CN213718974U

CN213718974U - Cherry tomato is planted and is used big canopy of multi-functional greenhouse

Info

Publication number: CN213718974U
Application number: CN202022145954.5U
Authority: CN
Inventors: 李界峰; 赵东
Original assignee: Henan Yinong Fengda Agricultural Technology Co Ltd
Current assignee: Henan Yinong Fengda Agricultural Technology Co Ltd
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2021-07-20
Anticipated expiration: 2030-09-27

Abstract

The utility model discloses a multifunctional greenhouse shed for planting cherry tomatoes, wherein a heat insulation board is fixed in a main pipeline, the main pipeline is divided into a main heat transmission pipeline and a main water transmission pipeline by the heat insulation board, and the bottom surface of the main pipeline is supported at the top end of each middle upright post; the left side surface and the right side surface of the main heating pipeline are respectively connected with a plurality of left branch heating pipelines and a plurality of right branch heating pipelines; the left side surface and the right side surface of the main water pipeline are respectively connected with a plurality of left branch water pipelines and a plurality of right branch water pipelines; the left and right ends of the greenhouse are symmetrically provided with a left upright post part and a right upright post part, the left upright post part comprises a left first upright post and a left second upright post, the right upright post part comprises a right first upright post and a right second upright post, the top ends of the left and right first upright posts are detachably connected with a first top frame, and the top ends of the left and right second upright posts are detachably connected with a second top frame. The utility model discloses a warmhouse booth installs and dismantles conveniently, and this warmhouse booth both had been applicable to not too chilly area winter and was applicable to winter alpine region moreover.

Description

Cherry tomato is planted and is used big canopy of multi-functional greenhouse

Technical Field

The utility model belongs to the technical field of the warmhouse booth design, concretely relates to cherry tomato is planted and is used big canopy of multi-functional greenhouse.

Background

A greenhouse is generally composed of a frame and a cloth covering the frame. In the prior art, when a greenhouse frame of a greenhouse is installed, the joints of all brackets are fixedly connected by welding or other fixing modes, so that the greenhouse frame of the greenhouse is time-consuming and labor-consuming when being disassembled, and the disassembled brackets are generally inconvenient to be reused; and the warmhouse booth among the prior art generally does not lead to the heating installation, and like this in the severe cold district winter, the temperature in the warmhouse booth is still lower, and then is not suitable for the planting of cherry tomato etc. and the warmhouse booth among the prior art is inherent when watering and irrigating plants such as cherry tomato of inside, and the business turn over door of warmhouse booth is opened to most of the circumstances, lays the water pipe in the warmhouse booth again, and the intensity of labour when watering and irrigating like this is big, and is unfavorable for the maintenance of warmhouse booth internal temperature.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cherry tomato is planted and is used big canopy of multi-functional warmhouse, this warmhouse booth's big shed frame simple to operate, and this warmhouse booth's big shed frame dismantles the convenience when dismantling, and dismantle the first roof-rack that gets off, the second roof-rack, left first stand, left second stand, right first stand, right second stand, the equal re-application in big shed frame's of center pillar installation, and this warmhouse booth both had been applicable to not too chilly area winter and was applicable to winter severe cold area again, and this warmhouse booth labour saving and time saving when watering.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a multifunctional greenhouse shed for planting cherry tomatoes comprises a horizontal main pipeline which is arranged in front and back, wherein a horizontal heat insulation plate is fixed in the main pipeline, the main pipeline is divided into a main heating pipeline at the upper part and a main water pipeline at the lower part by the heat insulation plate, a plurality of identical center pillars are embedded in the ground right below the main pipeline from front to back, and the bottom surfaces of the main pipelines are supported at the top ends of the center pillars; the left side surface and the right side surface of the main heating pipeline are symmetrically connected with a left branch heating pipeline and a right branch heating pipeline, the left branch heating pipeline comprises a plurality of same and horizontal left branch heating pipelines which are sequentially arranged from front to back, the right end of each left branch heating pipeline is communicated with the corresponding position of the left side wall of the main heating pipeline, and the right branch heating pipeline comprises a plurality of right branch heating pipelines; the left side surface and the right side surface of the main water conveying pipeline are symmetrically connected with a left water conveying part and a right water conveying part, the left water conveying part comprises a plurality of same and horizontal left water conveying pipelines which are sequentially arranged from front to back, the right end of each left water conveying pipeline is communicated with the corresponding position of the left side wall of the main water conveying pipeline, the lower end of each left water conveying pipeline is connected with a plurality of left spray heads, and the right water conveying part comprises a plurality of right water conveying pipelines; the left and right ends of the greenhouse are symmetrically provided with left and right upright post parts, the left upright post parts comprise corresponding left first upright posts buried in the ground below the left side of each left branch heat transmission pipeline and corresponding left second upright posts buried in the ground below the left side of each left branch heat transmission pipeline, the left side surfaces of the left first upright posts and the left second upright posts are positioned on the same vertical surface arranged along the front and back, the top ends of the left first upright posts and the left second upright posts are parallel and level, the left branch heat transmission pipeline and the left end of the left branch heat transmission pipeline are detachably connected with the upper parts of the left first upright posts and the left second upright posts respectively, the right upright post parts comprise right first upright posts and right second upright posts, an arched first top frame is detachably connected between the top ends of the left and right first upright posts, a second top frame identical to the first top frame is detachably connected between the top ends of the left and right second upright posts, a plurality of left first upright posts, a plurality of left upright posts are arranged on the same vertical surface of the left side of the first upright posts, a right side of the left side of the right side of the left side of, The left second upright post, the right first upright post, the right second upright post, the first top frame and the second top frame are connected into a greenhouse frame, the outer side of the greenhouse frame is covered with plastic cloth, and the front end and the rear end of the main pipeline respectively penetrate through the front end and the rear end of the plastic cloth.

