CN114458142B - Intelligent curtain based on photovoltaic power generation - Google Patents

Abstract

The invention provides an intelligent curtain based on photovoltaic power generation, which comprises a window frame, a plurality of moving blocks, a transparent sleeve, a photovoltaic plate, a longitudinal guide rail, a dust removing component, a moving mechanism, a plurality of transmission mechanisms, a driving motor, a lifting frame, a lifting mechanism, a winding mechanism and a window shade, wherein the lifting frame is driven by the lifting mechanism to drive the plurality of moving blocks to move so as to enable the transparent sleeve to gather or scatter the photovoltaic plate, and in the lifting process of the lifting frame, the window shade can be driven by the winding mechanism to fall so as to realize various light shielding modes, thereby being beneficial to improving user experience; the drive motor drives the transparent sleeve to drive the transparent sleeve to rotate so as to realize the angle adjustment of the photovoltaic plate, the moving mechanism drives the longitudinal guide rail to drive the ash removal assembly to move so as to carry out ash removal work on the transparent sleeve, the photovoltaic plate is utilized to realize reasonable utilization of solar energy, and the solar energy automatic ash removal device has the advantages of automatic ash removal and multiple shading modes, and has stronger market competitiveness.

Description

Intelligent curtain based on photovoltaic power generation

Technical Field

The invention relates to the technical field of curtains, in particular to an intelligent curtain based on photovoltaic power generation.

Background

Traditional (window) curtain can only be used for sheltering from sunshine, simple structure, and the function is single, and patent number CN201120142744.9 discloses a sunshade blind curtain that can self utilize solar energy power generation, and it has solved solar cell type that prior art exists and has used limited, control mode is single behind, the security is poor, space utilization low grade problem, and it mainly includes photovoltaic power generation sunshade blind, driving motor, lifting rope, direction ladder rope, bottom rail, and its technical essential is: the shutter curtain blades are integrated with solar batteries, the lifting rope is connected with the bottom rail, penetrates through the shutter blade through holes and is wound on the winding rope shaft, the winding and unwinding of the lifting rope are controlled by the motor, and the shutter blades are connected in series by the guiding ladder rope to adjust the blade angle by the motor, so that the motor is controlled by the external controller. The solar energy curtain driving device is reasonable in design, simple in structure, high in safety and environment-friendly, and electricity generated by sunlight is used for directly meeting the self curtain driving requirement, or is used for building brightening, or is used for supplying electricity to other loads of a building in real time, or is stored for use when needed, or is integrated into a public power grid. However, the curtain blade is easy to deposit dust, and the dust needs to be manually cleaned after being deposited, and the lifting rope and the guide ladder rope structure improve the difficulty of cleaning work, so that more manpower and labor resources are consumed in the cleaning process; the shading mode of the curtain is single, and the requirements of customers are difficult to meet.

Disclosure of Invention

The invention aims to solve the problems by providing an intelligent curtain based on photovoltaic power generation aiming at the defects in the technology.

The invention provides an intelligent curtain based on photovoltaic power generation, which comprises the following steps:

the window frame is movably provided with a plurality of moving blocks, the moving blocks are rotatably provided with transparent sleeves which are provided with containing cavities and can transmit light, and photovoltaic panels are detachably arranged at the containing cavities;

the longitudinal guide rail is movably arranged on the window frame, and a plurality of ash cleaning components for cleaning the transparent sleeve are movably arranged on the longitudinal guide rail;

the moving mechanism is arranged on the window frame and can drive the longitudinal guide rail to move;

the transmission mechanisms are in transmission connection and can synchronously rotate, the transmission mechanisms are used for connecting the transparent sleeves in a transmission manner, so that the transparent sleeves can synchronously rotate, and the transmission mechanisms can still maintain a transmission state with the transparent sleeves when the intervals of the transparent sleeves are changed;

the driving motor is in transmission connection with the transmission mechanism and can drive the transmission mechanism to work so as to drive the transparent sleeves to synchronously rotate;

the lifting frame is connected with the moving block positioned at the bottommost end of the window frame and can drive the moving block to move;

the lifting mechanism is in transmission connection with the lifting frame and can drive the lifting frame to lift so as to fold or scatter a plurality of moving blocks;

the winding mechanism is arranged on the lifting frame and is provided with a window shade, and the winding mechanism is used for winding the window shade.

