CN219395694U

CN219395694U - Energy-saving seedling cultivation greenhouse

Info

Publication number: CN219395694U
Application number: CN202320459125.5U
Authority: CN
Inventors: 李栋; 刘梅景; 范献程; 王宗亚
Original assignee: Xuzhou Shituo Landscape Engineering Co ltd
Current assignee: Xuzhou Shituo Landscape Engineering Co ltd
Priority date: 2023-03-13
Filing date: 2023-03-13
Publication date: 2023-07-25
Anticipated expiration: 2033-03-13

Abstract

The utility model belongs to the technical field of greenhouse planting, in particular to an energy-saving seedling cultivation greenhouse which comprises a greenhouse body, wherein an energy-saving sprinkling irrigation mechanism is arranged in the greenhouse body; solar panel installs in one side of big-arch shelter body, a plurality of arc backup pad passes through fastening assembly equidistant to be installed at the inner wall of big-arch shelter body, the equidistant circumference form fixed connection of clamp is in the arc backup pad, the heating rod passes a plurality of clamp in proper order, and the heating rod is connected with the inner wall laminating of big-arch shelter body, and then the heating rod is fixed under the effect of arc backup pad and clamp, heat the ceiling of big-arch shelter body after the heating rod work, thereby the melting of snow is accelerated, the water source after melting is collected through the sprinkling irrigation subassembly and is utilized, simultaneously when ordinary rainy day, also can directly collect the rainwater through the sprinkling irrigation subassembly and utilize, thereby reach the purpose of water conservation, can supply power to the heating rod through the solar panel simultaneously, further promote energy-conserving effect.

Description

Energy-saving seedling cultivation greenhouse

Technical Field

The utility model belongs to the technical field of greenhouse planting, and particularly relates to an energy-saving seedling cultivation greenhouse.

Background

Because the yield is high and is not limited by seasons, the factors mainly considered in the current greenhouse planting and cultivation are as follows: lighting, temperature, ventilation, watering and the like, wherein the watering has a plurality of modes of spraying, watering, irrigating, and the like, the water source for watering is tap water generally, the utilization of natural water is rarely considered, and the water consumption for plant growth needs to be relatively large, so that the water consumption cost of the greenhouse is relatively high.

In order to solve the problems, the application provides an energy-saving seedling cultivation greenhouse.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides an energy-saving seedling cultivation greenhouse, which can solve the problems that the water source for planting, cultivating and watering the greenhouse is tap water generally, the utilization of natural water is rarely considered, the water consumption for plant growth is relatively large, and the water consumption cost of the greenhouse is relatively high through an added energy-saving sprinkling irrigation mechanism.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an energy-saving seedling cultivation greenhouse comprises a greenhouse body, wherein an energy-saving sprinkling irrigation mechanism is arranged in the greenhouse body;

energy-conserving sprinkling irrigation mechanism includes solar panel, arc backup pad, fastening assembly, clamp, heating rod and sprinkling irrigation subassembly, solar panel installs one side of big-arch shelter body, a plurality of the arc backup pad passes through fastening assembly equidistant the installation of big-arch shelter body's inner wall, the equidistant circumference form fixed connection of clamp is in the arc backup pad, the heating rod passes a plurality of clamp in proper order, just the heating rod with the inner wall laminating of big-arch shelter body is connected, sprinkling irrigation subassembly sets up the outer wall bottom of big-arch shelter body.

As the energy-saving seedling cultivation greenhouse disclosed by the utility model is preferable, the fastening component comprises a U-shaped buckle, a connecting plate and fastening bolts, wherein the U-shaped buckle is sleeved at one end of the arc-shaped supporting plate, the connecting plate is symmetrically and fixedly connected to two sides of the U-shaped buckle, and the fastening bolts penetrate through the connecting plate in a threaded manner and are in threaded connection with the greenhouse body.

