CN208708265U - Day-light greenhouse with photovoltaic module - Google Patents

Abstract

The utility model provides a kind of day-light greenhouse with photovoltaic module, it include: building body, including the first wall, the second wall, third wall, the 4th wall and the arc arched shed being sequentially connected, first wall, the second wall are identical with the height of third wall, 4th wall is higher than the first wall, and arc arched shed is connected across the 4th wall and the second wall；Photoelectric conversion mechanism, photoelectric conversion mechanism includes side wall photovoltaic module and side wall driving mechanism, side wall photovoltaic module is pivotally disposed on the side wall of the first wall, the second wall and third wall, and side wall driving mechanism is arranged on building body and side wall photovoltaic module is driven to rotate.The technical solution of the utility model effectively solves day-light greenhouse sunlight in the prior art to utilize the problem of insufficient, the economic benefit is not high.

Description

Day-light greenhouse with photovoltaic module

Technical field

The utility model relates to the technical fields of photovoltaic agricultural, in particular to a kind of daylight with photovoltaic module Greenhouse.

Background technique

In the prior art, in order to guarantee that the indoor illumination of temperature is sufficient, allow the indoor plant of temperature can normal growth, it is common Heliogreenhouse system usually only covered with transparent plastic film, these plastic films can penetrate sunlight, and can lead to The degree that plastic film is raised, the environment such as the warm indoor ventilation of rough adjustment, temperature, humidity are overregulated, but are radiated at temperature Sunlight on the greenhouse of room is only used to supply photosynthesis of plant use, and monitoring, water supply, temperature adjustment, control in greenhouse Etc. equipment needs be driven by electricity, need external power supply, increase cost.This structure, which does not make full use of, to be radiated on greenhouse Sunlight, the economic benefit is not high.

Utility model content

It is existing to solve the main purpose of the utility model is to provide a kind of day-light greenhouse with photovoltaic module Day-light greenhouse sunlight in technology utilizes the problem of insufficient, the economic benefit is not high.

To achieve the goals above, the utility model provides a kind of day-light greenhouse with photovoltaic module, comprising: Building body, including the first wall, the second wall, third wall, the 4th wall and the arc arched shed being sequentially connected, the first wall Body, the second wall are identical with the height of third wall, the 4th wall be higher than the first wall, arc arched shed be connected across the 4th wall and Second wall；Photoelectric conversion mechanism, photoelectric conversion mechanism include side wall photovoltaic module and side wall driving mechanism, side wall photovoltaic module It is pivotally disposed on the side wall of the first wall, the second wall and third wall, side wall driving mechanism is arranged in building body It goes up and side wall photovoltaic module is driven to rotate.

Further, day-light greenhouse further includes control mechanism, and control mechanism is electrically connected with side wall driving mechanism to control Side wall driving mechanism processed.

Further, day-light greenhouse further includes testing agency, and testing agency is electrically connected with control mechanism, control mechanism Side wall driving mechanism is controlled according to the detected value of testing agency.

Further, testing agency includes temperature sensor, temperature sensor be arranged in the back side of side wall photovoltaic module with Detect the temperature of side wall photovoltaic module.

Further, testing agency includes light quantum sensor, and light quantum sensor is arranged in day-light greenhouse.

Further, the side wall of the upper side edge of side wall photovoltaic module and the first wall, the second wall and third wall can pivot Turn ground connection, the lower side of side wall photovoltaic module is free end.

Further, side wall driving mechanism includes side wall electric putter, and the first end of side wall electric putter is connected with building body, The second end of side wall electric putter is connected with side wall photovoltaic module.

Further, building body includes plastic film, and the back side of side wall photovoltaic module is arranged in plastic film, and plastics are thin Film rollable is so that building body inner ventilation.

Further, photoelectric conversion mechanism further includes top surface photovoltaic module and top surface electric putter, the top tool of the 4th wall There is plane, top surface photovoltaic module is mounted on the top of the 4th wall, and top surface photovoltaic module is close to the side and the 4th of the second wall Wall is pivotably connected, and top surface photovoltaic module is provided with top surface electric putter away from the side of the second wall to drive top surface photovoltaic Component rotation.

Further, day-light greenhouse is provided with air conditioner, to adjust the temperature in day-light greenhouse.