Preferably, the ash removal subassembly includes base, telescopic link and mount pad, be provided with the rubber pad on the mount pad in pairs, two the rubber pad compresses tightly respectively on transparent cover's the top surface and the bottom surface, the telescopic link both ends are articulated respectively to be set up the base with on the mount pad, the base is installed in the removal on the longitudinal rail.

Preferably, the moving mechanism comprises a driving motor and a screw rod, and the longitudinal guide rail is provided with a screw hole matched with the screw rod.

Preferably, the transmission mechanism comprises a telescopic pipe, a transmission bevel gear and a drive bevel gear, the drive motor is connected with the telescopic pipe in a transmission manner and can drive the telescopic pipe to rotate, a plurality of telescopic pipes are connected end to end and can synchronously rotate, the telescopic pipes are rotatably arranged on the moving block, the transmission bevel gear is arranged on the telescopic pipe, the drive bevel gear is connected with the transmission bevel gear in a transmission manner, the telescopic pipes are formed by mutually sleeving a plurality of pipe bodies, and the section of each pipe body is of a polygonal structure so that the plurality of pipe bodies cannot relatively rotate.

Preferably, the telescopic pipe is provided with a rotating protrusion, and the moving block and the lifting frame are both provided with mounting grooves for the rotating protrusion to rotate.

Preferably, the lifting mechanism comprises a servo motor and a threaded rod, the servo motor is arranged on the window frame, the servo motor is in transmission connection with the threaded rod and can drive the threaded rod to rotate, and a threaded hole matched with the threaded rod is formed in the lifting frame.

Preferably, the winding mechanism comprises a winding motor, a winding rod and a balancing weight, the winding motor is arranged on the window frame, the winding motor is in transmission connection with the winding rod and can drive the winding rod to rotate, one end of the window shade is arranged on the winding rod, and the other end of the window shade is arranged on the balancing weight and is in a sagging state under the action of the balancing weight.

Preferably, the photovoltaic panel is provided with a sealing block which is in plug-in fit with the accommodating cavity.

Preferably, a controller is disposed on the window frame, and the controller is electrically connected with the driving motor, the lifting mechanism and the winding mechanism respectively and can control working states of the driving motor, the lifting mechanism and the winding mechanism.

Compared with the prior art, the invention has the following beneficial effects:

the lifting mechanism drives the lifting frame to drive the plurality of moving blocks to move so as to fold or scatter the photovoltaic panel on the transparent sleeve, and the rolling mechanism drives the window shade to fall down in the lifting process of the lifting frame so as to realize various window shade modes, thereby being beneficial to improving user experience; the drive motor drives the transparent sleeve to drive the transparent sleeve to rotate so as to realize the angle adjustment of the photovoltaic plate, the moving mechanism drives the longitudinal guide rail to drive the ash removal assembly to move so as to carry out ash removal work on the transparent sleeve, the photovoltaic plate is utilized to realize reasonable utilization of solar energy, and the solar energy automatic ash removal device has the advantages of automatic ash removal and multiple shading modes, and has stronger market competitiveness.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only preferred embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a cross-sectional view of an embodiment of the present invention;

FIG. 3 is a schematic view illustrating a structure of a lifting mechanism and a telescopic tube according to an embodiment of the present invention;

FIG. 4 is an enlarged view of FIG. 3 at A;

FIG. 5 is a schematic diagram of a winding mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a transmission mechanism according to an embodiment of the present invention.

In the figure, a 10-window frame; 11-a moving block; 12-a transparent sleeve; 121-a cavity; 122-photovoltaic panel; 123-sealing blocks; 13-a drive motor; 14-lifting frames; 141-a threaded hole; 15-a controller; 20-longitudinal guide rails; 21-screw holes; 30-ash removal components; 31-a base; 32-a telescopic rod; 33-mounting seats; 331-a rubber pad; 40-a moving mechanism; 41-driving a motor; 42-screw; 50-a transmission mechanism; 51-telescoping tube; 511-turning the protrusions; 52-a drive bevel gear; 53-drive bevel gear; 60-lifting mechanism; 61-a servo motor; 62-a threaded rod; 70-a winding mechanism; 71-a winding motor; 72-winding the rod; 73-balancing weight; 80-a window shade; 90-mounting groove.