As the energy-saving seedling cultivation greenhouse disclosed by the utility model, the sprinkling irrigation assembly comprises a water collecting tank, a water pump, a water guide pipeline, communication pipelines and an atomizing nozzle, wherein the water collecting tank is symmetrically arranged at the bottom of the outer wall of the greenhouse body, the water inlet end of the water pump is connected with the water collecting tank, the water inlet end of the water guide pipeline is connected with the water outlet end of the water pump, one end of each communication pipeline is respectively communicated with the bottom of the arc-shaped supporting plate, the other ends of the communication pipelines are respectively communicated with the outer wall of the water guide pipeline, and the atomizing nozzle is arranged on the outer wall of the clamp.

As the energy-saving seedling cultivation greenhouse disclosed by the utility model, the solar panel is preferably electrically connected with the heating rod.

As the energy-saving seedling cultivation greenhouse is preferable, the arc-shaped supporting plate is of a cavity structure, and the atomizing nozzle is communicated with the arc-shaped supporting plate through a hose.

As the energy-saving seedling cultivation greenhouse is preferable, the top of the water collection tank is provided with the water collection tank, and the top of the water collection tank is provided with the filter plate.

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

1. when snowfall weather, there is a large amount of snow on the top of greenhouse body, because solar panel installs in one side of greenhouse body, a plurality of arc backup pad passes through fastening component equidistant installation in the inner wall of greenhouse body, the equidistant circumference form fixed connection of clamp is in arc backup pad, the heating rod passes a plurality of clamp in proper order, and the heating rod is connected with the inner wall laminating of greenhouse body, and then the heating rod is fixed under the effect of arc backup pad and clamp, the heating rod heats the ceiling of greenhouse body after the work, thereby the melting of snow is accelerated, the water source after melting is collected and utilized through the sprinkling irrigation subassembly, also can collect and utilize the rainwater through the sprinkling irrigation subassembly directly simultaneously in ordinary rainy day, thereby reach the purpose of water conservation, can supply power to the heating rod through solar panel simultaneously, further promote energy-conserving effect;

2. through the header tank, collect the back to the water source, when needs are sprayed the water, because of the water inlet end of water pump is connected with the header tank, the water inlet end of water guide pipeline is connected with the play water end of water pump, the one end of communication pipeline is linked together with the bottom of arc backup pad respectively, the other end of communication pipeline all is linked together with the outer wall of water guide pipeline, atomizer is all installed to the outer wall of clamp, and then the water source is under the effect of water pump, spout from atomizer after passing through water guide pipeline and communication pipeline, thereby reach the work of spraying the nursery stock that plants the big-arch shelter body inside to carry out the sprinkling irrigation.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the structure of the communication pipeline in the present utility model;

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

fig. 4 is an enlarged schematic view of the structure of fig. 2B according to the present utility model.

In the figure:

1. a greenhouse body;

2. an energy-saving sprinkling irrigation mechanism; 21. a solar panel; 22. an arc-shaped supporting plate; 23. a fastening assembly; 231. u-shaped buckles; 232. a connecting plate; 233. a fastening bolt; 24. a clamp; 25. a heating rod; 26. a spray irrigation assembly; 261. a water collection tank; 262. a water pump; 263. a water guide pipe; 264. a communication pipe; 265. an atomizing spray head.

Detailed Description

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

As shown in fig. 1;

an energy-saving seedling cultivation greenhouse comprises a greenhouse body 1, wherein an energy-saving sprinkling irrigation mechanism 2 is arranged in the greenhouse body 1.

In this embodiment: under general conditions, due to high yield and no limitation of seasons, the factors mainly considered in the current greenhouse cultivation are as follows: lighting, temperature, ventilation and aspects such as watering, wherein the water source that waters has a plurality of modes such as spray watering, irrigation watering is the running water generally, seldom considers the utilization of natural water fall, and the water consumption that vegetation needs bigger, leads to the water cost of big-arch shelter higher, and then through energy-conserving sprinkling irrigation mechanism 2 that increases, can collect the water source in snowfall or ordinary rainy day, and then carry out the sprinkling irrigation operation through the water source of collecting to reach the purpose of water conservation.

