CN109339678A - The built-in external travel control device of power-operated shutter - Google Patents

Abstract

The present invention provides a kind of built-in external travel control device of power-operated shutter, by being mounted on rotating in glass with motor and what is rotated formed by detection device and the detection device and control device that are mounted on outside glass.It is easy to maintenance easy, built-in power-operated shutter service life is extended, has reached multi-purpose content, has saved cost.Good basis is provided to promote electronic window with built-in louver.

Description

The built-in external travel control device of power-operated shutter

Technical field

The present invention relates to a kind of built-in external travel control devices of power-operated shutter.

Background technique

Built-in power-operated shutter travel control device uses built-in manner now, and travel control device is together with motor combination It is mounted in glass, is difficult to repair after resulting in travel control device damage in this way, it has to replace built-in power-operated shutter, significantly It influences built-in power-operated shutter to promote the use of, this problems demand solves.

Summary of the invention

A kind of external travel control device of built-in power-operated shutter provided by the invention, efficiently solves the problems, such as this.

The present invention is implemented as follows: the built-in external travel control device of power-operated shutter is by by detection device, detection device And control device composition.It is mounted in glass by detection device, rotates and rotate with motor；Detection device and control device are all pacified Outside glass, detection device can be detected through glass to by the rotation situation of detection device, and testing result is filled by control It sets and is handled and motor is controlled.It is made by detection device by non-damageable material, has no electronic device, substantially not There are maintenance problems.It is several that vane type, radial fan leaf type, axial fan leaf type and magnetic leaf formula are divided by detection device.Detection Device is divided into optoelectronic switch formula and magnetic switch formula.Optoelectronic switch formula in order to detect by the rotation situation of detection device, with quilt At least one loophole on the mounting rack of detection device corresponding position, convenient for being detected to light discrepancy；Optoelectronic switch formula It is divided into ipsilateral optoelectronic switch formula and heteropleural optoelectronic switch formula according to the relative position of transmitting tube and reception pipe；Optoelectronic switch formula uses Had vane type, radial fan leaf type and axial three kinds of fan leaf type by detection device, be all by optoelectronic switch to by detection device The situation of blocking of blade is detected, to obtain by the rotation situation of detection device, control device according to rotation situation just It can be concluded that stroke, and motor is controlled.Since optoelectronic switch is across glass, farther out apart from blade, therefore optoelectronic switch Detecting distance will guarantee the light of transmitting tube sending when blade does not block, and reception pipe should be able to receive light, and make photoelectricity Switch work.What magnetic switch formula used is magnetic leaf formula by detection device, and magnetic leaf formula has magnet on blade, passes through Magnetic switch is detected to by the magnetic situation of the magnet blade in detection device, to obtain by the rotation feelings of detection device Condition, control device can obtain stroke according to rotation situation, and control motor.Since magnetic switch is across glass, Farther out apart from magnet blade, therefore the detecting distance of magnetic switch will guarantee that magnetic switch can have reaction simultaneously to the magnetism of magnet blade It can work, detecting distance is generally higher than 6 millimeters.

Due to external travel control device, maintenance problem, detection device and control dress are substantially not present by detection device Set and outside glass so that easy to maintenance easy, solve the problems, such as presently, there are.And in built-in electronic louver glass Electrical equipment be only left motor, motor is generally hardly damaged, and extends the service life of built-in power-operated shutter；Built-in electronic hundred The external travel control device of leaf can be also used for controlling multiple built-in electric-powered shutters, achievees the effect that multi-purpose content, saves Cost.Good basis is provided to promote electronic window with built-in louver.

Detailed description of the invention

Fig. 1 is the ipsilateral optoelectronic switch formula structural schematic diagram of blade of the invention.

In Fig. 1: 1, mounting rack, 2, glass, 3, vane type by detection device, 4, retarder, 5, motor, 6, reception pipe, 7, Transmitting tube, 8, loophole.

Fig. 2 is the face the A-A schematic diagram of the ipsilateral optoelectronic switch formula structural schematic diagram of blade of the invention.

In Fig. 2: 8, loophole, 9, blade.

Fig. 3 is blade heteropleural optoelectronic switch formula structural schematic diagram of the invention.

In Fig. 3: 1, mounting rack, 2, glass, 3, vane type by detection device, 4, retarder, 5, motor, 6, reception pipe, 7, Transmitting tube, 8, loophole.

Fig. 4 is the face the A-A schematic diagram of blade heteropleural optoelectronic switch formula structural schematic diagram of the invention.

In Fig. 4: 8, loophole, 9, blade.

Fig. 5 is the ipsilateral optoelectronic switch formula structural schematic diagram of axial flabellum of the invention.

In Fig. 5: 1, mounting rack, 2, glass, 3, axial fan leaf type by detection device, 4, retarder, 5, motor, 6, receive Pipe, 7, transmitting tube, 8, loophole.

