JP2006052572A - Brake device attached opening and closing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a brake device attached opening and closing device capable of simplifying and miniaturizing a structure as a whole even if it has a brake device for braking one movement between an opening movement of an opening and closing body and a closing movement. <P>SOLUTION: A shutter curtain 20 as the opening and closing body of a fireproof shutter device is closed and moved downward by its self-weight, and it is opened and moved upward by a hand hung on sash lift members 33 and 34. The opening and closing movement of the shutter curtain 20 is made by a winding up and hanging down of winding shaft 24, and the rotation of the winding shaft 24 is transferred to a generator 51 through an accelerator 48. The generator 51 generates electricity to the generator 51 in the case the shutter curtain 20 is closed and moved, an electric circuit equipped with a generating switch means without making the generator 51 generate electricity in the case of opening and moving is constituted together with a generating device, and closing movement is decelerated caused by power generation of the generator 51. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an opening / closing device provided with a brake device for braking one of an opening movement and a closing movement of an opening / closing body, for example, a disaster prevention shutter device that forms a disaster prevention section with a shutter curtain, an entrance / exit, and the like The present invention can be used for various shutter devices including an opening shutter device that opens and closes an opening of the door with a shutter curtain, various door devices including a fire door device, and the like.

The disaster prevention shutter device and the opening shutter device include a shutter curtain that is an openable and closable body. The following Patent Document 1 relating to a disaster prevention shutter device includes a member that moves when the shutter curtain moves up and down, specifically a winding shaft that opens and closes the shutter curtain by winding and unwinding the shutter curtain. A shutter device to which a brake device is connected via a mechanical clutch device is shown. When the take-up shaft rotates to extend the shutter curtain in order to close and move the shutter curtain downward in the event of a fire, the clutch device connects the take-up shaft and the brake device so that the shutter curtain is braked. Moved to close. On the other hand, when the take-up shaft rotates to take up the shutter curtain in order for the evacuees to open and move the shutter curtain upward, the clutch device separates the take-up shaft from the brake device. Thus, the shutter curtain opens and moves without being braked.
JP 2003-310777 (paragraph numbers 0031, 0032, 0036, 0039, FIGS. 1 and 6)

  In this prior art, a mechanical clutch device is used for connecting the winding shaft and the brake device when the shutter curtain is closed and moving, and for separating the winding shaft and the brake device when the shutter curtain is opened and moved. Therefore, the shutter device is generally complicated and large.

  The object of the present invention is to make it possible to simplify the structure and reduce the overall size even when a brake device for braking one of the opening movement and closing movement of the opening / closing body is provided. An opening / closing device with a brake device is provided.

  An opening / closing device with a brake device according to the present invention is an opening / closing device with a brake device comprising a brake device for braking one of an opening movement and a closing movement of an opening / closing body that can be opened and closed. The brake device is configured by a power generation device that consumes kinetic energy of the one movement of the opening / closing body by generation of electric power.

  In this opening / closing device with a brake device, the brake device is configured by a power generation device that consumes the kinetic energy of one movement of the opening / closing body by generation of electric power, and one movement of the opening / closing body is caused by the brake function of the power generation device. Since braking is performed, according to the present invention, the structure of the opening / closing device with a brake device can be simplified and reduced in size as a whole.

  In the present invention, braking the one movement of the opening / closing body by the braking function of the power generation device may reduce the movement speed. If the one movement is an acceleration movement, the magnitude of the acceleration is determined. The braking may be performed through the entire movement process of one of the opening / closing bodies, or may be performed for a part of the entire movement process. Also good.

  Moreover, the said electric power generating apparatus can be set as arbitrary structures, if it has the function to consume the kinetic energy of said one movement of an opening-closing body by generation | occurrence | production of electric power. For example, the power generation device includes a generator for generating power by transmitting the kinetic energy of the opening and closing body, and an electric circuit that uses the generator as a power source and consumes the power generated by the power source. This electric circuit is provided with a power generation switch means for causing the generator to generate power when the one of the opening / closing bodies is moved and not causing the generator to generate power when the other is moved.

  In the present invention, the generator may be a DC generator or an AC generator. When the generator is a DC generator, the generator switch means is a diode, so that the generator can generate power when the opening / closing body is moved, and the generator can not be generated when the other is moved. .

  When the generator is one of a DC generator and an AC generator, the power generation switch means includes an operation switch operated to selectively open and close the electric circuit. By doing so, it is possible to cause the generator to generate power during the one movement of the opening / closing body and not to cause the generator to generate power during the other movement.

  This operation switch may be a make contact type switch or a break contact type switch, and may be any switch that can be closed or closed when the one of the opening / closing bodies is moved. The operation switch can be disposed at any position, and the operation switch can be disposed on a handle member, a gripping member, or the like provided on the opening / closing body itself in order to open / close the opening / closing body. Then, by making the operation switch a break contact type switch, it is closed during the movement of the one of the opening / closing body, and the handle member, the gripping member, etc. are touched by hand to cause the opening / closing body to move the other. It is also possible to open the operation switch with this hand.

