CN218218530U - Big-arch shelter automatic control daylighting device is planted to rose - Google Patents

Abstract

The utility model discloses a big-arch shelter automatic control lighting device is planted to rose, carry on mechanism, daylighting adjustment mechanism and consolidate the base including the main part, the top both sides that the main part carried on the mechanism distribute and are provided with daylighting adjustment mechanism, and the bottom both sides that the main part carried on the mechanism distribute and have the reinforcement base. This big-arch shelter automatic control daylighting device is planted to rose, accessible illuminance sensor detects the illuminance of surrounding environment, if exceed certain numerical value then with signal transmission to control module, to servo motor transmission order, let servo motor carry out rotary drive to the roller bearing of connecting, and transparent curtain, the both ends end of shading curtain all is provided with servo motor and roller bearing, accomplish the regulation control process as required, thereby it is different according to environment illumination intensity to reach, the purpose of the degree of adopting is adjusted to automatic control regulation, let the planting process of whole rose adopt the degree of adopting to adjust automaticly, reduce the repeated daylighting of planting in-process and do not worth the operation, whole portability.

Description

Big-arch shelter automatic control daylighting device is planted to rose

Technical Field

The utility model relates to a plant big-arch shelter technical field, specifically be a big-arch shelter automatic control daylighting device is planted to rose.

Background

With the generation of high molecular polymers, namely polyvinyl chloride and polyethylene, plastic films are widely applied to agriculture, and Japan and the countries in Europe and America succeed in covering hotbeds with greenhouse films in the early 50 s, and then cover small sheds and greenhouses with the greenhouse films, the agricultural polyvinyl chloride films are introduced in the autumn of 1955 in China, the agricultural polyvinyl chloride films are firstly used for covering vegetables in small sheds in Beijing, the effect of early maturity and yield increase is achieved, the greenhouse is originally special equipment for vegetable production, the application of the greenhouse is more extensive along with the development of production, the greenhouse is used for potted flower and cut flower cultivation currently, and the rose cultivation is also used for the greenhouse as a planting space along with the technological progress.

When the existing rose planting greenhouse is used, due to the fact that different types of roses are different, needed illumination time and intensity are different, most of the existing greenhouse does not have a lighting adjusting function, and negative effects can be caused to planting of rose types under high-intensity illumination in summer.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a big-arch shelter automatic control daylighting device is planted to rose to solve the current rose that provides in the above-mentioned background art and plant big-arch shelter in use, because the difference of various roses, the illumination time and the intensity that need are also different, and current big-arch shelter most itself does not possess daylighting regulatory function, under summer high strength illumination, probably causes the problem of negative effect to the planting of rose variety.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a big-arch shelter automatic control lighting device is planted to rose, includes main part carrying mechanism, daylighting adjustment mechanism and consolidates the base, the top both sides distribution that main part carried mechanism is provided with daylighting adjustment mechanism, and the bottom both sides distribution that main part carried mechanism has the reinforcement base, daylighting adjustment mechanism includes control module, photovoltaic power supply unit, light intensity sensor, servo motor, roller bearing, shading curtain and transparent curtain, and control module's top is provided with photovoltaic power supply unit, photovoltaic power supply unit's both ends distribution has light intensity sensor, and light intensity sensor's below is provided with servo motor, one side of servo motor is connected with the roller bearing, and one side of roller bearing is connected with the shading curtain, the one end of shading curtain is connected with transparent curtain.

Furthermore, the control module is connected with the photovoltaic power supply assembly, the illuminance sensor and the servo motor, and the servo motor is communicated with the rolling shaft.

Furthermore, the shading curtain, the transparent curtain and the rolling shaft are connected, and are symmetrically distributed along two ends of the control module.

Further, main part carrying mechanism includes structural framework, baffle, outer curtain and underframe frame, and structural framework's one end is provided with the baffle, the laminating of structural framework outer wall one side has outer curtain, and the bottom of baffle is provided with the underframe frame.

Furthermore, the structural frame, the partition plate and the lighting adjusting mechanism are connected in a welding mode, and the partition plate and the reinforcing base are clamped mutually.

Furthermore, the reinforcing base comprises a base frame, an anti-skidding groove and an inner bolt, the anti-skidding groove is formed in the bottom end of the base frame in a distributed mode, and the inner bolt is arranged on the inner side of the bottom end of the base frame.

Furthermore, the inner bolt is clamped with the base frame, and the anti-skid grooves are formed along the bottom end of the base frame at equal intervals.

