CN115968851A

CN115968851A - Greenhouse pesticide sprayer taking photovoltaic as energy source

Info

Publication number: CN115968851A
Application number: CN202310093186.9A
Authority: CN
Inventors: 郭洪恩; 何青海; 丁杨; 裴月忠; 谢云明; 王晓磊; 李俊林; 刘波
Original assignee: Huaneng Zhanhua Photovoltaic Power Generation Co ltd; Shandong Academy of Agricultural Machinery Sciences; Huaneng Shandong Power Generation Co Ltd
Current assignee: Huaneng Zhanhua Photovoltaic Power Generation Co ltd; Shandong Academy of Agricultural Machinery Sciences; Huaneng Shandong Power Generation Co Ltd
Priority date: 2023-02-10
Filing date: 2023-02-10
Publication date: 2023-04-18

Abstract

Greenhouse laxative machine with photovoltaic as the energy relates to pesticide spraying technical field for as required laxative is carried out to plant top or/and side. The greenhouse top support comprises a pesticide spraying module and a photovoltaic module, wherein the pesticide spraying module comprises a guide rail, a sliding block, a traction assembly and a pesticide spraying assembly, the guide rail is fixed on a greenhouse top support, the sliding block is arranged on the guide rail in a sliding mode, and the traction assembly is used for driving the sliding block to move along the guide rail at a constant speed; the pesticide spraying assembly comprises a transverse pesticide pipe and a vertical pesticide pipe, the transverse pesticide pipe and the vertical pesticide pipe are both arranged on the mounting pipe and are communicated with the mounting pipe, the mounting pipe is connected with the liquid outlet end of the water pump through the pesticide inlet pipe, and the liquid suction end of the water pump is immersed in the pesticide barrel; first spray heads are uniformly arranged on the transverse medicine tubes, and second spray heads are uniformly arranged on the vertical medicine tubes; the photovoltaic module provides electric energy for water pump, electric valve. The invention takes photovoltaic as energy source, and can spray pesticide to the plant leaves from the upper part or/and the side surface.

Description

Greenhouse pesticide sprayer taking photovoltaic as energy source

Technical Field

The invention relates to the technical field of pesticide spraying, in particular to a greenhouse pesticide sprayer which is applied to a greenhouse and takes photovoltaic as energy.

Background

The intelligent greenhouse replaces manpower with intelligent control, adjusts the environment in the greenhouse, irrigates plants in the greenhouse, fertilizes and the like. Be applied to laxative machine in greenhouse among the prior art and be the hand propelled usually, the shortcoming of existence is: the pesticide spraying process still needs the participation of people, the pesticide spraying is uneven, and especially when the pesticide spraying is needed to be carried out on the middle leaves of the plants, the pesticide is difficult to spray on the middle leaves of the plants in a mode of spraying the pesticide from the upper part.

Disclosure of Invention

The invention aims to provide a greenhouse pesticide sprayer taking photovoltaic as an energy source, which takes photovoltaic power generation as an energy source for spraying pesticide to plants and sprays pesticide to the top or/and the side of the plants according to requirements.

The technical scheme adopted by the invention for solving the technical problems is as follows: the greenhouse pesticide sprayer taking photovoltaic as energy comprises a pesticide spraying module and a photovoltaic module, wherein the pesticide spraying module comprises a guide rail, a sliding block, a traction assembly and a pesticide spraying assembly, the guide rail is fixed on a bracket at the top of a greenhouse, the sliding block is arranged on the guide rail in a sliding manner, and the traction assembly is arranged in the greenhouse and is used for driving the sliding block to move along the guide rail at a constant speed; the pesticide spraying assembly comprises a transverse pesticide pipe and a vertical pesticide pipe, the transverse pesticide pipe and the vertical pesticide pipe are both arranged on the mounting pipe and are communicated with the mounting pipe, the mounting pipe is connected with the liquid outlet end of the water pump through the pesticide inlet pipe, and the liquid suction end of the water pump is immersed in the pesticide barrel; the horizontal medicine tube is provided with first spray heads which are uniformly arranged, the vertical medicine tube is provided with second spray heads which are uniformly arranged, the horizontal medicine tube is internally provided with an electric valve for controlling the connection and disconnection between the first spray heads and the installation tube, and the vertical medicine tube is internally provided with an electric valve for controlling the connection and disconnection between the second spray heads and the installation tube; the photovoltaic module provides electric energy for the water pump and the electric valve.