  In addition, an electric component for consuming electric power is provided in the electric circuit that uses a generator as a power source and consumes electric power from the power source. The electric component may be a resistor or an electromagnetic relay. In addition, this electrical component may be a component for notifying the surroundings that the open / close body is performing the one movement, for example, a notification component such as a display lamp or a buzzer, and other than these components. Furthermore, two or more types of electric components for consuming electric power may be used. When two or more types of electric components for consuming electric power are used, when one type of electric component is used as a resistor, the other type of electric component is used by this resistor. It is good also as heat dissipation means, such as a fan for radiating the heat | fever generated when consumed.

  Further, when a resistor is provided as an electric component that consumes power in the electric circuit, the resistor is preferably a variable resistor that can change the electric resistance value. According to this, since the power generation amount of the generator, in other words, the braking force by the generator can be changed, the speed of the one movement of the opening / closing body can be adjusted.

  In order to maximize the braking force by the generator, the electrical circuit may be short-circuited between the terminals of the generator stator without providing an electrical component in the electrical circuit.

  Further, in the case where the moving force of the opening / closing body is transmitted to the generator via the moving force transmission path, this moving force transmission path may be directly transmitted to the generator without increasing the moving speed of the opening / closing body. Alternatively, a speed increasing device for increasing the moving speed of the opening / closing body and transmitting it to the generator may be provided in the moving force transmission path.

  According to the latter, since the rotational speed of the rotor of the generator can be increased even if the moving speed of the opening / closing body is slow, the problem that occurs when the rotational speed of the rotor is slow, that is, the braking force is reduced due to a significant decrease in power generation efficiency. It is possible to prevent the occurrence of the problem of significant reduction.

  The structure of the speed increasing device is arbitrary. For example, it may be a gear train, a belt and pulley, or a chain and sprocket.

  Further, the electric circuit includes a speed detecting means for detecting the speed of the one movement of the opening / closing body, a control means for inputting a signal from the speed detecting means, and the one of the opening / closing bodies detected by the speed detecting means. There may be provided a change-over switch means that is controlled to selectively switch the electric circuit between an open circuit and a closed circuit by the control means according to the moving speed.

  According to this, when the acceleration force is applied to the one movement of the opening / closing body, the control means switches the changeover switch when the speed of the one movement of the opening / closing body reaches a predetermined high speed to be decelerated. The electric circuit is closed and controlled by switching means, thereby generating power in the generator and generating braking force to reduce the speed of the one movement of the opening / closing body in the generator, When the speed of the one movement of the opening / closing body decreases to a speed lower than a predetermined value, the control means controls the changeover switch means to open the electric circuit, thereby stopping the power generation of the generator, The speed of the one movement of the opening / closing body can be increased. As a result, the speed of the one movement of the opening / closing body that is decelerated can be set to a speed within a certain range or a constant speed.

  Further, the electric circuit is configured such that a plurality of power consuming means having different power consumption values and one of these power consuming means are selectively used as the generator according to the speed of the one movement of the opening / closing body. Selection switch means to be connected may be provided.

  According to this, the selection switch means selects the power consuming means connected to the generator according to the speed of the one movement of the opening / closing body, and the speed of the one movement of the opening / closing body is not less than a predetermined value. If the selection switch means is switched from a power consuming means having a large power consumption value to a power consuming means having a small power consumption value, the speed of the one movement of the opening / closing body can be slowed. Further, when the speed of the one movement of the opening / closing body becomes lower than a predetermined value, the selection switch means switches from a power consuming means having a small power consumption value to a power consuming means having a large power consumption value, thereby opening and closing the switch body. It is also possible to increase the speed of the one movement of the body. Thereby, the speed of said one movement of the opening-closing body performed by decelerating can be made into a predetermined speed.

  Such selection switch means may be arbitrary, and an example thereof is an electromagnetic relay. This electromagnetic relay may be supplied with electric power for switching operation of the switch unit from a unique power source, or may be switched with electric power generated by the generator. When the electromagnetic relay is the former, based on a signal from the speed detection means for detecting the speed of the one movement of the opening / closing body and a signal from the speed detection means, power is supplied from the original power source to the coil portion of the electromagnetic relay. Control means for controlling the supply, and when the speed detected by the speed detection means becomes higher than a predetermined value, the control means supplies power from the unique power source to the electromagnetic relay, and switches the electromagnetic relay The unit switches the power consuming means connected to the generator from a power consuming means having a large power consumption value to a power consuming means having a small power consumption value.

  In the above, each power consuming means having different power consumption values may be composed of a charge load component such as one resistor, lamp, motor, electromagnet or the like, or may be composed of a combination of a plurality of charge load components.

  The present invention described above can be applied to any opening / closing device with a brake device. For example, the present invention can also be applied to a shutter device having an opening / closing body as a shutter curtain, and can also be applied to a door device having an opening / closing body as a door. .

  The shutter device may be a disaster prevention shutter device (including a disaster prevention shutter device for elevators) that forms a disaster prevention section by closing and moving the shutter curtain for disaster prevention when a disaster such as a fire occurs, and shutters openings such as doorways and windows An opening shutter device that opens and closes the curtain, a garage shutter device, a shutter device installed in a truck bed or a container, or the like may be used.

  The door device may be a disaster prevention door device in which the disaster prevention door is closed and rotated when a disaster such as a fire occurs, or may be a door device such as a front door.

