CN113208393B

CN113208393B - Intelligent light-operated curtain frame

Info

Publication number: CN113208393B
Application number: CN202110707493.2A
Authority: CN
Inventors: 黄叶婷; 黄碧兰; 黄坤林
Original assignee: Chongqing Gemei Tianya Furniture Co ltd
Current assignee: Chongqing Gemei Tianya Furniture Co ltd
Priority date: 2021-06-24
Filing date: 2021-06-24
Publication date: 2023-03-28
Anticipated expiration: 2041-06-24
Also published as: CN113208393A

Abstract

The invention provides an intelligent light-operated curtain frame, which comprises a curtain guide rail, wherein a shading battery guide rail is arranged on the surface of one side of the curtain guide rail, a windproof tightening guide rail is arranged below the shading battery guide rail, and a solar thin film cell panel is connected between the windproof tightening guide rail and the shading battery guide rail; the interior of the curtain guide rail is slidably connected with a first draw hook assembly, a first power assembly connected with the driving end of the first draw hook assembly and a photosensitive control assembly fixed on one side of the curtain guide rail; the windproof tightening guide rail is characterized in that first winders are fixed at two ends of the interior of the windproof tightening guide rail, two second winders are arranged between the first winders, and the first winders and the second winders are connected with an execution end of a second power assembly. The solar shading device can automatically shade light when the external light is strong, and can collect solar energy.

Description

Intelligent light-operated curtain frame

Technical Field

The invention mainly relates to the technical field of curtains, in particular to an intelligent light-operated curtain frame.

Background

The curtain is made of cloth, hemp, sand, aluminum sheets, wood sheets and the like, has the functions of shading, insulating heat and adjusting indoor light, and is formed by combining different materials, textures, colors and the like.

According to an intelligent light-operated curtain frame provided by patent document with application number CN201910772371.4, the product comprises an installation rod, an installation frame, a groove rod, a first sliding block, a second sliding block, a first support rod and the like; the left side and the right side of the mounting frame are fixedly connected with mounting rods in T shapes. The product can control the illumination sensor to work through the control module, detect indoor light, and control the first stepping motor to work to open or close the curtain, so that the curtain can be automatically opened or closed according to indoor light values, and the use is convenient; the push plate can be driven to move rightwards by clockwise rotation of the second stepping motor, so that people can freely adjust the opening and closing degree of the curtain, and the curtain can be suitable for different conditions; through pouring into lubricating oil into first cavity in can reducing frictional force for the gyro wheel is more smooth and easy when rolling in first cavity.

However, the curtain has drawbacks, for example, although the curtain holder can automatically open or close the curtain according to the indoor light value, the conventional curtain is often influenced by wind during the use process, and a single curtain is easy to transmit light, thereby influencing the shading effect.

Disclosure of Invention

The invention mainly provides an intelligent light-operated curtain frame for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an intelligent light-operated curtain frame comprises a curtain guide rail, wherein a shading battery guide rail fixed on a wall surface is arranged on one side surface of the curtain guide rail, a windproof tightening guide rail fixed on the wall surface is arranged below the shading battery guide rail, and a solar thin film battery panel is connected between the windproof tightening guide rail and the shading battery guide rail;

the interior of the curtain guide rail is slidably connected with a first draw hook component used for fixing a curtain, a first power component connected with the driving end of the first draw hook component and a photosensitive control component which is fixed on one side of the curtain guide rail and electrically connected with the first power component;

prevent wind the inside both ends of tightening up the guide rail and all be fixed with first winder, two be equipped with two second winders between the first winder, two the second winder with prevent wind the inner wall sliding connection who tightens up the guide rail, first winder and second winder all with photosensitive control subassembly electric connection, first winder and second winder all with be located prevent wind the execution end of tightening up the inside second power component of guide rail and be connected, second power component with first power component structure is the same.