As shown in fig. 1-4;

based on current nursery stock cultivation big-arch shelter, can be through energy-conserving sprinkling irrigation mechanism 2 that increase, can solve the big-arch shelter and plant the water source that cultivates and water and be the running water generally, little consider the utilization of natural water fall, and the water consumption needs bigger of vegetation, leads to the higher problem of water cost of big-arch shelter.

Further, the method comprises the following steps:

in combination with the above, in order to collect the water source in snowfall or ordinary rainy days, and then carry out the sprinkling irrigation operation through the water source of collecting, thereby reach the purpose of water conservation, the inside of big-arch shelter body 1 is provided with energy-conserving sprinkling irrigation mechanism 2, energy-conserving sprinkling irrigation mechanism 2 includes solar panel 21, arc backup pad 22, fastening assembly 23, clamp 24, heating rod 25 and sprinkling irrigation subassembly 26, solar panel 21 installs in one side of big-arch shelter body 1, a plurality of arc backup pad 22 passes through fastening assembly 23 equidistant to be installed at the inner wall of big-arch shelter body 1, clamp 24 equidistant circumference form fixed connection is on arc backup pad 22, heating rod 25 passes a plurality of clamp 24 in proper order, and heating rod 25 is connected with the inner wall laminating of big-arch shelter body 1, sprinkling irrigation subassembly 26 sets up in the outer wall bottom of big-arch shelter body 1.

In this embodiment: when snowfall weather, there is a large amount of snow in the top of greenhouse body 1, because of solar panel 21 installs in one side of greenhouse body 1, a plurality of arc backup pad 22 passes through fastening component 23 equidistant to be installed at the inner wall of greenhouse body 1, clamp 24 equidistant is circumference form fixed connection on arc backup pad 22, heating rod 25 passes a plurality of clamp 24 in proper order, and heating rod 25 is connected with the inner wall laminating of greenhouse body 1, and then heating rod 25 is fixed under the effect of arc backup pad 22 and clamp 24, heating rod 25 work back heats the ceiling of greenhouse body 1, thereby the melting of snow is accelerated, the water source after melting is collected and is utilized through sprinkling irrigation subassembly 26, simultaneously also can directly collect the rainwater through sprinkling irrigation subassembly 26 when ordinary rainy day, thereby reach the purpose, simultaneously can supply power to heating rod 25 through solar panel 21, further promote energy-conserving effect.

It should be understood that: the solar panel 21 is electrically connected to the heating rod 25.

Still further, the method comprises: the fastening assembly 23 comprises a U-shaped buckle 231, a connecting plate 232 and fastening bolts 233, wherein the U-shaped buckle 231 is sleeved at one end of the arc-shaped supporting plate 22, the connecting plate 232 is symmetrically and fixedly connected to two sides of the U-shaped buckle 231, and the fastening bolts 233 penetrate through the connecting plate 232 in a threaded mode and are connected with the greenhouse body 1 in a threaded mode.

In this embodiment: because of U type buckle 231 cup joints in the one end of arc backup pad 22, and connecting plate 232 symmetry fixed connection is in the both sides of U type buckle 231, and fastening bolt 233 screw thread runs through connecting plate 232 and big-arch shelter body 1 looks spiro union, and then under the effect of U type buckle 231, fixes the structure of arc backup pad 22 to guarantee that the structure of heating rod 25 is more stable, and can be convenient for dismantle the maintenance to the structure through fastening bolt 233.

Still further, the method comprises: the sprinkling irrigation subassembly 26 includes header tank 261, water pump 262, water conduit 263, communicating pipe 264 and atomizer 265, and header tank 261 symmetry installs in the outer wall bottom of big-arch shelter body 1, and water pump 262's water inlet end is connected with header tank 261, and water conduit 263's water inlet end is connected with water pump 262's water outlet end, and communicating pipe 264's one end is linked together with arc backup pad 22's bottom respectively, and communicating pipe 264's the other end all is linked together with water conduit 263's outer wall, atomizer 265 is all installed to clamp 24's outer wall.

