TWM610857U - Electromechanical control system of up and down stroke position of electric rolling door - Google Patents

Abstract

An electromechanical control system for the up and down stroke position of an electric rolling door is installed on the rolling door device. The electromechanical control system has a microprocessor. The microprocessor is connected with a stroke sensor and a controller. The controller is connected to the door drive. The sensor uses the transmission gear to mesh with the inner gear ring of the transmission disc, and the magnetic pole of the central axis faces the sensing module; when the door is in the ascending stroke, the microprocessor uses the sensing module to sense that the magnetic pole rotates to the upper limit of rotation When the door panel is in the descending stroke, the sensor module senses the magnetic pole rotation to reach the lower limit rotation number, and the controller controls the driver to stop the door panel at the lower limit position. , And then can accurately control the up and down stroke position of the electric rolling door.

Description

The electromechanical control system of the up and down stroke position of the electric rolling door

This creation is related to the field of electric rolling doors, especially an electromechanical control system for the up and down stroke position of electric rolling doors.

Press, the electric rolling door is composed of a plurality of door element units pivotally connected to each other to form a rolling door. The rolling door is wound on the reel of the main shaft, and the reel is connected with the motor through the transmission group, when the motor drives the reel to rotate At the time, the roller is used to drive the rolling door sheet to move up and down, so that the rolling door can be opened and closed.

The electric rolling door must cooperate with the upper and lower limit position sensing device to automatically stop at the upper and lower limit positions of the ascending and descending stroke. The current upper and lower limit position sensing devices can be divided into mechanical switch methods, optical sensing methods, and magnetic pole angle sensing methods. However, the installation and adjustment methods of mechanical switches are more complicated, the service life is shorter, and the positioning accuracy is poor, while the optical sensing method And the magnetic pole angle sensing method must be equipped with an integrated deceleration transmission mechanism, which complicates the structure and increases the cost, and the magnetic pole angle sensing method is mostly limited to the 360-degree rotation range, and the upper limit position of the rolling door is set when the roller door rises with the transmission ratio. , And set the lower positioning when the rolling door is lowered, resulting in a relative limitation to the actual application range. Therefore, how to solve the above-mentioned problems is the subject of urgent research by the relevant industry.

The main purpose of this creation is that the transmission gear, central axis and magnetic pole of the stroke sensor can be coaxially arranged, and there is no need to configure a reduction transmission mechanism. When the sensor module senses the rotation of the magnetic pole to reach the upper limit or lower limit of rotation When the time, the controller controls the driver to stop the door panel up or down, and stops the door panel at the upper or lower limit, and the electromechanical control system can accurately control the upper and lower stroke positions of the electric rolling door, and it is convenient for assembly and installation, and easier to adjust and use.

In order to achieve the above purpose, the electromechanical control system of the up and down stroke position of the electric rolling door of this creation is installed in the rolling door device. The rolling door device has a door panel and a drive group that drives the door panel to rise and fall. The drive group has a base plate and a drive plate. And the driver, the transmission disk is pivotally connected to the base disk, and the driver is arranged on the base disk to drive the door plate up and down by driving the transmission disk. The feature is that the electromechanical control system has a microprocessor, and the microprocessor is connected with stroke sensing The controller is connected to the driver. The stroke sensor has a base, a sensing module and a transmission gear. One side of the base is fixed to the base plate, and the sensing module is located on the other side of the base. The transmission gear It meshes and interlocks with the inner gear ring of the transmission disc, and the central axis of the transmission gear has a magnetic pole facing the sensing module; the driver drives the inner gear ring of the transmission disc to drive the door panel to move up or down, and the inner gear ring drives The transmission gear, the central shaft and the magnetic pole rotate together for more than five times, and the microprocessor sets the upper limit of the number of rotations that the magnetic pole needs to rotate when the door panel rises from the lower limit to the upper limit, and it is set when the door panel drops from the upper limit to the upper limit. At the lower limit, the minimum number of rotations required for the magnetic pole to rotate; when the door is in the ascending stroke, the microprocessor uses the sensing module to sense that the magnetic pole rotates to the upper limit of rotation, and the controller controls the driver to stop driving the door Ascend, stop the door panel at the upper limit position; and when the door panel is in the descending stroke, the microprocessor uses the sensing module to sense that the magnetic pole rotation reaches the lower limit of the number of rotations, so that the controller controls the driver to stop driving the door panel down, and stops the door panel at the lower limit. Lower limit.

In the aforementioned electromechanical control system, the microprocessor is further connected with a setting unit for setting the upper limit rotation number and the lower limit rotation number.

