CN209330718U - A kind of round-the-clock energy saving Intelligent sunlight greenhouse - Google Patents

Abstract

The utility model discloses a kind of round-the-clock energy saving Intelligent sunlight greenhouses, including the first column, rain-proof heat-insulating top is fixedly connected at the top of first column, the left and right sides among the heat-insulated top/bottom part of rain-proof is fixedly connected to hole bracket, cooling channel is installed among the heat-insulated top/bottom part of rain-proof, the hole bracket bottom is equipped with heat preservation deckle board, the area A thermal insulating door thermally insulated door is installed on rear side of the heat preservation deckle board, the heat preservation deckle board inside bottom offers ventilation hole, and the heat preservation deckle board bottom is equipped with greenhouse bottom plate.The utility model passes through equipped with the dragging track on glass insulating layer and greenhouse bottom plate, it can be according to experiment needs and natural climate condition, glass insulating layer can be moved to suitable climatic environment by bottom dragging track in the area A and the area B and run, whole weather conditions can be provided for plant growth and experiment product, simulate the varying environment of nature, it is more practical, it is suitble to be widely popularized and uses.

Description

A kind of round-the-clock energy saving Intelligent sunlight greenhouse

Technical field

The utility model relates to greenhouse technology field, specially a kind of round-the-clock energy saving Intelligent sunlight greenhouse.

Background technique

Greenhouse at present, also known as greenhouse, referring to has the facilities such as cold-proof, heating and light transmission, and the room of thermophilous is cultivated for winter, In the season for being not suitable for plant growth, the growth stage can be provided and increase yield, be chiefly used in low temperature season warm season vegetable, flowers, woods The plant cultures such as wood or nursery etc..Greenhouse refers to the equipment or building that can control or partially control plant growth environment.Mainly Cultivated for Out of season or non-regional plant culture, scientific research plus for breeding and ornamental plant etc., greenhouse function point Class uses function according to the final of greenhouse, can be divided into productivity greenhouse, tentative greenhouse and allow the business of public's entrance warm-natured Room.Vegetable growing greenhouse, flower culture greenhouse, cultivation greenhouse etc. belong to productivity greenhouse, phjytotron, greenhouse experiments room Etc. belonging to tentative greenhouse, various showhouses, retail greenhouse, goods wholesale greenhouse etc. then belong to commercial greenhouse, heating consumption It can be the major obstacle of greenhouse winter operation, during summer and autumn high temperature, the cooling energy consumption in greenhouse is high, it is substantially at idle state, The thermal insulation property in greenhouse is improved, energy consumption is reduced, is the most direct approach for improving greenhouse and playing a role.

The various physiological activities of key element plant require have minimum temperature, optimum temperature, maximum temperature in plant growth, That is three basic points of temperature.Plant is good in optimum temperature growth and development, is more than that just undergrowth is very for maximum temperature or minimum temperature To causing death.General plant growth, optimal temperature are widely different mainly due to floristic difference.Therefore on the earth The plant in each area, the optimum temperature range needed are also different.Torrid areas plant growth, optimum temperature range exist more 30~35 DEG C；Temperate plant is mostly at 25~30 DEG C, and the optimum temperature of frigid zone plant, a little higher than 0 DEG C general.Tropical plants growth Minimum temperature at 10~15 DEG C, the minimum temperature of temperate plant growth is at 5~10 DEG C.Frigid zone plant is in 0 DEG C, even lower than zero Degree, remains to survive, and improves experiment effect for the element and feature of plant growth in order to meet requirement of experiment and save the energy And accelerate scientific research process, it needs to provide whole weather conditions for plant growth and experiment product, simulates the varying environment of nature, It also needs to provide growth and test requirements document using natural sunlight and weather conditions for plant growth, while utilizing natural sunlight Energy consumption is reduced with weather conditions, moreover existing greenhouse not can solve Greenhouse In Winter season and summer highly energy-consuming problem, allow The annual four seasons can be used, therefore, it is proposed that a kind of round-the-clock energy saving Intelligent sunlight greenhouse.

Utility model content

The purpose of this utility model is to provide a kind of round-the-clock energy saving Intelligent sunlight greenhouses, solve institute in background technique The problem of proposition.

