates 204 are movably connected with the mounting ring 205, the arc support plates 204 are assembled into a structure with spherical surfaces, the inner cavities of the arc support plates 204 are provided with flow guide channels, the inner cavities of the arc support plates 204 are provided with a multi-groove water collecting plate 206, mist water collected on the water condensation cover 201 enters the multi-groove water collecting plate 206 along the flow guide pipes 203, and the multi-groove water collecting plate 206 is in a ring-shaped plate structure and movably abutted against the inner walls of the arc support plates 204.

Referring to fig. 2, the arc-shaped support plate 204 is connected to the wire receiving box 102 through a second wire 207, a water collecting tank corresponding to the arc-shaped support plate 204 is provided on the multi-tank water collecting plate 206, the water collecting tank notch is connected to the flow guiding channel through a connecting pipe and communicated with the adjacent water collecting tanks, a water outlet is provided on the top surface of the multi-tank water collecting plate 206, a return pipe 208 is inserted on the water outlet, and the top end of the return pipe 208 is connected to the joint of the condensation cover 201 and the water pipe 202.

Referring to fig. 2 and 4, an air blocking block 304 connected with an upper connecting rod 302 is movably arranged in an inner cavity of the power storage tube 303, a symmetrically arranged limiting rod 305 is arranged at the top end of the air blocking block 304, the top end of the limiting rod 305 is in a hook-shaped structure, a limiting plate 306 is arranged on the inner wall of the power storage tube 303, and a positioning blocking rod 307 is inserted on the surface of the limiting plate 306 at equal intervals.

Referring to fig. 2 and 4, the bottom end of the limiting rod 305 is movably connected with the top surface of the air blocking block 304, one side of the limiting rod 305 is provided with an electric telescopic rod 308 connected with the limiting rod, one end of the positioning blocking rod 307 is movably connected with the limiting plate 306 through a torsion spring, when the arc push rod 401 rotates upwards, the upper connecting rod 302 and the air blocking block 304 are driven to compress air in the multi-groove water collecting plate 206, so that negative pressure is formed in the multi-groove water collecting plate 206, after the limiting reset of the air blocking block 304 is released, the air in the multi-groove water collecting plate 206 is pressed into the air in the multi-groove water collecting plate 303, the condensate collected in the multi-groove water collecting plate 206 enters the water pipe 202 through the return pipe 208 to carry out watering again, the processes are synchronously carried out, the looseness of soil is improved while the condensate is collected, the rotation angle of the positioning blocking rod 307 is 90 degrees, and the end of the air guide 309 is inserted into the multi-groove water collecting plate 206.

Referring to fig. 2 and 3, a soil loosening assembly 400 is disposed in a planting box 104, the soil loosening assembly 400 includes an arc-shaped push rod 401 fixedly connected with an outer surface of an arc-shaped support plate 204, a top end of the arc-shaped push rod 401 movably penetrates through an inner cavity of the planting box 104, an end portion of the arc-shaped push rod 401 is movably connected with a soil loosening rod 402 connected with the end portion of the arc-shaped push rod, the arc-shaped support plate 204 which is opened outwards drives the arc-shaped push rod 401 to extend into the planting box 104, and a soil loosening structure disposed at the end portion of the arc-shaped push rod loosens planting soil, so that water can be quickly absorbed during irrigation, the volatilization amount of water vapor is reduced, and a branch rod 403 is fixedly connected with the end portion of the soil loosening rod 402.

Referring to fig. 3, the soil loosening rods 402 are connected through a limiting spring 404, and the cavities of the soil loosening rods 402 and the branch rods 403 are provided with irregular air guide channels, so that air is conveniently introduced from the outside, the soil loosening degree is improved, the absorption of moisture is further accelerated, retaining nets are arranged in the air guide channels, the air guide channels are prevented from being blocked by the soil, and the branch rods 403 are distributed in a diverging shape.

Referring to fig. 3, a bottom plate 405 is disposed at the bottom of the planting box 104, where the bottom plate 405 is composed of a plurality of movable plates capable of rotating downward, and one end of each movable plate is movably connected with the inner wall of the planting box 104 through a reset torsion spring 406.