Furthermore, the left branch water conveying pipelines are uniformly distributed on the left side of the main water conveying pipeline from front to back, and the left branch water conveying pipelines are uniformly distributed on the left side of the main water conveying pipeline from front to back.

Further, divide between the middle part of defeated heating installation pipeline of adjacent left branch through left connecting pipe intercommunication, and left connecting pipe level just arranges along the fore-and-aft direction, divide between the middle part of defeated heating installation pipeline of adjacent right branch through right connecting pipe intercommunication, and right connecting pipe level just arranges along the fore-and-aft direction.

Furthermore, the middle part of the top end of each center pillar is provided with a vertical top groove with an upward opening, the middle part of the bottom surface of the main pipeline is integrally connected downwards from front to back with a plurality of lower bulges which are respectively matched with the shape and the size of the top groove of the corresponding center pillar, and the lower bulges are respectively inserted into the top grooves of the corresponding center pillars.

Furthermore, a first connecting upright post is arranged between the middle part of the bottom end of each first top frame and the corresponding position of the top end of the main pipeline, a second connecting upright post is arranged between the middle part of the bottom end of each second top frame and the corresponding position of the top end of the main pipeline, a first lower groove which is vertical and has a downward opening is arranged at the middle part of the bottom end of each first connecting upright post, a second lower groove which is vertical and has a downward opening is arranged at the middle part of the bottom end of each second connecting upright post, a plurality of first upper bulges which are respectively matched with the first lower groove shape and the size of the corresponding first connecting upright post are integrally and upwards connected with the middle part of the top surface of the main pipeline from front to back, a plurality of second upper bulges which are respectively matched with the second lower groove shape and the size of the corresponding second connecting upright post are also integrally and upwards connected with the middle part of the top surface of the main pipeline from front to back, each first upper bulge is respectively inserted into the first lower groove of the corresponding first connecting upright post, each second upper bulge is respectively inserted into the second lower groove of the corresponding second connecting upright post, first connecting column top middle part department is equipped with the first upper groove of vertical and ascending opening, stand bottom middle part department is connected to the second is equipped with the second upper groove of vertical and ascending opening, first roof-rack bottom middle part department an organic whole even down have with the first upper groove shape of corresponding first connecting column, the first end of size homogeneous phase adaptation is protruding, in the first upper groove of corresponding first connecting column is inserted to first end arch, second roof-rack bottom middle part department an organic whole even down have with the second of corresponding second connecting column on the groove shape, protruding at the bottom of the second of size homogeneous phase adaptation, protruding at the bottom of the second inserts in the second upper groove of corresponding second connecting column.

Furthermore, a horizontal left first groove with a rightward opening is formed in the upper portion of the right side face of the left first upright column, the left end of the left branch water delivery pipeline is inserted into the left first groove of the corresponding left first upright column, a horizontal left second groove with a rightward opening is formed in the upper portion of the right side face of the left second upright column, and the left end of the left branch water delivery pipeline is inserted into the left second groove of the corresponding left second upright column; the upper portion of the left side face of the right first upright post is provided with a horizontal right first groove with a left opening, the right end of a right branch water delivery pipeline is inserted into the right first groove of the corresponding right first upright post, the upper portion of the left side face of the right second upright post is provided with a horizontal right second groove with a left opening, and the right end of the right branch water delivery pipeline is inserted into the right second groove of the corresponding right second upright post.