The aforementioned electromechanical control system, wherein the base has a cover, one side of the base is provided with a gear seat facing the transmission disc, the transmission gear is pivotally connected to the gear seat, the base is provided with an opening for the gear seat and the transmission gear to pass through, and the cover The body is arranged on the other side of the base away from the gear seat, the sensing module is arranged in the cover body, and the central axis of the transmission gear extends into the base and the cover body.

The aforementioned electromechanical control system, wherein the other side of the base is provided with a shaft seat for the central shaft to enter, one side of the shaft seat is provided with an opening, the base is provided with a groove communicating with the shaft seat and the opening, and the shaft seat is in the sensor A baffle plate is arranged between the test module and the end of the central shaft.

In the aforementioned electromechanical control system, the inside of the cover body has a restriction portion extending parallel to the opening of the shaft base, so that the central shaft is housed in the shaft base and the restriction portion together.

In the aforementioned electromechanical control system, the base, the cover and the base plate are respectively provided with fixing holes, and each of the relative fixing holes is provided with a screw for positioning.

In the aforementioned electromechanical control system, the sensing module is an absolute position potentiometer, and when the door panel moves upward or downward, the transmission gear, the central shaft and the magnetic pole rotate together for more than ten revolutions.

In the aforementioned electromechanical control system, the number of teeth of the inner gear ring of the transmission disc is more than three times the number of teeth of the transmission gear.

10: Electromechanical control system

13: Lower limit number of rotations

1: Microprocessor

2: Controller

11: Setting unit

3: Stroke sensor

12: Maximum number of rotations

31: Pedestal

311: fixed hole

41: Door Panel

312: Gear seat

42: fixed frame

313: Shaft Hole

5: Drive group

314: Axle seat

51: Base plate

315: Groove

511: Shaft hole

316: open

512: Pivot

317: Baffle

513: Gear

32: Lid

514: hole

321: fixed hole

515: fixed hole

322: Restricted Department

52: drive plate

33: Sensing module

521: Shaft

331: circuit board

522: Internal Gear Ring

34: Transmission gear

53: drive

341: Central axis

531: Motor

35: magnetic pole

532: Clutch

36: Screw

533: Hinge

4: Rolling door device

534: Gear

The first picture is a three-dimensional diagram of the electromechanical control system and drive group of this author.

The second figure is a three-dimensional exploded view of the electromechanical control system and drive group of this author.

The third figure is a three-dimensional exploded view of the electromechanical control system and driving group of this author from another perspective.

The fourth figure is the block diagram of the electromechanical control system and drive group of the author.

The fifth figure is a cross-sectional view of the electromechanical control system and drive unit of the author along the inner gear ring.

The sixth figure is an enlarged view of the stroke sensor and part of the internal gear ring of the electromechanical control system of this author.

The seventh figure is a three-dimensional view of the stroke sensor of the electromechanical control system of this author from another perspective.

The eighth figure is a three-dimensional exploded view of the stroke sensor of the electromechanical control system of the author.

The ninth figure is a cross-sectional view of the stroke sensor of the electromechanical control system of the author.

The tenth figure is a schematic diagram of the electromechanical control system and driving group of this authoring to drive the door panel up to the upper limit position.

The eleventh figure is a schematic diagram of the electromechanical control system and drive group of this authoring to drive the door panel down to the lower limit.

Regarding the technical means used in this creation to achieve the above-mentioned purpose and its effects, feasible embodiments are given here, and the illustrations are explained as follows:

First of all, please refer to the first to sixth and tenth figures. From the figures, it can be clearly seen that the electromechanical control system 10 of this creation is installed on the rolling door device 4 (refer to the fourth and tenth figures). Used to control the upper and lower stroke positions of the electric rolling door, the rolling door device 4 has a door panel 41 and a fixing frame 42, and a driving group 5 that drives the door panel 41 to rise and fall. The moving group 5 has a base plate 51, a transmission plate 52 and a driver 53, the base plate 51 has a shaft hole 511 and a support shaft 512 (see Figure 10), and is pivotally connected with two gears 513, and the transmission plate 52 is provided with a shaft portion 521 is pivotally connected to the shaft hole 511 of the base plate 51, and the transmission plate 52 is provided with an inner gear ring 522, so that the two gears 513 of the base plate 51 mesh and support the inner gear ring 522, and the driver 53 is arranged on the base plate 51, The driver 53 has a motor 531 and a clutch 532, and its rotating shaft 533 and gear 534 drive the inner gear ring 522 to rotate the transmission disc 52 to drive the door plate 41 to rise and fall.

