Hall-type Travel Limit Deviation Self-resetting Encoder For Garage Door Machine

Abstract

A Hall-type travel limit deviation self-resetting encoder for a garage door machine, including a nylon worm gear and a driving motor for driving the nylon worm gear to rotate, a motor rotation counting limit mechanism for performing rotation counting limit on a rotor shaft of the driving motor, and a worm gear counting calibration mechanism for calibrating the travel limit deviation of the driving motor; the worm gear counting calibration mechanism includes a worm gear magnet-mounted on the nylon worm gear and a worm gear position Hall element adapted to the worm gear magnet. The encoder is compact in structure and can effectively limit the travel limit deviation of a garage door.

Claims

1. A Hall-type travel limit deviation self-resetting encoder for a garage door machine, comprising a nylon worm gear, a driving motor for driving the nylon worm gear to rotate, a motor rotation counting limit mechanism for performing rotation counting limit on a rotor shaft of the driving motor, and a worm gear counting calibration mechanism for calibrating the travel limit deviation of the driving motor; the worm gear counting calibration mechanism comprises a worm gear magnet mounted on the nylon worm gear and a worm gear position Hall element adapted to the worm gear magnet.

2. The Hall-type travel limit deviation self-resetting encoder for the garage door machine according to claim 1, wherein, the motor rotation counting limit mechanism comprises a motor magnet mounted on the rotor shaft of the driving motor and a motor position Hall element adapted to the motor magnet.

3. The Hall-type travel limit deviation self-resetting encoder for the garage door machine according to claim 2, wherein, the nylon worm gear is mounted within a worm gear housing, the worm gear housing is provided with a worm gear cover matched with the worm gear housing, and the motor position Hall element and the worm gear position Hall element are mounted on the worm gear cover.

4. The Hall-type travel limit deviation self-resetting encoder for the garage door machine according to claim 3, wherein, both the motor position Hall element and the worm gear position Hall element are located on a Hall circuit board, and the Hall circuit board is embedded in a circuit board mounting groove of the worm gear cover.

5. The Hall-type travel limit deviation self-resetting encoder for the garage door machine according to claim 4, wherein, the worm gear cover is provided with a circuit board cover plate adapted to the Hall circuit board and the circuit board mounting groove.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 is a schematic diagram showing the structure of the present invention.

[0014] FIG. 2 is a schematic diagram showing the position of the worm gear magnet on the nylon worm gear according to the present invention.

[0015] Description of reference numerals: 1driving motor, 2worm gear housing, 3motor magnet, 4worm gear magnet, 5nylon worm gear, 6circuit board mounting groove, 7Hall circuit board, 8motor position Hall element, 9worm gear position Hall element, 10circuit board cover plate and 11worm gear cover.

DETAILED DESCRIPTION

[0016] Hereinafter, the present invention will be described in detail with reference to accompanying drawings and specific embodiments.

[0017] As shown in FIG. 1 and FIG. 2: in order to effectively limit the travel limit deviation of a garage door, the encoder of the present invention includes a nylon worm gear 5 and a driving motor 1 for driving the nylon worm gear 5 to rotate; the encoder further includes a motor rotation counting limit mechanism for performing rotation counting limit on a rotor shaft of the driving motor 1, and a worm gear counting calibration mechanism for calibrating the travel limit deviation of the driving motor 1; the worm gear counting calibration mechanism includes a worm gear magnet 4 mounted on the nylon worm gear 5 and a worm gear position Hall element 9 adapted to the worm gear magnet 4.

[0018] Particularly, the nylon worm gear 5 is mounted within a worm gear housing 2, the worm gear housing 2 is provided with a worm gear cover 11 matched with the worm gear housing 2, and the motor position Hall element 8 and the worm gear position Hall element 9 are mounted on the worm gear cover 11. The motor rotation counting limit mechanism is configured to count revolutions of the rotor shaft of the driving motor 1, and the position of the garage door can be determined by the count value of the motor rotation counting limit mechanism, and thus an effective limit position of the garage door can be determined.