Compared with the prior art, the beneficial effects of the utility model are that: this big-arch shelter automatic control daylighting device is planted to rose, this big-arch shelter is in the planting use of rose, accessible illuminance sensor detects the illuminance of surrounding environment, if exceed certain numerical value then with signal transmission to control module, the inside battery and the singlechip processor of carrying of its control module, it supplies power for it by the photovoltaic power supply subassembly of top connection, transmit the order to servo motor this moment, let servo motor carry out rotary drive to the roller bearing of connecting, because be connected as an organic whole between shading curtain and the transparent curtain, the both ends end of shading curtain all is provided with servo motor and roller bearing, can carry out the rolling and the release process of whole curtain, then pull shading curtain part of whole curtain downwards when the rolling, let big-arch shelter one side whole keep shading process, if need then the servo motor of curtain other end and roller bearing pull, transparent curtain part then upwards pulls this moment, the rolling is again to the shading curtain, accomplish and adjust control process, thereby reach by oneself and adjust the luminosity of adopting the luminosity of daylighting, the whole luminosity of regulation daylighting is not reduced, the light operation of planting operation in the whole automatic control process, the whole planting operation is not repeated.

In this big-arch shelter structure, the structural framework who adopts stainless steel and underframe frame combination settle, and its multiunit structural framework cooperation baffle forms the support and moulding to whole big-arch shelter structure with the base frame, forms through covering outer curtain and plants the canopy, and its top middle part then is provided with daylighting adjustment mechanism, lets whole big-arch shelter carry out automatic regulation and control, makes things convenient for rose planting to the daylighting degree.

The shading curtain is characterized in that the illuminance of the surrounding environment is detected through an illuminance sensor, if a certain numerical value is exceeded, a signal is transmitted to a control module, a storage battery and a single chip processor are mounted inside the control module, a photovoltaic power supply assembly connected to the top supplies power to the shading curtain, at the moment, a command is transmitted to a servo motor, the servo motor drives a connected roller to rotate, the shading curtain is rotated and folded by the roller in the rotating process, the shading curtain and the transparent curtain are connected into a whole, the servo motor and the roller are arranged at the two ends of the transparent curtain and the shading curtain, the shading curtain can be rolled and released, when being rolled, the shading curtain part of the whole curtain is pulled downwards, the shading process is kept on one side of the greenhouse integrally, if the lighting is needed, the rolling motor and the roller at the other end of the shading curtain are pulled upwards, at the transparent curtain part is pulled upwards, the shading curtain is rolled in the process, and the adjustment control process is completed.

This integral greenhouse structure's bottom adopts the base frame to carry out the support of bottom, earlier confirm the big-arch shelter spatial position that needs put, accomplish the base frame put the back, the draw-in groove and the baffle on rethread top are connected, fix through interior survey bolt, and the base frame is then fixed through the inside bolt, through this kind of inside fixed mode, let inside key adapting unit be in integral structure, avoid outside rain water ring border to cause the corrosion to the spare part for a long time, the influence is stable, and the base frame bottom is then seted up and is distributed and have the non-skid groove, can be with the stability efficiency maximize of base, thereby promote integral greenhouse structure's stable fastness.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the front view of the internal structure of the lighting adjustment mechanism of the present invention;

FIG. 3 is a schematic view of the local front view of the internal structure of the lighting adjustment mechanism of the present invention;

fig. 4 is the utility model discloses consolidate base owner and look internal structure schematic.

In the figure: 1. a main body mounting mechanism; 101. a structural frame; 102. a partition plate; 103. an outer curtain; 104. a bottom frame; 2. a lighting adjustment mechanism; 201. a control module; 202. a photovoltaic power supply assembly; 203. a light intensity sensor; 204. a servo motor; 205. a roller; 206. a light-shielding curtain; 207. a transparent curtain; 3. reinforcing the base; 301. a base frame; 302. an anti-slip groove; 303. and (6) inner plug.

Detailed Description

As shown in fig. 1, an automatic control lighting device for a rose planting greenhouse comprises: a main body mounting mechanism 1; the top both sides of main part carrying mechanism 1 distribute and are provided with daylighting adjustment mechanism 2, and the bottom both sides distribution of main part carrying mechanism 1 has reinforcement base 3, main part carrying mechanism 1 includes structural framework 101, baffle 102, outer curtain 103 and bottom frame 104, and the one end of structural framework 101 is provided with baffle 102, the laminating of structural framework 101 outer wall one side has outer curtain 103, and the bottom of baffle 102 is provided with bottom frame 104, structural framework 101 and baffle 102, be welded connection between daylighting adjustment mechanism 2, and the looks block between baffle 102 and the reinforcement base 3, in this greenhouse structure, the structural framework 101 and the bottom frame 104 combination that adopt stainless steel to settle, its multiunit structural framework 101 cooperates baffle 102 and base frame 301 to form support and moulding to whole greenhouse structure, form the planting canopy through covering outer curtain 103, its top middle part then is provided with daylighting adjustment mechanism 2, let whole greenhouse carry out automated regulation control to the daylighting degree, make things convenient for rose's planting.

