CN209861779U

CN209861779U - Sunlight greenhouse

Info

Publication number: CN209861779U
Application number: CN201920211777.0U
Authority: CN
Inventors: 何亚锐; 高亮; 于晓丹; 郝伟; 程海泉
Original assignee: Elioner Ecological Remediation Co Ltd
Current assignee: Elioner Ecological Remediation Co Ltd
Priority date: 2019-02-18
Filing date: 2019-02-18
Publication date: 2019-12-31
Anticipated expiration: 2029-02-18

Abstract

The application provides a sunlight greenhouse, including greenhouse body, light filling system, irrigation system and control system set up the greenhouse is originally internal this internal green wall of planting that is used for planting ornamental plant that still is equipped with in the greenhouse, the light filling ystem installation is on green wall of planting, irrigation system with green adjacent setting of wall of planting, and the printing opacity surface of greenhouse body is equipped with ultraviolet ray filtration membrane, control system is connected with irrigation system and light filling system respectively and is used for adjusting this internal environment of greenhouse. This application sets up ultraviolet light filtration membrane through the printing opacity surface at the greenhouse body for strong ultraviolet's firing is avoided to ornamental plant in the sunlight greenhouse, has solved the too strong problem of tibetan north plateau ultraviolet ray.

Description

Sunlight greenhouse

Technical Field

The application relates to the field of building energy conservation and resource recycling, in particular to a sunlight greenhouse.

Background

The environment of the northern Tibetan plateau is severe, the ultraviolet ray is strong, the temperature is low, the variety of the ornamental plants suitable for growing is few, along with the improvement of the living standard of northern Tibetan people, the northern Tibetan people have higher and higher requirements on mental culture, and people hope to see various ornamental plants growing normally on the northern Tibetan plateau, however, the existing sunlight greenhouse is mostly applied to the interior without considering the severe environment condition of the northern Tibetan plateau, so that a lot of plants cannot grow normally under the severe environment condition, and the invention creates the sunlight greenhouse suitable for the plateau area at first sight.

SUMMERY OF THE UTILITY MODEL

The sunlight greenhouse aims to overcome the defects of the prior art, and is economical, environment-friendly, safe, energy-saving, practical and reliable.

In order to achieve the purpose, the following technical scheme is adopted in the application:

the utility model provides a sunlight greenhouse, includes greenhouse body, light filling system, irrigation system and control system set up this is internal in the greenhouse this internal green wall of planting that is used for planting ornamental plant that still is equipped with in the greenhouse, the light filling ystem installation is on green wall of planting, irrigation system with green wall adjacent setting of planting, and the printing opacity surface of greenhouse body is equipped with ultraviolet ray filtration membrane, control system is connected with irrigation system and light filling system respectively and is used for adjusting this internal environment in greenhouse.

Optionally, the greenhouse body includes a wall 1, a glass sidewall 2 and a glass ceiling 3, the bottom of the glass sidewall 2 is disposed on the wall 1 along the shape of the wall 1, the glass ceiling 3 is disposed at the top of the glass sidewall 2 in an inclined manner, and ultraviolet filtering membranes are adhered to the surfaces of the glass sidewall 2 and the glass ceiling 3.

Optionally, the green wall of planting is in this internal edge glass lateral wall 2 setting of greenhouse, the green wall of planting includes flower bed 15 and sets up the pergola 16 of the top of flower bed 15 the flower bed 15 intussuseption is filled with soil 22, the light filling system install on the pergola 16, irrigation system with 16 adjacent settings of pergola.

Optionally, the flower stand 16 includes a plurality of first grillage 163 that interval set up in proper order from high to low, every be formed with one on the first grillage 163 and plant the layer, one side of every first grillage is provided with the U-shaped board to be "S" shape intercommunication between making a plurality of planting layers, and be equipped with on every first grillage 163 with the baffle 162 that the U-shaped board 161 corresponds the setting, baffle 162 forms a basin column structure with U-shaped board 161 jointly.

Optionally, the water collecting system further comprises a water collecting system, the irrigation system comprises a water spraying device 12, a water feeding pipe 13 and an irrigation water pump 14, one end of the water feeding pipe 13 is connected with the water collecting system, the other end of the water feeding pipe 13 is located at the top of the green plant wall and is connected with the water spraying device 12, and the irrigation water pump 14 is arranged on the water feeding pipe 13 and is connected with the control system to control the on-off of water flow.