  In the case where the opening / closing device with a brake device is a shutter device, all or the main part of the shutter curtain may be formed of a sheet, may be formed of a plurality of continuous slats, or may be formed of a net. May be formed by connecting a plurality of panels, may be formed by a plurality of pipes and a link connecting these pipes, and may be a composite of at least two of these. It may be formed.

  Further, the opening / closing movement direction of the shutter curtain may be the vertical direction, the left / right direction, or a direction inclined with respect to these directions.

  When the shutter curtain opening / closing movement direction is the vertical direction, the downward movement may be a closing movement, the upward movement may be an opening movement, the downward movement may be an opening movement, and the upward movement The movement may be a closed movement.

  Furthermore, the one movement of the shutter curtain that generates electric power in the generator and consumes kinetic energy may be a closed movement or an open movement. When this one movement is a closed movement, the time until the shutter curtain reaches the fully closed position can be lengthened by the braking force generated by the generator, so that the shutter curtain is opened and closed accordingly. The time for passing through the place or the time for evacuating from the place opened and closed by the shutter curtain can be lengthened. This effect is particularly effective when the shutter device is the above-mentioned disaster prevention shutter device.

  In addition, when the closing movement of the shutter curtain is a downward movement, the principle for the closing movement may be arbitrary. One example is a self-weight closing type in which the closing movement is performed by the weight of the shutter curtain. It is.

  Thus, when the shutter curtain is a self-weight closed shutter curtain, detection switch means that is closed by a self-weight closed shutter curtain that moves the electric circuit from the fully open position to a predetermined height position is provided. It is preferable that the generator be generated by closing the detection switch means.

  According to this, while the shutter curtain is closed and moved from its fully open position to a predetermined height position by its own weight, the detection switch means is open and no braking force is generated by the generator. The shutter curtain closing movement speed until reaching the height position can be increased. For this reason, even if the shutter curtain closing movement speed subsequently decreases due to the braking force of the generator, the entire time until the shutter curtain reaches the fully closed position from the fully open position while ensuring a sufficiently long passage time, etc. Can be shortened.

  The structure for opening and closing the shutter curtain is arbitrary, and an example thereof is to open and close the shutter curtain by winding and unwinding a winding shaft that can rotate forward and reverse. In this case, the generator can be connected to the winding shaft. As is apparent from the description of the moving force transmission path, this connection may be made directly without interposing a speed increasing device or the like, or may be made with an interposing speed increasing device.

  The winding shaft may be of any structure, for example, a hollow or solid shaft or a plurality of shafts coupled in the axial direction, or a non-rotating central shaft and its center It may be arranged on the outer periphery of the shaft so as to be rotatable, and may include a rotating body for winding and unwinding the shutter curtain. And this rotary body may be comprised etc. including the wheel arranged apart in the direction of an axis in the perimeter of a central axis, and the connecting member which connects these wheels, and this connecting member, A plurality of bar-shaped members arranged in the circumferential direction may be used, or a pipe-shaped member in which each wheel is housed may be used.

  Also, in order to transmit the closing movement of the shutter curtain to the generator and generate this generator, even if the opening and closing movement of the shutter curtain is performed by winding and unwinding of the winding shaft, For example, a rotating member that rotates on the principle of a gear type by a guide rail that guides the opening and closing movement of the shutter curtain is provided on the seat plate portion of the shutter curtain, even if the rotation is performed by different methods. May be generated by transmitting to the generator.

  Furthermore, the opening movement of the shutter curtain may be performed by a manual operation force, may be performed by a driving force from a driving source such as an electric motor, may be performed by the weight of a balance weight, and at least two of these. It may be done in two composites.

  Further, the shutter device is provided with an elastic member such as a return spring that accumulates the return elastic force when the shutter curtain is closed, and the shutter curtain is opened using the return elastic force as an auxiliary force. Also good. According to this, the closing movement speed of the shutter curtain can be reduced by the amount by which the return elastic force is accumulated during the closing movement of the shutter curtain. When this elastic member is a spring, this spring may be an arbitrary one such as a torsion coil spring or a mainspring spring.

  In the present invention described above, the generator may be used as an electric motor for causing the other movement of the opening / closing body such as a shutter curtain when the other movement is performed. For this purpose, a power source for the electric motor and switch means for selectively switching between the power source and the electric circuit are prepared, and when the other movement is made, the switch means switches the electric circuit to the power circuit. What is necessary is just to switch.

  According to the present invention, even if the opening / closing device includes a brake device for braking one of the opening movement and the closing movement of the opening / closing body, the opening / closing device has a simplified structure and a small size as a whole. Can be configured.

  EMBODIMENT OF THE INVENTION Below, the form for implementing this invention is demonstrated based on drawing. FIG. 1 is a front view showing the entirety of a shutter device serving as an opening / closing device with a brake device according to an embodiment of the present invention. 2 is a cross-sectional view taken along line S2-S2 of FIG. 1, and FIG. 3 is a vertical cross-sectional view of the shutter device. This shutter device is a disaster prevention shutter device for elevators, and this disaster prevention shutter device for elevators is located on the front side of the elevator door 2 as viewed from the elevator hall 1 as shown in FIGS. The shutter curtain 20 is moved up and down.

