CN112219617A

CN112219617A - Intelligent agricultural greenhouse

Info

Publication number: CN112219617A
Application number: CN202011160894.2A
Authority: CN
Inventors: 朱林成
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2021-01-15

Abstract

The invention relates to the field of intelligent greenhouses, in particular to an intelligent agricultural greenhouses which has the advantage of recycling condensed water drops on the inner wall of the agricultural greenhouses, and comprises a heating component, a water flow recycling component, a top watering component, a supply component, a driving component, a cultivating component, a flow guide cutting component and a water dropping component, rivers are retrieved subassembly fixed connection and are being heated on the subassembly, the subassembly that waters at the top is provided with a plurality ofly, the equal fixed connection of the subassembly that waters at a plurality of tops is on rivers are retrieved the subassembly, supply with subassembly fixed connection is on heating the subassembly, a plurality of tops are watered the subassembly and all are connected and communicate with supply with the subassembly, rivers are retrieved the subassembly and are connected and communicate with supply with the subassembly, drive assembly is provided with two, two drive assembly difference fixed connection are both sides around heating the subassembly, it is provided with a plurality ofly to cultivate the subassembly, the equal fixed connection of a plurality of subassemblies of cultivating is on heating.

Description

Intelligent agricultural greenhouse

Technical Field

The invention relates to the field of intelligent greenhouses, in particular to an intelligent agricultural greenhouse.

Background

The invention with the publication number of CN111492865A discloses an intelligent agricultural greenhouse, which comprises an outer layer heat-insulation and heat-collection system, an outer layer top cap system, an intelligent control console, a rack system, a tray system, an inner layer ventilation cap system, an irrigation system, a fertilization system, a forced ventilation system, a harvesting system, a weighing system, a spray washing system and the like, can realize intelligent and automatic regulation and control of greenhouse environment, is green and environment-friendly, is high in production efficiency, strong in environmental change resistance and wide in application range. The invention has the defect that water drops condensed on the inner wall of the agricultural greenhouse cannot be recycled.

Disclosure of Invention

The invention aims to provide an intelligent agricultural greenhouse which has the advantage of recycling water drops condensed on the inner wall of the agricultural greenhouse.

The purpose of the invention is realized by the following technical scheme:

an intelligent agricultural greenhouse comprises a heating assembly, a water flow recovery assembly, a top watering assembly, a plurality of supply assemblies, a plurality of driving assemblies, a plurality of cultivation assemblies, a diversion cutting assembly and a dripping assembly, wherein the water flow recovery assembly is fixedly connected to the heating assembly, the top watering assemblies are fixedly connected to the water flow recovery assembly, the supply assemblies are fixedly connected to the heating assembly, the top watering assemblies are connected and communicated with the supply assemblies, the water flow recovery assembly is connected and communicated with the supply assemblies, the two driving assemblies are respectively and fixedly connected to the front side and the rear side of the heating assembly, the cultivation assemblies are provided with a plurality of cultivation assemblies, the cultivation assemblies are fixedly connected to the heating assembly, the cultivation assemblies are connected and communicated with the supply assemblies, and the two diversion cutting assemblies are arranged on the cultivation assemblies, a plurality of water conservancy diversion cutting assembly all through threaded connection on two drive assembly, a plurality of cultivation subassembly are gone up two subassemblies that drip of equal fixedly connected with, and a plurality of subassemblies that drip all are connected and communicate with the supply assembly.

The heating subassembly includes ground warm board, heating stove, heating curb plate and back flow, and heating stove fixed connection is at the front end of ground warm board, the equal fixedly connected with heating curb plate in the left and right sides of ground warm board, and two heating curb plates and heating stove all communicate through the back flow.