As shown in fig. 2, a lighting adjusting mechanism 2 of an automatic control lighting device for a greenhouse for planting roses comprises a control module 201, a photovoltaic power supply assembly 202, a light intensity sensor 203, a servo motor 204, a roller 205, a shading curtain 206 and a transparent curtain 207, wherein the photovoltaic power supply assembly 202 is arranged above the control module 201, the light intensity sensor 203 is distributed at two ends of the photovoltaic power supply assembly 202, the servo motor 204 is arranged below the light intensity sensor 203, one side of the servo motor 204 is connected with the roller 205, one side of the roller 205 is connected with the shading curtain 206, one end of the shading curtain 206 is connected with the transparent curtain 207, the control module 201 is connected with the photovoltaic power supply assembly 202, the light intensity sensor 203 and the servo motor 204, the servo motor 204 is communicated with the roller 205, the shading curtain 206 is connected with the transparent curtain 207 and the roller 205, the shading curtain 206, the transparent curtain 207 and the rolling shaft 205 are symmetrically distributed along two ends of the control module 201, the greenhouse can detect the illuminance of the surrounding environment through the illuminance sensor 203 in the planting and using process of roses, if the illuminance exceeds a certain value, a signal is transmitted to the control module 201, a storage battery and a singlechip processor are arranged in the control module 201, the photovoltaic power supply assembly 202 connected to the top supplies power to the control module, at the moment, a command is transmitted to the servo motor 204, the servo motor 204 drives the connected rolling shaft 205 to rotate, the rolling shaft 205 folds the shading curtain 206 in the rotating process, the shading curtain 206 and the transparent curtain 207 are connected into a whole, and the servo motor 204 and the rolling shaft 205 are arranged at two ends of the transparent curtain 207 and the shading curtain 206, so that the rolling and releasing processes of the whole curtain can be carried out, when the curtain is rolled, the shading curtain 206 part of the whole curtain is pulled downwards, so that the shading process is integrally kept on one side of the greenhouse, if lighting is needed, the servo motor 204 and the rolling shaft 205 at the other end of the curtain are pulled for rolling, at the moment, the transparent curtain 207 part is pulled upwards, the shading curtain 206 is rolled in the process, the adjustment and control process is completed, the purpose of automatically adjusting and adjusting the lighting degree according to different ambient light intensities is achieved, the lighting degree adjustment in the whole rose planting process is automatic, repeated lighting inappropriate operation in the planting process is reduced, and the whole greenhouse is portable.

As shown in fig. 3, a big-arch shelter automatic control daylighting device is planted to rose, it includes base frame 301 to consolidate base 3, antiskid groove 302 and inner bolt 303, and base frame 301's bottom distributes and has seted up antiskid groove 302, base frame 301's bottom internal measurement is provided with inner bolt 303, inner bolt 303 and base frame 301 looks block, and antiskid groove 302 is seted up along base frame 301 bottom equidistance, the bottom of this whole big-arch shelter structure adopts base frame 301 to carry out the support of bottom, earlier confirm the big-arch shelter spatial position that needs to put, accomplish base frame 301's the back of putting, the draw-in groove and the baffle 102 on rethread top are connected, fix through the internal bolt, and base frame 301 is then fixed through inner bolt 303, through this kind of internal fixation mode, let key adapting unit be in inside the overall structure, avoid the external rain environment to cause the corrosion to the part for a long time, the influence is stable, and base frame 301 bottom is then seted up and is distributed and is had antiskid groove 302, can maximize the stable efficiency of base, thereby promote the stable fastness of overall big-arch shelter structure.