Furthermore, a vertical left first top groove with a downward opening is arranged at the left part of the top end of the left first upright column, a vertical right first top groove with a downward opening is arranged at the right part of the top end of the right first upright column, a first left lower bulge matched with the left first top groove of the corresponding left first upright column in shape and size is integrally and downwardly connected at the left lower end of the first top frame, a first right lower bulge matched with the right first top groove of the corresponding right first upright column in shape and size is integrally and downwardly connected at the right lower end of the first top frame, the first left lower bulge of the first top frame is inserted into the left first top groove of the corresponding left first upright column, the first right lower bulge of the first top frame is inserted into the right first top groove of the corresponding right first upright column, the left lower end of the first top frame is bound and fixed with the top end of the corresponding left first upright column, and the right lower end of the first top frame is bound and fixed with the top end of the corresponding right first upright column; the left part of the top end of the left second upright post is provided with a vertical left second top groove with a downward opening, the right part of the top end of the right second upright post is provided with a vertical right second top groove with a downward opening, the left lower end of the second top frame is integrally connected with a left second top groove shape of the corresponding left second upright post and a second left lower protrusion with a uniform size adaptation downwards, the right lower end of the second top frame is integrally connected with a right second top groove shape of the corresponding right second upright post and a second right lower protrusion with a uniform size adaptation downwards, the second left lower protrusion of the second top frame is inserted into the left second top groove of the corresponding left second upright post, the second right lower protrusion of the second top frame is inserted into the right second top groove of the corresponding right second upright post, the left lower end of the second top frame is bound and fixed with the top end of the corresponding left second upright post, and the right lower end of the second top frame is bound and fixed with the top end of the corresponding right second upright post.

Furthermore, the left ends of the left branch water conveying pipeline and the left branch water conveying pipeline are both closed, and the right ends of the right branch water conveying pipeline and the right branch water conveying pipeline are both closed; the front end of the main heating pipeline is communicated with the rear end of the main heating pipeline in the greenhouse which is adjacent to the front side, and the rear end of the main heating pipeline is communicated with the front end of the main heating pipeline in the greenhouse which is adjacent to the rear side; the front end of the main water conveying pipeline is communicated with the rear end of the main water conveying pipeline in the greenhouse which is adjacent to the front side, the rear end of the main water conveying pipeline is communicated with the front end of the main water conveying pipeline in the greenhouse which is adjacent to the rear side, and the front end and the rear end of the main water conveying pipeline are respectively provided with a front water control switch and a rear water control switch.

Furthermore, a plurality of left spray heads are uniformly distributed on the lower end surface of the left branch water conveying pipeline.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, many the same center pillars have been buried underground from the front to the back in the ground under the main pipeline, main pipeline bottom surface supports in each center pillar top department, a left side, right side branch defeated heating installation part bilateral symmetry arranges, left side branch defeated heating installation part includes many left branch defeated heating installation pipeline, right side branch defeated heating installation part includes many right branch defeated heating installation pipeline, a left side, right side branch defeated water installation part bilateral symmetry arranges, left side branch defeated water installation part includes many left branch defeated water pipelines, right side branch defeated water installation part includes many right branch defeated water pipelines, and a left side, right side stand part bilateral symmetry arranges, left stand part includes the corresponding left first stand buried underground in the ground of each left branch defeated heating installation pipeline left side below and the corresponding left second stand buried underground in the ground of each left branch defeated water pipeline left below, right stand part includes many right first stands and many right second stands, and left side branch defeated heating installation pipeline left side branch, The left end of the left branch water conveying pipeline is detachably connected with the upper parts of a left first upright post and a left second upright post respectively, further, the right end of the right branch water conveying pipeline and the right branch water conveying pipeline are detachably connected with the upper parts of a right first upright post and a right second upright post respectively, a first top frame is detachably connected between the top ends of the left first upright post and the right first upright post, a second top frame is detachably connected between the top ends of the left second upright post and the right second upright post, the lower end of the middle upright post is embedded in the ground, the bottom surface of the main pipeline is supported at the top end of each middle upright post, the left end of the left branch water conveying pipeline is detachably connected with the upper part of the left first upright post, the left end of the left branch water conveying pipeline is detachably connected with the upper part of the left second upright post, the right end of the right branch water conveying pipeline is detachably connected with the upper part of the right first upright post, the right end of the right branch water conveying pipeline is detachably connected with the upper part of the right second upright post, the left lower end of the first top frame is detachably connected with the top end of the left first upright post, the right lower end of the first top frame is detachably connected with the top end of the right first upright post, the left lower end of the second top frame is detachably connected with the top end of the left second upright post, and the right lower end of the second top frame is detachably connected with the top end of the right second upright post, so that the greenhouse frame of the greenhouse is convenient to mount, the greenhouse frame of the greenhouse is convenient to dismount when dismounted, and the dismounted first top frame, second top frame, left first upright post, left second upright post, right first upright post, right second upright post and middle upright post can be used for mounting the greenhouse frame again;

in the utility model, a horizontal heat insulation plate is fixed in the main pipeline, and the heat insulation plate divides the main pipeline into a main heat transmission pipeline at the upper part and a main heat transmission pipeline at the lower part, so that the arrangement of the main heat transmission pipeline can ensure that the greenhouse is suitable for not too cold areas in winter and also alpine areas in winter;