Further, the guide rail is of an I-shaped structure, the sliding block is of a concave structure, a protrusion is arranged on the inner wall of the sliding block, and the protrusion extends into a sliding groove in the side wall of the guide rail and is in sliding connection with the sliding groove.

Further, the traction assembly comprises winding wheels and a steel wire rope, the winding wheels are arranged at two groups at two end parts of the guide rail, and when one group of the winding wheels rotates in the positive direction, the other group of the winding wheels rotates in the reverse direction; one end of the steel wire rope is fixedly connected with the winding wheel, and the other end of the steel wire rope is fixedly connected with the sliding block.

Furthermore, the other end of the steel wire rope is provided with an insertion block, the side wall of the sliding block is provided with a fixing block, a slot is formed in the fixing block, the insertion block is connected with the slot in an insertion mode, and the insertion direction between the insertion block and the slot is perpendicular to the tension direction of the steel wire rope.

Furthermore, the transverse medicine tubes are provided with two transverse medicine tubes and are arranged left and right by taking the mounting tube as the center.

Further, vertical pencil is the straight tube, the upper end and the installation pipe lower extreme fixed connection and the intercommunication of vertical pencil, the second shower nozzle is for controlling setting up on vertical pencil two.

Further, it is responsible for and carries branch pipe to have to carry in the horizontal pencil, carry and be responsible for and the installation pipe intercommunication, carry and be responsible for and have electric valve, carry branch pipe and each first shower nozzle and communicate in proper order.

The telescopic unit comprises two groups of scissor-type lifting mechanisms and a driving mechanism for driving the scissor-type lifting mechanisms to stretch, the scissor-type lifting mechanisms comprise a plurality of pairs of swing rods which are connected through spray pipe hinges, and the end parts of two adjacent pairs of swing rods are connected through hinges; the vertical pencil has two, vertical pencil is the flexible construction of S-shaped, spray tube and vertical pencil intercommunication, vertical pencil is connected with the one end of reposition of redundant personnel branch pipe, the other end and the three-way valve of reposition of redundant personnel branch pipe are connected, the three-way valve is connected with the lower extreme of the flexible pipe of heliciform, the upper end and the installation pipe intercommunication of flexible pipe.

Furthermore, the driving mechanism comprises a mounting plate fixed at the lower end of the mounting pipe, a lifting motor fixed at the bottom of the mounting plate and a wire wheel fixed at the output end of the lifting motor, a stay wire is wound on the wire wheel, one end of the stay wire is fixedly connected with the wire wheel, and the other end of the stay wire is fixedly connected with the three-way valve.

The invention has the beneficial effects that: the photovoltaic module is arranged to provide electric energy for the pesticide spraying module; the pesticide spraying from the upper part of the plant is realized through the arrangement of the first spray head of the pesticide spraying module, and the pesticide spraying from the lateral direction of the plant is realized through the arrangement of the second spray head of the pesticide spraying module; through the setting of guide rail and slider, suspend the laxative module in midair in the upper portion of greenhouse inner chamber to through the removal of drawing the subassembly and ordering about whole laxative module, liberated the manpower.