The subassembly is retrieved to rivers includes triangle roof-rack, collateral branch frame, outside collecting box, inboard collecting box and retrieves communicating pipe, the equal fixedly connected with collateral branch frame in the left and right sides of triangle roof-rack, the equal fixed connection of two collateral branch frames is on the warm board in ground, the equal fixedly connected with outside collecting box in the outside of two collateral branch frames, the inboard collecting box of the equal fixedly connected with in inboard of two collateral branch frames, two outside collecting boxes and the inboard collecting box intercommunication that corresponds thereof all are provided with on two inboard collecting boxes and retrieve communicating pipe.

The top watering assembly comprises a triangular box, a top dropper, a top supply pipe and a top adjusting valve, the triangular box is fixedly connected with a plurality of top droppers, the top supply pipe is fixedly connected to the triangular box, the top adjusting valve is arranged on the top supply pipe, and the triangular boxes are fixedly connected to a triangular top frame.

Supply with the subassembly including the flow box that converges, the upper portion house steward, the upper portion recovery tube, the side backward flow hole, supply water pump, supply with house steward, shunt tubes and top reposition of redundant personnel hole, flow box fixed connection converges is on the warm board in ground, the upper end fixedly connected with upper portion house steward of flow box converges, a plurality of upper portion recovery tubes of the upper end fixedly connected with of upper portion house steward, both ends all are provided with the side backward flow hole about the flow box converges, two retrieve communicating pipe difference fixed connection in two side backward flow holes, fixedly connected with supply water pump on the flow box converges, fixedly connected with supply with house steward on the supply water pump, fixedly connected with shunt tubes on the supply house.

The driving assembly comprises driving supports, a screw shaft, partition plates and a driving motor, the left end and the right end of the screw shaft are rotatably connected onto the driving supports, the screw shaft is provided with the partition plates, the screw threads of the screw shaft on the two sides of the partition plates are opposite in rotating direction, the driving motor is fixedly connected onto one of the driving supports, the screw shaft is fixedly connected onto an output shaft of the driving motor, and the driving supports are fixedly connected onto the floor heating plate.

Cultivate the subassembly including cultivating the accumulator, the landing leg, cultivate the groove, the infiltration hole, the guide plate, smooth platen and water conservancy diversion hole, be provided with two landing legs on cultivating the accumulator, cultivate fixedly connected with cultivation groove on the accumulator, the equipartition has a plurality of infiltration holes on cultivating the groove, cultivate two guide plates of fixedly connected with on the groove, equal fixedly connected with smooth platen on two guide plates, all be provided with a plurality of water conservancy diversion holes on two smooth platen and two guide plates, the equal fixed connection of a plurality of landing legs is on the board warms up, one-to-one about a plurality of triangular box and a plurality of cultivation accumulator, a plurality of upper portion collector tube difference fixed connection is on a plurality of cultivation accumulators.

The water conservancy diversion cutting assembly includes regulating plate, cutting off board and storage plate, and cutting off board fixed connection is at the lower extreme of regulating plate, and storage plate fixed connection is in the upper end of regulating plate, and equal sliding connection has the cutting off board on a plurality of slide holder boards, and a plurality of regulating plates all pass through threaded connection on two screw axes.

The subassembly that drips includes that the drips is responsible for, drips connecting plate and water dropper, and the equal fixedly connected with in both ends connecting plate that drips around the dripping is responsible for, and the equipartition has a plurality of water droppers on the person in charge of drips, and a plurality of water droppers are responsible for equal fixed connection on the shunt tubes, two connection plates that drip of the equal fixedly connected with in both ends around the cultivation groove.

