Active brake release device attached to the exterior of a door controller

Abstract

This invention relates to an active brake release device attached to the exterior of a door controller, comprising: a first electromagnet, in which a sliding portion can slide to activate a sliding bar when the electromagnet is energized for magnetic excitation; a first and a second actuator, in which the first actuator is located to abut against the break release bar of the door controller, and a sliding pin of the first actuator is yielding biased in the anti-activation direction of the bar; and, the second actuator is limited by a limit means at a fixed position; a second electromagnet, which is used to release the second actuator when it is energized for magnetic excitation; a circuit, which includes a limit-switch and provides instant power to the first electromagnet during the resetting of the device; and a capacitor, which is used to temporarily supply power to the second electromagnet in unexpected electricity failure. Thus, in the instant of unexpected electricity failure, the device will actively release the brake by mechanical force, and shut off the safety door by sliding down with its own weight.

Description

BRIEF DESCRIPTION OF DRAWINGS

The invention will be more clearly understood by the detailed description of the following embodiments in conjunction with the accompanied drawings, wherein:

FIG. 1 a shows the conventional brake device for the non-failsafe door controller, wherein the irrelevant components have been omitted.

FIG. 1 b shows the brake control device on the back of FIG. 1a, wherein the irrelevant components have been omitted.

FIG. 2 a is a perspective view of the active brake release device attached to the exterior of a door controller, wherein the other components have been omitted.

FIG. 2 b is a perspective view of the structure on the back of FIG. 2a, wherein the other components have been omitted.

FIG. 3 shows a schematic plane view of the active brake release device attached to the exterior of a door controller according to the present invention, wherein the device is shown at the braked state.

FIG. 4 shows a schematic plane view of the active brake release device attached to the exterior of a door controller according to the present invention, wherein the device is shown at the braked state.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

Firstly, the safety door of the present invention, such as the winding door lifting in the vertical direction or winding in the horizontal direction, is used as the safety door or the emergency door. The technical features of the invention will be further explained by the following embodiments. The embodiment is a preferred illustration only, should not be considered as a limitation of the application range of the present invention, which could be best appreciated by referring the drawings in conjunction with the following detailed description.

FIGS. 2 a and 2b show perspective view of the linking relationship between the active brake release devices attached to the exterior of the door controller and the door controller brake device according to the present invention. FIGS. 3 and 4 show the schematic plane views of the linking relationship between the active brake release device attached to the exterior of the door controller and the door controller brake device according to the present invention; wherein, FIG. 3 illustrates the braking state, and FIG. 4 illustrates the brake release state. For the convenience of description, the door controller (90) is represented only in imaginary lines, and the other irrelevant components have been omitted.

The active brake release device (1) attached to the exterior of the door controller according to the present invention comprises:

a door controller (90), having a braking device (91), which employs a break release rod 92 to activate the brake or release the brake; in which, one end of the brake release bar (92) is extended outwardly. Normally, when the door controller (90) is energized to operate, the electromagnet (93) is also energized for magnetic excitation at the same time, so as to activate the brake release bar (92) by the sliding portion (93a) of the electromagnet (93) to release the brake, and, the device will turn into at the braking state in de-energized condition;

a base plate (10), attached to the exterior of the door controller (90) by a plurality of supporting frames (12);

a first electromagnet (20), provided at a fixed point on the base plate (10), having a sliding portion (21) at one end, which is attracted to the side of the first electromagnet (20) during excitation;

a first actuator (40), one end of which being fixed to one side of the sliding portion (21) and linked with the sliding portion (21), and the other end of which being provided with a pulley (41) at the position abutted against the brake release bar (92);

a second actuator (50), one end of which being fixed to another side of the sliding portion (21) and also activated by the sliding portion (21), and the other end of which being formed with a notch on one side of the end to form a cut-off portion (51), and forming a guide portion (52) on the opposite side of the end guiding toward the notch direction;

a sliding bar (30), which could be guided by a pair of L-shaped guide plates (31, 31′) for sliding, and being located on the opposite side of the sliding portion (21) of the first electromagnet (20), one end (30a) of said sliding bar (30) being connected with the sliding portion (21) through an axle pin (32), and the exterior of the other end being penetrated with a spring located between the pair of L-shaped guide plates (31, 31, and compression stroke of the spring 36 is limited by an insert pin (33) on the sliding rod (30);