Drawings

FIG. 1 is a three-dimensional view of a dispensing module according to a first embodiment of the present invention;

FIG. 2 is a front view of a laxative module according to a first embodiment of the present invention;

FIG. 3 is a right side view of the dosing module according to the first embodiment of the present invention;

FIG. 4 is a schematic diagram of a pesticide spraying unit of a pesticide spraying module according to a first embodiment of the present invention;

FIG. 5 is a schematic diagram illustrating a pesticide spraying module according to a first embodiment of the present invention;

FIG. 6 is a front view of a second embodiment of the present invention;

FIG. 7 is a left side view of the telescoping unit of the laxative module according to the second embodiment of the present invention;

FIG. 8 is a top view of the telescoping unit and the dosing tube of the dosing module according to the second embodiment of the present invention;

fig. 9 is a schematic view illustrating the movement of the telescopic unit and the dosing tube of the pesticide spraying module according to the second embodiment of the present invention;

FIG. 10 is a left side view of the vertical branch pipe;

FIG. 11 is a schematic view of the assembly of the fixing block and the insertion block on the slider;

in the figure: the automatic medicine feeding device comprises a guide rail 1, a sliding groove 11, a sliding block 2, a boss 21, a fixing block 22, a slot 23, a transverse medicine tube 3, a first spray head 31, a branch delivery pipe 32, a main delivery pipe 33, an electric valve 34, a vertical medicine tube 4, a second spray head 41, an installation pipe 5, a medicine feeding pipe 51, an installation plate 52, an ear plate 53, an insertion block 6, a steel wire rope 61, a winding wheel 7, a swing rod 8, a spray pipe 81, a branch flow pipe 82, a three-way valve 83, an extension pipe 84, a wire wheel 85, a stay wire 86 and a lifting motor 87.

Detailed Description

As shown in fig. 1 to 11, the present invention includes a pesticide spraying module and a photovoltaic module, wherein the pesticide spraying module includes a guide rail 1, a slide block 2, a traction assembly, a transverse pesticide tube 3, a vertical pesticide tube 4 and a pesticide spraying unit, and the present invention is described in detail below with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1 to 5 and 11, the greenhouse pesticide sprayer using photovoltaic as energy source includes a pesticide spraying module and a photovoltaic module, wherein the photovoltaic module utilizes solar energy to generate electricity, which is not described in detail for the prior art. As shown in figure 1, the pesticide spraying module comprises a guide rail 1, a sliding block 2, a traction assembly and a pesticide spraying assembly, wherein the guide rail 1 is fixed on a support at the top of the greenhouse, as shown in figure 2, the guide rail 1 is of an I-shaped structure, and the sliding block 2 is arranged on the guide rail 1 in a sliding mode. The slide block 2 is of a concave structure, the inner wall of the slide block 2 is provided with a bulge 21, and the bulge 21 extends into the sliding groove 11 on the side wall of the guide rail 1 and is in sliding connection with the sliding groove 11. The cooperation of the bulge 21 and the sliding groove 11 also realizes the limit between the guide rail 1 and the sliding block 2 along the vertical direction.

As shown in fig. 3, the traction assembly is arranged in the greenhouse for driving the sliding block 2 to move along the guide rail 1 at a uniform speed. The traction assembly comprises winding wheels 7 and a steel wire rope 61, the winding wheels 7 are arranged at two groups at two ends of the guide rail 1, and when one group of the winding wheels 7 rotates in the positive direction, the other group of the winding wheels 7 rotates in the reverse direction. One winding wheel 7 in each group can be arranged, and two winding wheels are arranged on the left and right by taking the guide rail 1 as a center line. One end of the steel wire rope 61 is fixedly connected with the winding wheel 7, and the other end of the steel wire rope 61 is fixedly connected with the sliding block 2. The method specifically comprises the following steps: as shown in fig. 11, the other end of the steel wire rope 61 is provided with an insertion block 6, the side wall of the sliding block 2 is provided with a fixing block 22, a T-shaped slot 23 is formed in the fixing block 22, the insertion block 6 is connected with the slot 23 in an insertion manner, and the insertion direction between the insertion block 6 and the slot 23 is perpendicular to the tension direction of the steel wire rope. After the insert block 6 is inserted into the slot 23, the insert block 6 and the fixing block 2 should be locked and fixed to prevent the insert block 6 from slipping out of the slot 23.