The intelligent agricultural greenhouse has the beneficial effects that: the invention relates to an intelligent agricultural greenhouse, which can adjust the temperature of the intelligent agricultural greenhouse through a heating component to realize that the temperature in the intelligent agricultural greenhouse is more in line with the growth of crops, can recycle water drops condensed on the inner wall of the intelligent agricultural greenhouse through a water flow recycling component to save water resources, can recycle water resources for external rainfall and snowfall, can irrigate branches and leaves of the crops through a plurality of top watering components, can supply water to a plurality of top watering components and a plurality of water dropping components through a supply component, can drip roots and stems of the vegetation through the plurality of water dropping components, is more accurate in irrigation and saves more resources, can drive a plurality of diversion cutting components to move towards or away from each other by starting two driving components through threads, and can realize the correction of the left and right directions of the vegetation through the opposite diversion cutting components, the vegetation can be cut through the corresponding diversion cutting assembly, so that the vegetation is harvested, and the labor intensity of cultivation personnel is reduced.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic view of the overall structure of an intelligent agricultural greenhouse of the present invention;

FIG. 2 is a schematic view of the intelligent agricultural greenhouse of the present invention in another direction;

FIG. 3 is a schematic view of the heating assembly of the present invention;

FIG. 4 is a schematic view of the construction of the water recovery assembly of the present invention;

FIG. 5 is a schematic structural view of the top watering assembly of the present invention;

FIG. 6 is a schematic structural view of the supply assembly of the present invention;

FIG. 7 is a schematic structural view of the drive assembly of the present invention;

FIG. 8 is a schematic view of the construction of the incubation assembly of the present invention;

FIG. 9 is a schematic view of the configuration of the diversion cutting assembly of the present invention;

fig. 10 is a schematic view showing the structure of the drip assembly of the present invention.

In the figure: a heating assembly 1; a floor heating panel 101; a heating furnace 102; a heating side plate 103; a return pipe 104; a water flow recovery assembly 2; a triangular head frame 201; side brackets 202; an outside collection box 203; an inside collection box 204; recovery communicating pipe 205; a top watering assembly 3; a triangular box 301; a top drop tube 302; a top supply pipe 303; a top regulator valve 304; a supply assembly 4; a combiner box 401; an upper manifold 402; an upper recovery pipe 403; side recirculation holes 404; a feed water pump 405; a supply manifold 406; a shunt tube 407; a top diverter orifice 408; a drive assembly 5; a drive bracket 501; a screw axis 502; a partition plate 503; a drive motor 504; a cultivating member 6; a cultivation recycling tank 601; a leg 602; a cultivation tank 603; a penetration hole 604; a deflector 605; a platen 606; a diversion hole 607; a flow guide cutting assembly 7; an adjustment plate 701; a cutting plate 702; a receiving plate 703; a drip member 8; a drip main 801; a drip connection plate 802; a dripper 803.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-10, an intelligent agricultural greenhouse comprises a heating component 1, a water flow recovery component 2, a top watering component 3, a supply component 4, a driving component 5, a cultivation component 6, a diversion cutting component 7 and a dripping component 8, wherein the water flow recovery component 2 is fixedly connected to the heating component 1, a plurality of top watering components 3 are arranged, the top watering components 3 are all fixedly connected to the water flow recovery component 2, the supply component 4 is fixedly connected to the heating component 1, the top watering components 3 are all connected and communicated with the supply component 4, the water flow recovery component 2 is connected and communicated with the supply component 4, the driving components 5 are two, the two driving components 5 are respectively and fixedly connected to the front side and the rear side of the heating component 1, the cultivation components 6 are arranged in plurality, the cultivation components 6 are all fixedly connected to the heating component 1, a plurality of cultivation component 6 all with supply assembly 4 connection and intercommunication all are provided with two water conservancy diversion cutting assembly 7 on a plurality of cultivation component 6, a plurality of water conservancy diversion cutting assembly 7 all through threaded connection on two drive assembly 5, two subassembly 8 that drip of equal fixedly connected with on a plurality of cultivation component 6, a plurality of subassembly 8 that drip all with supply assembly 4 connection and intercommunication.

