JP2557207Y2 - Shutter brake control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application field] The present invention relates to a shutter brake control device in a garage, a building, or the like. [Prior art] Conventional equipment winds a cable by a DC motor, releases a brake, lowers a shutter by its own weight, and releases a cable by a person operating a switch to release a clutch, and activates a brake. To stop the lowering of the shutter. [Problems to be solved by the invention] However, in this case, it was not possible to stop the lowering of the shutter until a person operated the switch, which prevented the escape of the person trapped by the shutter in an emergency and was dangerous. . The present invention eliminates such a drawback, and automatically stops descending when the shutter descends to an arbitrary position. [Means for Solving the Problems] In the present invention, the brake release lever 2 is fitted to the frame 1 so as to slide, and one end of the brake release lever 2 is connected to the brake lever 3 linked to the brake mechanism of the shutter. The drive gear 10 driven by the gear motor 17 is provided with pins 13 and 14 which are alternately engaged with and lock the notches 12 of the brake release lever 2 so as to face one end thereof. A spring 15 repels the brake in the direction of actuating the brake, and the brake release lever 2 is engaged with a return microswitch 9. When the brake release lever 2 returns to the previous position, the return microswitch 9 engages with the gear motor 17. And stop the drive gear 10
Has a switch cam that engages the micro switch 18 for operation.
19 is provided, and a return limit switch 20 is provided in conjunction therewith when the shutter 6 is lowered to a predetermined position. [Operation] The turning on of the start switch S causes the gear motor 17 to rotate, and the rotation of the gear motor 17 causes the switch cam 19 to rotate.
Turns on the micro switch 18 for operation to continue its rotation, activates the drive gear 10 and when the pin 13 is disengaged from the notch 12 of the brake release lever 2, the elastic force of the spring 15 causes the brake release lever 2 to release the brake. After releasing the brake and releasing the brake, the gear motor 17 rotates and the switch cam 19
Activates the micro switch 18 for operation to turn it off, cuts off the current of the gear motor 17, stops the gear motor 17, stops the drive gear 10, and interlocks with the return limit switch when the shutter 6 is lowered to a predetermined position. 20
Is turned ON to operate the drive gear 10 and brake release lever 2
Is returned to the position before the operation, the brake of the shutter 6 is operated, and the gear motor 17 is stopped when the brake release lever 2 returns to the previous position. [Embodiment] As shown in FIG. 1A, a brake release lever 2 is fitted to a U-shaped frame 1 so as to slide. One end of the brake release lever 2 is bent downward, and a bolt 5 opposed to the bolt 4 at one end of the brake lever 3 is screwed into this bent portion so as to be adjusted. This brake lever 3 is
In conjunction with a brake mechanism (not shown) of the shutter 6 shown in the figure, the shutter 6 is repelled by a return spring (not shown) in a direction to operate the brake. The brake release lever 2 is provided with a trapezoidal cutout portion 12, and the frame 1 is provided with a return microswitch 9 having an operating portion 9a which is turned on and off by engaging with a right slope 12a of the cutout portion 12. . When the brake release lever 2 returns to the previous position, the return micro switch 9
It is for stopping 17. A drive gear 10 is pivotally connected to the lower surface of the frame 1 by a shaft 11. The drive gear 10 has a pair of pins 13 and 14 which engage with the notches 12 of the brake release lever 2 and lock the same alternately. Is planted at an axisymmetric position. The brake release lever 2 has its notch 12 formed by a pair of tension springs 15,15.
Are repelled in the direction of engagement with the pins 13 and 14 (to the right in FIG. 1). The drive gear 10 is connected to a DC 24 V DC gear motor 17 fixed on the frame 1 via a pinion 16. The shaft 11 has an operating portion 18 of a micro switch 18 for operation.
The switch cam 19 engaging with a is fixed. As shown in FIG. 2, at a position where the shutter 6 is to be stopped, a return limit switch 20 which engages with the shutter 6 at that position is provided. This return limit switch 20 may be provided at a position where it engages with nut bodies 23, 23 screwed into a screw 22 interlocking with a winding shaft 21 of the shutter 6, as shown in FIG. 2 (b). . FIG. 3 shows an electric circuit of the interlocking controller 24 for operating the apparatus, where S is a start switch, and 25 is an interlocking controller 24.