  The elevator lifting / lowering box 4 that moves up and down in the vertical hole 3 in the building shown in FIGS. 2 and 3 stops at each floor of the building where the disaster prevention shutter device for the elevator is installed, and is shown in FIG. As described above, an indicator 5 for displaying the current position of the lifting box 4 and the like is installed in the upper part of the elevator door 1 in a case 7 attached to the ceiling member 6 in a suspended state. Since the two left and right elevator doors 2 are guided by the upper and lower guide members 8 and 9 shown in FIG. 3 and can be opened and closed left and right, the elevator door 2 on the floor where the lifting box 4 is stopped is It opens and closes with the driving force of a driving device (not shown).

  As shown in FIG. 2, guide rails 21 in which both end portions in the width direction which is the left and right direction of the shutter curtain 20 are slidably inserted are attached to the left and right side walls 10 on the front side of the elevator door 2. The opening and closing movement of the shutter curtain 20 is guided by these guide rails 21 extending vertically as members. Inside the guide rail 21, a retaining member 22 is attached to the shutter curtain 20, and the shutter curtain 20 opens and closes while being retained by these retaining members 22.

  In addition, a smoke shielding member 23 that comes into contact with the shutter curtain 20 is provided at an opening portion of each guide rail 21 in which the end portion in the width direction of the shutter curtain 20 is inserted. The smoke generated by the generation is prevented from passing through the gap between the shutter curtain 20 that has reached the fully closed position and the guide rail 21 and reaching the opposite side of the shutter curtain 20.

  As shown in FIG. 3, the shutter curtain 20 is wound around the ceiling space 11 partitioned by the ceiling member 6 so that the shutter curtain 20 can be moved upward, and the shutter curtain 20 is closed and moved downward. A take-up shaft 24 for feeding out the shutter curtain 20 is horizontally arranged so that the take-up shaft 24 is attached to the building housing 12 such as a falling wall existing in the ceiling space 11 as shown in FIG. The support members 25 and 26 are supported so as to be rotatable forward and backward. The ceiling member 5 is provided with a lintel 13 having a gap for vertically inserting the shutter curtain 20 between the left and right guide rails 21. The lintel 13 is also illustrated in the gap of the lintel 13. Although not provided, a smoke shielding member similar to the smoke shielding member 23 described above is provided.

  As shown in FIGS. 1 and 3, the winding shaft 24 and the support members 25 and 26 are accommodated in a shutter case 27, and the shutter curtain 20 reaches the fully open position in the shutter case 27. A locking device 29 for locking the locked member 28 attached at or near the lower end of the shutter curtain 20 is disposed. The locking device 29 has a bifurcated locking member 30 having an upper piece portion 30A and a lower piece portion 30B, and the locking member 30 is rotatable up and down. The normal locking member 30 is prevented from rotating downward in a state where the upper piece 30A and the lower piece 30B are in the horizontal posture by the stop function of the stop means incorporated in the locking device 29. At this time, since the lower piece 30B is inserted into the opening hole 28A of the locked member 28, the shutter curtain 20 reaching the fully opened position is maintained in this fully opened position by the locking action of the locking device 29. Is done.

  If a fire breaks out in a building where an emergency shutter device for elevators is installed on each floor, an operation not shown by the control device that receives the signal from the sensor that detected this fire or by a person who knows the occurrence of the fire By operating the members, the stop function of the stop means of the locking device 29 in the emergency shutter device for each elevator is released. Therefore, the shutter curtain 20 of these shutter devices is engaged by its own weight. The stop member 30 is rotated downward, and the shutter curtain 20 from which the locked member 28 is detached from the lock member 30 by this downward rotation closes and moves downward, and this closing movement is caused by winding of the shutter curtain 20 by its own weight. The shutter curtain 20 is made up of the take-up shaft 24. Unwound and reaches the fully closed position.

  As shown in FIG. 1 and FIG. 3, the shutter curtain 20 has a seat plate 31 that is a closed-side tip member, and the seat plate 31 is attached to the lower end portion. The curtain body 32 is formed by applying and / or impregnating a fire-resistant paint to a sheet having fire resistance and smoke shielding properties. The locked member 28 is attached to the seat plate 31.

  As shown in FIG. 1, the shutter curtain 20 has a handle 2 for lifting the shutter curtain 20 with a hand when the shutter curtain 20 is opened and moved upward on the side facing the elevator door 2. Types of handle members 33, 34 are provided. When the evacuees from the fire using the elevator lifting / lowering box 4 get off the lifting / lowering box 4, these handle members 33 and 34 lift the shutter curtain 20 reaching the fully closed position and pass under it. It is something that can be done. The lower handle member 33 is a U-shaped member attached downward to the seat plate 31, and the upper handle member 34 is disposed horizontally on the curtain body 32 and serves as a reinforcing member for the shutter curtain 20. A part of the rod-shaped member 35 is formed.