Detailed Description

Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present invention, but not to limit the scope of the present invention.

Example 1:

referring to fig. 1 to 6, the present invention provides an intelligent curtain based on photovoltaic power generation, comprising:

the window frame 10 is movably provided with a plurality of moving blocks 11, the moving blocks 11 are rotatably provided with transparent sleeves 12 which are provided with accommodating cavities 121 and can transmit light, and photovoltaic panels 122 are detachably arranged at the accommodating cavities 121;

the longitudinal guide rail 20 is movably arranged on the window frame 10, and a plurality of ash cleaning assemblies 30 for cleaning the transparent sleeve 12 are movably arranged on the longitudinal guide rail 20;

a moving mechanism 40, the moving mechanism 40 being provided on the window frame 10 and being capable of driving the longitudinal rail 20 to move;

the transmission mechanisms 50 are in transmission connection and can synchronously rotate, the transmission mechanisms 50 are used for connecting the transparent sleeves 12 in a transmission manner, so that the transparent sleeves 12 can synchronously rotate, and the transmission mechanisms 50 can still maintain a transmission state with the transparent sleeves 12 when the intervals between the transparent sleeves 12 are changed;

the driving motor 13 is in transmission connection with the transmission mechanism 50 and can drive the transmission mechanism 50 to work so as to drive the transparent sleeves 12 to synchronously rotate;

the lifting frame 14 is connected with the moving block 11 positioned at the bottommost end of the window frame 10 and can drive the moving block 11 to move;

the lifting mechanism 60 is in transmission connection with the lifting frame 14 and can drive the lifting frame 14 to lift so as to fold or scatter a plurality of moving blocks 11;

the rolling mechanism 70, the rolling mechanism 70 is arranged on the lifting frame 14, a window shade 80 is arranged on the rolling mechanism 70, and the rolling mechanism 70 is used for rolling the window shade 80.

The lifting frame 14 is driven to drive the plurality of moving blocks 11 to move through the lifting mechanism 60 so as to fold or scatter the photovoltaic panels 122 on the transparent sleeve 12, and the rolling mechanism 70 can drive the window shade 80 to fall down in the lifting process of the lifting frame 14 so as to realize a plurality of light shielding modes, thereby being beneficial to improving the user experience; the drive motor 13 drives the plurality of transmission mechanisms 50 to work so as to drive the transparent sleeve 12 to drive the photovoltaic panel 122 to rotate, so that the angle adjustment of the photovoltaic panel 122 is realized, the moving mechanism 40 drives the longitudinal guide rail 20 to drive the ash cleaning assembly 30 to move so as to carry out ash cleaning on the transparent sleeve 12, the photovoltaic panel 122 is utilized to realize reasonable utilization of solar energy, and the solar energy automatic ash cleaning device has the advantages of automatic ash cleaning and multiple light shielding modes, and has stronger market competitiveness.

Specifically, the ash removal component 30 includes a base 31, a telescopic rod 32 and a mounting seat 33, rubber pads 331 are arranged on the mounting seat 33 in pairs, the two rubber pads 331 are respectively pressed on the top surface and the bottom surface of the transparent sleeve 12, two ends of the telescopic rod 32 are respectively hinged on the base 31 and the mounting seat 33, and the base 31 is movably mounted on the longitudinal guide rail 20.

When the moving mechanism 40 drives the longitudinal guide rail 20 to move, the longitudinal guide rail 20 drives the rubber pad 331 to move so as to carry out ash removal on the transparent sleeve 12, and when the lifting mechanism 60 drives the lifting frame 14 to move so as to drive the transparent sleeve 12 to be folded, the base 31 moves and is matched with the rotation and the expansion of the expansion rod 32 so as to drive the mounting seat 33 to move, so that the rubber pad 331 can move along with the transparent sleeve 12, and the compression state of the rubber pad 331 and the transparent sleeve 12 is maintained; when the driving motor 13 cooperates with the transmission mechanism 50 to perform angle adjustment on the transparent sleeve 12, the base 31 moves and cooperates with the rotation and expansion of the expansion rod 32 to enable the rubber pad 331 to rotate along with the transparent sleeve 12, so as to maintain the compression state of the rubber pad 331 and the transparent sleeve 12.