The intelligent agricultural greenhouse can be adjusted in temperature through the heating component 1, so that the temperature in the intelligent agricultural greenhouse is more consistent with the growth of crops, the water drops condensed on the inner wall of the intelligent agricultural greenhouse can be recycled through the water flow recycling component 2, water resources are saved, the water resources can be recycled for external rainfall and snowfall, branches and leaves of the crops can be irrigated through the top watering components 3, the top watering components 3 and the water dripping components 8 can be supplied with water through the supply component 4, the roots and stems of the vegetation are irrigated through the water dripping components 8, the irrigation is more accurate, more resources are saved, the two driving components 5 can be started to drive the guide cutting components 7 to move towards or away from each other through threads, and the left and right directions of the vegetation can be corrected through the opposite guide cutting components 7, the vegetation can be cut through the corresponding diversion cutting assembly 7, so that the vegetation is harvested, and the labor intensity of cultivation personnel is reduced.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 10, the heating assembly 1 includes a floor heating plate 101, a heating stove 102, heating side plates 103 and a return pipe 104, the heating stove 102 is fixedly connected to the front end of the floor heating plate 101, the heating side plates 103 are fixedly connected to both the left and right sides of the floor heating plate 101, and the two heating side plates 103 and the heating stove 102 are communicated through the return pipe 104.

The heating furnace 102 is started, heat flow heated by the heating furnace 102 passes through the ground heating plate 101 and then enters the two heating side plates 103, finally, the heating furnace 102 is returned to through the two return pipes 104, the ground heating plate 101 and the two heating side plates 103 heat the interior of the intelligent agricultural greenhouse, and temperature control in the intelligent agricultural greenhouse is ensured.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 10, the water flow recovery assembly 2 includes a triangular top frame 201, side supports 202, an outside collection box 203, an inside collection box 204 and a recovery communication pipe 205, the side supports 202 are fixedly connected to the left and right sides of the triangular top frame 201, the two side supports 202 are fixedly connected to the floor heating plate 101, the outside collection boxes 203 are fixedly connected to the outside of the two side supports 202, the inside collection boxes 204 are fixedly connected to the inside of the two side supports 202, the two outside collection boxes 203 are communicated with the corresponding inside collection boxes 204, and the recovery communication pipe 205 is arranged on the two inside collection boxes 204.

All be provided with glass on the inside and outside wall of triangle roof-rack 201, all be provided with glass on the inside and outside wall of collateral branch frame 202, glass on the triangle roof-rack 201 can condense out a large amount of water droplets because the temperature difference of inside and outside both sides, the water droplet assembles the rear portion and can flow into inboard collecting box 204 along the glass of slope and carry out recycle, the triangle roof-rack 201 outside also can lead rain and snow of sleet weather, make two outside collecting boxes 203 carry out the recovery of water resource, the water resource of retrieving flows into supply assembly 4 through two recovery communicating pipes 205 again and collects and recycles, the water economy resource, both sides all are provided with the glass door around two collateral branch frames 202, make rivers retrieve subassembly 2 and form an inclosed space, can ensure the temperature in the intelligent green house.

The fourth concrete implementation mode:

referring to fig. 1-10, the top watering assembly 3 includes a triangular box 301, a plurality of top droppers 302 fixedly connected to the triangular box 301, a top supply pipe 303 fixedly connected to the triangular box 301, and a top control valve 304 fixedly connected to the triangular box 201, wherein the top supply pipe 303 is provided with the top control valve 304, and the triangular boxes 301 are all fixedly connected to the triangular top frame 201.

Part of the water or nutrient solution in the supply assembly 4 flows into the plurality of top supply pipes 303 to enter the plurality of triangular boxes 301, and then drops into the plurality of cultivation grooves 603 corresponding to the lower ends through the plurality of top droppers 302 to irrigate cultivated vegetation, and the plurality of triangular boxes 301 can also recover water drops on the glass on the inner wall of the triangular top frame 201, so that the water resource is reused.