  The rod-shaped member 35 will be specifically described. The curtain body 32 is formed of a plurality of sheets 32A that are vertically arranged with upper and lower overlapping portions, and the overlapping portions of the upper and lower two sheets 32A are the bag portions. A rod-like member 35 having both ends inserted into the left and right guide rails 21 is inserted into the bag portion. In the overlapping portion, a plurality of cuts 36 are formed on the side facing the elevator door 2, and a part of the bar-shaped member 35 exposed from these cuts 36 serves as the handle member 34. In this embodiment, such a handle member 34 is provided on the curtain body 32 in two upper and lower stages.

  When the evacuees using the lifting / lowering box 4 lifts the shutter curtain 20 reaching the fully closed position and passes under the shutter curtain 20, first, the upper handle member of the upper and lower handle members 34 provided in two stages. 34, the shutter curtain 20 is lifted by placing a hand on it, and then the shutter curtain 20 is further lifted by placing a hand on the lower handle member 34, and the shutter curtain 20 is lifted further by placing a hand on the lower handle member 33. .

  FIG. 4 shows the internal structure of the winding shaft 24. The winding shaft 24 made of a hollow member is rotatable about the first and second central shafts 41 and 42 at both ends. The first central shaft 41 is coupled to one of the left and right support members 25, 26 so as not to rotate, and the first central shaft 41 is one of the winding shafts 24. It is inserted into a bearing member 43 coupled to the opening end. The second central shaft 42 is a shaft that rotates because it is coupled to the take-up shaft 24, and the second central shaft 42 rotates inside a bearing member 44 that is coupled to the other support member 26. It is inserted freely.

  Inside the take-up shaft 24, a rotating member 45 coupled to the take-up shaft 24 and rotating integrally with the take-up shaft 24 is incorporated, and a return spring 46 is connected to the rotary member 45 and the first central shaft 41. Both ends are connected. As described above, the return spring force stored in the take-up shaft 24 accumulates the return spring force when the take-up shaft 24 is rotated forward in order to extend the shutter curtain 20 downward. The shutter curtain 20 reaches the fully closed position while accumulating the return spring force.

  As described above, when the shutter curtain 20 that is closed and moved by its own weight reaches the fully closed position, when the shutter curtain 20 is lifted by the handle members 33 and 34, the winding shaft 24 returns. Since the shutter curtain 20 is wound up by reverse rotation with the accumulated return spring force of the spring 46, the lifting of the shutter curtain 20 by the handle members 33 and 34 is assisted by the return spring force. A person can lift the shutter curtain 20 lightly with a small force and pass under it.

  When the shutter curtain 20 is returned to the fully open position after the shutter curtain 20 is fully closed for evacuation training or the like, the shutter curtain 20 is lifted to a fully open position by a large force. As a result, the upper surface of the locked member 28 comes into contact with the lower surface of the upper piece 30A of the locking member 30 that has been rotated downward as described above, and the locking member 30 is brought into contact therewith. Rotates upward and returns to a horizontal posture, and the lower piece 30 is inserted into the opening 28A of the locked member 28. At this time, since the stop function of the stop means of the locking device 29 has been recovered, the shutter curtain 20 is stopped at the fully opened position by the locking member 30 that has returned to the horizontal posture, and all of the shutter curtains 20 start to close. Return to the previous state.

  Further, in the disaster prevention shutter device for an elevator according to the present embodiment, as shown in FIG. 1, when the shutter curtain 20 in the fully open position is lowered to a predetermined height position, the shutter curtain is provided. A detection switch 47 actuated by 20 is provided. In this embodiment, the detection switch 47 is housed in one of the left and right guide rails 21 and is closed by a shutter contact 20 that has been lowered to a predetermined height position. When the shutter curtain 20 returns to a high position exceeding the predetermined height position, the detection switch 47 is opened. The detection switch 47 may be arranged outside the guide rail 21.

  As shown in FIG. 4, a speed increasing device 48 is attached to the support member 26 on the side of the second central shaft 42 that rotates integrally with the winding shaft 24 among the left and right support members 25 and 26. It has been. The speed increasing device 48 is, for example, a gear train in which a plurality of gears are engaged, and the second central shaft 42 is connected to the input shaft of the speed increasing device 48. A rotor of a generator 51 attached to the speed increasing device 48 is connected to the output shaft of the speed increasing device 48. For this reason, the speed increasing device 48 is interposed in the rotational force transmission path, which is the moving force transmission path connecting the winding shaft 24 and the generator 51, and the winding shaft 24 winds and feeds out the shutter curtain 20. Therefore, this rotation is input to the speed increasing device 48 through the second central shaft 42, and is accelerated by the speed increasing device 48 and transmitted to the rotor of the generator 51. It rotates at a higher speed than the shaft 24.

  FIG. 5 shows an electric circuit 52 connected to a stator where the power generated by the generator 51 is generated. In the electric circuit 52, the detection switch 47, the diode 53, and the variable resistor 54 are connected in series to the generator 51. The generator 51 is a DC generator, and therefore the electric circuit 52 is a DC circuit. When the winding shaft 24 performs the forward rotation by the shutter curtain 20 closing and moving downward, the diode 53 is generated by the generator 51 in which the forward rotation is transmitted to the rotor via the speed increasing device 48. In other words, when the winding shaft 24 performs the reverse rotation, the generator 51 is driven by the diode 53 when the direct current from the generator 51 is set to flow through the electric circuit 52. Does not generate electricity.