Further, first drag hook subassembly include two with the inside sliding connection's of (window) curtain guide initiative (window) curtain drag hook is fixed in the first L shape drag hook of initiative (window) curtain drag hook one side, and be located initiative (window) curtain drag hook opposite side and with (window) curtain guide sliding connection's a plurality of driven (window) curtain drag hooks to the drive is hung and is folded at the (window) curtain of initiative (window) curtain drag hook and driven (window) curtain drag hook bottom and accomodate.

Furthermore, neodymium magnets are fixed on the surface of one side of the first L-shaped draw hook, so that the curtain and the solar thin-film cell panel hung on the L-shaped draw hook are guided to be close to each other and tightly attached together, the weight of the curtain and the solar thin-film cell panel is increased, and the curtain and the solar thin-film cell panel are prevented from moving due to wind interference.

Furthermore, the inside sliding connection of shading battery guide rail have with first drag hook subassembly the same second drag hook subassembly of structure to fastness when further improving (window) curtain and solar energy thin film battery board and hugging closely each other.

Furthermore, first power component is including being fixed in the first motor of (window) curtain guide rail lower surface is fixed in the output shaft of first motor extends to the first pulley of the inside one end surface of (window) curtain guide rail, and with the inside keeping away from of (window) curtain guide rail the second pulley that the one end inner wall of first pulley rotated the connection, be connected with the confession between first pulley and the second pulley the fixed stay cord of initiative (window) curtain drag hook is owing to initiative (window) curtain drag hook is fixed respectively in the both sides of stay cord to drive two initiative (window) curtain drag hooks and keep away from each other or be close to each other, accomodate and expand with the (window) curtain of pulling initiative (window) curtain drag hook bottom simultaneously.

Furthermore, first rolling ware with the second rolling ware structure is the same, first rolling ware is including being located prevent wind tighten up the inside second motor of guide rail, be fixed with first rolling wheel and second rolling wheel on the output shaft of second motor in proper order to tighten up curtain and solar energy thin film cell panel bottom simultaneously, prevent that solar energy thin film cell panel and curtain from receiving external force to disturb and blowing.

Furthermore, the photosensitive control assembly comprises a single chip microcomputer fixed inside the curtain guide rail and a photosensitive sensor fixed on the outer surface of the curtain guide rail and electrically connected with the single chip microcomputer, the single chip microcomputer is electrically connected with the first motor and the second motor, and therefore the single chip microcomputer is used for judging whether the first motor and the second motor operate or not so as to drive the solar thin-film cell panel and the curtain to be unfolded or stored.

Furthermore, the photosensitive control assembly further comprises a storage battery fixed inside the curtain guide rail, and the storage battery is electrically connected with the solar thin-film cell panel, so that the solar thin-film cell panel can shade light and generate current through the solar thin-film cell panel.

Furthermore, the bottom of solar energy thin film cell panel is equipped with the locating hole that a plurality of equidistance set up, every the equal joint in inside of locating hole has the snak link for solar energy thin film cell panel is connected with winding rolling rope on the first rolling wheel through the snak link of the joint in the locating hole on it, thereby makes things convenient for this dismantlement of tightening up the rope.

Furthermore, balls are embedded in the two side surfaces of one end, extending to the inside of the curtain guide rail, of the driving curtain draw hook, so that the driving curtain draw hook slides on the inner wall of the curtain guide rail through the balls on the driving curtain draw hook, dry friction between the driving curtain draw hook and the curtain guide rail is reduced, and the service life of the driving curtain draw hook is prolonged.

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

the solar shading device can automatically shade light when the external light is strong, and collects solar energy, and specifically comprises the following components: photosensitive control assembly experiences external highlight information after, opens the first drag hook subassembly in the (window) curtain guide rail and the second drag hook subassembly in the shading battery guide rail through photosensitive control assembly for first drag hook subassembly drives the (window) curtain and expandes, drives solar energy film cell panel through the second drag hook subassembly and expandes, thereby utilizes the solar energy film cell panel and the (window) curtain of mutual overlap and expansion to carry out dual shading, in order to improve the shading performance of (window) curtain.

