CN205756207U - A kind of hydroponic culture structure - Google Patents

Abstract

The utility model provides a hydroponic cultivation structure, which comprises a hydroponic cultivation tank, a top board and two fixed brackets, the top board is fixed above the two fixed brackets, and the top board is provided with a plurality of heat dissipation windows which can be opened and closed and a liftable telescopic The lower part of the bracket and the telescopic bracket is fixedly connected with the LED light stand and the LED light tube, and the temperature sensor and the light sensor are arranged above the hydroponic cultivation tank, and the temperature sensor and the light sensor are connected to the mobile terminal through the control host. The utility model senses the temperature value above the hydroponic cultivation tank and the light intensity value through the temperature sensor and the light sensor, so that the manager can obtain the temperature environment and the light environment where the currently cultivated plants are located in real time, and can adjust the LED through the telescopic bracket. The distance between the lamp tube and the plant is used to adjust the light environment of the plant, or the temperature environment of the plant is adjusted by opening and closing the heat dissipation window, so as to meet the needs of various plant varieties for different light and temperature environments.

Description

A hydroponic cultivation structure

technical field

The utility model relates to the technical field of hydroponic cultivation, in particular, the utility model relates to a hydroponic cultivation structure.

Background technique

Hydroponics is one of the methods of soilless culture. It mainly soaks the roots of plants in the nutrient solution, and uses the nutrient solution to provide the nutrients and elements needed by the plants to replace the traditional soil cultivation method. Therefore, it is also called nutriculture. As long as the nutrients and elements needed for plant growth can be provided in water, hydroponics can still produce a large number of crops, and reduce or avoid the use of a large amount of soil and land, and hydroponics is mostly more than indoor farming.

Existing hydroponics usually use plant growth lamps to overcome the lack of natural light, and plant growth lamps often emit a lot of heat when they are working, especially in a closed environment, which will cause the indoor temperature to rise sharply, while Different plant varieties often have different requirements for light and temperature, and the existing hydroponics methods often cannot adjust the appropriate light and temperature for different plant varieties. Therefore, those skilled in the art urgently need to provide a new type of hydroponic cultivation structure, which can reasonably adjust the light and temperature required by plants according to different plant varieties, so as to meet the needs of plant growth.

Utility model content

In order to solve the problems of the prior art, the utility model provides a novel hydroponic cultivation structure, which can reasonably adjust the light and temperature required by the plants according to different plant varieties to meet the needs of plant growth.

The utility model patent provides a hydroponic cultivation structure, including a hydroponic cultivation tank, a top plate and two fixed supports, the top plate is fixed above the two fixed supports, and the hydroponic cultivation tank is arranged on the top of the top plate Below, the top plate is provided with a number of heat dissipation windows that can be opened and closed and a telescopic bracket that can be lifted. And the light sensor, the temperature sensor and the light sensor are connected to the mobile terminal through the control host; wherein, the temperature sensor and the light sensor are used to sense the temperature value and the light intensity value above the hydroponic cultivation tank respectively, and The detected temperature value and light intensity value are fed back to the mobile terminal through the control host.

Preferably, the top plate is provided with a plurality of heat dissipation windows that can be opened and closed, and the heat dissipation windows are evenly distributed on the top plate.

Preferably, each of the heat dissipation windows is provided with an exhaust fan.

Preferably, the LED light tube is fixed on the LED light stand, and the length of the LED light tube is longer than the length of the hydroponic cultivation tank.

Preferably, a knob for adjusting the light brightness of the LED lamp tube is provided on the side of the LED lamp holder.

The beneficial effects brought by the technical solution provided by the utility model are: the hydroponic cultivation structure provided by the utility model senses the temperature value above the hydroponic cultivation tank and the light intensity value through the temperature sensor and the light sensor, and the detected The temperature value and light intensity value are fed back to the mobile terminal through the control host, so that the manager can obtain the temperature environment and light environment of the currently cultivated plants in real time, and can adjust the distance between the LED light tube and the plant through the telescopic bracket to adjust the plant's brightness. The light environment, or adjust the temperature environment of the plants by opening and closing the heat dissipation window, so as to meet the needs of different plant varieties for different light and temperature environments.

Description of drawings

In order to more clearly illustrate the technical solutions in the utility model patent, the accompanying drawings that need to be used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings in the following description are only some embodiments of the utility model , for those skilled in the art, other drawings can also be obtained according to these drawings on the premise of not paying creative work.

Fig. 1 is a structural schematic diagram of the hydroponic cultivation structure provided by the utility model.

[reference sign in the figure]:

10. Hydroponic cultivation tank, 20. Top plate, 30. Fixed bracket, 40. Heat dissipation window, 50. Telescopic bracket, 60. LED light stand, 70. LED light tube, 80. Temperature sensor; 90. Light sensor; 100. knob.

detailed description

In order to make the content of the utility model clearer and easier to understand, the content of the utility model will be further described below in conjunction with the accompanying drawings of the description. Of course, the utility model is not limited to this specific embodiment, and general replacements known to those skilled in the art are also covered within the protection scope of the utility model. Secondly, the utility model is described in detail by using schematic diagrams. When describing the examples of the utility model in detail, for the convenience of explanation, the schematic diagrams are not partially enlarged according to the general scale, which should not be used as a limitation of the utility model.