  For this reason, the diode 53 causes the generator 51 to generate power during the forward rotation of the winding shaft 24 in which the shutter curtain 20 is closed and moved, and does not cause the generator 51 to generate power during the reverse rotation of the winding shaft 24 in which the shutter curtain 20 is opened and moved. Power generation switch means.

  In this embodiment, the DC generator 51 and the electric circuit 51 including the detection switch 47, the diode 53, and the variable resistor 54 constitute the power generation device 50.

  As described above, when the shutter curtain 20 in the fully open position closes and moves downward due to the occurrence of a fire, the forward rotation of the winding shaft 24 is transmitted to the rotor of the generator 51 via the speed increasing device 48. . The detection switch 47 is open until the shutter curtain 20 that has started the closing movement reaches the position where the detection switch 47 is disposed. Therefore, the generator 51 does not generate power, and therefore the generator 51 does not serve as a brake device. The self-closing shutter curtain 20 decelerates by the amount of pressure accumulated in the return spring 46, but when this is removed, the shutter curtain 20 closes and moves at a speed based on the weight of the shutter curtain 20. When the shutter curtain 20 is lowered to the position where the detection switch 47 is disposed, the switch 47 is closed by the shutter curtain 20, and thereafter, the generator 51 starts power generation.

  For this reason, the kinetic energy of the closing movement of the shutter curtain 20 thereafter is, more precisely, a part of this kinetic energy is consumed by the power generation of the generator 51 and accumulating the return spring 46. In other words, the electric power generated by the generator 51 as a power source is consumed as heat in the resistor 54 of the electric circuit 51. For this reason, the shutter curtain 20 moves while receiving a braking force from the generator 51 serving as a brake device, and the shutter curtain 20 descends at a decelerated speed and reaches the fully closed position.

  For this reason, when the shutter curtain 20 starts to close and move, even if there is a person directly under the shutter curtain 20, or as described above, a person who has evacuated from the fire by using the elevator lifting / lowering box 4 is used. Even when trying to pass right under the shutter curtain 20 at the start of the closing movement of the 20, sufficient time required to avoid the shutter curtain 20 can be secured.

  Further, as described above, when the shutter curtain 20 that has reached the fully closed position is lifted and moved by the handle members 33 and 34, the winding shaft 24 is accumulated in the return spring 46 as described above. Although the reverse rotation is caused by the return spring force, even if this reverse rotation is transmitted to the rotor of the generator 51 via the speed increasing device 48, the DC generator 51 does not generate power due to the diode 53 serving as the power generation switch means. . For this reason, when the shutter curtain 20 is opened upward, the generator 51 does not serve as a brake device, and the shutter curtain 20 can be opened and moved at a high speed by the accumulated return spring force of the return spring 46.

  As is clear from the above description, in this embodiment, the brake device for decelerating and closing the shutter curtain 20 is an electric circuit including a generator 51, a detection switch 47, a diode 53, and a variable resistor 54. 51, and the shutter curtain 20 can be decelerated and moved without being moved without using a mechanical clutch device. The overall structure can be simplified and reduced in size.

  Further, since the resistor 54 in the electric circuit 51 is a variable resistor that can change the electric resistance value, by changing the electric resistance value, the closing speed of the shutter curtain 20 that is decelerated by the power generation of the generator 51 is increased. It can be adjusted to an appropriate value. In addition, for a disaster prevention shutter device for a large span having a large width dimension of the shutter curtain 20, even if the shutter curtain 20 is heavy, the closing speed of the shutter curtain 20 can be adjusted by adjusting the electric resistance value of the variable resistor 54. Can be decelerated to an appropriate value.

  Further, since the return spring 46 that accumulates the return spring force during the closing movement of the shutter curtain 20 is disposed on the winding shaft 24, the closing movement speed of the shutter curtain 20 is reduced by the amount by which this return spring force is accumulated. it can.

  In the present embodiment, the electric circuit 52 includes a detection switch that is closed by the shutter curtain 20 when the shutter curtain 20 in the fully open position is lowered to a predetermined height position, and is open until then. 47 is provided, the shutter curtain 20 until reaching the predetermined height position can be closed and moved without generating a braking force on the generator 51. Therefore, after that, even if the braking force is generated in the generator 51 and the closing speed of the shutter curtain 20 is reduced, the total time until the shutter curtain 20 reaches the fully closed position from the fully open position can be shortened. In the event of a fire, the disaster prevention section can be formed in a short time before the elevator by the disaster prevention shutter curtain 20.

  The height position at which such a detection switch 47 is disposed is a position lower than the fully open position of the shutter curtain 20 but higher than the height of the person, and thus the shutter curtain that has started to move from the fully open position. It is preferable that the height position at which 20 starts to decelerate by the braking force generated by the generator 51 is a position higher than the height of the person. Such a height position is, for example, about 200 cm to 220 cm from the floor.

  In the present embodiment, the rotation of the winding shaft 24 is not directly transmitted to the rotor of the generator 51, and the speed increasing device 48 provided between the winding shaft 24 and the generator 51 causes the winding shaft 24 to rotate. Since the rotation is accelerated and transmitted to the rotor of the generator 51, even if the rotation speed of the winding shaft 24 when the shutter curtain 20 reaches the position where the detection switch 47 is disposed, the rotation of the generator 51 is reduced. The rotor can be rotated at a high speed. For this reason, it is possible to solve the problem that the braking force is greatly reduced due to a significant decrease in power generation efficiency, which occurs when the rotation speed of the rotor is low, and thereby the brake function of the generator 51 can be obtained more reliably. It becomes like this.