Secondly, the invention can tighten the curtain and the solar thin-film cell panel, thereby preventing the solar thin-film cell panel and the curtain from being blown up due to the interference of wind force factors, and improving the shading stability, specifically comprising the following steps: when the second winder in the windproof tightening guide rail is driven by a second power component in the rail body to move horizontally, the solar thin-film cell panel and the curtain are adapted to be unfolded, and the tightening rope used for fixing the bottom ends of the solar thin-film cell panel and the curtain is wound by the second winder in the rail body and the first winder to limit the movement of the solar thin-film cell panel and the curtain, so that the solar thin-film cell panel and the curtain are prevented from being blown up, and the shading effect of the curtain is improved.

The invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the wind-proof tightening guide rail of the present invention;

FIG. 3 is a schematic view of the structure of the light-shielding battery guide rail according to the present invention;

FIG. 4 is a schematic structural diagram of a solar thin film panel according to the present invention;

FIG. 5 is a flow chart of the photosensitive control assembly of the present invention;

FIG. 6 is an exploded view of the curtain rail of the present invention;

FIG. 7 is an enlarged view of the structure in area A of FIG. 2;

fig. 8 is an enlarged view of the structure of region a in fig. 3.

In the figure: 10. a curtain rail; 11. a first retractor assembly; 111. an active curtain draw hook; 1111. a ball bearing; 112. a first L-shaped drag hook; 113. a driven curtain draw hook; 114. a neodymium magnet; 12. a photosensitive control component; 121. a single chip microcomputer; 122. a photosensitive sensor; 123. a battery; 13. a first power assembly; 131. a first pulley; 132. pulling a rope; 133. a first motor; 134. a second pulley; 20. a light-blocking battery guide rail; 21. a second retractor assembly; 30. wind-proof tightening the guide rail; 31. a first winder; 311. a second motor; 312. a first winding wheel; 313. a second wind-up wheel; 32. a second winder; 40. a solar thin film panel; 41. positioning holes; 42. and (4) a spring buckle.

Detailed Description

In order that the invention may be more fully understood, reference will now be made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration, various embodiments of the invention which may be practiced in different forms and not limited to the embodiments described herein, but on the contrary, the embodiments are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of such term knowledge in the specification of the invention is for the purpose of describing particular embodiments and is not intended to be limiting of the invention, and the use of the term "and/or" herein includes any and all combinations of one or more of the associated listed items.

In an embodiment, referring to fig. 1 to 8, in a preferred embodiment of the present invention, an intelligent light-operated curtain rail includes a curtain rail 10, a light-shielding battery rail 20 fixed on a wall surface is disposed on a surface of one side of the curtain rail 10, a wind-proof tightening rail 30 fixed on the wall surface is disposed below the light-shielding battery rail 20, and a solar thin film cell panel 40 is connected between the wind-proof tightening rail 30 and the light-shielding battery rail 20;

a first draw hook component 11 for fixing a curtain, a first power component 13 connected with the driving end of the first draw hook component 11 and a photosensitive control component 12 fixed on one side of the curtain guide rail 10 and electrically connected with the first power component 13 are connected inside the curtain guide rail 10 in a sliding manner;

first windups 31 are fixed at two ends inside the windproof tightening guide rail 30, two second windups 32 are arranged between the two first windups 31, the two second windups 32 are slidably connected with the inner wall of the windproof tightening guide rail 30, the first windups 31 and the second windups 32 are electrically connected with the photosensitive control assembly 12, the first windups 31 and the second windups 32 are connected with execution ends of second power assemblies 33 inside the windproof tightening guide rail 30, and the second power assemblies 33 have the same structure as the first power assemblies 13;

it should be noted that, in this embodiment, after the photosensitive sensor 122 of the type PD70-01B/TR7 in the photosensitive control component 12 senses the external strong light information, the first hook component 11 in the curtain rail 10 and the second hook component 21 in the shade battery rail 20 are opened by the photosensitive control component 12, so that the first hook component 11 drives the curtain to unfold, and the second hook component 21 drives the solar thin-film cell panel 40 to unfold, so as to utilize the solar thin-film cell panel 40 and the curtain, which are overlapped and unfolded, to perform double shade, so as to improve the shade performance of the curtain;