To achieve the above object, the utility model provides the following technical solutions: a kind of round-the-clock energy saving Intelligent sunlight greenhouse, Including the first column, rain-proof heat-insulating top, the left side among the heat-insulated top/bottom part of rain-proof are fixedly connected at the top of first column Right two sides are fixedly connected to hole bracket, and cooling channel, the hole bracket are equipped among the heat-insulated top/bottom part of rain-proof Bottom is equipped with heat preservation deckle board, is equipped with the area A thermal insulating door thermally insulated door on rear side of the heat preservation deckle board, the heat preservation deckle board inside bottom offers Ventilation hole, the heat preservation deckle board bottom are equipped with greenhouse bottom plate, and greenhouse bottom plate top center is fixedly connected with dragging track, The dragging track top slide is connected with glass insulating layer, and the left and right sides is mounted on stop rod at the top of the dragging track, Alignment sensor is installed, the model LXDJ-31 of the alignment sensor, after the area A thermal insulating door thermally insulated door on the inside of the stop rod Side is equipped with the second column, is mounted on sunshade net at the top of second column and the first column.

As a kind of preferred embodiment of the utility model, glass insulating layer inner front side top is equipped with air inlet It is connected with cold air branch pipe on front side of pipeline A, the intake stack A, is connected on the left of the cold air branch pipe through glass insulating layer There is changes in temperature air piping.

As a kind of preferred embodiment of the utility model, the cold air duct bottom is connected with cold and hot unit, institute It states glass insulating layer inner back side top and intake stack B is installed, glass door is installed on rear side of the glass insulating layer.

As a kind of preferred embodiment of the utility model, the heat preservation deckle board inside top is equipped with illumination lamp.

As a kind of preferred embodiment of the utility model, the second column inside top is fixedly connected with light compensating lamp Hanging rod, light compensating lamp hanging rod bottom are equipped with light compensating lamp, and the quantity of the light compensating lamp is four.

Compared with prior art, the beneficial effects of the utility model are as follows:

1. the utility model, can be according to experiment needs by the dragging track being equipped on glass insulating layer and greenhouse bottom plate And natural climate condition, glass insulating layer can be moved to suitable climatic environment by bottom dragging track in the area A and the area B and transport Row, can provide whole weather conditions for plant growth and experiment product, simulate the varying environment of nature, be conducive to more real Use round-the-clock energy saving Intelligent sunlight greenhouse.

2. the utility model passes through equipped with the intake stack on the cold air channel glass insulating layer on cold and hot unit A can be significantly reduced energy consumption during the cold season by the movement between the exchange between hot cold air and the area A, the area B, Be conducive to more practical using round-the-clock energy saving Intelligent sunlight greenhouse.

3. the utility model is by the sunshade net being equipped on the second column, too strong illumination is unfavorable for plant at noon When growth, the sunshade net of different densities, which pulls open, to be covered on above glass insulating layer, it is possible to reduce intensity of illumination provides most for experiment product Good illuminance is conducive to more practical using round-the-clock energy saving Intelligent sunlight greenhouse.

4. the utility model passes through the ventilation hole being equipped on heat preservation deckle board, illumination is not being needed or glass insulating layer needs temperature Degree differed with environment temperature too greatly in the case where, glass insulating layer can be moved in the area A by dragging track from the portion B and be run, A There are corresponding distances between the top solar energy photovoltaic panel and heat preservation deckle board in area as cooling channel, and ventilation hole is in environment temperature In very high situation, according to the temperature requirement of glass insulating layer, carry out opening ventilation or sealing thermal insulation, to play energy-saving effect, Be conducive to more practical using round-the-clock energy saving Intelligent sunlight greenhouse.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other spies of the utility model Sign, objects and advantages will become more apparent upon:

Fig. 1 is the positive structure diagram of the round-the-clock energy saving Intelligent sunlight greenhouse of the utility model；

Fig. 2 is the side structure schematic diagram of the round-the-clock energy saving Intelligent sunlight greenhouse of the utility model.