in the utility model, the left and right side surfaces of the main heating pipeline are symmetrically connected with left and right branch heating parts, the left branch heating part comprises a plurality of same and horizontal left branch heating pipelines which are sequentially arranged from front to back, the right end of each left branch heating pipeline is communicated with the corresponding position of the left side wall of the main heating pipeline, the right branch heating part comprises a plurality of right branch heating pipelines, so that hot water entering the main heating pipeline enters the left branch heating pipelines and the right branch heating pipelines respectively, the heat of the hot water can be brought to each corner in the greenhouse, and the growth and development of plants such as cherry tomatoes and the like in the greenhouse are facilitated;

in the utility model, the left and right side surfaces of the main water pipeline are symmetrically connected with a left and a right water delivery parts, the left water delivery part comprises a plurality of same and horizontal left water delivery pipelines which are sequentially arranged from front to back, the right end of each left water delivery pipeline is communicated with the corresponding position of the left side wall of the main water pipeline, the lower end of each left water delivery pipeline is connected with a plurality of left spray heads, the right water delivery part comprises a plurality of right water delivery pipelines, so that the irrigation water entering the main water delivery pipeline respectively enters each left water delivery pipeline and each right water delivery pipeline, the irrigation water in each left water delivery pipeline is sprayed on the plants such as cherry tomatoes on the left side in the greenhouse through the left spray heads, the irrigation water in each right water delivery pipeline is sprayed on the plants such as cherry tomatoes on the right side in the greenhouse through the corresponding spray heads, thus the irrigation water is sprayed on the plants such as cherry tomatoes on each position in the greenhouse from the upper part in the greenhouse, therefore, the greenhouse is time-saving and labor-saving when watering and irrigating.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

fig. 2 is a schematic top view structure diagram of the connection of the main pipeline, the left branch water delivery pipeline, the left first upright post, the left second upright post, the right branch water delivery pipeline, the right first upright post and the right second upright post in fig. 1.

Description of the drawings: 1. the main pipeline, 2, the heat insulation board, 3, the main heat transmission pipeline, 4, the main water transmission pipeline, 5, the center pillar, 6, the left branch heat transmission pipeline, 7, the right branch heat transmission pipeline, 8, the left branch water transmission pipeline, 9, the left nozzle, 10, the right branch water transmission pipeline, 11, the left first pillar, 12, the left second pillar, 13, the right first pillar, 14, the right second pillar, 15, the second top frame, 16, the left connecting pipe, 17, the right connecting pipe, 18, the lower protrusion, 19, the second connecting pillar, 20, the first upper protrusion, 21, the second upper protrusion, 22, the second bottom protrusion, 23, the left second groove, 24, the right second groove, 25, the second left lower protrusion, 26, the second right lower protrusion.

Detailed Description

As shown in fig. 1 and 2, a multifunctional greenhouse shed for planting cherry tomatoes comprises a horizontal main pipeline 1 which is arranged in front and back, a horizontal heat insulation board 2 is fixed in the main pipeline 1, the main pipeline 1 is divided into a main heat transmission pipeline 3 at the upper part and a main water transmission pipeline 4 at the lower part by the heat insulation board 2, a plurality of identical central columns 5 are embedded in the ground right below the main pipeline 1 from front to back, and the bottom surfaces of the main pipelines 1 are supported at the top ends of the central columns 5; the left side and the right side of the main heating pipeline 3 are symmetrically connected with a left branch heating component and a right branch heating component, the left branch heating component comprises a plurality of same and horizontal left branch heating pipelines 6 which are sequentially arranged from front to back, the right end of each left branch heating pipeline 6 is communicated with the corresponding position of the left side wall of the main heating pipeline 3, the plurality of left branch heating pipelines 6 are uniformly distributed at the left side of the main heating pipeline 3 from front to back, and the right branch heating component comprises a plurality of right branch heating pipelines 7; the left side surface and the right side surface of the main water conveying pipeline 4 are symmetrically connected with a left water conveying part and a right water conveying part, the left water conveying part comprises a plurality of same and horizontal left water conveying pipelines 8 which are sequentially arranged from front to back, the right end of each left water conveying pipeline 8 is communicated with the corresponding position of the left side wall of the main water conveying pipeline 4, the lower end of each left water conveying pipeline 8 is uniformly connected with a plurality of left spray heads 9, the left water conveying pipelines 8 are uniformly distributed at the left side of the main water conveying pipeline 4 from front to back, and the right water conveying part comprises a plurality of right water conveying pipelines 10; the left branch heating pipeline 6 and the left branch water conveying pipeline 8 adjacent to the lower side are distributed at intervals up and down, the left end and the right end of the greenhouse are symmetrically provided with a left upright post component and a right upright post component, the left upright post component comprises a corresponding left first upright post 11 embedded in the ground below the left side of each left branch heating pipeline 6 and a corresponding left second upright post 12 embedded in the ground below the left side of each left branch water conveying pipeline 8, the left side surfaces of the left first upright post 11 and the left second upright post 12 are positioned on the same vertical surface arranged along the front and back, the top ends of the left first upright post 11 and the left second upright post 12 are flush, the left end of the left branch heating pipeline 6 and the left branch water conveying pipeline 8 are respectively detachably connected with the upper parts of the left first upright post 11 and the left second upright post 12, the right upright post component comprises a right first upright post 13 and a right second upright post 14, an arched first top frame is detachably connected between the top ends of the left first upright post 13 and the right upright post 13, the top ends of the left and right second upright posts 14 are detachably connected with a second top frame 15 which is the same as the first top frame, the left first upright posts 11, the left second upright posts 12, the right first upright posts 13, the right second upright posts 14, the first top frame and the second top frame 15 are connected into a greenhouse frame, the outer side of the greenhouse frame is covered with plastic cloth, and the front end and the rear end of the main pipeline 1 respectively penetrate through the front end and the rear end of the plastic cloth.

