CN219221816U - Warmhouse booth environment monitoring device - Google Patents

Abstract

The application provides a warmhouse booth environment monitoring device, include: the connecting mechanism is used for fixing the integral structure; the detection mechanism is arranged at one end of the connecting mechanism and is used for detecting soil; wherein, coupling mechanism includes coupling assembling, coupling assembling's surface winding has the connecting rope, the one end and the coupling assembling of connecting rope are fixed, the other end of connecting rope is equipped with the inserted bar, coupling assembling's surface is equipped with the joint seat, the inserted bar joint is in the inside of joint seat, relate to warmhouse booth technical field, wherein, be equipped with the connecting rope in coupling assembling's inside, one end at the connecting rope is equipped with the inserted bar, and the connecting rope winding is at coupling assembling's surface, when coupling assembling and ground interconnect, take out the connecting rope of winding at coupling assembling surface, and peg graft the inserted bar with ground each other, can carry out tensile support to coupling assembling under the effect that reaches the support.

Description

Warmhouse booth environment monitoring device

Technical Field

The utility model relates to the technical field of greenhouses, in particular to a greenhouse environment monitoring device.

Background

The greenhouse is also called as a greenhouse. Light-transmitting and heat-insulating facility for cultivating plants. In the seasons unsuitable for plant growth, the method can provide a greenhouse growth period and increase the yield, and is mostly used for cultivating or raising seedlings of vegetables, flowers, trees and other plants in low-temperature seasons. The greenhouse is various, and can be divided into various types according to different roof truss materials, lighting materials, appearance, heating conditions and the like, and the environment monitoring module realizes real-time environment data display of air temperature, air humidity, soil temperature, soil humidity, illuminance, carbon dioxide concentration, oxygen concentration, soil pH value and the like of the greenhouse, and can also check the historical data of various sensors, so that the crop growth condition can be analyzed conveniently.

The existing monitoring device for the internal environment of the greenhouse is directly connected with the ground when in use, but is not limited and supported after being connected, so that the whole structure can incline or shake due to the effect of the external environment.

Disclosure of Invention

In order to overcome current environmental monitoring device and not support the problem that leads to appearing the slope or rock after the installation, this application embodiment provides a warmhouse booth environmental monitoring device, be equipped with the connection rope in coupling assembling's inside, be equipped with the inserted bar in the one end of connection rope, and the winding of connection rope is at coupling assembling's surface, when coupling assembling and ground interconnect, take out the connection rope of winding at coupling assembling surface to peg graft the inserted bar with ground each other, can carry out tensile support to coupling assembling under the effect that reaches the support.

The technical scheme adopted by the embodiment of the application for solving the technical problems is as follows:

a warmhouse booth environmental monitoring apparatus, comprising: the connecting mechanism is used for fixing the integral structure; the detection mechanism is arranged at one end of the connecting mechanism and is used for detecting soil;

the connecting mechanism comprises a connecting component, a connecting rope is wound on the outer surface of the connecting component, one end of the connecting rope is fixed with the connecting component, an inserting rod is arranged at the other end of the connecting rope, a clamping seat is arranged on the surface of the connecting component, the inserting rod is tightly connected with the connecting component under the action of the clamping seat, the inserting rod is clamped in the clamping seat, the inserting rod in the clamping seat is taken out, the connecting rope wound on the outer surface of the connecting component is taken down, the inserting rod is then connected with the ground, and when the inserting rods are connected with each other, the connecting rope is stressed with the connecting component, so that the connecting rope and the connecting component are tightly fixed.

Preferably, the connecting assembly comprises a vertical rod, the surface of vertical rod is equipped with the spliced pole, the spliced pole is the cylinder structure, the inside of spliced pole is inlayed and is equipped with the connecting rod, the crossing department of montant and detection component runs through there is the connecting hole, the bottom of montant is equipped with branch, the one end that branch was kept away from to the montant is equipped with the connecting plate to can make the photovoltaic module interconnect with the top through the connecting plate, the connecting rope twines in the inside of spliced pole, makes the connecting assembly peg graft inside soil under the effect of branch.

Preferably, the detection mechanism comprises a detection component, a photovoltaic component is arranged above the detection component, the photovoltaic component can convert solar energy into electric energy and store the electric energy in a storage battery inside a control box, and then the electric energy is supplied to the detection sensor by the storage battery inside the control box.