The fifth concrete implementation mode:

referring to fig. 1 to 10, the present embodiment will be described, wherein the supply unit 4 includes a collecting tank 401, an upper header pipe 402, upper recovery pipes 403, side return holes 404, a supply water pump 405, a supply header pipe 406, branch pipes 407, and top branch holes 408, the collecting tank 401 is fixedly connected to the floor heating panel 101, the upper header pipe 402 is fixedly connected to the upper end of the collecting tank 401, a plurality of upper recovery pipes 403 are fixedly connected to the upper end of the upper header pipe 402, the side return holes 404 are provided at both left and right ends of the collecting tank 401, two recovery communication pipes 205 are respectively fixedly connected to the two side return holes 404, the supply water pump 405 is fixedly connected to the collecting tank 401, the supply header pipe 406 is fixedly connected to the supply water pump 405, the branch pipes 407 are fixedly connected to the supply header pipe 406, and the branch pipes 407 are provided with.

Start water supply pump 405, water or nutrient solution pump that water supply pump 405 will converge in the flow box 401 is gone into to supply main 406 in, water or nutrient solution pass through shunt tubes 407 again, and the part enters into rivers recovery subassembly 2 and carries out the watering of branch and leaf to the vegetation, and another part waters the rhizome of vegetation through a plurality of drip subassembly 8, and reasonable water resource that utilizes realizes more accurate watering for crops are grown better.

The sixth specific implementation mode:

referring to fig. 1 to 10, the embodiment is described, the driving assembly 5 includes a driving bracket 501, a spiral shaft 502, a plurality of partition plates 503, and a driving motor 504, both left and right ends of the spiral shaft 502 are rotatably connected to the driving bracket 501, the spiral shaft 502 is provided with the plurality of partition plates 503, the spiral directions of the spiral shafts 502 on both sides of the plurality of partition plates 503 are opposite, the driving motor 504 is fixedly connected to one of the driving brackets 501, the spiral shaft 502 is fixedly connected to an output shaft of the driving motor 504, and the plurality of driving brackets 501 are fixedly connected to the floor heating panel 101.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 10, the cultivation component 6 includes a cultivation recycling groove 601, support legs 602, a cultivation groove 603, permeation holes 604, a guide plate 605, two support legs 602 and guide holes 607, the cultivation recycling groove 601 is provided with the two support legs 602, the cultivation recycling groove 601 is fixedly connected with the cultivation groove 603, the cultivation groove 603 is uniformly provided with a plurality of permeation holes 604, the cultivation groove 603 is fixedly connected with two guide plates 605, the two guide plates 605 are fixedly connected with the slide plate 606, the two slide plates 606 and the two guide plates 605 are respectively provided with a plurality of guide holes 607, the plurality of support legs 602 are fixedly connected with the floor heating plate 101, the plurality of triangular boxes 301 and the plurality of cultivation recycling grooves 601 are in one-to-one correspondence from top to bottom, and the plurality of upper recycling pipes 403 are respectively and fixedly connected with the plurality of cultivation recycling grooves 601.

A part of water or nutrient solution enters a plurality of main dripping pipes 801 through a shunt pipe 407 and then drips on a plurality of guide plates 605 through a plurality of drippers 803, the plurality of guide plates 605 can guide the dripped water drops or nutrient solution, waste caused by splashing of the water or nutrient solution can be effectively prevented, the water or nutrient solution directly falls into the roots of vegetation through a plurality of guide holes 607, waste of water resources can be effectively saved, redundant parts of the water or nutrient solution after the water or nutrient solution irrigates the soil flow into a cultivation recovery tank 601 through a plurality of permeation holes 604, the water or nutrient solution is gathered into an upper header pipe 402 through a plurality of upper recovery pipes 403, and finally the water or nutrient solution flows back into a header tank 401.