Using the technical solution of the utility model, this day-light greenhouse with photoelectric conversion mechanism, which is broadly divided into, to be built Main body and photoelectric conversion mechanism are built, a wherein face wall for building body is higher than other walls, and the arched shed of arc is connected on wall Just, arched shed is transparent, and sufficient daylighting can be provided for the plant in greenhouse.Temperate zone on the Northern Hemisphere, higher wall are logical It is often north wall, because the sun is usually to come from the south be irradiated, southern wall is lower, can block that temperature is indoor to adopt to avoid Nan Qiang Light.Side wall photovoltaic module is installed on the lower wall in three faces, and driving mechanism is set on metope, side wall light can be driven Lie prostrate component rotation.With time change, the angle shined upon can also change, if warm indoor lighting is sufficient, driving machine Structure can change the inclination angle of side wall photovoltaic module, and side wall photovoltaic module is made to receive sunlight as much as possible, to improve power generation Efficiency obtains bigger generated energy, if warm indoor lighting is insufficient, side wall photovoltaic module can be adjusted at least to block sun The position of light.It utilizes and does not fill the technical solution of the utility model effectively solves day-light greenhouse sunlight in the prior art Point, the problem of the economic benefit is not high.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. In the accompanying drawings:

The right view that Fig. 1 shows the embodiment of the day-light greenhouse according to the present utility model with photovoltaic module shows It is intended to；And

Fig. 2 shows the front view schematic diagrams of the day-light greenhouse shown in FIG. 1 with photovoltaic module.

Wherein, the above drawings include the following reference numerals:

10, building body；11, the first wall；12, the second wall；13, the 4th wall；131, plane；14, arc arched shed； 15, plastic film；20, photoelectric conversion mechanism；21, side wall photovoltaic module；22, side wall driving mechanism；221, side wall electric putter； 23, top surface photovoltaic module；24, top surface electric putter.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

As depicted in figs. 1 and 2, the day-light greenhouse with photovoltaic module of the present embodiment includes: 10 He of building body Photoelectric conversion mechanism 20. includes the first wall 11, the second wall 12, third wall, the 4th wall 13 and the arc being sequentially connected Arched shed 14, the first wall 11, the second wall 12 are identical with the height of third wall, and the 4th wall 13 is higher than the first wall 11, arc Shape arched shed 14 is connected across the 4th wall 13 and the second wall 12.Photoelectric conversion mechanism 20 includes that side wall photovoltaic module 21 and side wall drive Motivation structure 22, side wall photovoltaic module 21 are pivotally disposed on the side wall of the first wall 11, the second wall 12 and third wall, Side wall driving mechanism 22 is arranged on building body 10 and side wall photovoltaic module 21 is driven to rotate.

Using the technical solution of the present embodiment, this day-light greenhouse with photovoltaic module is broadly divided into building body With photoelectric conversion mechanism, a wherein face wall for building body is higher than other walls, and the arched shed of arc is connected to above wall, arched shed Be it is transparent, sufficient daylighting can be provided for the plant in greenhouse.Temperate zone on the Northern Hemisphere, higher wall are usually north Wall, because the sun is usually to come from the south be irradiated, southern wall is lower, and the indoor daylighting of temperature can be blocked to avoid Nan Qiang.Three Side wall photovoltaic module is installed on the lower wall in face, and driving mechanism is set on metope, side wall photovoltaic module can be driven Rotation.With time change, the angle shined upon can also change, if warm indoor lighting is sufficient, driving mechanism can be with The inclination angle for changing side wall photovoltaic module, makes side wall photovoltaic module receive sunlight as much as possible, to improve generating efficiency, obtains Bigger generated energy is obtained, if warm indoor lighting is insufficient, side wall photovoltaic module can be adjusted to the position at least to keep the sun off It sets.The technical solution of the present embodiment efficiently solves day-light greenhouse sunlight in the prior art using insufficient, economy The not high problem of benefit.

As shown in Figure 1, in the technical scheme of this embodiment, day-light greenhouse further includes control mechanism, control mechanism It is electrically connected with side wall driving mechanism 22 to control side wall driving mechanism 22.Control structure can control multiple side wall driving machines simultaneously Structure 22, and accurately can change the inclination angle of side wall photovoltaic module 21 according to the actual situation, control side wall with control mechanism Driving mechanism 22, it is more accurate, time saving and energy saving compared to for manual operation, it is more efficient.It is worth noting that, electrical connection can be with It is to be wirelessly connected, can also be connected by electric wire.