a limit member (60), having an U-shaped structure, being provided with an accommodation space (60, one end of which being pivoted on the base plate (10) through an axle pin (65) to swing, and the other end of which being a free end and penetrated with a sliding pin (61) in the vertical direction, and the outside of said one end of the sliding pin (61) being provided with a pulley (61a) located between the ends of the free ends of the limit means (60), and the other end of the sliding pin (61) being penetrated through the guiding slot (11) on the base plate (10) to form an extending end (61b), so that the sliding pin (61) is guided in the guiding slot (11) for sliding. A spring is constructed with one end hooked on the end of the sliding pin (61), and the other end hooked on the L-shaped guide plate (31), so that the free end of the limit means (60) is yielding biased with the trend constantly turning toward the direction of the second actuator (50), and, at the same time, the pulley (61a) on the sliding pin (61) is located at the position where the cut-off portion (51) of the second actuator (50) abuts against the guide portion (52).

a second electromagnet (70), as a low voltage electromagnet, being fixed on the back of the base plate (10), and having a sliding bar (71) located at a position to abut against the extended end (61b) of the sliding pin (61), being used to push the sliding pin (61) sliding toward the direction against the action of the spring (66) during energized state of said second electromagnet (70); and

a circuit, comprising a limit-switch (80) for supplying power to the first electromagnet (20) at the moment of resetting the device (1); and, a capacitor (not shown in the diagram), for temporarily supplying power to the second electromagnet (70) in the event of an unexpected electricity failure.

According to the present invention, the second actuator (50) is further provided with a contact wheel (53) which is located at the position to pressed against the contact arm (81) of the limit-switch (80). When the device (1) is not reset, the contact wheel (53) is pressed against the contact arm (81) of the limit-switch (80) so as to make the circuit of the first electromagnet (20) closed (as shown in FIG. 4). Under the normal circumstance, when the device (1) is reset, the circuit will supply power to the first electromagnet (20) immediately through the circuit of the limit-switch (80), and activates the first actuator (40), the second actuator (50) and the sliding bar (30) sliding toward to the direction of the first electromagnet (20) at the instant of excitation. At this moment, the pulley (61a) of the sliding pin (61) on the fastener (60), due to the guiding effect of the guide portion (52) of the second actuator (50), will slide into the cut-off portion (51), and locking the end of the second actuator (50) in the accommodation space (60 (as shown in FIG. 3). At the same time, when the first electromagnet (20) is energized for the sliding portion (21) to slide, the contact wheel (53) on the second actuator (50) will immediately leave the contact arm (81) of the limit-switch (80), resulting in the open circuit of the first electromagnet (20). On the other hand, when the second actuator (50) is locked by the limit means (60), the pulley (41) of the first actuator (40) is located at the non-contact position abutted against the brake release bar (92). At the same time, the sliding bar (30) is yielding biased by the spring (36) so that the bar (30) have the inclination of sliding in opposite to the sliding direction of the sliding portion (21).

According to the present invention, the capacitor in the circuit stores the electricity under normal circumstances. In an event of unexpected electricity failure, no matter what the reason is, it will temporarily supply low voltage power to the second electromagnet (70). As indicated by the arrow in FIG. 4, when the second electromagnet (70) is energized, the sliding rod (71) will push the sliding pin (61) to sliding, resulting in the limit means (60) swinging in the direction against the action of the spring (66) to release the second actuator (50). At this time, the spring (36) on the sliding pin (30) is released, resulting in the sliding of the sliding pin (30) together with the sliding of the sliding portion (21) of the first electromagnet (20), the first actuator (40) and the second actuator (50) toward the direction of extending the spring (36); at the same time, making the pulley (41) on the other end of the first actuator (40) pushing the brake release bar (92) swinging toward the braking direction to release the brake, so that the safety door will be fallen due to its own weight, and shut off.

In conclusion, the active brake release device attached to the exterior of a door controller according to the present invention can easily convert the door controller on a safety door from the non-failsafe system to the failsafe system, and actively shut off the safety door in the event of any unexpected electricity failure. The present invention could make the fire safety protection more actively, which make it an innovative, progressive and commercial viable invention.

