CN211933513U - Device is planted with plant to horticulture - Google Patents

Abstract

The utility model relates to a device is planted with plant to horticulture, it includes: the lighting panel module (1) and the sliding support module (2). The plant display attractiveness is guaranteed while sufficient lighting of the plant is guaranteed.

Description

Device is planted with plant to horticulture

Technical Field

The utility model relates to a plant the device field, more specifically say, relate to a device is planted with plant to horticulture.

Background

In the cultivation and display of horticultural plants, it is often necessary to ensure the aesthetic appearance of the display and an appropriate plant cultivation environment. The existing foundation often provides a sunny environment for specific plants or provides artificial illumination to ensure the normal growth of the plants.

However, in the prior art, the technical solution of providing artificial illumination often requires that the plants are placed in a closed planting box, thereby reducing the aesthetic degree of the display of the plants; when plants are placed in the natural environment, the lighting of the plants is often insufficient due to the shielding of buildings or other plants, and the growth of the plants is affected. Therefore, there is a need to provide a plant cultivation device for horticulture that ensures that plants exhibit aesthetic appeal while ensuring sufficient lighting of the plants.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in how to provide the horticulture plant cultivation device of guaranteeing the pleasing to the eye degree of plant show when guaranteeing the sufficient daylighting of plant.

In view of the above-mentioned drawbacks of the prior art, there is provided a horticultural plant-growing device including: the lighting panel module 1 and the sliding support module 2; the daylighting panel module 1 comprises a bottom plate 1-1 and a group of two support columns 1-4 arranged in parallel and arranged on one side edge of the bottom plate 1-1, wherein each of the two support columns 1-4 is fixed on the bottom plate 1-1 through a pneumatic device 1-5; the lower end of the support column 1-4 is connected with the motion output end of the pneumatic device 1-5; when the pneumatic device 1-5 is controlled by the control module, the supporting columns 1-4 are lifted or lowered; a plurality of pivotable hinge connecting means 1-6 are provided on the other side of the bottom panel 1-1 opposite to the above-mentioned side; one side of the pivotable hinge connecting device 1-6 is fixed on the other side edge of the bottom plate 1-1, and the other side of the pivotable hinge connecting device 1-6 is fixed on the edge of the lighting panel; the daylighting panel comprises a daylighting bottom plate 1-2 positioned at the lower layer and a transparent photovoltaic thin-film solar cell 1-3 positioned above the daylighting bottom plate 1-2; one side edge of the daylighting panel is connected to the pivotable hinge connecting device 1-6, so that the daylighting panel can rotate around the pivotable hinge connecting device 1-6, and the other side edge of the daylighting panel opposite to the side edge is fixedly connected with the tops of the two supporting columns 1-4 respectively; a sliding support module 2 is arranged on a bottom plate 1-1, and the sliding support module 2 comprises a sliding rail 2-1 and 1-2 sliding trolleys 2-2; the sliding rails 2-1 are two rails arranged in parallel, and the rails extend along the arrangement direction of the two supporting columns 1-4; the inner side of the track is provided with a groove which is used for fixing the roller of the sliding trolley 2-2; the roller of the sliding trolley 2-2 is fixed in the groove and slides along the direction of the track.

Furthermore, the number of the transparent photovoltaic thin-film solar cells 1-3 is multiple, and the transparent photovoltaic thin-film solar cells are arranged on the lighting bottom plate 1-2 in an array mode and cover the whole upper surface of the lighting bottom plate 1-2.

Further, the electric output end of the transparent thin-film solar cell 1-3 of the daylighting panel is connected to a detection device, and the detection device can detect the current and/or voltage output condition of the transparent thin-film solar cell 1-3 in real time.

Implement the utility model discloses a device is planted with plant to horticulture has following beneficial effect: the plant display attractiveness is guaranteed while sufficient lighting of the plant is guaranteed.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic structural view of the plant cultivation device for gardening provided by the present invention.

Fig. 2 is a schematic structural view of the lighting panel module of the plant cultivation device for gardening.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, which should not be construed as limiting the scope of the invention.

As shown in fig. 1, the utility model provides a but device is planted to horticulture plant, it includes: a lighting panel module 1 and a sliding support module 2.

The daylighting panel module 1 comprises a bottom plate 1-1, and a group of two support columns 1-4 arranged in parallel and arranged on one side edge of the bottom plate 1-1, wherein each of the two support columns 1-4 is fixed on the bottom plate 1-1 through a pneumatic device 1-5. The lower end of the support column 1-4 is connected with the motion output end of the pneumatic device 1-5. The support columns 1-4 are raised or lowered by the pneumatic devices 1-5 under the control of a control module (not shown).

On the other side of the bottom panel 1-1 opposite to the above-mentioned side a number of pivotable hinge connection means 1-6 are arranged. Preferably, the number of the pivotable hinge connection means 1-6 may be 6 or 3. One side of the pivotable hinge connection 1-6 is fixed to the other side of the bottom panel 1-1 and the other side of the pivotable hinge connection 1-6 is fixed to the edge of the lighting panel. So that the daylighting panel can be rotated about the pivotable hinge connection 1-6.

The daylighting panel comprises a daylighting bottom plate 1-2 positioned at the lower layer and a transparent photovoltaic thin-film solar cell 1-3 positioned above the transparent daylighting bottom plate 1-2. The number of the transparent photovoltaic thin-film solar cells 1-3 is multiple, and the transparent photovoltaic thin-film solar cells are arranged on the lighting bottom plate 1-2 in an array mode and cover the whole upper surface of the lighting bottom plate 1-2. One side edge of the plane skylight is connected to the pivotable hinge connecting device 1-6, so that the plane skylight can rotate around the pivotable hinge connecting device 1-6, and the other side edge of the plane skylight opposite to the side edge is fixedly connected with the tops of the two supporting columns 1-4 respectively. Furthermore, when the supporting columns 1-4 ascend or descend along with the pneumatic devices 1-5, the daylighting panel can be turned upwards or downwards along with the supporting columns.