The main feature of this creation is that the electromechanical control system 10 includes a microprocessor 1. The microprocessor 1 is connected with a setting unit 11, a controller 2 and a stroke sensor 3, and the controller 2 is connected to a driver 53, which senses the stroke. The device 3 has a base 31, a cover 32, a sensing module 33, and a transmission gear 34. One side of the base 31 is fixed to the base plate 51. The sensing module 33 can be an absolute position potentiometer. The transmission gear 34 corresponds to The base 31 is set in a pivoting state, the transmission gear 34 meshes with the inner gear ring 522 of the transmission disc 52, and the central axis 341 of the transmission gear 34 is provided with a magnetic pole 35 facing the sensing module 33, and the inner gear of the transmission disc 52 The number of teeth of the ring 522 is more than three times greater than the number of teeth of the transmission gear 34.

The base 31, the cover 32, and the base plate 51 are respectively provided with fixing holes 311, 321, 515 (refer to the second figure), and a screw 36 is provided in each of the relative fixing holes 311, 321, 515 for positioning. Please refer to the first and second figures and the sixth to ninth figures, a gear seat 312 and a shaft hole 313 are provided on the side of the base 31 facing the transmission disk 52, the transmission gear 34 is pivotally connected to the gear seat 312, and the base disk 51 is provided with an opening 514 through which the gear seat 312 and the transmission gear 34 pass, and the cover 32 is arranged on the base 31 away from the gear seat 312 On the other side, the sensing module 33 and the circuit board 331 are arranged in the cover 32, and the central shaft 341 of the transmission gear 34 extends into the base 31 and the cover 32. And the other side of the base 31 is provided with a shaft seat 314 for the central shaft 341 to enter, one side of the shaft seat 314 is provided with an opening 316, and the base 31 is provided with a groove 315 communicating with the shaft seat 314 and the opening 316, and the shaft The seat 314 is provided with a baffle 317 between the sensing module 33 and the end of the central shaft 341 to facilitate the installation of the transmission gear 34 and the central shaft 341, and the inside of the cover 32 has a restricting portion extending parallel to the opening 316 of the shaft seat 314 322, the central shaft 341 is housed in the shaft seat 314 together with the restricting portion 322.

With this, the electromechanical control system 10 activates the driver 53 through the controller 2, and the driver 53 drives the inner gear ring 522 of the transmission disc 52 to drive the door panel 41 to go up or down, and the inner gear ring 522 drives the transmission gear 34 and the center The shaft 341 and the magnetic pole 35 rotate together at least five or more times, and the microprocessor 1 uses the setting unit 11 to set the upper limit of the number of rotations of the magnetic pole 35 to 12 when the door panel 41 rises from the lower limit to the upper limit. And the setting unit 11 sets the lower limit number of rotations 13 that the magnetic pole 35 needs to rotate when the door panel 41 is lowered from the upper limit position to the lower limit position.

Please refer to the first, fourth, fifth, ninth and tenth figures. When the door 41 is in the ascent stroke, the electromechanical control system 10 activates the driver 53 via the controller 2, and the driver 53 drives the inner gear ring 522 of the transmission disc 52 to When the door plate 41 is driven to perform an upward stroke, the inner gear ring 522 drives the transmission gear 34, the central shaft 341 and the magnetic pole 35 to rotate together for more than ten revolutions. When the microprocessor 1 uses the sensing module 33 to sense the rotation of the magnetic pole 35 to reach the upper limit of rotation When the count is 12, the controller 2 controls the driver 53 to stop driving the door panel 41 to rise, and stops the door panel 41 at the upper limit position.

Please refer to Figures 1, 4, 5, 9 and 11, when the door 41 is in the descending stroke, the electromechanical control system 10 activates the driver 53 via the controller 2, and the driver 53 drives the inner gear ring 522 of the transmission disc 52. When the door plate 41 is driven for the descending stroke, the inner gear ring 522 drives the transmission gear 34, the central shaft 341 and the magnetic pole 35 to rotate together for more than ten revolutions. When the microprocessor 1 uses the sensing module 33 to sense the rotation of the magnetic pole 35 to reach the lower limit of rotation When the number of turns is 13, make the controller 2 control the driver 53 to stop driving the door panel 41 to descend, and stop the door panel 41 at the lower limit.