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of all parts adopt conventional means such as mature bolts, rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the details are not described.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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)

1. Anti-fogging and anti-rot potato planting device based on greenhouse, characterized in that: comprising the steps of (a) a step of,

The hanging box assembly (100) comprises a greenhouse transverse support (101), a wire collecting box (102) is arranged at the bottom of the greenhouse transverse support (101), a motor and a wire collecting wheel are arranged in the wire collecting box (102), a planting box (104) is arranged below the wire collecting box (102), and the planting box (104) is hung below the wire collecting box (102) through a first wire drawing (103);

the condensate recovery assembly (200) comprises a condensate cover (201) arranged above the planting box (104), a water pipe (202) is fixedly inserted into the top end of the condensate cover (201), a guide pipe (203) is connected to the bottom edge of the condensate cover (201), and the bottom end of the guide pipe (203) is connected with an arc-shaped support plate (204);

The pneumatic power storage assembly (300) comprises a lower connecting rod (301) fixedly connected with the outer surface of the arc-shaped support plate (204), the top end of the lower connecting rod (301) is movably connected with an upper connecting rod (302), and the top end of the upper connecting rod (302) extends into the inner cavity of the power storage tube (303);

The arc-shaped support plates (204) are provided with a plurality of circumferentially distributed plates, the top ends of the arc-shaped support plates (204) are movably connected with the mounting rings (205), the arc-shaped support plates (204) are assembled into a structure with spherical surfaces, the inner cavities of the arc-shaped support plates (204) are provided with flow guide channels, the inner cavities of the arc-shaped support plates (204) are provided with multi-groove water collecting plates (206), and the multi-groove water collecting plates (206) are in a ring-shaped plate structure and movably abutted against the inner walls of the arc-shaped support plates (204);

The arc-shaped support plates (204) are connected with the wire collecting box (102) through a second stay wire (207), water collecting grooves corresponding to the arc-shaped support plates (204) are formed in the multi-groove water collecting plates (206), the notch parts of the water collecting grooves are connected with the diversion channels through connecting pipes and communicated with each other, water outlets are formed in the top surfaces of the multi-groove water collecting plates (206), return pipes (208) are inserted into the water outlets, and the top ends of the return pipes (208) are connected with the joint of the condensate cover (201) and the water conveying pipe (202);

The inner cavity of the power storage pipe (303) is movably provided with a gas blocking block (304) connected with the upper connecting rod (302), the top end of the gas blocking block (304) is provided with symmetrically arranged limiting rods (305), the top end of each limiting rod (305) is in a hook-shaped structure, the inner wall of the power storage pipe (303) is provided with limiting plates (306), and the surfaces of the limiting plates (306) are equidistantly spliced with positioning blocking rods (307);

The bottom end of the limiting rod (305) is movably connected with the top surface of the air blocking block (304), an electric telescopic rod (308) connected with the limiting rod is arranged on one side of the limiting rod (305), one end of the positioning blocking rod (307) is movably connected with the limiting plate (306) through a torsion spring, the rotation angle of the positioning blocking rod (307) is 90 degrees, the top end of the power storage pipe (303) is inserted with an air duct (309), and the end of the air duct (309) is connected with the multi-groove water collecting plate (206);

The planting box (104) is internally provided with a soil loosening assembly (400), the soil loosening assembly (400) comprises an arc push rod (401) fixedly connected with the outer surface of the arc support plate (204), the top end of the arc push rod (401) movably penetrates through the inner cavity of the planting box (104), the end part of the arc push rod (401) is movably connected with a soil loosening rod (402) with the end part connected together, and the end part of the soil loosening rod (402) is fixedly connected with a branch rod (403);

The soil loosening rods (402) are connected through limiting springs (404), irregular air guide channels are formed in the inner cavities of the soil loosening rods (402) and the inner cavities of the branch rods (403), retaining nets are arranged in the air guide channels, and the branch rods (403) are distributed in a branching mode;

the bottom of the planting box (104) is provided with a bottom plate (405), the bottom plate (405) is composed of a plurality of movable plates capable of rotating downwards, and one ends of the movable plates are movably connected with the inner wall of the planting box (104) through reset torsion springs (406).