CN108991902B

CN108991902B - Automatic curtain structure easy to disassemble and assemble

Info

Publication number: CN108991902B
Application number: CN201810964360.1A
Authority: CN
Inventors: 刘永林; 高洪
Original assignee: Huizhou Jinwanhe Industrial Co ltd
Current assignee: Huizhou Jinwanhe Industrial Co ltd
Priority date: 2018-08-23
Filing date: 2018-08-23
Publication date: 2021-06-04
Anticipated expiration: 2038-08-23
Also published as: CN108991902A

Abstract

The invention relates to an automatic curtain structure easy to assemble and disassemble, which comprises a shell, wherein hooks are arranged on two sides of the shell and used for being hung on hanging rings of a sliding part on a curtain guide rail, a driving device is also arranged on the shell and positioned between the two hooks, and the driving device is used for driving the shell to reciprocate along the guide rail. The invention can be used for reforming the existing curtain, and reforming the existing non-automatic curtain into an automatic curtain.

Description

Automatic curtain structure easy to disassemble and assemble

Technical Field

The invention relates to the field of intelligent electric control, in particular to an automatic curtain structure easy to disassemble and assemble.

Background

The curtain is one of the essential ornaments in the home decoration, mainly used for sheltering from the sunshine to play the effect of protecting privacy. At present, curtains commonly used by thousands of households generally need to be opened and closed manually, and are inconvenient to operate.

Disclosure of Invention

Therefore, it is necessary to provide an automatic curtain structure easy to assemble and disassemble, which includes a housing, hooks are disposed on two sides of the housing, the hooks are used for being hung on hanging rings of sliding parts on curtain guide rails, a driving device is further disposed on the housing, the driving device is located between the two hooks, and the driving device is used for driving the housing to reciprocate along the guide rails.

When the curtain is used, the curtain is hung on the hanging rings of the two outermost sliding parts on the curtain guide rail by using the hooks, wherein the curtain guide rail, the sliding parts on the curtain guide rail and the hanging rings on the sliding parts are all parts of the existing curtain structure, and the hanging rings are used for fixing the upper end of the curtain so that the curtain can move along the guide rail to realize the opening and closing of the curtain; at the moment, the driving device is started, so that the curtain rail can reciprocate along the curtain rail, and the automatic opening and closing of the curtain can be realized.

The invention can be additionally arranged on the sliding piece of the existing curtain structure so as to transform the existing non-automatic curtain into an automatic curtain.

Preferably, the driving device comprises a driving wheel and a micro servo motor arranged in the shell, the driving wheel is in driving connection with the micro servo motor, and the driving wheel abuts against the lower surface of the curtain guide rail.

The width of the driving wheel is wider than that of the curtain guide rail, so that the driving wheel is prevented from staggering the curtain guide rail when the curtain guide rail shakes.

The micro servo motor can drive the driving wheel to rotate, and the driving wheel is abutted against the lower end of the curtain guide rail, so that the rotating driving wheel can roll on the lower surface of the guide rail, and the curtain can be driven to reciprocate on the guide rail, and the automatic opening and closing of the curtain can be realized. The driving connection structure between the micro motor and the driving wheel is the prior art, and can be belt transmission or gear transmission and the like.

Furthermore, a main control module is arranged in the shell and is in signal connection with the miniature servo motor, and a wireless transceiver is integrated with the main control module.

The main control module is in signal connection with the micro servo motor and used for controlling the start and stop of the micro servo motor, and the wireless transceiver integrated in the main control module can be a Bluetooth device and an infrared device in the prior art and is used for connecting external remote control to control the main control module; the wireless transceiver device can also be an existing structure for connecting with a mobile phone App, so that the wireless transceiver device can be operated by the mobile phone.

Furthermore, a power supply module is arranged in the shell and used for providing a power source for the driving device and the main control module.

Preferably, the driving device further comprises a fixing seat for fixing the miniature servo motor, the driving wheel is rotatably arranged on the fixing seat and is in driving connection with the miniature servo motor, the fixing seat is connected with the shell and is matched with the shell in a vertically sliding manner, an elastic device is arranged below the fixing seat, and the fixing seat is connected with the shell through the elastic device.