As shown in fig. 2, the laxative subassembly includes horizontal pencil 3 and vertical pencil 4, and horizontal pencil 3 and vertical pencil 4 all set up on installation pipe 5 and with installation pipe 5 intercommunication, and wherein horizontal pencil 3 has two and uses installation pipe 5 to set up about the center. The vertical medicine tube 4 is a straight tube, and the upper end of the vertical medicine tube 4 is fixedly connected and communicated with the lower end of the installation tube 5. The mounting pipe 5 is connected with the liquid outlet end of the water pump through the medicine inlet pipe 51, and the liquid suction end of the water pump is immersed in the medicine barrel. The pesticide is to be applied to the holding in the explosive barrel, and water pump and explosive barrel all fix the setting in the greenhouse, advance pencil 51 and be the telescopic hose to keep slider 2 to install the needs of being connected of pipe 5 and water pump when moving along guide rail 1. As shown in FIG. 4, a pesticide spraying unit is arranged in the transverse pesticide pipe 3, the pesticide spraying unit comprises a main conveying pipe 33 and first spray heads 31 uniformly arranged along the length direction of the main conveying pipe 33, the first spray heads 31 are connected with the main conveying pipe 33 through branch conveying pipes 32, and electric valves 34 are arranged on the main conveying pipe 33 to control the on-off between the first spray heads 31 and the mounting pipe 5. The vertical medicine tube 4 is also internally provided with a pesticide spraying unit, the pesticide spraying unit in the vertical medicine tube comprises a second spray head 41, a main conveying pipe 33 and a branch conveying pipe 32, and the pesticide spraying unit in the vertical medicine tube 4 has the same structure as the pesticide spraying unit in the transverse medicine tube 3. The second spray heads 41 are arranged in two rows on the left and right of the vertical medicine tubes 4, the vertical medicine tubes 4 and the transverse medicine tubes 3 form a T-shaped structure, and the main conveying pipe 33 in the vertical medicine tubes 4 is provided with an electric valve 34 for controlling the on-off between the second spray heads 41 and the mounting pipe 5. The photovoltaic module provides electric energy for the water pump and the electric valve 34.

As shown in fig. 5, the pesticide in the water pump pumping pesticide barrel is added into the installation pipe 5 through the liquid inlet pipe 51, the installation pipe 5 is fixedly installed on one hand on the horizontal pesticide pipe 3 and is communicated with the horizontal pesticide pipe 3 and the vertical pesticide pipe 4 on the other hand, and the pesticide in the installation pipe 5 enters the horizontal pesticide pipe 3 and the vertical pesticide pipe 4 and then is sprayed out through the first spray head 31 and the second spray head 41. Wherein the first spray head 31 is positioned above the plants, and pesticide is applied to the plants from above; the second spray head 41 is located laterally to the plants for applying the agricultural chemicals to the plants from the side. The two horizontal pesticide tubes 3 are respectively positioned above the two rows of plants, and the vertical pesticide tube 4 is positioned between the two rows of plants.

According to the first embodiment of the invention, the photovoltaic module is used for generating electricity to provide electric energy for the whole pesticide sprayer. The whole pesticide sprayer can apply pesticide to the plants from the upper side or/and the lateral side of the plants.

Example two:

as shown in fig. 6 to 10, the second embodiment of the present invention is different from the first embodiment in that a telescopic unit is further included, and two vertical drug tubes 4 are provided. The telescopic unit comprises two groups of scissor-type lifting mechanisms and driving mechanisms which are arranged left and right, as shown in fig. 7, each scissor-type lifting mechanism comprises a plurality of pairs of swing rods 8 which are hinged through a spray pipe 81, and the end parts of two adjacent pairs of swing rods 8 are hinged. As shown in fig. 6, two vertical medicine tubes 4 are provided, and as shown in fig. 10, the vertical medicine tubes 4 are of an S-shaped flexible structure, and the spray pipes 81 are communicated with the vertical medicine tubes 4. The method comprises the following specific steps: the vertical medicine tube 4 is connected with one end of the corresponding branch flow pipe 82, the other end of one branch flow pipe 82 is connected with a first interface of the three-way valve 83, the other end of the other branch flow pipe 82 is connected with a second interface of the three-way valve 83, a third interface of the three-way valve 83 is connected with the lower end of the spiral telescopic tube 84, and the upper end of the telescopic tube 84 is communicated with the installation tube 5.