Specifically, the moving mechanism 40 includes a driving motor 41 and a screw 42, and the longitudinal rail 20 is provided with a screw hole 12 matched with the screw 42.

Example 2:

referring to fig. 1 to 6, in combination with the technical solution of embodiment 1, in this embodiment, the transmission mechanism 50 includes a telescopic tube 51, a transmission bevel gear 52 and a driving bevel gear 53, the driving motor 13 is in transmission connection with the telescopic tube 51 and can drive the telescopic tube 51 to rotate, a plurality of telescopic tubes 51 are connected end to end and can synchronously rotate, the telescopic tube 51 is rotatably disposed on the moving block 11, the transmission bevel gear 52 is disposed on the telescopic tube 51, the driving bevel gear 53 in transmission connection with the transmission bevel gear 52 is disposed on the transparent sleeve 12, the telescopic tube 51 is formed by mutually sleeving multiple tube bodies, and the section of each tube body is of a polygonal structure so that the multiple tube bodies cannot relatively rotate.

The telescopic tube 51 is driven to rotate by the driving motor 13, other telescopic tubes 51 are driven to rotate in the rotating process of the telescopic tube 51, the telescopic tube 51 drives the transparent sleeve 12 to rotate through the transmission action of the transmission bevel gear 52 and the driving bevel gear 53 so as to adjust the angle position of the photovoltaic panel 122 in the transparent sleeve 12, and the angle adjustment of the photovoltaic panel 122 is realized so as to perform shading and solar electricity storage work.

Specifically, the telescopic tube 51 is provided with a rotation protrusion 511, and the moving block 11 and the lifting frame 14 are provided with a mounting groove 90 for the rotation protrusion 511 to rotate.

Specifically, the lifting mechanism 60 includes a servo motor 61 and a threaded rod 62, the servo motor 61 is disposed on the window frame 10, the servo motor 61 is in transmission connection with the threaded rod 62 and can drive the threaded rod 62 to rotate, and the lifting frame 14 is provided with a threaded hole 141 matched with the threaded rod 62.

The threaded rod 62 is driven to rotate by the servo motor 61 to be matched with the threaded hole 141 on the lifting frame 14 to drive the lifting frame 14 to lift, and the lifting frame 14 drives the plurality of moving blocks 11 to move in the lifting process so as to retract or scatter the photovoltaic panel 122 on the transparent sleeve 12.

Specifically, the winding mechanism 70 includes a winding motor 71, a winding rod and a balancing weight 72, the winding motor 71 is disposed on the window frame 10, the winding motor 71 is in transmission connection with the winding rod and can drive the winding rod to rotate, one end of the window shade 80 is disposed on the winding rod, and the other end of the window shade 80 is disposed on the balancing weight 72 and is in a sagging state under the action of the balancing weight 72.

The winding motor 71 drives the winding rod to rotate and is matched with the balancing weight 72 to realize the winding and unwinding of the window shade 80, and a plurality of shading modes can be realized with the photovoltaic panel 122 rotatable above the lifting frame 14.

Specifically, the photovoltaic panel 122 is provided with a sealing block 123 that is in plug-in fit with the cavity 121.

Mounting the photovoltaic panels 122 in a plug-in manner facilitates cleaning, maintenance, and replacement of the photovoltaic panels 122 as needed.

Specifically, the window frame 10 is provided with a controller 15, and the controller 15 is electrically connected with the driving motor 13, the lifting mechanism 60 and the winding mechanism 70 respectively and can control the working states of the driving motor 13, the lifting mechanism 60 and the winding mechanism 70.

Wherein, intelligent devices such as mobile phones, computers, intelligent main control boards and the like are matched with communication equipment to be electrically connected with the controller 15 so as to realize remote intelligent control or intelligent voice control, and realize remote or voice control of rotation, retraction and extension of the photovoltaic panel 122 and retraction of the window shade 80.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or equivalent embodiments with equivalent variations can be made, without departing from the scope of the disclosed technology. Therefore, any modification, equivalent variation and modification of the above embodiments according to the technology of the present invention fall within the protection scope of the present invention.