Wherein, divide between the middle part of defeated warm braw pipeline 6 adjacent left side and communicate through left connecting pipe 16, and the left connecting pipe 16 level just arranges along the fore-and-aft direction, divide between the middle part of defeated warm braw pipeline 7 adjacent right side and communicate through right connecting pipe 17, and right connecting pipe 17 level just arranges along the fore-and-aft direction.

Wherein, the middle part of the top end of each central upright post 5 is provided with a vertical top groove with an upward opening, the middle part of the bottom surface of the main pipeline 1 is integrally connected with a plurality of lower bulges 18 which are respectively matched with the shape and the size of the top groove of the corresponding central upright post 5 from front to back, and each lower bulge 18 is respectively inserted into the top groove of the corresponding central upright post 5.

Wherein, a first connecting upright post is arranged between the middle part of the bottom end of each first top frame and the corresponding position of the top end of the main pipeline 1, a second connecting upright post 19 is arranged between the middle part of the bottom end of each second top frame 15 and the corresponding position of the top end of the main pipeline 1, a first lower groove which is vertical and has a downward opening is arranged at the middle part of the bottom end of the first connecting upright post, a second lower groove which is vertical and has a downward opening is arranged at the middle part of the bottom end of the second connecting upright post 19, a plurality of first upper bulges 20 which are respectively matched with the first lower groove shape and the size of the corresponding first connecting upright post are integrally connected upwards at the middle part of the top surface of the main pipeline 1 from front to back, a plurality of second upper bulges 21 which are respectively matched with the second lower groove shape and the size of the corresponding second connecting upright post 19 are also integrally connected upwards at the middle part of the top surface of the main pipeline 1 from front to back, each first upper bulge 20 is respectively inserted into the first lower groove of the corresponding first connecting upright post, each second is gone up protruding 21 and is inserted corresponding second and connect in the second lower groove of stand 19 respectively, first connecting upright top middle part department is equipped with vertical and the ascending first upper groove of opening, 19 bottom middle part departments of second connecting upright are equipped with vertical and the ascending second upper groove of opening, first roof-rack bottom middle part department an organic whole has downwards even has the first upper groove shape with corresponding first connecting upright, the first end arch of size homogeneous phase adaptation, first end arch inserts in the first upper groove of corresponding first connecting upright, 15 bottom middle part departments of second roof-rack are an organic whole has downwards even has the second upper groove shape with corresponding second connecting upright 19, protruding 22 at the bottom of the second of size homogeneous phase adaptation, protruding 22 inserts in the second upper groove of corresponding second connecting upright 19 at the bottom.

The left side upper part of the left first upright post 11 is provided with a horizontal left first groove with a right opening, the left end of the left branch water conveying pipeline 6 is inserted into the left first groove of the corresponding left first upright post 11, the upper part of the right side of the left second upright post 12 is provided with a horizontal left second groove 23 with a right opening, and the left end of the left branch water conveying pipeline 8 is inserted into the left second groove 23 of the corresponding left second upright post 12; the upper portion of the left side face of the right first upright column 13 is provided with a horizontal right first groove with a left opening, the right end of the right branch water conveying pipeline 7 is inserted into the right first groove of the corresponding right first upright column 13, the upper portion of the left side face of the right second upright column 14 is provided with a horizontal right second groove 24 with a left opening, and the right end of the right branch water conveying pipeline 10 is inserted into the right second groove 24 of the corresponding right second upright column 14.