The fixing seat is slidably arranged on the sliding rail in the shell, and the elastic device can push the fixing seat upwards to the bottom of the curtain guide rail so that the driving wheel abuts against the bottom of the curtain guide rail, so that the curtain guide rail device can be suitable for curtain guide rails with different thicknesses, and the driving wheel can always abut against the bottom of the curtain guide rail.

Further, the elastic device is a spring.

The elasticity of the elastic device can be changed by replacing springs with different elastic coefficients.

Preferably, the inner side of the hook is further provided with a pressure sensing module, and the pressure sensing module is in signal connection with the main control module.

The pressure sensing module is used for detecting the resistance applied to the hook by the lifting ring, when the sliding part hung on the guide rail runs to the starting end or the terminal end of the guide rail and cannot move continuously, the driving wheel rotates continuously, so that the pressure applied to the inner side of the hook by the lifting ring is increased, the pressure sensing module detects that the pressure exceeds a preset critical value, and the main control module controls the micro servo motor to stop running, so that the action of pulling the curtain by the invention is stopped. The pressure sensing module is arranged in the hook and distributed on two sides of the hanging ring connected with the hook, so that the pressure sensing module can be in contact with the hanging ring no matter which side the window curtain moves, and the critical pressure value can be adjusted, so that the window curtain with the pressure sensing module is suitable for window curtains with different weights and sliding part structures with different friction forces.

The principle and effect of the present invention will be further explained by combining the above technical solutions:

Drawings

Fig. 1 is a schematic structural view of an easily detachable automatic curtain structure according to an embodiment of the present invention.

Description of reference numerals:

1-shell, 11-hook, 12-fixing seat, 121-driving wheel, 2-curtain guide rail, 21-sliding part and 211-hanging ring.

Detailed Description

For the convenience of understanding of those skilled in the art, the present invention will be described in further detail below with reference to the accompanying drawings and examples:

referring to fig. 1, an automatic curtain structure easy to assemble and disassemble includes a casing 1, hooks 11 are provided on two sides of the casing 1, the hooks 11 are used for hanging on hanging rings 211 of a sliding part 21 on a curtain rail 2, a driving device is further provided on the casing 1, the driving device is located between the two hooks 11, and the driving device is used for driving the casing 1 to reciprocate along the rail.

When the curtain rail is used, the curtain rail 2, the sliding part 21 on the curtain rail and the hanging rings 211 on the sliding part 21 are hung on the hanging rings 211 of the two outermost sliding parts 21 on the curtain rail 2 by using the hooks 11, wherein the curtain rail 2, the sliding part 21 on the curtain rail and the hanging rings 211 on the sliding part 21 are all parts of the existing curtain structure, and the hanging rings 211 are used for fixing the upper end of the curtain so that the curtain can move along the rail to realize the opening and closing of the curtain; at this time, the driving device is started to make the curtain rail of the invention move back and forth along the curtain rail 2, thereby realizing the automatic opening and closing of the curtain.

The invention can be added on the sliding piece 21 of the existing curtain structure to transform the existing non-automatic curtain into an automatic curtain.

In one embodiment, the driving device includes a driving wheel 121 and a micro servo motor disposed in the housing 1, the driving wheel 121 is in driving connection with the micro servo motor, and the driving wheel 121 abuts against the lower surface of the curtain rail 2.

The micro servo motor can drive the driving wheel 121 to rotate, and the driving wheel 121 rotates to abut against the lower end of the curtain guide rail 2, so that the rotating driving wheel 121 can roll on the lower surface of the guide rail, and the curtain can be driven to reciprocate on the guide rail, and the automatic opening and closing of the curtain can be realized. The driving connection structure between the micro motor and the driving wheel 121 is the prior art, and may be belt transmission or gear transmission.

In one embodiment, a main control module is further arranged in the housing 1, the main control module is in signal connection with the micro servo motor, and the main control module is integrated with a wireless transceiver.

In one embodiment, a power module is further disposed in the housing 1, and the power module is used to provide a power source for the driving device and the main control module.