Optionally, the water collecting system includes a water collecting tank 8, a water guiding pipe 9 and a rainwater collecting box 10, the water collecting tank 8 is arranged at the bottom of the obliquely arranged glass ceiling 3 and is arranged along the edge of the glass ceiling 3, the water guiding pipe 9 is located at the end of one end of the water collecting tank 8 and is communicated with the rainwater collecting box 10, and the rainwater collecting box 10 is installed at one side of the greenhouse body and is connected with the irrigation system.

Optionally, the lighting system further comprises a power supply system, the light supplement system comprises a plurality of light emitting lamp sets 18, and the light emitting lamp sets 18 are arranged on the green plant wall and connected with the control system and the power supply system.

Optionally, the power supply system includes a plurality of photovoltaic power generation panels 6 and a storage battery 7, the photovoltaic power generation panels are laid on the outer surface of the glass ceiling 3 and connected with the storage battery 7, and the storage battery 7 is installed on one side of the greenhouse body and is respectively connected with the water collecting system, the light supplementing system, the irrigation system and the control system for providing electric energy.

Optionally, the control system includes a controller 101, a temperature and humidity sensor 102 and an illumination sensor 103, an input end of the controller 101 is connected to the temperature and humidity sensor 102 and the illumination sensor 103, and an output end of the controller 101 is connected to the irrigation system and the light supplement system, respectively.

Optionally, the flower bed further comprises a heat supply system, wherein the heat supply system comprises a solar heat collecting plate 4 and a heat dissipation assembly 5, the solar heat collecting plate 4 is laid on the glass ceiling 3 and connected with the heat dissipation assembly 5, and the heat dissipation assembly 5 is located at the bottom of the flower bed 15 and buried in soil 22.

The utility model provides a sunlight greenhouse sets up ultraviolet ray filtration membrane through the printing opacity surface at the greenhouse body for ornamental plant in the sunlight greenhouse avoids strong ultraviolet's firing, the too strong problem of north Tibetan plateau ultraviolet ray has been solved, and simultaneously, through adopting intelligent control system, adjust the inside environmental parameter in sunlight greenhouse, play the regulation and control effect under the unable normal growth's of ornamental plant condition, make ornamental plant can normal growth, the demand of north Tibetan people to the spiritual culture has been satisfied.

Drawings

FIG. 1 is a block diagram of the overall structure of a solar greenhouse provided by the embodiment of the application;

FIG. 2 is a front view of a solar greenhouse provided by an embodiment of the present application;

FIG. 3 is a side view of a solar greenhouse as provided by an embodiment of the present application;

fig. 4 is a schematic structural diagram of a green plant wall provided in an embodiment of the present application;

FIG. 5 is a top view of a flower bed and heat sink assembly provided by embodiments of the present application;

fig. 6 is a schematic structural diagram of a light emitting lamp set provided in an embodiment of the present application;

fig. 7 is a block diagram of a control system according to an embodiment of the present application.

Reference numerals

1-wall body, 2-glass side wall, 3-glass ceiling, 4-solar heat collecting plate, 5-heat dissipation component, 6-photovoltaic power generation plate, 7-storage battery, 8-water collecting tank, 9-water guiding pipe, 10-rainwater collecting box, 11-shading component, 12-water spraying device, 13-water feeding pipe, 14-irrigation water pump, 15-flower pond, 16-flower stand, 161-U-shaped plate, 162-baffle, 163-first plate frame, 18-light emitting lamp group, 19-cooling component, 20-communication device, 211-first ornamental plant, 212-second ornamental plant, 213-third ornamental plant, 22-soil, 23-rest equipment and 24-glass door.

Detailed Description

The following description of specific embodiments of the present application refers to the accompanying drawings.

In this document, "upper", "lower", "front", "rear", "left", "right", and the like are used only to indicate relative positional relationships between relevant portions, and do not limit absolute positions of the relevant portions.

In this document, "first", "second", and the like are used only for distinguishing one from another, and do not indicate the degree and order of importance, the premise that each other exists, and the like.

In this context, "equal", "same", etc. are not strictly mathematical and/or geometric limitations, but also include tolerances as would be understood by a person skilled in the art and allowed for manufacturing or use, etc.

Unless otherwise indicated, numerical ranges herein include not only the entire range within its two endpoints, but also several sub-ranges subsumed therein.