Fig. 6 is the face the A-A schematic diagram of the ipsilateral optoelectronic switch formula structural schematic diagram of axial flabellum of the invention.

In Fig. 6: 8, loophole, 9, blade.

Fig. 7 is axial flabellum heteropleural optoelectronic switch formula structural schematic diagram of the invention.

In Fig. 7: 1, mounting rack, 2, glass, 3, axial fan leaf type by detection device, 4, retarder, 5, motor, 6, receive Pipe, 7, transmitting tube, 8, loophole.

Fig. 8 is the face the A-A schematic diagram of axial flabellum heteropleural optoelectronic switch formula structural schematic diagram of the invention.

In Fig. 8: 8, loophole, 9, blade.

Fig. 9 is the ipsilateral optoelectronic switch formula structural schematic diagram of radial flabellum of the invention.

In Fig. 9: 1, mounting rack, 2, glass, 3, radial fan leaf type by detection device, 4, retarder, 5, motor, 6, receive Pipe, 7, transmitting tube, 8, loophole, 10, reversing arrangement.

Figure 10 is the A of the ipsilateral optoelectronic switch formula structural schematic diagram of radial flabellum of the invention to schematic diagram.

In Figure 10: 3, radial fan leaf type is by detection device, 6, reception pipe, 7, transmitting tube, 8, loophole, 9, blade.

Figure 11 is radial flabellum heteropleural optoelectronic switch formula structural schematic diagram of the invention.

In Figure 11: 1, mounting rack, 2, glass, 3, radial fan leaf type by detection device, 4, retarder, 5, motor, 6, receive Pipe, 7, transmitting tube, 8, loophole, 10, reversing arrangement.

Figure 12 is the A of radial flabellum heteropleural optoelectronic switch formula structural schematic diagram of the invention to schematic diagram.

In Figure 12: 3, radial fan leaf type is by detection device, 7, transmitting tube, 8, loophole, 9, blade.

Figure 13 is magnetic switch formula structural schematic diagram of the invention.

In Figure 13: 1, mounting rack, 2, glass, 3, magnetic leaf formula by detection device, 4, retarder, 5, motor, 6, magnetic Switch.

Figure 14 is the face the A-A schematic diagram of magnetic switch formula structural schematic diagram of the invention.

In Figure 14: 7, magnet blade.

Specific embodiment

The ipsilateral optoelectronic switch formula of blade of the invention is made below with reference to Fig. 1 and Fig. 2 and specific embodiment further detailed Thin explanation.

Retarder 4, which is mounted on the output shaft of motor 5, plays decelerating effect, and vane type is mounted on deceleration by detection device 3 It rotates and rotates with motor on the output shaft of device 4, retarder 4, motor 5 and vane type are mounted on mounting rack 1 by detection device 3 Interior, mounting rack 1 is mounted in glass 2, and loophole 8 is provided on mounting rack 1, and reception pipe 6 and transmitting tube 7 are mounted on outside glass 2, leaf Chip has blade 9 by detection device 3.Transmitting tube 7 issues infrared light by loophole 8, when the vane type on turned position is tested When the blade 9 of survey device 3 blocks infrared light, infrared light reflection is gone out, and is received pipe 6 and is received optoelectronic switch connection, is rotated further by one Under when vane type cannot block infrared light by the blade 9 of detection device 3, infrared light is transmitted away or is pacified by loophole 8 1 wall face is shelved to reflect, since reception pipe 6 is not received by infrared light or light intensity is inadequate, optoelectronic switch is disconnected, with Motor rotation optoelectronic switch constantly switches on and off, and control device records the connection number of optoelectronic switch, further according to rope rolling The intrinsic parameter such as device you can get it stroke value, to realize the control to motor 5.

Claims (8)

1. a kind of external travel control device of built-in power-operated shutter, which is characterized in that by being mounted on rotating in glass with motor And what is rotated is formed by detection device and the detection device being mounted on outside glass and control device.

2. the external travel control device of built-in power-operated shutter according to claim 1, which is characterized in that detection device uses Optoelectronic switch formula, with by least one loophole on the mounting rack of detection device corresponding position.

3. the external travel control device of built-in power-operated shutter according to claim 1, which is characterized in that detection device uses Magnetic switch formula, detecting distance are greater than 6 millimeters.

4. the external travel control device of built-in power-operated shutter according to claim 2, which is characterized in that optoelectronic switch uses Ipsilateral optoelectronic switch formula.

5. the external travel control device of built-in power-operated shutter according to claim 2, which is characterized in that optoelectronic switch uses Heteropleural optoelectronic switch formula.

6. the external travel control device of built-in power-operated shutter according to claim 1, which is characterized in that adopted by detection device Use vane type.

7. the external travel control device of built-in power-operated shutter according to claim 1, which is characterized in that adopted by detection device With radial fan leaf type.

8. the external travel control device of built-in power-operated shutter according to claim 1, which is characterized in that adopted by detection device With axial fan leaf type.