[0019] Because conditions of using a garage door machine vary greatly, additional strong torsion, severe imbalance of the door body installation weight, long-term accumulation and other factors may cause travel limit deviation. In order to calibrate the limit position of the motor rotation counting limit mechanism and avoid influences caused by the travel limit deviation, a worm gear counting calibration mechanism is adopted to calibrate the deviation, a worm gear magnet 4 is mounted on the nylon worm gear 5, when the worm gear magnet 4 rotates together with the nylon worm gear 5, the worm gear position Hall element 9 located in the rotational tangential direction of the worm gear magnet 4 can detect the worm gear magnet 4 and generate a corresponding pulse, thereby detecting the rotational position of the nylon worm gear 5, the motor rotation counting limit mechanism is calibrated with the pulse value obtained by detecting the position of the nylon worm gear 5, which can effectively limit the travel limit deviation of the garage door.

[0020] Further, the motor rotation counting limit mechanism includes a motor magnet 3 mounted on the rotor shaft of the driving motor 1 and a motor position Hall element 8 adapted to the motor magnet 3.

[0021] In embodiments of the present invention, the rotor shaft of the driving motor 1 protrudes into the worm gear housing 2, that is, the motor magnet 3 is located in a region between the worm gear housing 2 and the worm gear cover 11, and the motor magnet 3 can follow the rotation of the rotor shaft of the driving motor 1. The motor position Hall element 8 cooperates with the motor magnet 3. After the motor magnet 3 rotates, the motor position Hall element 8 can determine the number of revolutions of the rotor shaft of the driving motor 1 by the cooperative relationship with the motor magnet 3, for example, if 0 pulse of the motor position Hall element 8 is determined as a door opening position, when the counting pulse reaches N, then N pulse can be determined as a door closing position, and the specific size of the counting pulse N can be determined as desired, which is well known to those skilled in the art, and is not repeatedly described here. The cooperative relationship between the motor position Hall element 8 and the motor magnet 3, and the cooperative relationship between the worm gear position Hall element 9 and the worm gear magnet 4 are both well known to those skilled in the art.

[0022] When the driving motor 1 and the nylon worm gear 5 rotate to work, the motor position Hall element 8 and the worm gear position Hall element 9 do not interfere with each other. When the travel limit deviation occurs, the pulse difference between the counting pulse of the motor position Hall element 8 and the worm gear position Hall element 9 changes, and the limit position can be calibrated by adjusting the pulse difference. Each travel limit deviation of the driving motor 1 is slight, and can be detected by the worm gear position Hall element 9, and the stroke corresponding to one rotation of the driving motor 1 is 125 mm-144 mm, and the case that the driving motor fails to be calibrated after the travel limit deviation is substantially unlikely to occur, unless man-made damage or serious structural failure.

[0023] Both the motor position Hall element 8 and the worm gear position Hall element 9 are located on a Hall circuit board 7, and the Hall circuit board 7 is embedded in a circuit board mounting groove 6 of the worm gear cover 11.

[0024] The worm gear cover 11 is provided with a circuit board cover plate 10 adapted to the Hall circuit board 7 and the circuit board mounting groove 6.

[0025] In embodiments of the present invention, both the motor position Hall element 8 and the worm gear position Hall element 9 are fixedly arranged on the Hall circuit board 7, and the Hall circuit board 7 is located in a circuit board mounting groove 6, the circuit board cover plate 10 caps and seals the Hall circuit board 7, and the Hall circuit board 7 can facilitate to output impulse of the motor position Hall element 8 and the worm gear position Hall element 9. In specific implementation, the motor position Hall element 8 and the worm gear position Hall element 9 can be located on the same Hall circuit board 7 or two different Hall circuit boards 7, respectively, and the Hall circuit board 7 can be a PCB board; of course, the Hall circuit board 7 also can be mounted on other positions of the worm gear cover 11 or other desired positions other than the worm gear cover 11.

[0026] By constituting a motor rotation counting limit mechanism with a motor magnet 3 located on the rotor shaft of the driving motor 1 and a matched motor position Hall element 8, and calibrating travel limit deviation through cooperation of the worm gear position Hall element 9 and the worm gear magnet 3 on the motor position Hall element 8, the encoder in the present invention can effectively limit the travel limit deviation of a garage door, is compact in structure, low in cost, high in control precision, safe and reliable.