further, when solar energy thin film cell panel 40 and (window) curtain expand, prevent wind and tighten up second rolling ware 32 in guide rail 30 and carry out the translation under the drive of the internal second power component 33 of rail, make the expansion of second rolling ware 32 following solar energy thin film cell panel 40 and (window) curtain and remove, in order to adapt to the expansion of solar energy thin film cell panel 40 and (window) curtain, rethread internal second rolling ware 32 of rail and first rolling ware 31 are used for fixed solar energy thin film cell panel 40 and (window) curtain bottom tighten up the rope and are received the rope action, in order to restrict the removal of solar energy thin film cell panel 40 and (window) curtain, prevent that solar energy thin film cell panel 40 and (window) curtain from blowing up, thereby the shading effect of (window) curtain has been improved.

Specifically, please refer to fig. 3 and 6 again, in another preferred embodiment of the present invention, the first hook assembly 11 includes two driving curtain hooks 111 slidably connected to an inside of the curtain rail 10, a first L-shaped hook 112 fixed to one side of the driving curtain hooks 111, and a plurality of driven curtain hooks 113 located on the other side of the driving curtain hooks 111 and slidably connected to the curtain rail 10, a neodymium magnet 114 is fixed to a surface of one side of the first L-shaped hook 112, and a second hook assembly 21 having the same structure as the first hook assembly 11 is slidably connected to an inside of the shade battery rail 20;

it should be noted that, in this embodiment, when the driving curtain draw hook 111 is driven by the first power assembly 13 to slide inside the curtain guide rail 10, the driving curtain draw hook 111 can push the driven curtain draw hook 113 to slide, so as to drive the curtains hung at the bottom ends of the driving curtain draw hook 111 and the driven curtain draw hook 113 to fold and store;

furthermore, because the neodymium magnets 114 are fixed on the L-shaped draw hook 112 on the curtain guide rail 10 and the L-shaped draw hook 112 sliding on the shading battery guide rail 20, when shading is needed, the two neodymium magnets 114 attract each other magnetically, so that the curtain hung on the L-shaped draw hook 112 and the solar thin-film cell panel 40 are guided to approach each other and are tightly attached together, the weight of the curtain and the solar thin-film cell panel 40 is increased, and the curtain and the solar thin-film cell panel 40 are prevented from moving due to wind interference;

furthermore, the neodymium magnet 114 in the first hook assembly 11 and the neodymium magnet 114 in the second hook assembly 21 are attracted magnetically, so that the top ends of the curtain and the solar thin-film cell panel 40 are attached to each other tightly, and the same neodymium magnet 114 is arranged at the bottom ends of the curtain and the solar thin-film cell panel 40, so that firmness of the curtain and the solar thin-film cell panel 40 when the curtain and the solar thin-film cell panel 40 are attached to each other tightly is further improved.

Specifically, please refer to fig. 3 and 6 again, in another preferred embodiment of the present invention, the first power assembly 13 includes a first motor 133 fixed on the lower surface of the curtain rail 10, a first pulley 131 fixed on an output shaft of the first motor 133 and extending to an outer surface of one end inside the curtain rail 10, and a second pulley 134 rotatably connected to an inner wall of one end inside the curtain rail 10 away from the first pulley 131, a pull rope 132 for fixing the active curtain hook 111 is connected between the first pulley 131 and the second pulley 134, and balls 1111 are embedded in both side surfaces of one end of the active curtain hook 111 extending to the inside of the curtain rail 10;

it should be noted that, in this embodiment, when the first motor 133 drives the first pulley 131 to rotate, the first pulley 131 is connected to the second pulley 134 through the pulling rope 132, so that the pulling rope 132 rotates, and the active curtain hooks 111 are respectively fixed on two sides of the pulling rope 132, so as to drive the two active curtain hooks 111 to move away from or close to each other, so as to simultaneously pull the curtain at the bottom end of the active curtain hook 111 to be accommodated and unfolded;

furthermore, the ball 1111 is embedded in the active curtain draw hook 111, so that the active curtain draw hook 111 slides on the inner wall of the curtain guide rail 10 through the ball 1111 thereon, thereby reducing dry friction between the active curtain draw hook 111 and the curtain guide rail 10 and prolonging the service life of the active curtain draw hook 111.