In summary, when the automatic control lighting device for a rose planting greenhouse is used, firstly, in the greenhouse structure, a stainless steel structural frame 101 and a bottom frame 104 are combined and arranged, a plurality of groups of structural frames 101 cooperate with a partition plate 102 and a base frame 301 to support and shape the whole greenhouse structure, a planting greenhouse is formed by covering an outer curtain 103, a lighting adjusting mechanism 2 is arranged in the middle of the top end of the planting greenhouse, so that the whole greenhouse can automatically adjust and control the lighting degree, the rose planting is facilitated, in the planting and using process of the rose, the greenhouse can detect the lighting degree of the surrounding environment through a lighting sensor 203, if a certain value is exceeded, a signal is transmitted to a control module 201, a storage battery and a singlechip processor are arranged in the control module 201, a photovoltaic power supply assembly 202 connected to the top of the greenhouse supplies power, and then a command is transmitted to a servo motor 204, the servo motor 204 is used for driving the connected roller 205 to rotate, the roller 205 is used for folding the shading curtain 206 in a rotating process, the shading curtain 206 and the transparent curtain 207 are connected into a whole, the servo motor 204 and the roller 205 are arranged at the ends of the two ends of the transparent curtain 207 and the shading curtain 206, the rolling and releasing process of the whole curtain can be carried out, when the shading curtain 206 of the whole curtain is rolled, the shading process is kept on one side of the greenhouse integrally, if lighting is needed, the servo motor 204 and the roller 205 at the other end of the curtain are rolled, at the moment, the transparent curtain 207 is rolled upwards, the shading curtain 206 is rolled in the process, the adjusting control process is finished, the aim of automatically adjusting the lighting degree according to different environmental illumination intensities is fulfilled, the bottom of the whole greenhouse structure is supported by the base frame 301, earlier confirm the big-arch shelter spatial position that needs put, accomplish base frame 301 put the back, the draw-in groove on rethread top is connected with baffle 102, fix through interior survey bolt, and base frame 301 is then fixed through inner bolt 303, through this kind of inside fixed mode, let key adapting unit be in inside the overall structure, avoid outside rain water environment to cause the corrosion to the spare part for a long time, the influence is stable, and base frame 301 bottom is then seted up and is distributed and have anti-skidding groove 302, can be with the stable efficiency maximize of base, thereby promote whole big-arch shelter structure's stable fastness.

Claims (7)

1. The utility model provides a big-arch shelter automatically controlled daylighting device is planted to rose, includes that the main part carries on mechanism (1), daylighting adjustment mechanism (2) and consolidates base (3), its characterized in that: the utility model discloses a solar photovoltaic curtain, including main part carrying mechanism (1), the top both sides distribution of main part carrying mechanism (1) is provided with daylighting adjustment mechanism (2), and the bottom both sides distribution of main part carrying mechanism (1) has and consolidates base (3), daylighting adjustment mechanism (2) include control module (201), photovoltaic power supply subassembly (202), illuminance sensor (203), servo motor (204), roller bearing (205), shading curtain (206) and transparent curtain (207), and the top of control module (201) is provided with photovoltaic power supply subassembly (202), the both ends distribution of photovoltaic power supply subassembly (202) has illuminance sensor (203), and the below of illuminance sensor (203) is provided with servo motor (204), one side of servo motor (204) is connected with roller bearing (205), and one side of roller bearing (205) is connected with shading curtain (206), the one end of shading curtain (206) is connected with transparent curtain (207).

2. The automatic control lighting device for the rose planting greenhouse of claim 1, wherein: the control module (201) is connected with the photovoltaic power supply assembly (202), the illuminance sensor (203) and the servo motor (204), and the servo motor (204) is communicated with the roller (205).

3. The automatic control lighting device for the rose planting greenhouse of claim 1, wherein: the shading curtain (206) is connected with the transparent curtain (207) and the rolling shaft (205), and the shading curtain (206), the transparent curtain (207) and the rolling shaft (205) are symmetrically distributed along two ends of the control module (201).

4. The automatic control lighting device for the rose planting greenhouse of claim 1, wherein: the main body carrying mechanism (1) comprises a structural frame (101), a partition plate (102), an outer curtain (103) and a bottom frame (104), the partition plate (102) is arranged at the end of one end of the structural frame (101), the outer curtain (103) is attached to one side of the outer wall of the structural frame (101), and the bottom end of the partition plate (102) is provided with the bottom frame (104).

5. The automatic control lighting device for the rose planting greenhouse of claim 4, wherein: the structural frame (101) is connected with the partition plate (102) and the lighting adjusting mechanism (2) in a welding mode, and the partition plate (102) is clamped with the reinforcing base (3).

6. The automatic control lighting device for the rose planting greenhouse of claim 1, wherein: the reinforced base (3) comprises a base frame (301), anti-skidding grooves (302) and inner bolts (303), the anti-skidding grooves (302) are distributed at the bottom end of the base frame (301), and the inner bolts (303) are arranged on the inner side of the bottom end of the base frame (301).

7. The automatic control lighting device for the rose planting greenhouse of claim 6, wherein: the inner bolt (303) is clamped with the base frame (301), and the anti-skid grooves (302) are arranged at equal intervals along the bottom end of the base frame (301).

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