CN108894709A - Wireless power controls built-in louver device - Google Patents

Abstract

The present invention provides a kind of manageable wireless power control built-in louver device easy to use, is made of wireless power supply, control motor positive and inverse device, travel control device, motor, blinds rotating device, blinds, blinds bar and power supply.Eliminate power supply electric wire, improve leakproofness, extend the service life of window with built-in louver, it is able to achieve automatic control again, most of device is all mounted on built-in louver outside window, only a small amount of device is mounted in window with built-in louver, effectively solution maintenance problem, provides good basis to promote window with built-in louver.

Description

Wireless power controls built-in louver device

Technical field

The present invention relates to a kind of wireless powers to control built-in louver device.

Background technique

Control built-in louver device generally uses wired power supply mode and magnet mode of operation now.But both modes are all In place of Shortcomings.Wired power supply mode causes the tightness of window with built-in louver bad, leakiness due to there is the presence of power supply electric wire Gas, and electric wire also bad installation of powering, travel control device can not be repaired after damage in window with built-in louver.Magnet operation Mode, which can only manually control, is not easy to realize automatic control, and there is magnetic with the passing of time decline phenomenon.This problems demand solves.

Summary of the invention

The present invention provides a kind of manageable wireless power control built-in louver device easy to use.

The invention is realized in this way：Wireless power control built-in louver device by wireless power supply, control motor just Inversion set, travel control device, motor, blinds rotating device, blinds, blinds bar and power supply composition.Wireless power supply by Wireless power reception device in built-in louver and the wireless power emitter composition outside built-in louver, wireless power receive dress Set with wireless power emitter across the corresponding installation of glass, wireless power can using induction, magnetic field resonance type or Radio waves type, due to the corresponding induction coil of induction needs, therefore simple, at low cost is first choice, and can Eliminate power supply electric wire.Motor positive and inverse device is controlled by the control reception device of motor positive and inverse in built-in louver and built-in The emitter composition of control motor positive and inverse outside blinds, and across the corresponding installation of glass, wireless remote control type, electromagnetism can be used Three kinds of modes of control formula and photoelectric control standard, wireless remote control type by built-in louver outside transmitting antenna and related circuit and built-in hundred Receiving antenna in leaf and related circuit composition realize the control to motor positive and inverse, electromagnetic control type by built-in louver outside electricity Magnetic change-over switch composition in magnet and built-in louver realizes the control to motor positive and inverse, and photoelectric control standard is by built-in louver Control of the photoelectric tube composition realization to motor positive and inverse is received outside outer emission phototube and built-in louver.Travel control device By outside the blinds and blinds bar and built-in louver in built-in louver stroke sensing device and trip control circuit form, and across The corresponding installation of glass, can be used electromagnetic control type and photoelectric control standard, electromagnetic control type is by the blinds bar equipped with magnet, magnetic induction Switch and trip control circuit composition, photoelectric control standard are made of blinds and blinds bar, optoelectronic switch and trip control circuit, row Journey sensing device is made of up stroke sensor and down stroke sensor, and up stroke sensor and down stroke sensor are all mounted on Built-in louver outside window, effectively solves maintenance problem.

It is assumed that blinds bar rises when motor rotates forward, blinds bar declines when motor reversal, when needing blinds bar to rise or When decline, the power supply outside built-in louver is connected first, wireless power supply is started to work, i.e., wireless power emitter works, Wireless power reception device also works, and at this moment has electricity inside and outside window with built-in louver；Motor positive and inverse device is controlled to start to work, The emitter work of motor positive and inverse is controlled, the reception device for controlling motor positive and inverse also works, motor i.e. rotating forward or anti- Turn, realizes rising or falling for blinds bar.Travel control device is started to work, when blinds bar rises to up stroke sensor position It is automatically stopped work, blinds bar is also automatically stopped work when dropping to down stroke sensor position, passes through trip control circuit The position for needing to reach can be reached.

Due to using wireless power supply, power supply electric wire is eliminated, leakproofness is improved, extends making for window with built-in louver With the service life, and it is able to achieve automatic control, most of device is all mounted on built-in louver outside window, in only a small amount of device is mounted on It sets in shutter, effectively solution maintenance problem, provides good basis to promote window with built-in louver.