The electrical output terminals of the transparent thin-film solar cells 1-3 of the daylighting panel are connected to a detection device (not shown), which is capable of detecting the current and/or voltage output condition of the transparent thin-film solar cells 1-3 in real time. And the detection device is connected with the control module, and the control module can receive the data of the detection device in real time and carry out data analysis, judgment and control through an upper computer in the control module.

The sliding support module 2 is arranged on the bottom plate 1-1, and the sliding support module 2 comprises a sliding rail 2-1 and 1-2 sliding trolleys 2-2.

The slide rails 2-1 are two rails arranged in parallel, and the rails extend along the arrangement direction of the two support columns 1-4. The inner side of the rail is provided with a groove which is used for fixing the roller of the sliding trolley 2-2. The roller of the sliding trolley 2-2 is fixed in the groove and slides along the direction of the track.

The upper surface of the carriage 2-2 is a support surface for supporting green plants, such as potted plants and the like.

The supporting surface is also provided with a photosensitive sensor which can be a photodiode or a photovoltaic device or other photosensitive devices capable of representing the incident quantity of light rays, and the photosensitive sensor can be fully covered on the supporting surface or uniformly distributed on the supporting surface as a dot matrix arrangement. The photosensitive sensor can send the acquired detection signal to the control module in a wired or wireless mode.

The application provides a device is planted with plant to horticulture can place green plant on the supporting surface of slip dolly 2-2, through 1-5 lifting of controlling means control pneumatic means or reduce support column 1-4 simultaneously to make the plane skylight upwards or overturn downwards, inform and detect the electric output condition of the surperficial transparent thin-film solar cell 1-3 of plane skylight at the back drilling in-process through detection device. As will be understood by those skilled in the art, when the angle of the sunlight on the surface of the transparent thin-film solar cell 1-3 is closer to a right angle, the electrical output signal of the transparent thin-film solar cell 1-3 is higher due to less occurrence of the mirror reflection phenomenon, and the amount of the light penetrating through the lighting panel is maximized. The control module records and analyzes the lifting data of the pneumatic device 1-5 when the electric output of the lighting board is maximum, and finally sets the lifting height of the pneumatic device 1-5 to the position where the electric output signal of the transparent thin-film solar cell 1-3 is highest.

After the lifting height is determined, the control device drives the sliding trolley 2-2 to slide on the sliding rail 2-1, records the relation between the moving position of the sliding trolley 2-2 and the light irradiation quantity measured by the photosensitive sensor, and finally fixes the sliding trolley 2-2 at the position with the maximum light irradiation quantity.

The specific control flow of the adjustment of the lighting panel angle and the sliding trolley position is as described above. Specific control details are available to those skilled in the art in light of known techniques that are well known and will not be described in detail herein.

The adjustment of the plane skylight angle and the trolley position can be set to be adjusted at fixed time intervals. Preferably, the time interval may be 1-2 hours. Thereby realize that green plant can keep showing under the most sufficient condition of light, the viewer can watch the plant through the transparent plane skylight or the space between plane skylight and the bottom plate, has better bandwagon effect.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (3)

1. A plant cultivation device for gardening, which is characterized in that: it includes: the lighting panel module (1) and the sliding support module (2); the lighting panel module (1) comprises a bottom plate (1-1) and a group of two support columns (1-4) which are arranged in parallel and arranged on one side edge of the bottom plate (1-1), wherein each of the two support columns (1-4) is fixed on the bottom plate (1-1) through a pneumatic device (1-5); the lower end of the supporting column (1-4) is connected with the motion output end of the pneumatic device (1-5); when the pneumatic device (1-5) is controlled by the control module, the supporting column (1-4) is lifted or lowered; a plurality of pivotable hinge connecting means (1-6) are provided on the other side of the bottom panel (1-1) opposite to said side; one side of the pivotable hinge connecting device (1-6) is fixed on the other side edge of the bottom plate (1-1), and the other side of the pivotable hinge connecting device (1-6) is fixed on the edge of the lighting panel; the daylighting panel comprises a daylighting bottom plate (1-2) positioned at the lower layer and a transparent photovoltaic thin-film solar cell (1-3) above the daylighting bottom plate (1-2); one side edge of the daylighting panel is connected to the pivotable hinge connecting device (1-6) so that the daylighting panel can rotate around the pivotable hinge connecting device (1-6), and the other side edge of the daylighting panel opposite to the side edge is fixedly connected with the tops of the two supporting columns (1-4) respectively; a sliding support module (2) is arranged on the bottom plate (1-1), and the sliding support module (2) comprises a sliding rail (2-1) and 1-2 sliding trolleys (2-2); the sliding rails (2-1) are two rails which are arranged in parallel and extend along the arrangement direction of the two supporting columns (1-4); the inner side of the track is provided with a groove which is used for fixing a roller of the sliding trolley (2-2); the roller of the sliding trolley (2-2) is fixed in the groove and slides along the direction of the track.

2. A horticultural plant-growing device in accordance with claim 1, characterised in that: the number of the transparent photovoltaic thin-film solar cells (1-3) is multiple, the transparent photovoltaic thin-film solar cells are arranged on the lighting bottom plate (1-2) in an array mode and cover the whole upper surface of the lighting bottom plate (1-2).

3. A horticultural plant-growing device in accordance with claim 1, characterised in that: the electric output end of the transparent thin-film solar cell (1-3) of the daylighting panel is connected to a detection device, and the detection device can detect the current and/or voltage output condition of the transparent thin-film solar cell (1-3) in real time.

Images