  As shown in FIG. 1, a fully closed position for detecting that the shutter curtain 20 has reached the fully closed position inside one of the pair of left and right guide rails 21 or outside the guide rail 21. A switch 49 is provided, and a signal from the fully-closed switch 49 is output to a monitoring device that monitors each disaster prevention shutter device for an elevator in the entire building, whereby the shutter curtain 20 installed on the floor is Information indicating that the fully closed position has been reached may be input to the monitoring device. Further, the fully closed switch 49 may be used for operating a notifying means for notifying a person on the floor that the shutter curtain 20 on the floor is fully closed.

  Next, another embodiment according to the present invention will be described. In the following description, the same reference numerals are used for members and devices having the same or the same functions as the members and devices described above.

  6 also includes a DC generator 51 and an electric circuit 62, and the electric circuit 62 excites the DC circuit 62A and the coil portion 63A of the electromagnetic relay 63. And an excitation circuit 62B. The DC circuit 62A is connected to the generator 51 in series with a switch unit 63B of an electromagnetic relay 63, a diode 53, and a variable resistor 54. The exciting circuit 62B includes a winding shaft rotational speed detector 64 that detects the rotational speed of the winding shaft 24 in the normal direction, a control device 65 that receives a signal related to the rotational speed of the winding shaft 24 from the detector 64, A power source (12V power source in the illustrated example) 66, and a power switch (transistor in the illustrated example) 67 that selectively supplies power from the power source 66 to the coil portion 63A of the electromagnetic relay 63, are provided.

  When the rotational speed of the forward rotation of the winding shaft 24 becomes equal to or higher than a predetermined upper limit value, the power switch 67 switches the power of the power source 66 to electromagnetic according to a signal from the control device 65 in which the upper limit value is stored. When the switch part 63B is closed by supplying the coil part 63A of the relay 63, the DC circuit 62A is closed, and when the rotational speed of the forward rotation of the winding shaft 24 is below a predetermined lower limit value, In response to a signal from the control device 65 in which the lower limit value is also stored, the power source 66 and the coil portion 63 of the electromagnetic relay 63 are disconnected to open the switch portion 63B of the electromagnetic relay 63, and the DC circuit 62A is opened. It has become a thing.

  FIG. 7 shows a flowchart for the embodiment of FIG. In this embodiment, when a fire occurs, as described above, a control device that receives a signal from a sensor that detects the fire or a person who knows the occurrence of a fire operates an operation member (not shown). Thus, when the stop function of the stop means of the locking device 29 is released and the shutter curtain 20 rotates the locking member 30 downward by its own weight, the stop mechanism of the stop means is released or locked. The take-up shaft rotation speed detector 64 and the control device 65 start to operate in response to a signal from a switch that detects the downward rotation of 30. Further, the winding shaft rotation speed detector 64 and the control device 65 end the operation by a signal from the fully closed switch 49 of FIG. 1 that operates when the shutter curtain 20 reaches the fully closed position. .

  In FIG. 7, the shutter curtain 20 that has started to move from the fully open position has not reached the fully closed position in step S <b> 1, and in step S <b> 2, the rotational speed of the winding shaft 24 is higher than the upper limit value. If the speed is slow, the process returns to step S1. In step S1, when the shutter curtain 20 reaches the fully closed position, the rotational speed of the forward rotation of the winding shaft 24 is slower than the upper limit value, so the shutter curtain 20 has a slow closing speed. To reach the fully closed position. On the other hand, when the rotational speed of the winding shaft 24 is higher than the upper limit in step S2, the power switch 67 causes the power from the power supply 66 to be supplied from the power supply 66 by the signal from the control device 65. By supplying to 63A, in step S3, the switch part 63B of the electromagnetic relay 63 is closed (the electromagnetic relay 63 is turned on), and the DC circuit 62A becomes a closed circuit. As a result, the generator 51 generates power, and the closing movement speed of the shutter curtain 20 is decelerated by the braking force of the generator 51.

  In this deceleration state, when the shutter curtain 20 reaches the fully closed position in step S4, the shutter curtain 20 reaches the fully closed position at a slow closed speed that is decelerated.

  In step S4, the shutter curtain 20 does not reach the fully closed position, and in step S5, the rotational speed of the positive rotation of the winding shaft 24 is a slow speed equal to or lower than the lower limit value for the deceleration. In response to a signal from the control device 65, the power switch 67 shuts off the power source 66 and the coil portion 63A of the electromagnetic relay 63. In step S6, the switch portion 63B of the electromagnetic relay 63 is opened (the electromagnetic relay 63 is turned off). The DC circuit 62A is opened. As a result, the power generation of the generator 51 is stopped. As a result, the closing movement speed of the shutter curtain 20 is increased, and the rotation speed of the winding shaft 24 is increased, and the process returns to step S1.