EXPLANATION OF MAIN COMPONENTS

• 1 Active Brake Release Device
• 10 Base Plate
• 11 Guiding Slot
• 12 Supporting Frame
• 20 First Electromagnet
• 21 Sliding Portion
• 30 Sliding Bar
• 31 Guide Plate
• 31 Guide Plate
• 32 Axle Pin
• 33 Insert Pin
• 36 Spring
• 40 First Actuator
• 41 Pulley
• 50 Second Actuator
• 51 Fastener
• 52 Guide Portion
• 53 Contact Wheel
• 60 fastener
• 60 space for accommodation
• 61 Sliding Pin
• 61 a pulley
• 61 b Extended End
• 65 Axle Pin
• 66 Spring
• 70 Second Electromagnet
• 71 Sliding Bar
• 80 Limit-Switch
• 81 Contact arm
• 90 Door controller
• 91 Brake device
• 92 Brake release bar
• 93 Electromagnet
• 93 a Sliding portion

Claims

1. An active brake release device (1) attached to the exterior of a door controller used to actively shut off the safety door in unexpected electricity failure, wherein said device (1) comprises at least: a door controller (90) for winding the door, which activates the brake through a brake device (91), and which releases the brake by a brake release bar (92) extending outwardly;a first electromagnet (20), which is fixed on a base plate (10) and placed on the exterior of the door controller (90), for activating a sliding portion (21) during excitation;a first actuator (40) and a second actuator (50), which are linked to the sliding portion (21), in which the first actuator (40) is abut against the brake release bar (92), and the second actuator (50) having a cut-off portion (51);a sliding bar (30), located on the opposite side of the first electromagnet (20), one end of which is connected with the sliding portion (21), and the other end of which is yieldingly biased by a spring (36);a limit means (60), one end of which is pivoted on the base plate (10) to swing, and the other end of which is vertically penetrated with a sliding pin (61) and is yielding biased by a spring (66), used to limit the cut-off portion (51) of the second actuator (50) at a fix point;a second electromagnet (70), comprising a sliding bar (71) located at the position pressed against the sliding pin (61), for pushing the sliding pin (61) to slide in the opposite direction when galvanized;a circuit, which includes a limit-switch (80) and supplies power to the first electromagnet (20) at the moment of resetting the device (1); anda capacitor, which temporarily supply power to the second electromagnet (70) in the event of unexpected electricity failure.

2. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 1, wherein said sliding bar (30) is guided by a pair of L-shaped guiding plates (31, 31 for sliding, and said spring (36) is penetrated outside the on the bar (30) and between said two guiding plates (31, 31.

3. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 1, wherein one end of said first actuator (40) is fixed on one side of said sliding portion (21), and the other end is provided with a sliding wheel located at the position to press against the side of the brake release bar (92).

4. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 3, wherein one end of said second actuator (50) is fixed on the other side of the sliding portion (21), and one side of the other end is formed with a cut-off portion (51), and the opposite side of the end is formed with a guide portion (52).

5. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 4, wherein said limit means (60) is a U-shaped structure, and said sliding pin (61) is penetrated with a pulley (61a) and accommodated in both ends of the limit means (60), and both are used to abut against the cut-off portion (51) and the guide portion (52) of said second actuator (50).

6. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 5, wherein the sliding pin (61) further includes an extended end (61b), which passes through the guiding slot (11) formed on the base plate (10), and is guided in the guiding slot (11).

7. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 1, wherein the second actuator (50) is further configured with a contact wheel (53) at the position pressed against the contact arm (81) of the limit-switch (80).

8. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 7, wherein the contact wheels (53) is pressed against the contact arm (81) of the limit-switch (80) during non-reset of the device (1), so as to close the circuit of the first electromagnet (20).

9. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 8, wherein, at the moment of excitation of the first electromagnet (20), the contact wheels (53) will leave the contact arms (81) of the limit-switch (80), resulting in the opening of the circuit of the first electromagnet (20).

10. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 9, wherein the second electromagnet (20) is a low voltage electromagnet.

11. An active brake release device (1) attached to the exterior of a door controller as claimed in claim 1, wherein the safety door is either a fire door or an emergency door.