Claims (7)

1. Intelligent curtain based on photovoltaic power generation, characterized by, include:

the window frame is movably provided with a plurality of moving blocks, the moving blocks are rotatably provided with transparent sleeves which are provided with containing cavities and can transmit light, and photovoltaic panels are detachably arranged at the containing cavities;

the longitudinal guide rail is movably arranged on the window frame, and a plurality of ash cleaning components for cleaning the transparent sleeve are movably arranged on the longitudinal guide rail;

the moving mechanism is arranged on the window frame and can drive the longitudinal guide rail to move;

the transmission mechanisms are in transmission connection and can synchronously rotate, the transmission mechanisms are used for connecting the transparent sleeves in a transmission manner, so that the transparent sleeves can synchronously rotate, and the transmission mechanisms can still maintain a transmission state with the transparent sleeves when the intervals of the transparent sleeves are changed;

the driving motor is in transmission connection with the transmission mechanism and can drive the transmission mechanism to work so as to drive the transparent sleeves to synchronously rotate;

the lifting frame is connected with the moving block positioned at the bottommost end of the window frame and can drive the moving block to move;

the lifting mechanism is in transmission connection with the lifting frame and can drive the lifting frame to lift so as to fold or scatter a plurality of moving blocks;

the rolling mechanism is arranged on the lifting frame, a window shade is arranged on the rolling mechanism, and the rolling mechanism is used for rolling the window shade;

the transmission mechanism comprises a telescopic pipe, a transmission bevel gear and a driving bevel gear, the driving motor is in transmission connection with the telescopic pipe and can drive the telescopic pipe to rotate, a plurality of telescopic pipes are connected end to end and can synchronously rotate, the telescopic pipes are rotatably arranged on the moving blocks, the transmission bevel gear is arranged on the telescopic pipe, the driving bevel gear in transmission connection with the transmission bevel gear is arranged on the transparent sleeve, the telescopic pipe is formed by mutually sleeving a plurality of sections of pipe bodies, and the section of each pipe body is of a polygonal structure so that the sections of the pipe bodies cannot rotate relatively;

the telescopic pipe is provided with a rotating bulge, and the moving block and the lifting frame are both provided with mounting grooves for the rotating bulge to rotate.

2. The intelligent curtain based on photovoltaic power generation according to claim 1, wherein:

the ash removal assembly comprises a base, a telescopic rod and an installation seat, rubber pads are arranged on the installation seat in pairs, the two rubber pads are respectively pressed on the top surface and the bottom surface of the transparent sleeve, two ends of the telescopic rod are respectively hinged to the base and the installation seat, and the base is movably installed on the longitudinal guide rail.

3. The intelligent curtain based on photovoltaic power generation according to claim 1, wherein:

the moving mechanism comprises a driving motor and a screw rod, and screw holes matched with the screw rod are formed in the longitudinal guide rail.

4. The intelligent curtain based on photovoltaic power generation according to claim 1, wherein:

the lifting mechanism comprises a servo motor and a threaded rod, the servo motor is arranged on the window frame, the servo motor is in transmission connection with the threaded rod and can drive the threaded rod to rotate, and a threaded hole matched with the threaded rod is formed in the lifting frame.

5. The intelligent curtain based on photovoltaic power generation according to claim 1, wherein:

the winding mechanism comprises a winding motor, a winding rod and a balancing weight, wherein the winding motor is arranged on the window frame, the winding motor is in transmission connection with the winding rod and can drive the winding rod to rotate, one end of the window shade is arranged on the winding rod, and the other end of the window shade is arranged on the balancing weight and is in a sagging state under the action of the balancing weight.

6. The intelligent curtain based on photovoltaic power generation according to claim 1, wherein:

and the photovoltaic panel is provided with a sealing block which is in plug-in fit with the containing cavity.

7. The intelligent curtain based on photovoltaic power generation according to claim 1, wherein:

the window frame is provided with a controller, and the controller is respectively and electrically connected with the driving motor, the lifting mechanism and the winding mechanism and can control the working states of the driving motor, the lifting mechanism and the winding mechanism.