Specifically, please refer to fig. 2 and 7 again, in another preferred embodiment of the present invention, the first winding device 31 and the second winding device 32 have the same structure, the first winding device 31 includes a second motor 311 located inside the wind-proof tightening guide rail 30, and a first winding wheel 312 and a second winding wheel 313 are sequentially fixed on an output shaft of the second motor 311;

it should be noted that, in this embodiment, when the second motor 311 drives the first winding wheel 312 and the second winding wheel 313 to rotate synchronously, the winding rope wound on the first winding wheel 312 is fixed at the bottom end of the solar thin-film cell panel 40, and the winding rope wound on the second winding wheel 313 is fixed at the bottom end of the curtain hung on the curtain rail 10, so as to tighten the curtain and the bottom end of the solar thin-film cell panel 40 at the same time, and prevent the solar thin-film cell panel 40 and the curtain from being blown up due to interference of external force.

Specifically, please refer to fig. 4, 5 and 6 again, in another preferred embodiment of the present invention, the photosensitive control assembly 12 includes a single chip 121 fixed inside the curtain rail 10, and a photosensitive sensor 122 fixed on an outer surface of the curtain rail 10 and electrically connected to the single chip 121, the single chip 121 is electrically connected to the first motor 133 and the second motor 311, the photosensitive control assembly 12 further includes a storage battery 123 fixed inside the curtain rail 10, the storage battery 123 is electrically connected to the solar thin-film cell panel 40, a plurality of positioning holes 41 are disposed at equal intervals at a bottom end of the solar thin-film cell panel 40, and a spring fastener 42 is fastened inside each positioning hole 41;

it should be noted that, in this embodiment, when the single chip microcomputer 121 of the model STM32F407ZET6 receives the electrical signal of the photosensitive sensor 122 of the model PD70-01B/TR7, since the electrical signal includes information of an external optical signal, the single chip microcomputer 121 is used to determine whether the first motor 133 and the second motor 311 operate, so as to drive the solar thin film cell panel 40 and the curtain to unfold or store;

further, after receiving the electric energy converted by the ac/dc power converter, the storage battery 123 supplies power to the first motor 133 and the second motor 311 through the conducting wires, so that the solar thin-film cell panel 40 shields light and generates current through the solar thin-film cell panel 40;

furthermore, the solar thin-film cell panel 40 is connected with the winding rope wound on the first winding wheel 312 through the snap fastener 42 clamped in the positioning hole 41 on the solar thin-film cell panel, so that the winding rope can be conveniently detached.

The specific operation mode of the invention is as follows:

after a photosensitive sensor 122 of the type PD70-01B/TR7 in the photosensitive control component 12 senses external strong light information, the photosensitive control component 12 opens a first hook component 11 in the curtain guide rail 10 and a second hook component 21 in the shade cell guide rail 20, so that the first hook component 11 drives the curtain to unfold, and the second hook component 21 drives the solar thin film cell panel 40 to unfold, thereby performing double shading by using the solar thin film cell panel 40 and the curtain which are overlapped and unfolded mutually;

when solar energy thin film cell panel 40 and (window) curtain expand, prevent wind and tighten up second rolling ware 32 in guide rail 30 and carry out the translation under the drive of the internal second power component 33 of rail, make second rolling ware 32 follow the expansion of solar energy thin film cell panel 40 and (window) curtain and remove, in order to adapt to the expansion of solar energy thin film cell panel 40 and (window) curtain, rethread internal second rolling ware 32 of rail and first rolling ware 31 are used for fixed solar energy thin film cell panel 40 and (window) curtain bottom tighten up the rope and are received the rope action, in order to restrict the removal of solar energy thin film cell panel 40 and (window) curtain, prevent that solar energy thin film cell panel 40 and (window) curtain from blowing up.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without such modifications.