Wherein, the left part of the top end of the left first upright post 11 is provided with a vertical left first top groove with a downward opening, the right part of the top end of the right first upright post 13 is provided with a vertical right first top groove with a downward opening, the left lower end of the first top frame is integrally and downwardly connected with a first left lower bulge which is matched with the left first top groove of the corresponding left first upright post 11 in shape and size, the right lower end of the first top frame is integrally and downwardly connected with a first right lower bulge which is matched with the right first top groove of the corresponding right first upright post 13 in shape and size, the first left lower bulge of the first top frame is inserted into the left first top groove of the corresponding left first upright post 11, the first right lower bulge of the first top frame is inserted into the right first top groove of the corresponding right first upright post 13, the left lower end of the first top frame is fixedly bound with the top end of the corresponding left first upright post 11, and the right lower end of the first top frame is fixedly bound with the top end of the corresponding right first upright post 13; a vertical left second top groove with a downward opening is arranged at the left part of the top end of the left second upright post 12, a vertical right second top groove with a downward opening is arranged at the right part of the top end of the right second upright post 14, a second left lower bulge 25 with a shape and a size matched with the left second top groove of the corresponding left second upright post 12 is integrally and downwards connected at the left lower end of the second top frame 15, a second right lower bulge 26 with a shape and a size matched with the right second top groove of the corresponding right second upright post 14 is integrally and downwards connected at the right lower end of the second top frame 15, the second left lower bulge 25 of the second top frame 15 is inserted into the left second top groove of the corresponding left second upright post 12, the second right lower bulge 26 of the second top frame 15 is inserted into the right second top groove of the corresponding right second upright post 14, and the left lower end of the second top frame 15 is bound and fixed with the top end of the corresponding left second upright post 12, and the right lower end of the second top frame 15 is bound and fixed with the top end of the corresponding right second upright post 14.

Wherein, the left ends of the left branch heating pipeline 6 and the left branch water conveying pipeline 8 are both closed, and the right ends of the right branch heating pipeline 7 and the right branch water conveying pipeline 10 are both closed; the front end of the main heating pipeline 3 is communicated with the rear end of the main heating pipeline 3 in the adjacent greenhouse at the front side, and the rear end of the main heating pipeline 3 is communicated with the front end of the main heating pipeline 3 in the adjacent greenhouse at the rear side; the front end of the main water conveying pipeline 4 is communicated with the rear end of the main water conveying pipeline 4 in the greenhouse which is adjacent to the front side, the rear end of the main water conveying pipeline 4 is communicated with the front end of the main water conveying pipeline 4 in the greenhouse which is adjacent to the rear side, and the front end and the rear end of the main water conveying pipeline 4 are both provided with a front water control switch and a rear water control switch.

The greenhouse installation method comprises the following steps: a plurality of middle upright posts 5 are sequentially embedded in the ground right below a main pipeline 1 from front to back, then lower bulges 18 at the lower end of the main pipeline 1 are respectively inserted into top grooves of the corresponding middle upright posts 5, then each left first upright post 11 is sequentially embedded in the ground at the lower left of the corresponding left branch heating pipeline 6 from front to back, the left end of the left branch heating pipeline 6 is inserted into a left first groove of the corresponding left first upright post 11, then each right first upright post 13 is sequentially embedded in the ground at the lower right of the corresponding right branch heating pipeline 7 from front to back, the right end of the right branch heating pipeline 7 is inserted into a right first groove of the corresponding right first upright post 13, then each left second upright post 12 is sequentially embedded in the ground at the lower left of the corresponding left branch heating pipeline 8 from front to back, the left end of the left branch heating pipeline 8 is inserted into a left second groove 23 of the corresponding left second upright post 12, and then each right second upright post 14 is sequentially embedded in the ground at the lower right of the corresponding right branch heating pipeline 10 from front to back The right end of the right branch water conveying pipeline 10 is inserted into the right second groove 24 of the corresponding right second upright post 14, then each first connecting upright post is arranged at the corresponding position of the top surface of the main pipeline 1, so that each first upper bulge 20 of the top surface of the main pipeline 1 is respectively inserted into the first lower groove of the corresponding first connecting upright post, then the first left lower bulge of each first top frame is inserted into the left first top groove of the corresponding left first upright post 11, the first right lower bulge of each first top frame is inserted into the right first top groove of the corresponding right first upright post 13, at the moment, the first bottom bulge of each first top frame is inserted into the first upper groove of the corresponding first connecting upright post, then the left lower end of the first top frame and the top end of the corresponding left first upright post 11 are bound and fixed, the right lower end of the first top frame and the top end of the corresponding right first upright post 13 are bound and fixed, then each second connecting upright post 19 is arranged at the corresponding position of the top surface of the main pipeline 1, so that the second upper protrusions 21 of the top surface of the main duct 1 are respectively inserted into the second lower grooves of the corresponding second connecting upright columns 19, the second left lower protrusions 25 of the second top frames 15 are inserted into the left second top grooves of the corresponding left second upright columns 12, the second right lower protrusions 26 of the second top frames 15 are inserted into the right second top grooves of the corresponding right second upright columns 14, the second bottom protrusions 22 of the second top frames 15 are inserted into the second upper grooves of the corresponding second connecting upright columns 19, the left lower ends of the second top frames 15 and the top ends of the corresponding left second upright columns 12 are bound and fixed, and the right lower ends of the second top frames 15 and the top ends of the corresponding right second upright columns 14 are bound and fixed, so that the left first upright columns 11, the left second upright columns 12, the right first upright columns 13, the right second upright columns 14, the first top frames, the second top frames 15, the middle upright columns 5, The plurality of first connecting upright posts and the plurality of second connecting upright posts 19 are connected into a greenhouse frame, the outer side of the greenhouse frame is covered with plastic cloth, and the front end and the rear end of the main pipeline 1 respectively penetrate through the front end and the rear end of the plastic cloth.