As shown in fig. 9, the driving mechanism includes a mounting plate 52 fixed at the lower end of the mounting pipe 5, a lifting motor 87 fixed at the bottom of the mounting plate 52, and a pulley 85 fixed at the output end of the lifting motor 87, wherein a pull wire 86 is wound on the pulley 85, one end of the pull wire 86 is fixedly connected with the pulley 85, and the other end of the pull wire 86 is fixedly connected with the three-way valve 83. When the wire wheel 85 rotates to release the pull wire 86, the paired swing rods 8 are pulled to swing relatively under the gravity action of the three-way valve 83, the swing rods 8 and the telescopic pipe 84, so that the scissor-type lifting mechanism extends. On the contrary, when the pulley 85 rotates to wind the wire 86, the wire 86 pulls the three-way valve 83 to move upward, thereby contracting the scissor lift mechanism. The distance between two adjacent spray pipes 81 can be adjusted by the extension and contraction of the scissor-type lifting mechanism. The spray pipe 81 is arranged to realize the hinge connection between the two swing rods 8 in pair, and one end of the spray pipe 81 is used for installing the second spray head 41, so that the pesticide in the installation pipe 5 flows into the main delivery pipe 33 in the vertical pesticide pipe 4 through the telescopic pipe 84, the three-way valve 83 and the branch pipe 82. The inner side of the vertical drug tube 4 is also provided with a main delivery pipe 33 and a branch delivery pipe 32, the main delivery pipe 33 is connected with a branch diversion pipe 82, the branch delivery pipe 32 is uniformly arranged along the length direction of the main delivery pipe 33, the branch delivery pipe 32 is connected with the other end of the spray pipe 81, and the shape of the main delivery pipe 33 is the same as that of the vertical drug tube 4 and is a flexible hose. For assembly, the bottom of the mounting plate 52 is provided with a lug plate 53, and the lug plate 53 is hinged with the end of the corresponding swing link 8. Of the two ear plates 53 corresponding to the scissor lift mechanism, one of the ear plates 53 is hingedly connected to the mounting plate 52, and the other ear plate 53 is slidably connected to the mounting plate 52.

The second embodiment is relative to the first embodiment, the distance between two adjacent second spray heads 41 can be adjusted according to the height of the plants, so that the pesticide can be accurately sprayed on the plant leaves.

According to the invention, through the arrangement of the photovoltaic module, electric energy is provided for the pesticide spraying module; the pesticide spraying is realized from the upper part of the plant through the arrangement of the first spray head of the pesticide spraying module, and the pesticide spraying is realized from the lateral direction of the plant through the arrangement of the second spray head of the pesticide spraying module; through the setting of guide rail and slider, suspend the laxative module in midair in the upper portion of greenhouse inner chamber to through the removal of drawing the subassembly and ordering about whole laxative module, liberated the manpower, improved efficiency.

Claims

1. The greenhouse pesticide spraying machine with photovoltaic as an energy source is characterized by comprising a pesticide spraying module and a photovoltaic module, wherein the pesticide spraying module comprises a guide rail, a sliding block, a traction assembly and a pesticide spraying assembly, the guide rail is fixed on a support at the top of a greenhouse, the sliding block is arranged on the guide rail in a sliding manner, and the traction assembly is arranged in the greenhouse and is used for driving the sliding block to move along the guide rail at a constant speed; the pesticide spraying assembly comprises a transverse pesticide pipe and a vertical pesticide pipe, the transverse pesticide pipe and the vertical pesticide pipe are both arranged on the mounting pipe and are communicated with the mounting pipe, the mounting pipe is connected with the liquid outlet end of the water pump through the pesticide inlet pipe, and the liquid suction end of the water pump is immersed in the pesticide barrel; the horizontal medicine tube is provided with first spray heads which are uniformly arranged, the vertical medicine tube is provided with second spray heads which are uniformly arranged, the horizontal medicine tube is internally provided with an electric valve for controlling the connection and disconnection between the first spray heads and the installation tube, and the vertical medicine tube is internally provided with an electric valve for controlling the connection and disconnection between the second spray heads and the installation tube; the photovoltaic module provides electric energy for the water pump and the electric valve.