In figure: 1, rain-proof heat-insulating top 2, cool down channel 3, hole bracket 4, glass insulating layer 5, ventilation hole 6, illumination Lamp 7, sunshade net 8, heat preservation deckle board 9, the first column 10, dragging track 11, changes in temperature air piping 12, cold and hot unit 13, only Position bar 14, positioning inductor 15, greenhouse pedestal 16, cold air branch pipe 17, intake stack A 18, intake stack B 19, glass Glass door 20, light compensating lamp hanging rod 21, light compensating lamp 22, the area A thermal insulating door thermally insulated door 23, the second column.

Specific embodiment

To be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, below In conjunction with specific embodiment, the utility model is further described.

The utility model provides a kind of technical solution referring to FIG. 1-2: a kind of round-the-clock energy saving Intelligent sunlight greenhouse, packet The first column 9 is included, is fixedly connected with rain-proof heat-insulating top 1 at the top of first column 9, among 1 bottom of rain-proof heat-insulating top The left and right sides is fixedly connected to hole bracket 3, and cooling channel 2 is equipped among 1 bottom of rain-proof heat-insulating top, described to have hole 3 bottom of bracket is equipped with heat preservation deckle board 8, and the area A thermal insulating door thermally insulated door 22,8 inside of heat preservation deckle board are equipped on rear side of the heat preservation deckle board 8 Bottom offers ventilation hole 5, and 8 bottom of heat preservation deckle board is equipped with greenhouse bottom plate 15, and 15 top center of greenhouse bottom plate is solid Surely it is connected with dragging track 10,10 top slide of dragging track is connected with glass insulating layer 4,10 top of dragging track The left and right sides is mounted on stop rod 13, and alignment sensor 14, the alignment sensor 14 are equipped on the inside of the stop rod 13 Model LXDJ-31, the second column 23, second column 23 and the first column 9 are installed on rear side of the area A thermal insulating door thermally insulated door 22 Top is mounted on sunshade net 7.

Fig. 1 and Fig. 2 is please referred in the present embodiment to pass through equipped with the dragging track on glass insulating layer 4 and greenhouse bottom plate 15 10, it can be needed according to experiment and natural climate condition, glass insulating layer 4 can pass through bottom dragging track 10 in the area A and the area B It is moved to suitable climatic environment operation, whole weather conditions can be provided for plant growth and experiment product, simulate nature Varying environment, be conducive to it is more practical using round-the-clock energy saving Intelligent sunlight greenhouse, by being equipped on the second column 23 Sunshade net 7, when too strong illumination is unfavorable for plant growth at noon, the sunshade net 7 of different densities, which pulls open, covers on glass guarantor Warm 4 top of layer, it is possible to reduce intensity of illumination provides optimal illuminance for experiment product, is conducive to more practical use whole day Energy saving sunlight intelligent is waited, by the ventilation hole 5 being equipped on heat preservation deckle board 8, is not needing illumination or glass insulating layer 4 needs temperature In the case where differing too big with environment temperature, glass insulating layer 4 can be moved in the area A by dragging track 10 from the portion B and be run, There are corresponding distances between the top solar energy photovoltaic panel and insulating layer in the area A as cooling channel, and ventilation hole 5 is in environment temperature In very high situation, according to the temperature requirement of glass insulating layer 4, carry out opening ventilation or sealing thermal insulation, to play energy-saving effect, Be conducive to it is more practical using round-the-clock energy saving Intelligent sunlight greenhouse greenhouse,.

Wherein, the 4 inner front side top of glass insulating layer is equipped with intake stack A17, the front side intake stack A17 It is connected with cold air branch pipe 16, runs through glass insulating layer 4 on the left of the cold air branch pipe 16 and is connected with changes in temperature air piping 11.

Fig. 1 is please referred in the present embodiment to pass through equipped with 11 glass insulating layer 4 of cold air channel on cold and hot unit 12 On intake stack A17, can be during the cold season by the movement between the exchange between hot cold air and the area A, the area B, greatly Reduction energy consumption, be conducive to more practical using round-the-clock energy saving Intelligent sunlight greenhouse.

Wherein, 11 bottom of changes in temperature air piping is connected with cold and hot unit 12, the 4 inner back side top of glass insulating layer Intake stack B18 is installed, glass door 19 is installed on rear side of the glass insulating layer 4.

Wherein, 8 inside top of heat preservation deckle board is equipped with illumination lamp 6.