In this embodiment: through header 261, collect the back to the water source, when needs are sprayed irrigation, because of the water inlet end of water pump 262 is connected with header 261, the water inlet end of water conduit 263 is connected with the play water end of water pump 262, the one end of communicating pipe 264 is linked together with the bottom of arc backup pad 22 respectively, the other end of communicating pipe 264 all is linked together with the outer wall of water conduit 263, atomizer 265 is all installed to the outer wall of clamp 24, and then the water source is under the effect of water pump 262, spout from atomizer 265 after through water conduit 263 and communicating pipe 264, thereby reach the work of spraying irrigation to the nursery stock that the big-arch shelter body 1 is inside.

It should be understood that: the arc-shaped supporting plate 22 is of a cavity structure, the atomizing nozzle 265 is communicated with the arc-shaped supporting plate 22 through a hose, a water collecting tank is arranged at the top of the water collecting tank 261, and a filter plate is arranged at the top of the water collecting tank.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. An energy-conserving nursery stock cultivation big-arch shelter, its characterized in that: the energy-saving spray irrigation system comprises a greenhouse body (1), wherein an energy-saving spray irrigation mechanism (2) is arranged in the greenhouse body (1);

energy-conserving sprinkling irrigation mechanism (2) are including solar panel (21), arc backup pad (22), fastening assembly (23), clamp (24), heating rod (25) and sprinkling irrigation subassembly (26), solar panel (21) are installed one side of big-arch shelter body (1), a plurality of arc backup pad (22) are passed through fastening assembly (23) equidistant installs the inner wall of big-arch shelter body (1), clamp (24) equidistant are circumference form fixed connection on arc backup pad (22), heating rod (25) pass a plurality of clamp (24) in proper order, just heating rod (25) with the inner wall laminating of big-arch shelter body (1) is connected, sprinkling irrigation subassembly (26) set up the outer wall bottom of big-arch shelter body (1).

2. The energy-efficient nursery sock growing greenhouse of claim 1, wherein: the fastening assembly (23) comprises a U-shaped buckle (231), a connecting plate (232) and a fastening bolt (233), wherein the U-shaped buckle (231) is sleeved at one end of the arc-shaped supporting plate (22), the connecting plate (232) is symmetrically and fixedly connected to two sides of the U-shaped buckle (231), and the fastening bolt (233) penetrates through the connecting plate (232) in a threaded mode and is in threaded connection with the greenhouse body (1).

3. The energy-efficient nursery sock growing greenhouse of claim 2, wherein: the spray irrigation assembly (26) comprises a water collecting tank (261), a water pump (262), a water guide pipeline (263), a communicating pipeline (264) and an atomizing nozzle (265), wherein the water collecting tank (261) is symmetrically arranged at the bottom of the outer wall of the greenhouse body (1), the water inlet end of the water pump (262) is connected with the water collecting tank (261), the water inlet end of the water guide pipeline (263) is connected with the water outlet end of the water pump (262), one end of the communicating pipeline (264) is respectively communicated with the bottom of the arc-shaped supporting plate (22), the other end of the communicating pipeline (264) is respectively communicated with the outer wall of the water guide pipeline (263), and the atomizing nozzle (265) is respectively arranged on the outer wall of the clamp (24).

4. The energy-efficient nursery sock growing greenhouse of claim 1, wherein: the solar panel (21) is electrically connected with the heating rod (25).

5. An energy efficient nursery sock growing greenhouse as claimed in claim 3, characterised in that: the arc-shaped supporting plate (22) is of a cavity structure, and the atomizing nozzle (265) is communicated with the arc-shaped supporting plate (22) through a hose.

6. An energy efficient nursery sock growing greenhouse as claimed in claim 3, characterised in that: a water collecting tank is arranged at the top of the water collecting tank (261), and a filter plate is arranged at the top of the water collecting tank.