Claims

1. The utility model provides a cherry tomato is planted and is used big canopy of multi-functional greenhouse which characterized in that: the heat insulation plate divides the main pipeline into a main heating pipeline at the upper part and a main water pipeline at the lower part, a plurality of same central columns are embedded in the ground right below the main pipeline from front to back, and the bottom surfaces of the main pipelines are supported at the top ends of the central columns; the left side surface and the right side surface of the main heating pipeline are symmetrically connected with a left branch heating pipeline and a right branch heating pipeline, the left branch heating pipeline comprises a plurality of same and horizontal left branch heating pipelines which are sequentially arranged from front to back, the right end of each left branch heating pipeline is communicated with the corresponding position of the left side wall of the main heating pipeline, and the right branch heating pipeline comprises a plurality of right branch heating pipelines; the left side surface and the right side surface of the main water conveying pipeline are symmetrically connected with a left water conveying part and a right water conveying part, the left water conveying part comprises a plurality of same and horizontal left water conveying pipelines which are sequentially arranged from front to back, the right end of each left water conveying pipeline is communicated with the corresponding position of the left side wall of the main water conveying pipeline, the lower end of each left water conveying pipeline is connected with a plurality of left spray heads, and the right water conveying part comprises a plurality of right water conveying pipelines; the left and right ends of the greenhouse are symmetrically provided with left and right upright post parts, the left upright post parts comprise corresponding left first upright posts buried in the ground below the left side of each left branch heat transmission pipeline and corresponding left second upright posts buried in the ground below the left side of each left branch heat transmission pipeline, the left side surfaces of the left first upright posts and the left second upright posts are positioned on the same vertical surface arranged along the front and back, the top ends of the left first upright posts and the left second upright posts are parallel and level, the left branch heat transmission pipeline and the left end of the left branch heat transmission pipeline are detachably connected with the upper parts of the left first upright posts and the left second upright posts respectively, the right upright post parts comprise right first upright posts and right second upright posts, an arched first top frame is detachably connected between the top ends of the left and right first upright posts, a second top frame identical to the first top frame is detachably connected between the top ends of the left and right second upright posts, a plurality of left first upright posts, a plurality of left upright posts are arranged on the same vertical surface of the left side of the first upright posts, a right side of the left side of the right side of the left side of, The left second upright post, the right first upright post, the right second upright post, the first top frame and the second top frame are connected into a greenhouse frame, the outer side of the greenhouse frame is covered with plastic cloth, and the front end and the rear end of the main pipeline respectively penetrate through the front end and the rear end of the plastic cloth.

2. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: the left branch water conveying pipelines are uniformly distributed on the left side of the main water conveying pipeline from front to back, and the left branch water conveying pipelines are uniformly distributed on the left side of the main water conveying pipeline from front to back.

3. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: the left connecting pipe is communicated with the middle of the adjacent left branch heating pipelines, the left connecting pipe is horizontal and is arranged along the front-back direction, the right connecting pipe is communicated with the middle of the adjacent right branch heating pipelines, and the right connecting pipe is horizontal and is arranged along the front-back direction.

4. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: the middle part of the top end of each middle upright post is provided with a vertical top groove with an upward opening, the middle part of the bottom surface of the main pipeline is integrally connected downwards from front to back with a plurality of lower bulges which are respectively matched with the shape and the size of the top groove of the corresponding middle upright post, and each lower bulge is respectively inserted into the top groove of the corresponding middle upright post.

5. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: a first connecting upright post is arranged between the middle part of the bottom end of each first top frame and the corresponding position of the top end of the main pipeline, a second connecting upright post is arranged between the middle part of the bottom end of each second top frame and the corresponding position of the top end of the main pipeline, a first lower groove which is vertical and has a downward opening is arranged at the middle part of the bottom end of the first connecting upright post, a second lower groove which is vertical and has a downward opening is arranged at the middle part of the bottom end of the second connecting upright post, a plurality of first upper bulges which are respectively matched with the first lower groove shape and the size of the corresponding first connecting upright post are integrally and upwards connected with the middle part of the top surface of the main pipeline from front to back, a plurality of second upper bulges which are respectively matched with the second lower groove shape and the size of the corresponding second connecting upright post are also integrally and upwards connected with the middle part of the top surface of the main pipeline from front to back, each first upper bulge is respectively inserted into the first lower groove of the corresponding first connecting upright post, each second upper bulge is respectively inserted into the second lower groove of the corresponding second connecting upright post, first connecting column top middle part department is equipped with the first upper groove of vertical and ascending opening, stand bottom middle part department is connected to the second is equipped with the second upper groove of vertical and ascending opening, first roof-rack bottom middle part department an organic whole even down have with the first upper groove shape of corresponding first connecting column, the first end of size homogeneous phase adaptation is protruding, in the first upper groove of corresponding first connecting column is inserted to first end arch, second roof-rack bottom middle part department an organic whole even down have with the second of corresponding second connecting column on the groove shape, protruding at the bottom of the second of size homogeneous phase adaptation, protruding at the bottom of the second inserts in the second upper groove of corresponding second connecting column.

6. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: a horizontal left first groove with a rightward opening is formed in the upper portion of the right side face of the left first upright column, the left end of a left branch water delivery pipeline is inserted into the left first groove of the corresponding left first upright column, a horizontal left second groove with a rightward opening is formed in the upper portion of the right side face of the left second upright column, and the left end of the left branch water delivery pipeline is inserted into the left second groove of the corresponding left second upright column; the upper portion of the left side face of the right first upright post is provided with a horizontal right first groove with a left opening, the right end of a right branch water delivery pipeline is inserted into the right first groove of the corresponding right first upright post, the upper portion of the left side face of the right second upright post is provided with a horizontal right second groove with a left opening, and the right end of the right branch water delivery pipeline is inserted into the right second groove of the corresponding right second upright post.

7. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: a vertical left first top groove with a downward opening is arranged at the left part of the top end of the left first upright column, a vertical right first top groove with a downward opening is arranged at the right part of the top end of the right first upright column, a first left lower bulge with a shape and a size which are matched with those of the left first top groove of the corresponding left first upright column is integrally and downwardly connected at the left lower end of the first top frame, a first right lower bulge with a shape and a size which are matched with those of the right first top groove of the corresponding right first upright column is integrally and downwardly connected at the right lower end of the first top frame, the first left lower bulge of the first top frame is inserted into the left first top groove of the corresponding left first upright column, the first right lower bulge of the first top frame is inserted into the right first top groove of the corresponding right first upright column, the left lower end of the first top frame is bound and fixed with the top end of the corresponding left first upright column, and the right lower end of the first top frame is bound and fixed with the top end of the corresponding right first upright column; the left part of the top end of the left second upright post is provided with a vertical left second top groove with a downward opening, the right part of the top end of the right second upright post is provided with a vertical right second top groove with a downward opening, the left lower end of the second top frame is integrally connected with a left second top groove shape of the corresponding left second upright post and a second left lower protrusion with a uniform size adaptation downwards, the right lower end of the second top frame is integrally connected with a right second top groove shape of the corresponding right second upright post and a second right lower protrusion with a uniform size adaptation downwards, the second left lower protrusion of the second top frame is inserted into the left second top groove of the corresponding left second upright post, the second right lower protrusion of the second top frame is inserted into the right second top groove of the corresponding right second upright post, the left lower end of the second top frame is bound and fixed with the top end of the corresponding left second upright post, and the right lower end of the second top frame is bound and fixed with the top end of the corresponding right second upright post.

8. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: the left ends of the left branch water conveying pipeline and the left branch water conveying pipeline are both closed, and the right ends of the right branch water conveying pipeline and the right branch water conveying pipeline are both closed; the front end of the main heating pipeline is communicated with the rear end of the main heating pipeline in the greenhouse which is adjacent to the front side, and the rear end of the main heating pipeline is communicated with the front end of the main heating pipeline in the greenhouse which is adjacent to the rear side; the front end of the main water conveying pipeline is communicated with the rear end of the main water conveying pipeline in the greenhouse which is adjacent to the front side, the rear end of the main water conveying pipeline is communicated with the front end of the main water conveying pipeline in the greenhouse which is adjacent to the rear side, and the front end and the rear end of the main water conveying pipeline are respectively provided with a front water control switch and a rear water control switch.

9. The multifunctional greenhouse big shed for planting cherry tomatoes as claimed in claim 1, wherein: the left spray heads are uniformly distributed on the lower end face of the left branch water conveying pipeline.