The application discloses sunlight greenhouse, as shown in fig. 1, including greenhouse body, light filling system, irrigation system and control system set up this is internal in the greenhouse this internal green wall of planting that is used for planting ornamental plant that still is equipped with in the greenhouse, light filling system installs on green wall of planting, irrigation system with green wall adjacent setting of planting, and the printing opacity surface of greenhouse body is equipped with ultraviolet ray filtration membrane, control system is connected with irrigation system and light filling system respectively and is used for adjusting this internal environment in greenhouse makes ornamental plant can this internal normal growth in greenhouse. This application sets up ultraviolet light filtration membrane through the printing opacity surface at the greenhouse body for ornamental plant in the sunlight greenhouse avoids strong ultraviolet's firing, has solved the too strong problem of north-hiding plateau ultraviolet ray, and simultaneously, through adopting intelligent control system, adjust the inside environmental parameter in sunlight greenhouse, play the regulation and control effect under the unable normal growth's of ornamental plant condition, make ornamental plant can normal growth, satisfied the demand of north-hiding people to the spiritual culture.

In one embodiment of the present application, as shown in fig. 2 and 3, the greenhouse body comprises a wall body 1, a glass side wall 2 and a glass ceiling 3, wherein one end of the wall body 1 is embedded in a foundation, the other end is exposed out of the foundation, the bottom of the glass side wall 2 is arranged on the wall body 1 along the shape of the wall body 1, the glass ceiling 3 is obliquely arranged on the top of the glass side wall 2, and an ultraviolet filtering film is adhered on the surface of the glass side wall 2 and the surface of the glass ceiling 3. The sunlight greenhouse of this application is through pasting ultraviolet filtration membrane for indoor plant can avoid tibetan north plateau strong ultraviolet's ignition.

Optionally, a glass door 24 is arranged on one side surface of the glass side wall 2, and a notch is arranged at a corresponding position of the glass door 24 of the wall body 1, so that the glass door 24 can be opened and closed normally.

Alternatively, the length, width and height of the greenhouse body may be 3m, 4m and 2.5 m.

Optionally, a shading component 11 is arranged on one side of the inner surface of the glass ceiling 3, and the shading component 11 is connected with the control system so as to be capable of automatically opening and closing.

In one embodiment of the present application, as shown in fig. 4 to 6, the green planting wall is disposed along the glass sidewall 2 inside the greenhouse body, the green planting wall includes a flower bed 15 and a flower stand 16 disposed above the flower bed 15 for cultivating a first ornamental plant 211, soil 22 is filled in the flower bed 15 for cultivating a second ornamental plant 212 and a third ornamental plant 213, the light supplement system is installed on the flower stand 16, and the irrigation system is disposed adjacent to the flower stand 16; the flower stand 16 includes a plurality of first plate frames 163 disposed at intervals in sequence from high to low, a first ornamental plant 211 is planted on each of the first plate frames 163 to form a planting layer, a U-shaped plate is disposed at one side of each of the first plate frames 163 to allow the plurality of planting layers to communicate with each other in an S-shape, and a baffle 162 is provided on each first plate holder 163 to correspond to the U-shaped plate 161, the baffle 162 and the U-shaped plate 161 together form a gutter-shaped structure, when irrigation is carried out, the irrigation system starts irrigation from the first plate frame 163 on the top layer, water flows along the first plate frame 163 and the U-shaped plate 161 in an S shape and is firstly blocked by the baffle plate 162 during the flowing process, so that a suitable accumulation of water is formed on each planting layer for growing the first ornamental plant 211 and finally a flow of water flows into the soil 22 of the flower bed 15 for watering the second ornamental plant 212 and the third ornamental plant 213.

Alternatively, the height of the green plant wall may be 1.5m, and the width and height of the flower bed may be 80cm and 80 cm.

Optionally, a rest device 23, such as a table, a chair, a birdcage, an aquarium, etc., may be disposed in the unoccupied space of the green planting wall.

In an embodiment of the present application, as shown in fig. 4, the system further includes a water collecting system, the irrigation system includes a water spraying device 12, a water feeding pipe 13 and an irrigation water pump 14, one end of the water feeding pipe 13 is connected with the water collecting system for obtaining a water source, the other end of the water feeding pipe 13 is located on the top of the green plant wall and is connected with the water spraying device 12, and the irrigation water pump 14 is disposed on the water feeding pipe 13 and is connected with the control system for controlling the on-off of water flow. The utility model provides a sunlight greenhouse adopts the green wall of planting and the irrigation system of water conservation mode, can increase ornamental plant's green period and save the water resource.