As shown in Figure 1, in the technical scheme of this embodiment, day-light greenhouse further includes testing agency, testing agency It is electrically connected with control mechanism, control mechanism controls side wall driving mechanism 22 according to the detected value of testing agency.Testing agency will examine The data measured are transferred to control mechanism, and control mechanism judges whether the indoor plant of temperature is in suitable life according to these data It in long environment, then analyses whether to need, need how to change the inclination angle of side wall photovoltaic module 21, then control side wall driving machine Structure 22 makes corresponding operating.Testing agency can help control mechanism control side wall photovoltaic module to adjust suitable inclination angle, favorably It is in suitable light environment in the indoor plant of guarantee temperature.

As shown in Figure 1, in the technical scheme of this embodiment, testing agency includes temperature sensor, temperature sensor is set Set the temperature that side wall photovoltaic module 21 is detected at the back side of side wall photovoltaic module 21.As temperature increases, the light of photovoltaic module Photoelectric transformation efficiency can reduce, and when temperature sensor detects side wall photovoltaic module 21 when the temperature is excessively high, can be transferred to control System makes side wall photovoltaic module lift certain inclination angle, and the side wall photovoltaic module back side can be divulged information, achievees the effect that cooling. The efficiency of power generation can be improved in this way.

(not shown) in the technical scheme of this embodiment, testing agency include light quantum sensor, and light quantum passes Sensor is arranged in day-light greenhouse.Light quantum sensor can measure certain wavelength natural light or artificial light it is photosynthetic Photon hypothesis, amount of this data commonly used to effective light of description photosynthesis of plant.This data is measured to help In the upgrowth situation for judging plant.

As shown in Figure 1, in the technical scheme of this embodiment, the upper side edge of side wall photovoltaic module 21 and the first wall 11, The side wall of second wall 12 and third wall is pivotably connected, and the lower side of side wall photovoltaic module 21 is free end.Herein The mode that connection type can take sleeve and pivotal axis to cooperate is interlocked in the setting of the upper side edge of wall and side wall photovoltaic module 21 Sleeve, pivotal axis pass through sleeve, wall and side wall photovoltaic module 21 are connected.Side wall photovoltaic module 21 can be around pivot Shaft rotation, according to the situation in greenhouse, rotates different angles.

As shown in Figure 1, in the technical scheme of this embodiment, side wall driving mechanism 22 includes side wall electric putter 221, side wall The first end of electric putter 221 is connected with building body 10, and the second end of side wall electric putter 221 is connected with side wall photovoltaic module 21. The second end of side wall electric putter 221 can be fixedly connected with the lower side of side wall photovoltaic module 21, also, side wall electric putter 221 Second end can be rotated around the junction on building body 10, moreover, can be realized by damping piece self-locking herein.Side wall Electric putter 221 can extend or shorten, and when side wall electric putter 221 shortens to most in short-term, side wall photovoltaic module 21 is in vertical The lower side of side wall photovoltaic module 21 can be jacked up certain height, then side wall when side wall electric putter 221 extends by position Electric putter 221 is also rotated up therewith, and the fixation of 221 position of side wall electric putter is realized finally by damping piece.

As shown in Fig. 2, in the technical scheme of this embodiment, building body 10 includes plastic film 15, plastic film 15 The back side of side wall photovoltaic module 21 is set, and 15 rollable of plastic film is so that 10 inner ventilation of building body.When side wall photovoltaic After component 21 lifts certain angle, plastic film 15 can guarantee that greenhouse is still a closed space, and temperature is indoor Temperature, ventilation situation, humidity etc. will not be started because of side wall photovoltaic module and be changed.It is indoor logical when needing to be improved temperature When wind condition, it is only necessary to roll plastic film 15, it is notable that plastic film 15 can be rolled up with motor control It rises, can also manually roll, can be fixed with rope after rolling, velcro can also be set at the edge of plastic film 15, lead to Velcro is crossed to fix.

As depicted in figs. 1 and 2, in the technical scheme of this embodiment, photoelectric conversion mechanism 20 further includes top surface photovoltaic group The top of part 23 and top surface electric putter 24, the 4th wall 13 has plane 131, and top surface photovoltaic module 23 is mounted on the 4th wall 13 Top, top surface photovoltaic module 23 is pivotably connected close to the side of the second wall 12 with the 4th wall 13, top surface photovoltaic group Part 23 is provided with top surface electric putter 24 away from the side of the second wall 12 to drive top surface photovoltaic module 23 to rotate.Top surface photovoltaic group Part 23 is mounted in the plane 131 at 13 top of the 4th wall, temperate zone on the Northern Hemisphere, and the 4th wall 13 is usually north wall, because The sun is usually to come from the south be irradiated, and photovoltaic module is arranged in northern coping, can be to avoid the shadow shadow of photovoltaic module Ring the indoor daylighting of temperature.Sunlight is not received substantially on the wall face of north wall, so photovoltaic group is arranged not on the wall of north wall Part.Plane 131 is set in northern coping, plane 131 can give the good support platform of photovoltaic module, and north wall is arranged It is higher, the plane 131 at top can be avoided to block the indoor daylighting of temperature as far as possible in this way, and southern wall is relatively low, it can also be with Nan Qiang is avoided to block the indoor daylighting of temperature.