In the actual operation of the electromechanical control system 10 of this creation, the transmission gear 34, the central shaft 341 and the magnetic pole 35 of the stroke sensor 3 are coaxially arranged, and there is no need to configure a reduction transmission mechanism. When the sensing module 33 senses the magnetic pole 35 When the rotation reaches the upper limit rotation number 12 or the lower limit rotation number 13, the controller 2 controls the driver 53 to stop driving the door panel 41 up or down, and stops the door panel 41 at the upper limit or lower limit, so that the electromechanical control system 10 can accurately control The upper and lower stroke position of the electric rolling door is convenient for assembly and installation, and it is easier to adjust the setting and use.

The above examples are only for the convenience of explaining the creation, but not to limit it. Without departing from the spirit of the creation, the various simple changes and modifications that can be made by those who are familiar with this industry should still be included in the following patent applications. In the range.

10: Electromechanical control system

1: Microprocessor

11: Setting unit

12: Maximum number of rotations

13: Lower limit number of rotations

2: Controller

3: Stroke sensor

33: Sensing module

5: Drive group

53: drive

Claims (8)

An electromechanical control system for the up and down stroke position of an electric rolling door is installed in the rolling door device. The rolling door device has a door panel and a drive group that drives the door panel to rise and fall. The drive group has a base plate, a drive plate and a driver, and the drive plate is pivotally connected In the base plate, the driver is arranged on the base plate to drive the door plate to rise and fall by driving the transmission plate, which is characterized by: The electromechanical control system has a microprocessor. The microprocessor is connected with a stroke sensor and a controller. The controller is connected to the driver. The stroke sensor has a base, a sensing module and a transmission gear. The base plate, the sensing module is located on the other side of the base, the transmission gear meshes with the inner gear ring of the transmission plate, and the central axis of the transmission gear has magnetic poles facing the sensing module; the driver drives the inner teeth of the transmission plate The inner gear ring drives the transmission gear, the central shaft and the magnetic pole to rotate together for more than five revolutions, and the microprocessor sets the magnetic pole to be required when the door panel rises from the lower limit to the upper limit. The upper limit rotation number of rotation, and the lower limit rotation number that the magnetic pole needs to rotate when the door panel is lowered from the upper limit position to the lower limit position is set; When the door panel is in the ascending stroke, the microprocessor uses the sensing module to sense that the magnetic pole rotation reaches the upper limit of rotation, so that the controller controls the driver to stop driving the door panel to rise and stop the door panel at the upper limit; and when the door panel is in the descending stroke , The microprocessor uses the sensing module to sense that when the magnetic pole rotation reaches the lower limit of the number of rotations, the controller controls the driver to stop driving the door panel down and stop the door panel at the lower limit position. For example, the electromechanical control system for the up and down stroke position of the electric rolling door described in the scope of the patent application, wherein the microprocessor is further connected to set the upper limit of the number of rotations and the down The setting unit is limited to the number of rotations. For example, the electromechanical control system for the up and down stroke position of the electric rolling door described in the scope of the patent application, wherein the base has a cover, a gear seat is provided on one side of the base facing the transmission plate, and the transmission gear is pivotally connected to the gear seat. The seat plate is provided with an opening for the gear seat and the transmission gear to pass through, the cover is arranged on the other side of the base away from the gear seat, the sensing module is arranged in the cover, and the central axis of the transmission gear extends into the base and the cover. . For example, the electromechanical control system for the up and down stroke position of the electric rolling door described in item 3 of the scope of patent application, wherein the other side of the base is provided with a shaft seat for the central shaft to enter, an opening is provided on one side of the shaft seat, and the base is provided with The slot is connected to the shaft base and the opening, and the shaft base is provided with a baffle plate between the sensing module and the end of the central shaft. For example, the electromechanical control system for the up and down stroke position of the electric rolling door described in item 4 of the scope of patent application, wherein the inside of the cover body has a restriction part extending parallel to the opening of the shaft base, so that the central shaft is housed in the shaft base and the restriction part together. For example, the electromechanical control system for the up and down stroke position of the electric rolling door described in item 4 of the scope of patent application, wherein the base, the cover and the base plate are respectively provided with fixing holes, and each of the relative fixing holes is provided with a screw for positioning. For example, the electromechanical control system for the up and down stroke position of the electric rolling door described in the first item of the scope of patent application, wherein the sensing module is an absolute position potentiometer, and when the door panel is going up or down, the transmission gear, the central shaft and the magnetic pole are together Rotate more than ten times. For example, the electromechanical control system for the up and down stroke position of the electric rolling door described in the first item of the scope of patent application, wherein the number of teeth of the internal gear ring is more than three times the number of teeth of the transmission gear.

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