In one embodiment of the present application, as shown in fig. 1 and 5, the solar flower bed further comprises a heating system, wherein the heating system comprises a solar heat collecting plate 4 and a heat dissipating assembly 5, the solar heat collecting plate 4 is laid on the glass ceiling 3 and connected with the heat dissipating assembly 5, and the heat dissipating assembly 5 is located at the bottom of the flower bed 15 and is buried in soil 22. The solar greenhouse of the application can be used for heating the soil 22 by collecting solar energy and converting the solar energy into heat energy, so that the problem of low temperature of the soil in the northern Tibetan plateau can be solved.

In one embodiment of the present application, as shown in fig. 2 and 3, the greenhouse further comprises a power supply system, the power supply system comprises a plurality of photovoltaic power generation panels 6 and a storage battery 7, the photovoltaic power generation panels are laid on the outer surface of the glass ceiling 3 and connected with the storage battery 7, and the storage battery 7 is installed on one side of the greenhouse body and connected with the water collecting system, the light supplementing system, the irrigation system and the control system respectively for providing electric energy. The sunlight greenhouse solves the problem of dependence of the sunlight greenhouse on traditional energy sources by adopting a photovoltaic power generation technology.

In one embodiment of the present application, as shown in fig. 2 and 3, the water collecting system includes a water collecting tank 8, a water guiding pipe 9 and a rainwater collecting box 10, the water collecting tank 8 is disposed at the bottom of the obliquely disposed glass ceiling 3 and is disposed along the edge of the glass ceiling 3, the water guiding pipe 9 is located at the end of one end of the water collecting tank 8 and is communicated with the rainwater collecting box 10, and the rainwater collecting box 10 is installed at one side of the greenhouse body and is connected with the irrigation system for irrigating rainwater collected from the glass ceiling 3 and flowing down into the water collecting tank 8. This application waters ornamental plant through collecting outdoor rainwater, accords with energy saving and emission reduction's requirement.

In one embodiment of the present application, as shown in fig. 6, the light supplement system includes a plurality of light emitting lamp sets 18, the light emitting lamp sets 18 are disposed on the green plant wall and connected to the control system and the power supply system, and the control system is used for providing suitable conditions for photosynthesis of the ornamental plants by controlling the on and off of the light emitting lamp sets 18. The light filling system can realize accurate light filling as required, and the sunlight greenhouse is free from the influence of factors such as structure, orientation and weather.

Alternatively, the light emitting lamp set 18 may be an LED lamp set capable of emitting red or blue light.

The sunlight greenhouse of this application combines together photovoltaic power generation technique and intelligent light filling system, battery 7 and luminous banks 18 all are the direct current, and the electric energy is lower and possess the ability of mutually matching, in practical application, need not carry out the interconversion of direct current and alternating current through the converter, reduces the cost input and the work load that from this produce, more effectual improvement illumination quality and lighting efficiency.

In an embodiment of the application, as shown in fig. 7, the control system includes a controller 101, a temperature and humidity sensor 102 and an illumination sensor 103, an input end of the controller 101 is connected to the temperature and humidity sensor 102 and the illumination sensor 103 for monitoring an environmental parameter in the sunlight greenhouse, an output end of the controller 101 is connected to the irrigation system and the light supplement system respectively for controlling the irrigation water pump 14 and the light emitting lamp set 18, and when the controller 101 finds that the environmental parameter in the sunlight greenhouse exceeds or is lower than a preset environmental threshold, the controller 101 controls the irrigation water pump 14 and/or the light emitting lamp set 18 to perform corresponding operations such as sprinkling irrigation and light supplement, so that the environmental parameter in the sunlight greenhouse conforms to the preset environmental threshold, and healthy growth of ornamental plants is maintained; the output end of the controller 101 is further connected with the shading component 11 for shading when the sunlight greenhouse is too high in temperature due to too strong illumination; the battery 7 of the power supply system is connected to the controller 101 for supplying electrical energy.

In an embodiment of the present application, as shown in fig. 7, the sunlight greenhouse of the present application further includes a cooling module 19 and a communication device 20, where the cooling module 19 is connected to the controller 101 for cooling the sunlight greenhouse through the control of the controller 101 when the temperature in the sunlight greenhouse is too high, and the cooling module 19 includes a cooling fan, a cooling copper pipe, a circulating water pump, and a water tank for loading cooling water; the communication device 20 is connected with the controller 101 and is in communication connection with a mobile phone APP and/or a terminal device of a user, so that the user can remotely control and timely acquire environmental parameters in the sunlight greenhouse.