Preferably, the detection assembly comprises a control box, the inside of control box is equipped with the battery, one side of control box is equipped with the apron, the bottom of control box is equipped with detection sensor, takes out the inside detection sensor of detection assembly, then pegging graft detection sensor inside soil, can detect soil like this under detection sensor's effect to the inside of detection data transmission to the control box can with the data transmission who detects like this, thereby can observe the humidity of soil, detection sensor's one end is equipped with the cable, and the other end and the control box of cable are connected, utilize the inside battery of control box to carry out electric energy supply to detection sensor.

The embodiment of the application has the advantages that:

1. according to the utility model, the connecting rope is arranged in the connecting assembly, the inserted link is arranged at one end of the connecting rope, the connecting rope is wound on the outer surface of the connecting assembly, when the connecting assembly is connected with the ground, the connecting rope wound on the outer surface of the connecting assembly is taken out, the inserted link is mutually inserted with the ground, and the connecting assembly can be stretched and supported under the action of the connecting rope to achieve the supporting effect.

2. According to the utility model, the inserted bar is connected with the clamping seat when the inserted bar is wound, the inserted bar is tightly connected with the connecting component under the action of the clamping seat, and meanwhile, the bottom end of the connecting component is provided with the supporting rod, so that the inserted bar can be connected with the ground through the supporting rod.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of a greenhouse environment monitoring device according to the present utility model;

FIG. 2 is a schematic view of the overall structure of the connecting assembly of the present utility model;

FIG. 3 is a schematic diagram of the overall structure of the detection assembly of the present utility model.

The main reference numerals illustrate:

1. a photovoltaic module; 2. a connection assembly; 21. a vertical rod; 22. a connection hole; 23. a support rod; 24. a connecting plate; 25. a connecting column; 3. a detection assembly; 31. a control box; 32. a cover plate; 33. a cable; 34. a detection sensor; 4. a clamping seat; 5. a rod; 6. and (5) connecting ropes.

Detailed Description

The technical scheme in the embodiment of the application aims to solve the problems, and the overall thought is as follows:

example 1:

the embodiment provides a specific structure of a greenhouse environment monitoring device, as shown in fig. 1-3, including: the connecting mechanism is used for fixing the integral structure; the detection mechanism is arranged at one end of the connecting mechanism and is used for detecting soil;

wherein, coupling mechanism includes coupling assembling 2, coupling assembling 2's surface winding has coupling assembling 6, coupling assembling 2's one end and coupling assembling 2 are fixed, coupling assembling 2's the other end is equipped with inserted bar 5, coupling assembling 2's surface is equipped with joint seat 4, make inserted bar 5 and coupling assembling 3 connect closely under joint seat 4's effect, inserted bar 5 joint is in joint seat 4's inside, take out inserted bar 5 inside joint seat 4, and take down the coupling assembling 6 of winding at coupling assembling 3 surface, later with inserted bar 5 and ground interconnect, and when inserted bar 5 interconnect, with coupling assembling 3 mutual atress, can make like this at coupling assembling 6 and coupling assembling 3 fixed inseparable.

The connecting component 2 comprises a vertical rod 21, a connecting column 25 is arranged on the outer surface of the vertical rod 21, the connecting column 25 is of a cylindrical structure, a connecting rod is embedded in the connecting column 25, a connecting hole 22 penetrates through the intersection of the vertical rod 21 and the detecting component 3, a supporting rod 23 is arranged at the bottom end of the vertical rod 21, a connecting plate 24 is arranged at one end, far away from the supporting rod 23, of the vertical rod 21, the connecting plate 24 is used for connecting the connecting rod with the photovoltaic component 1 above, the connecting rope 6 is wound in the connecting column 25, and the connecting component 3 is spliced in soil under the action of the supporting rod 23.

By adopting the technical scheme:

the inserted link 5 inside the clamping seat 4 is taken out, the connecting rope 6 wound on the outer surface of the connecting component 3 is taken down, then the inserted link 5 is connected with the ground, and when the inserted link 5 is connected with each other, the connecting rope 6 and the connecting component 3 are stressed mutually, so that the connecting rope 6 and the connecting component 3 are tightly fixed.