Claims

1. An intelligent light-operated curtain frame comprises a curtain guide rail (10), and is characterized in that a shading battery guide rail (20) fixed on a wall surface is arranged on one side surface of the curtain guide rail (10), a windproof tightening guide rail (30) fixed on the wall surface is arranged below the shading battery guide rail (20), and a solar thin-film cell panel (40) is connected between the windproof tightening guide rail (30) and the shading battery guide rail (20); a first draw hook component (11) used for fixing a curtain, a first power component (13) connected with the driving end of the first draw hook component (11) and a photosensitive control component (12) which is fixed on one side of the curtain guide rail (10) and is electrically connected with the first power component (13) are connected with the interior of the curtain guide rail (10) in a sliding manner; first winders (31) are fixed at two ends of the interior of the windproof tightening guide rail (30), two second winders (32) are arranged between the two first winders (31), the two second winders (32) are in sliding connection with the inner wall of the windproof tightening guide rail (30), the first winder (31) and the second winder (32) are electrically connected with the photosensitive control component (12), the first winder (31) and the second winder (32) are connected with an execution end of a second power component (33) located in the interior of the windproof tightening guide rail (30), and the second power component (33) has the same structure with the first power component (13);

the first winder (31) comprises a second motor (311) positioned in the windproof tightening guide rail (30), and a first winding wheel (312) and a second winding wheel (313) are sequentially fixed on an output shaft of the second motor (311); a winding rope wound on the first winding wheel (312) is fixed at the bottom end of the solar thin-film cell panel (40), and a winding rope wound on the second winding wheel (313) is fixed at the bottom end of a curtain hung on the curtain guide rail (10); the first winder (31) and the second winder (32) are identical in structure.

2. The intelligent light-operated curtain rail according to claim 1, wherein the first hook assembly (11) comprises two driving curtain hooks (111) slidably connected with the inside of the curtain rail (10), a first L-shaped hook (112) fixed on one side of the driving curtain hooks (111), and a plurality of driven curtain hooks (113) located on the other side of the driving curtain hooks (111) and slidably connected with the curtain rail (10).

3. An intelligent light-operated curtain rail as claimed in claim 2, wherein a neodymium magnet (114) is fixed to one side surface of the first L-shaped draw hook (112).

4. The intelligent light-operated curtain rail as claimed in claim 1, wherein a second hook assembly (21) having the same structure as the first hook assembly (11) is slidably connected to the inside of the light-shielding battery rail (20).

5. The intelligent light-operated curtain rail as claimed in claim 2, wherein the first power assembly (13) comprises a first motor (133) fixed to the lower surface of the curtain rail (10), a first pulley (131) fixed to an output shaft of the first motor (133) and extending to the outer surface of one end inside the curtain rail (10), and a second pulley (134) rotatably connected to an inner wall of one end inside the curtain rail (10) far away from the first pulley (131), wherein a pull rope (132) for fixing the active curtain hook (111) is connected between the first pulley (131) and the second pulley (134).

6. The intelligent light-operated curtain rail as claimed in claim 5, wherein the photosensitive control assembly (12) comprises a single chip microcomputer (121) fixed inside the curtain rail (10), and a photosensitive sensor (122) fixed on the outer surface of the curtain rail (10) and electrically connected with the single chip microcomputer (121), and the single chip microcomputer (121) is electrically connected with the first motor (133) and the second motor (311).

7. An intelligent light-operated curtain rail as claimed in claim 6, wherein the light-sensitive control assembly (12) further comprises a battery (123) fixed inside the curtain rail (10), and the battery (123) is electrically connected with the solar thin-film panel (40).

8. The light-operated curtain frame of intelligence of claim 1, characterized in that, the bottom of solar energy film cell panel (40) is equipped with a plurality of locating holes (41) that the equidistance set up, the inside of every locating hole (41) all the joint has a snak link (42).

9. The intelligent light-operated curtain rail as claimed in claim 2, wherein balls (1111) are embedded in both side surfaces of the active curtain draw hook (111) extending to one end inside the curtain rail (10).