Wherein, 23 inside top of the second column is fixedly connected with light compensating lamp hanging rod 20,20 bottom of light compensating lamp hanging rod Portion is equipped with light compensating lamp 21, and the quantity of the light compensating lamp 21 is four.

When a kind of round-the-clock energy saving Intelligent sunlight greenhouse uses, full weather energy-saving type Intelligent sunlight greenhouse can be divided into A, B, C three parts and common sparing, the area A rain-proof heat-insulating top 1 can use color steel insulation roof slab, photovoltaic also can be selected Plate, both can be with sunshade, rain-proof.Electric energy can also be acquired simultaneously and alternating current is grid-connected or independence uses and electric power storage is spare, according to experiment It needs and natural climate condition, C glass insulating layer 4 can be moved to suitable gas by bottom dragging track 10 in the area A and the area B Environment operation is waited, the area A, the area B are respectively provided with temperature, optical sensor, and experiment product is placed in C glass insulating layer 4, and C glass is protected Warm layer 4 is equipped with temperature, illumination, humidity, carbon dioxide sensor and intelligence control system and colorful display screen, provides for trial target The weather conditions of one needs, cold winter are lower than the lower limit temperature that C glass insulating layer 4 needs in fine day environment temperature on daytime When, such as 0 DEG C of environment temperature or so, and in the case that 4 experiment product temperature of C glass insulating layer needs 10-35 DEG C, needs illumination, C Glass insulating layer 4 is run in the area B.Natural sunlight can meet 4 illumination needs of C glass insulating layer, while can allow closed C again 4 insulating layer temperature of glass rises, and is higher than environment temperature, if still reaching to the temperature less than needs under irradiation by sunlight, at this moment Cold and hot unit 12 is opened, supplement temperature appropriate, if 4 temperature of C glass insulating layer, which is higher than, needs temperature under sunlight irradiation, Exchange blower, which is opened, at this time to be pumped into C glass insulating layer 4 after the cold air filtering in external elements.By C glass heat-insulating A part is suitably discharged by exchanging blower in hot-air in layer 4, and 4 temperature of C glass insulating layer is allowed to stablize in the parameter of needs. Sunlight heating and environment temperature are utilized in this way, meet the weather conditions of C glass insulating layer 4, in environment temperature and C glass insulating layer It is to hardly need electric energy in king-sized situation, be significantly reduced energy consumption that 4, which require temperature difference not,.It has arrived at night, ring Border temperature reduces, when 4 experiment product temperature of C glass insulating layer still needs 10-35 DEG C, if still run in the area B, it will consumption Very big electric energy, at this moment C glass insulating layer 4 is moved in the area A by 10 dragging tracks from the portion B, when C glass insulating layer 4 is mobile, into Air piping B18 and changes in temperature air piping 11 are detached from and each self-closing, changes in temperature when 4 sliding of C glass insulating layer to the area A corresponding position Wind branch pipe 16 connects unlatching in intake stack A17, and the area A thermal insulating door thermally insulated door 22 is closed.If necessary to illumination, the grouping of illumination lamp 6 open with Meet the illumination needs of varying strength.If necessary to open illumination, while it can also generate heat.There is heat preservation in six face of the area A, will be outer Portion's environment is isolated with C glass insulating layer 4, and fabulous reduction low temperature influences C glass insulating layer 4, is reduced cold and hot unit 12 and is worked, Energy consumption is reduced, extremely hot summer, under strong sunlight, most greenhouses is to open door and window plus sunshade net 7, even so in greenhouse Temperature be also that be higher by environment temperature very much, substantially idle to deactivate, some experiments need continuous operation and anti-season to run, A small number of intelligent greenhouses and climatic chamber need unit refrigeration to run lower than environment temperature.At this time if C glass insulating layer 4 needs temperature If being not much different with environment temperature, C glass insulating layer 4 can be run in the area B, and refrigeration unit and natural temperature combine, and be put down Weigh temperature.Illumination too strong around noon is unfavorable for the growth of plant, and the sunshade net 7 of different densities, which pulls open, covers on C glass heat-insulating 4 top of layer, it is possible to reduce intensity of illumination.Optimal illuminance is provided for experiment product.If you do not need to illumination or C glass insulating layer In the case that 4 need temperature to differ too big with environment temperature, C glass insulating layer 4 can be moved to by dragging track 10 from the portion B It is run in the area A, there are corresponding distances between the top solar energy photovoltaic panel and heat preservation deckle board 8 in the area A as 2 cooling channels, leads to Air holes 5 is in the very high situation of environment temperature, according to the temperature requirement of C glass insulating layer 4, carries out opening ventilation or sealing is protected Temperature, to play energy-saving effect, season in spring and autumn or different regions, according to the requirement of experiment parameter and amblent air temperature of C glass insulating layer 4 Condition and the different characteristics and effect in the area A, B, allow C glass insulating layer 4 in the area A and the area B energy-saving run.In rainy days or illumination In insufficient situation, light compensating lamp 21 is opened.If you do not need to illumination or needing night mode on daytime, the area A can close the area A guarantor Warm door 22 and ventilation hole 5, the area B can spread out high density sunshade net 7 in five faces (on all around), in order to guarantee experiment Safety carries out and remote operation, is provided with wireless network in the area A, while overtemperature alarm, power alarm and telephone call being housed.? Corresponding position is equipped with monitoring system, to facilitate remote reviewing and operation.In the event of a loss of power, solar energy photovoltaic panel or battery Electric energy is provided for equipment component, corresponding system is kept to operate normally.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above, for For those skilled in the art, it is clear that the present invention is not limited to the details of the above exemplary embodiments, and without departing substantially from this In the case where the spirit or essential attributes of utility model, the utility model can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the utility model is by institute Attached claim rather than above description limit, it is intended that will fall within the meaning and scope of the equivalent elements of the claims All changes are embraced therein.It should not treat any reference in the claims as limiting related right It is required that.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (5)