In one embodiment, the driving device further includes a fixing seat 12 for fixing the micro servo motor, the driving wheel 121 is rotatably disposed on the fixing seat 12, the driving wheel 121 is in driving connection with the micro servo motor, the fixing seat 12 is connected with the housing 1 and is in up-and-down sliding fit with the housing 1, an elastic device is disposed below the fixing seat 12, and the fixing seat 12 is connected with the housing 1 through the elastic device.

The fixing base 12 is slidably disposed on a sliding rail inside the housing 1, and the elastic device can push the fixing base 12 upward toward the bottom of the curtain rail 2, so that the driving wheel 121 abuts against the bottom of the curtain rail 2, so that the present invention is applicable to curtain rails 2 with different thicknesses.

In one embodiment, the resilient means is a spring.

In one embodiment, a pressure sensing module is further arranged on the inner side of the hook 11, and the pressure sensing module is in signal connection with the main control module.

The pressure sensing module is used for detecting the resistance applied by the hanging ring 211 to the inside of the hook 11, when the sliding part 21 hung on the guide rail of the invention runs to the starting end or the terminal end of the guide rail and cannot move continuously, the driving wheel 121 rotates continuously, so that the pressure applied by the hanging ring 211 to the inner side of the hook 11 is increased, the pressure sensing module detects that the pressure exceeds a preset critical value, and the main control module controls the micro servo motor to stop running, thereby stopping the curtain pulling action of the invention. The pressure sensing module is arranged in the hook 11 and distributed on two sides of the hanging ring 211 connected with the hook 11, so that the pressure sensing module can be in contact with the hanging ring 211 no matter which side the sliding part 21 moves, and the pressure critical value can be adjusted, so that the sliding part 21 structure is suitable for curtains with different weights and sliding parts 21 with different friction forces.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An automatic curtain structure which is easy to be assembled and disassembled,

the curtain rail comprises a shell, wherein hooks are arranged on two sides of the shell and used for being hung on hanging rings of a sliding part on a curtain rail, a driving device is further arranged on the shell and located between the two hooks, and the driving device is used for driving the shell to reciprocate along the rail;

the driving device comprises a driving wheel and a miniature servo motor arranged in the shell, the driving wheel is in driving connection with the miniature servo motor, and the driving wheel abuts against the lower surface of the curtain guide rail; wherein the width of the driving wheel is wider than that of the curtain guide rail;

the shell is internally provided with a main control module, the main control module is in signal connection with the miniature servo motor, and the main control module is integrated with a wireless transceiver;

the shell is internally provided with a power supply module, and the power supply module is used for providing a power source for the driving device and the main control module;

the driving device further comprises a fixed seat used for fixing the miniature servo motor, the driving wheel is rotatably arranged on the fixed seat and is in driving connection with the miniature servo motor, the fixed seat is connected with the shell and is matched with the shell in a vertically sliding manner, an elastic device is arranged below the fixed seat, and the lower end of the fixed seat is connected with the shell through the elastic device; the fixed seat is arranged on a sliding rail in the shell in a sliding way, and the elastic device pushes the fixed seat upwards to the bottom of the curtain guide rail so that the driving wheel is propped against the bottom of the curtain guide rail, so that the curtain structure can be suitable for curtain guide rails with different thicknesses; the elastic device is a spring;

the inner side of the hook is also provided with a pressure sensing module which is in signal connection with the main control module; the pressure sensing module is arranged in the hook and distributed on two sides of a hanging ring connected with the hook so as to ensure that the pressure sensing module can contact the hanging ring no matter which side the pressure sensing module moves, and the pressure critical value can be adjusted; the pressure sensing module is used for detecting the resistance applied to the hook by the lifting ring, when the sliding part on the guide rail moves to the starting end or the terminal of the curtain to the guide rail and cannot move continuously, the driving wheel rotates continuously, so that the pressure applied to the inner side of the hook by the lifting ring is increased, the pressure sensing module detects that the pressure exceeds a preset critical value, and the main control module controls the micro servo motor to stop operating.