2. The greenhouse insecticide sprayer taking photovoltaic as energy source according to claim 1, wherein the guide rail is of an I-shaped structure, the sliding block is of a concave-shaped structure, and the inner wall of the sliding block is provided with a protrusion which extends into a sliding groove in the side wall of the guide rail and is in sliding connection with the sliding groove.

3. The greenhouse insecticide sprayer taking photovoltaic as energy source as claimed in claim 1, wherein the traction assembly comprises two groups of winding wheels and a steel wire rope, the two groups of winding wheels are arranged at two ends of a guide rail, and when one group of winding wheels rotates in the forward direction, the other group of winding wheels rotates in the reverse direction; one end of the steel wire rope is fixedly connected with the winding wheel, and the other end of the steel wire rope is fixedly connected with the sliding block.

4. The greenhouse insecticide sprayer taking photovoltaic as energy source as claimed in claim 3, wherein an insertion block is arranged at the other end of the steel wire rope, a fixing block is arranged on the side wall of the sliding block, a slot is formed in the fixing block, the insertion block is connected with the slot in an insertion mode, and the insertion direction between the insertion block and the slot is perpendicular to the tension direction of the steel wire rope.

5. The greenhouse insecticide sprayer taking photovoltaic as energy source as claimed in claim 1, wherein the number of the transverse insecticide pipes is two, and the transverse insecticide pipes are arranged left and right with the installation pipe as a center.

6. The greenhouse insecticide sprayer taking photovoltaic as energy source as claimed in claim 5, wherein the vertical insecticide tubes are straight tubes, the upper ends of the vertical insecticide tubes are fixedly connected and communicated with the lower ends of the mounting tubes, and the second sprayers are arranged in two rows on the vertical insecticide tubes.

7. The greenhouse insecticide sprayer taking photovoltaic as energy source as claimed in claim 5, wherein a main conveying pipe and a branch conveying pipe are arranged in the transverse insecticide pipe, the main conveying pipe is communicated with the installation pipe, an electric valve is arranged on the main conveying pipe, and the branch conveying pipe is sequentially communicated with the first spray heads.

8. The greenhouse insecticide sprayer taking photovoltaic as an energy source as claimed in claim 5, further comprising a telescopic unit, wherein the telescopic unit comprises two groups of scissor type lifting mechanisms and a driving mechanism for driving the scissor type lifting mechanisms to stretch and retract, the scissor type lifting mechanisms comprise a plurality of pairs of swing rods which are connected through spray pipe hinges, and the ends of two adjacent pairs of swing rods are connected through hinges; the vertical pencil has two, vertical pencil is the flexible construction of S-shaped, spray tube and vertical pencil intercommunication, vertical pencil is connected with the one end of reposition of redundant personnel branch pipe, the other end and the three-way valve of reposition of redundant personnel branch pipe are connected, the three-way valve is connected with the lower extreme of the flexible pipe of heliciform, the upper end and the installation pipe intercommunication of flexible pipe.

9. The greenhouse insecticide sprayer taking photovoltaic as energy source as claimed in claim 8, wherein the driving mechanism comprises a mounting plate fixed at the lower end of the mounting pipe, a lifting motor fixed at the bottom of the mounting plate, and a wire wheel fixed at the output end of the lifting motor, a pull wire is wound on the wire wheel, one end of the pull wire is fixedly connected with the wire wheel, and the other end of the pull wire is fixedly connected with a three-way valve.