1. a kind of round-the-clock energy saving Intelligent sunlight greenhouse, including the first column (9), it is characterised in that: the first column (9) top Portion is fixedly connected with rain-proof heat-insulating top (1), and the left and right sides among rain-proof heat-insulating top (1) bottom has been fixedly connected to hole Bracket (3) is equipped with cooling channel (2) among rain-proof heat-insulating top (1) bottom, and hole bracket (3) bottom is equipped with It keeps the temperature deckle board (8), the area A thermal insulating door thermally insulated door (22) is installed on rear side of the heat preservation deckle board (8), heat preservation deckle board (8) inside bottom is opened Equipped with ventilation hole (5), heat preservation deckle board (8) bottom is equipped with greenhouse bottom plate (15), greenhouse bottom plate (15) top center It is fixedly connected with dragging track (10), dragging track (10) top slide is connected with glass insulating layer (4), described to slide rail The left and right sides is mounted on stop rod (13) at the top of road (10), is equipped with alignment sensor (14) on the inside of the stop rod (13), The model LXDJ-31 of the alignment sensor (14), the area A thermal insulating door thermally insulated door (22) rear side are equipped with the second column (23), institute It states and is mounted on sunshade net (7) at the top of the second column (23) and the first column (9).

2. the round-the-clock energy saving Intelligent sunlight greenhouse of one kind according to claim 1, it is characterised in that: the glass insulating layer (4) inner front side top is equipped with intake stack A (17), is connected with cold air branch pipe (16) on front side of the intake stack A (17), Changes in temperature air piping (11) are connected with through glass insulating layer (4) on the left of the cold air branch pipe (16).

3. the round-the-clock energy saving Intelligent sunlight greenhouse of one kind according to claim 2, it is characterised in that: the changes in temperature air piping (11) bottom is connected with cold and hot unit (12), and glass insulating layer (4) the inner back side top is equipped with intake stack B (18), Glass door (19) are installed on rear side of the glass insulating layer (4).

4. the round-the-clock energy saving Intelligent sunlight greenhouse of one kind according to claim 1, it is characterised in that: the heat preservation deckle board (8) inside top is equipped with illumination lamp (6).

5. the round-the-clock energy saving Intelligent sunlight greenhouse of one kind according to claim 1, it is characterised in that: second column (23) inside top is fixedly connected with light compensating lamp hanging rod (20), and light compensating lamp hanging rod (20) bottom is equipped with light compensating lamp (21), The quantity of the light compensating lamp (21) is four.