The specific implementation mode is eight:

referring to fig. 1 to 10, the diversion cutting assembly 7 includes an adjusting plate 701, a cutting plate 702 and a receiving plate 703, the cutting plate 702 is fixedly connected to a lower end of the adjusting plate 701, the receiving plate 703 is fixedly connected to an upper end of the adjusting plate 701, the cutting plates 702 are slidably connected to a plurality of slide plates 606, and the adjusting plates 701 are respectively connected to two screw shafts 502 through threads.

Two driving motor 504 of synchronous start, two driving motor 504 drive two screw axis 502 and rotate, two screw axis 502 slide through a plurality of regulating plates 701 of screw thread drive, two corresponding regulating plates 701 can be relative or carry on the back of the body the regulation of the distance between two corresponding regulating plates 701 of synchronous slip realization, can adjust the demand of different vegetation to the space according to cultivating the vegetation of difference, can also carry out the correction of left right direction slope to the vegetation through a plurality of corresponding cutting off plate 702, after the vegetation is completely ripe, also can cut off the vegetation through a plurality of corresponding cutting off plate 702 relative motion, be convenient for cultivate personnel and reap the vegetation, can save a large amount of time of receiving, alleviate cultivation personnel's the amount of labour.

The specific implementation method nine:

referring to fig. 1 to 10, the present embodiment is described, wherein the dripping assembly 8 includes a dripping main pipe 801, a dripping connection plate 802 and drippers 803, the dripping main pipe 801 is fixedly connected with the dripping connection plate 802 at both ends of the dripping main pipe, the drippers 803 are uniformly distributed on the dripping main pipe 801, the dripping main pipes 801 are fixedly connected with the shunt pipe 407, and the cultivation tank 603 is fixedly connected with two dripping connection plates 802 at both ends of the dripping main pipe.