Detailed description of the invention

Attached drawing 1 is structural schematic diagram of the invention.

In attached drawing 1：1, blinds bar, 2, blinds, 3, blinds rotating device, 4, motor, 5, control motor positive and inverse reception Device, 6, wireless power reception device, 7, up stroke sensor, 8, wireless power emitter, 9, control motor positive and inverse Emitter, 10, trip control circuit, 11, power supply, 12, down stroke sensor.

Specific embodiment

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

In attached drawing, wireless power controls built-in louver device by wireless power supply, control motor positive and inverse device, stroke Control device, motor 4, blinds rotating device 3, blinds 2, blinds bar 1 and power supply 11 form.Wireless power supply is by wireless power Reception device 6 and wireless power emitter 8 form, and wireless power is using induction, and wireless power emitter 8 is straight Galvanic electricity is changed into the alternating current of high frequency, is launched by emitting induction coil, wireless power reception device 6 passes through induction coil Reception comes, and the alternating current of high frequency is become direct current, supplies motor 4 and related circuit uses.Control motor positive and inverse device It is made of the reception device 5 of control motor positive and inverse and the emitter 9 of control motor positive and inverse, using photoelectric control standard, control The emitter 9 of motor positive and inverse processed is made of rotating forward photoemission cell and reversion photoemission cell, controls motor positive and inverse Reception device 5 is made of rotating forward photoelectric receiving tube and reversion photoelectric receiving tube, is rotated forward photoemission cell and is issued rotating forward photosignal, After rotating forward photoelectric receiving tube receives signal, realize that the rotating forward to motor 4 controls, vice versa.Travel control device is by built-in Blinds 2 in blinds and the stroke sensing device outside blinds bar 1, built-in louver and trip control circuit 10 form, using photoelectricity Control formula is made of blinds 2 and blinds bar 1, optoelectronic switch and trip control circuit 10, and the up stroke in stroke sensing device passes Sensor 7 and down stroke sensor 12 all use optoelectronic switch；Up stroke sensor 7 at least uses two pairs of optoelectronic switches, Yi Duiguang Electric switch is made of an emission phototube and reception photoelectric tube, upper pair of for there is shelter judgement, lower pair of to be used for Have no occluder judgement, only it is upper pair of have shelter lower pair of have no occluder when, up stroke sensor 7 just works, and stops Only blinds bar rises；Down stroke sensor 12 is at least using a pair of of optoelectronic switch, for there is shelter judgement, as long as blocking Object, down stroke sensor 12 just work, i.e. the decline of stopping blinds bar.

Claims (8)

1. a kind of wireless power controls built-in louver device, by control motor positive and inverse device, travel control device, motor, hundred Leaf rotating device, blinds, blinds bar and power supply composition, which is characterized in that further include wireless power supply, connect by wireless power Receiving apparatus and wireless power emitter composition.

2. wireless power according to claim 1 controls built-in louver device, which is characterized in that wireless power reception device There is induction coil in wireless power emitter.

3. wireless power according to claim 1 controls built-in louver device, which is characterized in that control motor positive and inverse dress Set the transmitting dress of the control motor positive and inverse outside the reception device and built-in louver by the control motor positive and inverse in built-in louver Set composition.

4. wireless power according to claim 1 controls built-in louver device, which is characterized in that travel control device is by interior Set the blinds in blinds and the stroke sensing device outside blinds bar and built-in louver and trip control circuit composition.

5. wireless power according to claim 3 controls built-in louver device, which is characterized in that control motor positive and inverse Reception device controls the emitter of motor positive and inverse using emission phototube using photoelectric tube is received.

6. wireless power according to claim 4 controls built-in louver device, which is characterized in that stroke sensing device is by upper Stroke sensor and down stroke sensor composition.

7. wireless power according to claim 6 controls built-in louver device, which is characterized in that up stroke sensor is under Stroke sensor all uses photoelectric tube.

8. wireless power according to claim 7 controls built-in louver device, which is characterized in that up stroke sensor is at least Using two pairs of optoelectronic switches.