The above and other technical features and beneficial effects will be described in detail for the hydroponic cultivation structure of the present invention in conjunction with the embodiments and accompanying drawings. As shown in the figure, Fig. 1 is a structural schematic diagram of the hydroponic cultivation structure provided by the present invention.

As shown in Figure 1, the utility model provides a kind of hydroponic cultivation structure, comprises hydroponic cultivation tank 10, top board 20 and two fixed brackets 30, top board 20 is fixed on the top of two fixed brackets 30, hydroponic cultivation tank 10 Located below the top plate 20, the top plate 20 is provided with a number of heat dissipation windows 40 that can be opened and closed and a telescopic bracket 50 that can be lifted. A temperature sensor 80 and a light sensor 90 are arranged on the top, and the temperature sensor 80 and the light sensor 90 are connected to the mobile terminal through a control host (not shown in the figure); wherein, the temperature sensor 80 and the light sensor 90 are respectively used for sensing The temperature value and light intensity value above the tank 10, and the detected temperature value and light intensity value are fed back to the mobile terminal through the control host, so that the user can obtain the light and temperature environment of the plant in real time.

In order to optimize the heat dissipation effect of the hydroponic cultivation structure, the top plate 20 is provided with a plurality of heat dissipation windows 40 which can be opened and closed. Machine to speed up the ventilation and heat dissipation effect.

In order to adjust the light value required by plants more conveniently, the LED lamp tube 70 in this embodiment is fixed on the LED lamp frame 60, and the length of the LED lamp tube 70 is greater than or equal to the length of the hydroponic cultivation tank 10, and the LED lamp frame 60 A knob 100 for adjusting the light intensity of the LED light tube 70 is provided on the side, and the user can directly control the light intensity emitted by the LED light tube 70 through the knob.

In summary, the hydroponic cultivation structure provided by the utility model senses the temperature value and light intensity value above the hydroponic cultivation tank 10 through the temperature sensor 80 and the light sensor 90, and the detected temperature value and light intensity value The value is fed back to the mobile terminal through the control host, so that the manager can obtain the temperature environment and light environment of the currently cultivated plants in real time, and can adjust the distance between the LED light tube 70 and the plant through the telescopic bracket 50 to adjust the light environment of the plant, or The temperature environment of the plants is adjusted by opening and closing the heat dissipation window 40 to meet the needs of various plant species for different light and temperature environments.

Although the present invention mainly describes the above embodiments, they are only described as examples, and the present invention is not limited thereto. Those skilled in the art can make various modifications and applications without departing from the essential characteristics of the embodiments. For example, each component described in the embodiment can be modified and operated, and the differences related to the modification and application can be considered to be included in the protection scope of the present invention defined by the appended claims.

The embodiments mentioned in this specification mean that the specific features, structures or characteristics described in conjunction with the embodiments are included in at least one embodiment of the present utility model. The appearances of these terms in various places in the specification are not necessarily all referring to the same embodiment. Furthermore, when a particular feature, structure or characteristic is described in conjunction with any embodiment, it is considered to be within the scope of those of ordinary skill in the art that can realize that particular feature, structure or characteristic in combination with other embodiments.

Claims (5)

1. A hydroponic cultivation structure, comprising a hydroponic cultivation tank, a top plate and two fixed supports, the top plate is fixed on the top of the two fixed supports, and the hydroponic cultivation tank is located below the top plate, its feature That is, the roof is provided with a number of heat dissipation windows that can be opened and closed and a telescopic bracket that can be lifted. The lower part of the telescopic bracket is fixedly connected to the LED light frame and the LED light tube, and a temperature sensor is installed above the hydroponic cultivation tank. And the light sensor, the temperature sensor and the light sensor are connected to the mobile terminal through the control host; wherein, the temperature sensor and the light sensor are used to sense the temperature value and the light intensity value above the hydroponic cultivation tank respectively, and The detected temperature value and light intensity value are fed back to the mobile terminal through the control host. 2 . The hydroponic cultivation structure according to claim 1 , wherein a plurality of heat dissipation windows that can be opened and closed are arranged on the top plate, and the heat dissipation windows are evenly distributed on the top plate. 3 . 3. The hydroponic cultivation structure according to claim 2, characterized in that, each of the heat dissipation windows is respectively provided with an exhaust fan. 4. The hydroponic cultivation structure according to claim 1, wherein the LED light tube is fixed on the LED light stand, and the length of the LED light tube is greater than the length of the hydroponic cultivation tank. 5 . The hydroponic cultivation structure according to claim 4 , wherein a knob for adjusting the light intensity of the LED lamp tube is provided on the side of the LED lamp holder. 5 .