The invention relates to an intelligent agricultural greenhouse, which has the use principle that: the heating furnace 102 can be started, heat flow heated by the heating furnace 102 passes through the ground heating plate 101 and then enters the two heating side plates 103, finally passes through the two return pipes 104, the heating flow returns to the heating furnace 102, the ground heating plate 101 and the two heating side plates 103 heat the inside of the intelligent agricultural greenhouse, the control of the temperature in the intelligent agricultural greenhouse is ensured, the inner wall and the outer wall of the triangular top frame 201 are respectively provided with glass, the inner wall and the outer wall of the side frame 202 are respectively provided with glass, the glass on the triangular top frame 201 can be condensed into a large amount of water drops due to the temperature difference between the inner side and the outer side, the rear part of the collected water drops can flow into the inner side collecting box 204 along the inclined glass for recycling, the outer side of the triangular top frame 201 can also guide rainfall and snowfall in rainy and snowy weather, so that the two outer side collecting boxes 203 can recycle water resources, the recycled communicating pipes can flow into the water resource collecting box 401 through, saving water resource, the front and the back sides of the two side brackets 202 are both provided with glass doors, so that the water flow recovery assembly 2 forms a closed space, the temperature in the intelligent agricultural greenhouse can be ensured, the water supply pump 405 is started, the water or nutrient solution in the confluence box 401 is pumped into the supply header pipe 406 by the water supply pump 405, the water or nutrient solution passes through the diversion pipe 407, part of the water or nutrient solution flows into the plurality of top supply pipes 303 to enter the plurality of triangular boxes 301, then the water or nutrient solution drops into the plurality of cultivation grooves 603 corresponding to the lower end through the plurality of top drip pipes 302 to irrigate branches and leaves of cultivated vegetation, the plurality of triangular boxes 301 can also recover water drops on the glass on the inner wall of the triangular top bracket 201, the reutilization of the water resource is realized, the other part of water or nutrient solution enters the plurality of drip main pipes 801 through the diversion pipe 407, and then drops onto the plurality of diversion plates 605 through the plurality of water drops 803, the guide plates 605 can guide the dropped water drops or nutrient solution, waste of water or nutrient solution caused by splashing can be effectively prevented, the water or nutrient solution directly falls into the roots of the vegetation through the guide holes 607, waste of water resources can be effectively saved, redundant parts of the water or nutrient solution irrigated on soil flow into the cultivation recovery tank 601 through the permeation holes 604, flow into the upper header pipe 402 through the upper recovery pipes 403 and finally flow back into the header tank 401, the two driving motors 504 can be synchronously started, the two driving motors 504 drive the two spiral shafts 502 to rotate, the two spiral shafts 502 drive the adjusting plates 701 to slide through threads, the two corresponding adjusting plates 701 can synchronously slide oppositely or oppositely, so that the distance between the two corresponding adjusting plates 701 can be adjusted, and the space requirements of different vegetation can be adjusted according to different cultivation, the vegetation can also be corrected in the left and right direction slope through a plurality of corresponding cutting plates 702, and after the vegetation is completely mature, the vegetation can also be cut off through a plurality of corresponding cutting plates 702 moving in opposite directions, so that the cultivation personnel can reap the vegetation conveniently, a large amount of time can be saved, and the labor capacity of the cultivation personnel is reduced.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an intelligence green house, includes heating subassembly (1), rivers recovery module (2), top subassembly (3) that waters, supply with subassembly (4), drive assembly (5), cultivate subassembly (6), water conservancy diversion cutting assembly (7) and drip subassembly (8), its characterized in that: the water flow recovery assembly (2) is fixedly connected to the heating assembly (1), a plurality of top watering assemblies (3) are arranged, a plurality of top watering assemblies (3) are all fixedly connected to the water flow recovery assembly (2), a supply assembly (4) is fixedly connected to the heating assembly (1), a plurality of top watering assemblies (3) are all connected and communicated with the supply assembly (4), the water flow recovery assembly (2) is connected and communicated with the supply assembly (4), two driving assemblies (5) are arranged, the two driving assemblies (5) are respectively and fixedly connected to the front side and the rear side of the heating assembly (1), a plurality of cultivating assemblies (6) are arranged, a plurality of cultivating assemblies (6) are all fixedly connected to the heating assembly (1), a plurality of cultivating assemblies (6) are all connected and communicated with the supply assembly (4), two diversion cutting assemblies (7) are arranged on the cultivating assemblies (6), a plurality of water conservancy diversion cutting assembly (7) all through threaded connection on two drive assembly (5), equal two subassembly (8) that drip of fixedly connected with on a plurality of cultivation subassembly (6), a plurality of subassembly (8) that drip all with supply assembly (4) be connected and communicate.

2. The intelligent agricultural greenhouse of claim 1, wherein: heating subassembly (1) is including ground warm board (101), heating stove (102), heating curb plate (103) and back flow (104), and heating stove (102) fixed connection is at the front end of ground warm board (101), and the equal fixedly connected with heating curb plate (103) of the left and right sides of ground warm board (101), and two heating curb plates (103) and heating stove (102) all communicate through back flow (104).

3. The intelligent agricultural greenhouse of claim 2, wherein: subassembly (2) is retrieved to rivers includes triangle roof-rack (201), collateral branch frame (202), outside collecting box (203), inboard collecting box (204) and retrieve communicating pipe (205), the equal fixedly connected with collateral branch frame (202) of the left and right sides of triangle roof-rack (201), the equal fixed connection of two collateral branch frames (202) is on warm board (101) in ground, the equal fixedly connected with outside collecting box (203) in the outside of two collateral branch frames (202), the inboard equal fixedly connected with inboard collecting box (204) of the inboard of two collateral branch frames (202), two outside collecting boxes (203) communicate rather than inboard collecting box (204) that correspond, all be provided with on two inboard collecting box (204) and retrieve communicating pipe (205).