The preferred embodiments and examples of the present application have been described in detail with reference to the accompanying drawings, but the present application is not limited to the embodiments and examples described above, and various changes can be made within the knowledge of those skilled in the art without departing from the concept of the present application.

Claims

1. The utility model provides a sunlight greenhouse, its characterized in that, includes greenhouse body, light filling system, irrigation system and control system set up this is internal in the greenhouse this internal green wall of planting that is used for planting ornamental plant that still is equipped with in the greenhouse, the light filling system install on green wall of planting, irrigation system with green wall adjacent setting of planting to the printing opacity surface of greenhouse body is equipped with ultraviolet ray filtration membrane, control system is connected with irrigation system and light filling system respectively and is used for adjusting this internal environment of greenhouse.

2. The sunlight greenhouse of claim 1, wherein the greenhouse body comprises a wall body (1), a glass side wall (2) and a glass ceiling (3), the bottom of the glass side wall (2) is arranged on the wall body (1) along the shape of the wall body (1), the glass ceiling (3) is obliquely arranged on the top of the glass side wall (2), and ultraviolet filtering membranes are adhered on the surface of the glass side wall (2) and the surface of the glass ceiling (3).

3. The sunlight greenhouse of claim 2, wherein the green planting wall is arranged along the glass side wall (2) in the greenhouse body, the green planting wall comprises a flower bed (15) and a flower stand (16) arranged above the flower bed (15), soil (22) is filled in the flower bed (15), the light supplementing system is arranged on the flower stand (16), and the irrigation system is arranged adjacent to the flower stand (16).

4. The sunlight greenhouse of claim 3, wherein the flower stand (16) comprises a plurality of first plate frames (163) which are arranged at intervals in sequence from top to bottom, a planting layer is formed on each first plate frame (163), a U-shaped plate is arranged on one side of each first plate frame to enable the planting layers to be communicated in an S shape, a baffle plate (162) which corresponds to the U-shaped plate (161) is arranged on each first plate frame (163), and the baffle plate (162) and the U-shaped plate (161) form a water trough-shaped structure together.

5. The sunlight greenhouse of claim 2, further comprising a water collecting system, wherein the irrigation system comprises a water spraying device (12), a water feeding pipe (13) and an irrigation water pump (14), one end of the water feeding pipe (13) is connected with the water collecting system, the other end of the water feeding pipe (13) is positioned on the top of the green plant wall and is connected with the water spraying device (12), and the irrigation water pump (14) is arranged on the water feeding pipe (13) and is connected with the control system for controlling the on-off of water flow.

6. The sunlight greenhouse of claim 5, wherein the water collecting system comprises a water collecting tank (8), a water guiding pipe (9) and a rainwater collecting box (10), the water collecting tank (8) is arranged at the bottom of the obliquely arranged glass ceiling (3) and is arranged along the edge of the glass ceiling (3), the water guiding pipe (9) is positioned at the end part of one end of the water collecting tank (8) and is communicated with the rainwater collecting box (10), and the rainwater collecting box (10) is arranged at one side of the greenhouse body and is connected with the irrigation system.

7. The sunlight greenhouse of claim 2, further comprising a power supply system, wherein the light supplement system comprises a plurality of light emitting lamp sets (18), and the light emitting lamp sets (18) are arranged on the green plant wall and connected with the control system and the power supply system.

8. Sunlight greenhouse according to claim 7, characterized in that the power supply system comprises a plurality of photovoltaic panels (6) and a storage battery (7), the photovoltaic panels are laid on the outer surface of the glass roof (3) and connected with the storage battery (7), and the storage battery (7) is installed at one side of the greenhouse body and connected with a water collection system, a light supplement system, an irrigation system and a control system respectively for providing electric energy.

9. The sunlight greenhouse of claim 1, wherein the control system comprises a controller (101), a temperature and humidity sensor (102) and an illumination sensor (103), an input end of the controller (101) is connected with the temperature and humidity sensor (102) and the illumination sensor (103), and an output end of the controller (101) is connected with the irrigation system and the light supplement system respectively.

10. The solar greenhouse of claim 3, further comprising a heating system, the heating system comprising a solar heat collecting plate (4) and a heat dissipating assembly (5), the solar heat collecting plate (4) being laid on the glass roof (3) and connected to the heat dissipating assembly (5), the heat dissipating assembly (5) being located at the bottom of the flower bed (15) and being buried in soil (22).