(not shown) in the technical scheme of this embodiment, day-light greenhouse are provided with air conditioner, to adjust day Temperature in light greenhouse.Temperature in the adjustable greenhouse of air-conditioning makes the indoor plant of temperature be in suitable growth temperature In, be conducive to the yield for improving plant, and then increase economic efficiency.

It is worth noting that, the photoelectric conversion mechanism in the present embodiment use make copper-indium-gallium-selenium photovoltaic component, deviateing Generating capacity decline is less when optimum angle of incidence, is more suitable for the characteristics of this system often enables component off-target inclination angle；Its appearance ratio Crystal silicon component is beautiful, is also more suitable for being installed on the facade in greenhouse.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of day-light greenhouse with photovoltaic module characterized by comprising

Building body (10), including the first wall (11), the second wall (12), third wall, the 4th wall being sequentially connected (13) and arc arched shed (14), first wall (11), second wall (12) are identical with the height of the third wall, 4th wall (13) be higher than first wall (11), the arc arched shed (14) be connected across the 4th wall (13) and Second wall (12)；

Photoelectric conversion mechanism (20), the photoelectric conversion mechanism (20) include side wall photovoltaic module (21) and side wall driving mechanism (22), the side wall photovoltaic module (21) is pivotally disposed at first wall (11), second wall (12) and institute On the side wall for stating third wall, the side wall driving mechanism (22) is arranged on the building body (10) and drives the side wall Photovoltaic module (21) rotation.

2. the day-light greenhouse according to claim 1 with photovoltaic module, which is characterized in that the heliogreenhouse is big Canopy further includes control mechanism, and the control mechanism is electrically connected with the side wall driving mechanism (22) to control the side wall driving machine Structure (22).

3. the day-light greenhouse according to claim 2 with photovoltaic module, which is characterized in that the heliogreenhouse is big Canopy further includes testing agency, and the testing agency is electrically connected with the control mechanism, and the control mechanism is according to the detection machine The detected value of structure controls the side wall driving mechanism (22).

4. the day-light greenhouse according to claim 3 with photovoltaic module, which is characterized in that testing agency's packet Temperature sensor is included, the temperature sensor is arranged at the back side of the side wall photovoltaic module (21) to detect the side wall photovoltaic The temperature of component (21).

5. the day-light greenhouse according to claim 3 with photovoltaic module, which is characterized in that testing agency's packet Light quantum sensor is included, the light quantum sensor is arranged in the day-light greenhouse.

6. the day-light greenhouse according to claim 2 with photovoltaic module, which is characterized in that the side wall photovoltaic group The upper side edge of part (21) and the side wall of first wall (11), second wall (12) and the third wall are pivotly Connection, the lower side of the side wall photovoltaic module (21) are free end.

7. the day-light greenhouse according to claim 6 with photovoltaic module, which is characterized in that the side wall driving machine Structure (22) includes side wall electric putter (221), and the first end of the side wall electric putter (221) is connected with the building body (10), The second end of the side wall electric putter (221) is connected with the side wall photovoltaic module (21).

8. the day-light greenhouse according to claim 1 with photovoltaic module, which is characterized in that the building body It (10) include plastic film (15), the plastic film (15) is arranged in the back side of the side wall photovoltaic module (21), the modeling Expect film (15) rollable so that the building body (10) inner ventilation.

9. the day-light greenhouse according to claim 1 with photovoltaic module, which is characterized in that the photoelectric conversion machine Structure (20) further includes top surface photovoltaic module (23) and top surface electric putter (24), and the top of the 4th wall (13) has plane (131), the top surface photovoltaic module (23) is mounted on the top of the 4th wall (13), and the top surface photovoltaic module (23) is leaned on The side of nearly second wall (12) is pivotably connected with the 4th wall (13), top surface photovoltaic module (23) back Side from second wall (12) is provided with top surface electric putter (24) to drive the top surface photovoltaic module (23) to rotate.

10. the day-light greenhouse according to any one of claim 1 to 9 with photovoltaic module, which is characterized in that institute It states day-light greenhouse and is provided with air conditioner, to adjust the temperature in the day-light greenhouse.