4. The intelligent agricultural greenhouse of claim 3, wherein: the top watering assembly (3) comprises a triangular box (301), a top dropper (302), a top supply pipe (303) and a top regulating valve (304), the triangular box (301) is fixedly connected with the top droppers (302), the top supply pipe (303) is fixedly connected onto the triangular box (301), the top regulating valve (304) is arranged on the top supply pipe (303), and the triangular boxes (301) are fixedly connected onto a triangular top frame (201).

5. The intelligent agricultural greenhouse of claim 4, wherein: the supply assembly (4) comprises a confluence box (401), an upper header pipe (402), upper recovery pipes (403), side surface return holes (404), a supply water pump (405), a supply header pipe (406), a shunt pipe (407) and a top split hole (408), the confluence box (401) is fixedly connected to the floor heating plate (101), the upper end of the confluence box (401) is fixedly connected with the upper header pipe (402), the upper end of the upper header pipe (402) is fixedly connected with a plurality of upper recovery pipes (403), the left end and the right end of the confluence box (401) are both provided with the side surface return holes (404), two recovery communicating pipes (205) are respectively and fixedly connected to the two side surface return holes (404), the confluence box (401) is fixedly connected with the supply water pump (405), the supply water pump (405) is fixedly connected with the supply header pipe (406), and the shunt pipe (407) is fixedly connected to the supply header, the shunt pipe (407) is provided with a plurality of top shunt holes (408).

6. The intelligent agricultural greenhouse of claim 5, wherein: the driving assembly (5) comprises a driving support (501), a spiral shaft (502), partition plates (503) and a driving motor (504), the left end and the right end of the spiral shaft (502) are rotatably connected to the driving support (501), the spiral shaft (502) is provided with the partition plates (503), the spiral directions of the spiral threads of the spiral shaft (502) on two sides of the partition plates (503) are opposite, the driving motor (504) is fixedly connected to one of the driving supports (501), the spiral shaft (502) is fixedly connected to an output shaft of the driving motor (504), and the driving supports (501) are fixedly connected to the floor heating plate (101).

7. The intelligent agricultural greenhouse of claim 6, wherein: the cultivating component (6) comprises a cultivating recycling groove (601), a supporting leg (602), a cultivating groove (603), a penetration hole (604), a guide plate (605), a sliding table plate (606) and a guide hole (607), cultivate and be provided with two landing legs (602) on accumulator (601), fixedly connected with culture tank (603) on culture tank (601), the equipartition has a plurality of infiltration holes (604) on culture tank (603), two guide plates (605) of fixedly connected with on culture tank (603), equal fixedly connected with slide plate board (606) on two guide plates (605), all be provided with a plurality of water conservancy diversion holes (607) on two slide plate boards (606) and two guide plates (605), the equal fixed connection of a plurality of landing legs (602) is on warm board (101) in ground, one-to-one about a plurality of triangular box (301) and a plurality of culture accumulator (601), a plurality of upper portion collector tube (403) fixed connection respectively is on a plurality of culture accumulator (601).

8. The intelligent agricultural greenhouse of claim 7, wherein: the flow guide cutting assembly (7) comprises an adjusting plate (701), a cutting plate (702) and a containing plate (703), wherein the cutting plate (702) is fixedly connected to the lower end of the adjusting plate (701), the containing plate (703) is fixedly connected to the upper end of the adjusting plate (701), the cutting plates (702) are connected to the plurality of sliding plate plates (606) in a sliding mode, and the adjusting plates (701) are connected to the two spiral shafts (502) through threads.

9. The intelligent agricultural greenhouse of claim 8, wherein: the subassembly (8) that drips is responsible for (801), the connecting plate (802) and the dripper (803) drip including dripping, drips and is responsible for the equal fixedly connected with in both ends around (801) and drips connecting plate (802), drips and is responsible for (801) and go up the equipartition and have a plurality of drippers (803), and a plurality of drips are responsible for (801) and all fixedly connected on shunt tubes (407), cultivate two connecting plates (802) that drip of equal fixedly connected with in both ends around groove (603).