A power supply switch 26 is provided for connecting the DC motor E to the power supply switch when the polarity of the DC power supply E is changed so that the rotation direction of the gear motor 17 does not change. 27 is an operation confirmation light. Next, the operation of this device will be described. When closing the shutter 6, when the manual or emergency start switch S is turned on, the DC power from the 24V DC power source E passes through the OFF contact of the limit switch 20 for return and the ON contact of the micro switch 18 for operation in FIG. The current flows through the gear motor 17, the current flows through the gear motor 17, and the gear motor 17 rotates clockwise and rotates the gear motor 17 so that the switch cam 19 turns on the operating micro switch 18 to continue the rotation, and meshes with the pinion 16. The driving gear 10 is rotated left (in the direction of arrow A in FIG. 1 (b)). As a result, the drive pin 13 attached to the drive gear 10
Is disengaged from the notch 12 of the brake release lever 2, and the brake release lever 2 is pushed out in the direction of the arrow B in FIG. 1 (b) by the force of the springs 15, 15, and the return microswitch 9 is turned off and the brake release lever 2 is turned off. 5 pushes the bolt 4 of the brake lever 3 rightward in FIG. 1 (a) to release the brake of the shutter 6. As a result, the shutter 6 is lowered by its own weight. Even after the brake is released, the gear motor 17 continues the left rotation of the drive gear 10, and the switch cam 19 attached to the shaft 11 of the drive gear 10 turns off the micro switch 18 for operation, thereby turning off the power of the gear motor 17. The drive gear 10 stops. When the operation micro switch 18 is turned off, an operation signal a is returned to the interlocking controller 24. When the operation micro switch 18 is turned off, the operation confirmation lamp 27 is turned on to indicate that the shutter 6 is lowered. Thus, when the shutter 6 is lowered to the predetermined position, the return limit switch 20 is turned on, and the power is supplied to the gear motor 17 through the return micro switch 9 which is turned off by the return signal b, and the DC gear motor 17 operates as described above. The drive gear 10 further rotates clockwise from the completed position, and the drive gear 10 meshing with the pinion 16 rotates counterclockwise in the direction of arrow A. When the drive gear 10 rotates to the left, the drive pin 14 attached to the drive gear 10 pushes the brake release lever 2 back in the direction of the arrow C in FIG. Return to the position. As a result, the bolt 4 of the brake lever 3 returns to the position before actuation, and the shutter 6 is braked. In this state, the shutter 6 is lowered halfway and stopped, so that a person can safely escape under the shutter 6 while preventing the intrusion of smoke above. When the brake release lever 2 is completely pushed back in the direction of the arrow C, the slope 12a of the notch 12 is disengaged and the return microswitch 9 is turned on, so that the power supply E supplied to the DC gear motor 17 is cut off. Then, the left rotation of the drive gear 10 is stopped, and the automatic return to the state before the operation is reliably performed. Therefore, after that, if the return limit switch 20 is turned off and the start switch S is pressed again, the shutter 6 can be lowered in the same manner as described above. [Effects of the Invention] In the present invention, when the shutter 6 is lowered to a predetermined position, the drive gear 10 is operated by the return limit switch 20 which is interlocked therewith, the brake of the shutter 6 is operated, and the brake release lever 2 is operated before operation. As the shutter returns to the position, it can be stopped automatically when the shutter descends to an arbitrary position. The shutter 6 descends halfway and stops, preventing the intrusion of smoke above. While escape, people can escape safely. Further, in the present invention, even if the brake release lever 2 once performs the brake release operation, it returns to the position before the operation, so the brake mechanism of the shutter is definitely operated, and the device is surely automatically returned to the next brake release operation. It can be prepared for operation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 (a) is a longitudinal sectional view of an embodiment of the present invention before and after operation, (b) is a bottom view thereof, and FIG. 2 (a) is a shutter. FIG. 3 (b) is an explanatory view of the resetting microswitch part, and FIG. 3 is an equivalent electric circuit diagram of an interlocking controller for operating this device, showing a state before and after operation. 1 ... frame, 2 ... brake release lever, 3 ... brake lever, 6 ... shutter, 17 ... gear motor,
10 ... Drive gear, 12 ... Notch, 13,14 ... Pin, 15 ...
... Spring, 9 ... Return micro switch, 18 ...
Actuating micro switch, 19 ... Switch cam, 20 ...
Return limit switch, b ... Return signal.

Claims (1)

(57) [Rules for requesting registration of utility model] The brake release lever is fitted to the frame to slide, one end of the brake release lever is opposed to one end of a brake lever that is linked to the brake mechanism of the shutter, and the brake release lever is attached to a drive gear driven by a gear motor. A pin that engages and locks the notch of the lock alternately is implanted, the brake release lever repels in the direction to activate the brake by the spring, and the brake release lever engages the return microswitch. The return micro switch stops the gear motor when the brake release lever returns to the previous position, and the drive gear has a switch cam that engages with the operation micro switch, and when the shutter is lowered to a predetermined position. A return limit switch is provided in conjunction with this, and the gear is activated by turning on the start switch. By turning the motor and rotating the gear motor, the switch cam turns on the micro switch for operation to continue the rotation of the gear motor, and when the drive gear is activated and the pin comes off from the notch of the brake release lever, The brake release lever releases the brake due to the elasticity of the spring, the gear motor rotates even after the brake is released, the switch cam activates the micro switch for operation, turns off, stops the gear motor current and stops the gear motor, To stop,
When the shutter is lowered to the predetermined position, the return limit switch linked to it is turned on, the drive gear is operated, the brake release lever is returned to the position before operation, the shutter brake is operated, and the brake release lever is moved to the previous position. A shutter brake control device wherein the gear motor is stopped when returning.