Example 2:

the embodiment provides a specific structure of a greenhouse environment monitoring device, as shown in fig. 1-3, the embodiment records that the detection mechanism comprises a detection component 3, a photovoltaic component 1 is arranged above the detection component 3, the photovoltaic component 1 can convert solar energy into electric energy and send the electric energy to a storage battery in the control box 31 for storage, and then the storage battery in the control box 31 is used for supplying electric energy to a detection sensor 34.

The detection assembly 3 comprises a control box 31, a storage battery is arranged in the control box 31, a cover plate 32 is arranged on one side of the control box 31, a detection sensor 34 is arranged at the bottom end of the control box 31, the detection sensor 34 in the detection assembly 3 is taken out, then the detection sensor 34 is inserted into soil, the soil can be detected under the action of the detection sensor 34, detected data are transmitted to the control box 31, the detected data are transmitted, the humidity of the soil can be observed, a cable 33 is arranged at one end of the detection sensor 34, the other end of the cable 33 is connected with the control box 31, and the electric energy is supplied to the detection sensor 34 by the storage battery in the control box 31.

By adopting the technical scheme:

the detection sensor 34 inside the detection assembly 3 is taken out, and then the detection sensor 34 is inserted into the soil, so that the soil can be detected under the action of the detection sensor 34, and detected data is transmitted to the control box 31, so that the detected data can be transmitted, and the humidity of the soil can be observed.

Working principle: the device is taken out, then the supporting rod 23 at the bottom end of the connecting component 2 is mutually inserted with the ground, after the insertion, the detection sensor 34 in the detection component 3 is taken out, then the detection sensor 34 is inserted in the soil, thus the soil can be detected under the action of the detection sensor 34, and the detected data is transmitted to the control box 31, so the detected data can be transmitted, and the humidity of the soil can be observed.

And take out the inserted link 5 inside the bayonet socket 4 to take off the connecting rope 6 of winding at the coupling assembling 3 surface, later connect inserted link 5 and ground interconnect, and when inserted link 5 interconnect, with connecting rope 6 and coupling assembling 3 mutual atress, can make at connecting rope 6 and coupling assembling 3 fixed inseparable.

And the photovoltaic module 1 is arranged above the connecting module 3, the photovoltaic module 1 can convert solar energy into electric energy, the electric energy is sent to a storage battery in the control box 31 for storage, and then the storage battery in the control box 31 is used for supplying electric energy to the detection sensor 34.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (8)

1. The utility model provides a warmhouse booth environment monitoring device which characterized in that includes:

the connecting mechanism is used for fixing the integral structure;

the detection mechanism is arranged at one end of the connecting mechanism and is used for detecting soil;

the connecting mechanism comprises a connecting component (2), a connecting rope (6) is wound on the outer surface of the connecting component (2), one end of the connecting rope (6) is fixed with the connecting component (2), an inserting rod (5) is arranged at the other end of the connecting rope (6), a clamping seat (4) is arranged on the surface of the connecting component (2), and the inserting rod (5) is clamped inside the clamping seat (4).

2. The greenhouse environment monitoring device according to claim 1, wherein the detection mechanism comprises a detection component (3), and a photovoltaic component (1) is arranged above the detection component (3).

3. The greenhouse environment monitoring device according to claim 1, wherein the connecting assembly (2) comprises a vertical rod (21), a supporting rod (23) is arranged at the bottom end of the vertical rod (21), and a connecting plate (24) is arranged at one end, far away from the supporting rod (23), of the vertical rod (21).

4. A greenhouse environment monitoring device as claimed in claim 2, characterized in that the detection assembly (3) comprises a control box (31), a cover plate (32) is arranged on one side of the control box (31), and a detection sensor (34) is arranged at the bottom end of the control box (31).

5. The greenhouse environment monitoring device according to claim 4, wherein one end of the detection sensor (34) is provided with a cable (33), and the other end of the cable (33) is connected with the control box (31).

6. A greenhouse environment monitoring device according to claim 3, characterized in that the outer surface of the vertical rod (21) is provided with a connecting column (25), the connecting column (25) is of a cylindrical structure, and a connecting rod is embedded in the connecting column (25).

7. A greenhouse environment monitoring device according to claim 3, characterized in that the intersection of the vertical rod (21) and the detecting component (3) is penetrated by a connecting hole (22).

8. A greenhouse environment monitoring device according to claim 4, characterized in that the control box (31) is internally provided with a storage battery.

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