  On the other hand, in step S5, when the rotational speed of the forward rotation of the winding shaft 24 is higher than the lower limit value, the process returns to step S4.

  From the above, according to this embodiment, the shutter curtain 20 can be closed and moved at a reduced speed between the upper limit value and the lower limit value.

  In this embodiment, the DC switch 62A is selectively switched between the open circuit and the closed circuit by the control device 65 according to the closing movement speed of the shutter curtain 20 by the power switch 67 and the electromagnetic relay 63. Means 68 are configured.

  In this embodiment, the upper limit value and the lower limit value may be the same value.

  In this embodiment, the above-described detection switch 47 is arranged in series with respect to the switch unit 63B of the electromagnetic relay 63, the diode 53, and the variable resistor 54 in the DC circuit 62A of FIG. The detection switch 47 that is activated by the closing movement of the shutter curtain 20 is a diagram in which the shutter curtain 20 starts to move from the fully open position, and the rotational speed of the winding shaft 24 becomes a predetermined speed that is equal to or higher than the upper limit value. 1 may be arranged at a predetermined height position.

  According to this, even if the shutter curtain 20 starts to move from the fully opened position and the rotation speed of the winding shaft 24 reaches the upper limit speed, the shutter curtain 20 is provided with the detection switch 47. Until reaching the height position, the DC circuit 62A is an open circuit, so that the braking force by the generator 51 is not generated. For this reason, the total time until the shutter curtain 20 reaches the fully closed position from the fully open position can be shortened.

  The power generator 70 according to the embodiment of FIG. 8 is also configured to include a DC generator 51 and an electric circuit 72. In the electric circuit 72, a detection switch 47, a diode 53, an electromagnetic relay 73, and a variable resistor 74 are connected in series to the generator 51. The variable resistors 74 are in parallel with each other. The first resistor 74A and the second resistor 74B. The electric resistance values of the resistors 74A and 74B are set to be smaller in the second resistor 74B than in the first resistor 74A. These resistors 74A and 74B are two power consuming means having different power consumption values from each other in the present embodiment.

  The coil portion 73A of the electromagnetic relay 73 is energized with a current generated by the generator 51, and the switch portion 73B of the electromagnetic relay 73 at the normal time is connected to the first resistor 74A as shown in FIG. However, when the rotational speed of the positive rotation of the winding shaft 24 due to the closing movement of the shutter curtain 20 increases and the power generation amount of the generator 51 exceeds a predetermined value, the switch portion 73B is moved by the increased magnetic force of the coil portion 73B. The first resistor 74A can be switched to the second resistor 74B. Thereby, the electric power generation amount of the generator 51 becomes large, and the braking force by the generator 51 also becomes large. Further, when the rotational speed of the forward rotation of the winding shaft 24 decreases and the power generation amount of the generator 51 becomes equal to or less than a predetermined value, the switch unit 73B is switched from the second resistor 74B to the first resistor 74A. It has become. Thereby, the electric power generation amount of the generator 51 becomes small, and the braking force by the generator 51 also becomes small.

  FIG. 9 shows a flowchart in the case of the embodiment of FIG. The switch part 73B of the electromagnetic relay 73 is connected to the first resistor 74A until the shutter curtain 20 that has started to close from the fully open position reaches the height position at which the detection switch 47 is disposed in step S11. However, since the detection switch 47 is off and the electric circuit 72 is an open circuit, the generator 51 does not generate power, and the shutter curtain 20 moves without being decelerated. In step S11, the shutter curtain 20 has reached the arrangement position of the detection switch 47 (detection switch 47 is turned on). However, in step S12, the shutter curtain has not reached the fully closed position. If the amount of power generated by the generator 51 due to the normal rotation of is less than the predetermined value, the process returns to step S12. In step S12, when the shutter curtain 20 reaches the fully closed position, the switch portion 73B of the electromagnetic relay 73 is connected to the first resistor 74A, and the braking force by the generator 51 is small. 20 reaches the fully closed position with a slightly accelerated slow closing speed.

  On the other hand, when the power generation amount of the generator 51 is a large value exceeding the predetermined value in step S13, the switch part 73B of the electromagnetic relay 73 is moved from the first resistor 74A by the magnetic force of the coil part 73A in step S14. Switching to the second resistor 74B (the electromagnetic relay 73 is turned on). As a result, the power generation amount of the generator 51 is further increased, and the rotational speed of the forward rotation of the winding shaft 24 is reduced by the increase of the braking force by the generator 51, and the closing movement speed of the shutter curtain 20 is decelerated.

  In this deceleration state, when the shutter curtain 20 reaches the fully closed position in step S15, the shutter curtain 20 reaches the fully closed position at a slow closed speed that is decelerated.

  In step S15, the shutter curtain 20 does not reach the fully closed position, and the power generation amount of the generator 51 in step S16 decreases to a small value equal to or less than the predetermined value due to a decrease in the rotational speed of the winding shaft 24 in the normal rotation. In step 17, the switch 73B of the electromagnetic relay 73 is switched from the second resistor 74B to the first resistor 74A (the electromagnetic relay 73 is turned off). For this reason, the power generation amount of the power generator 51 is further reduced and the braking force by the power generator 51 is reduced, so that the rotation speed of the winding shaft 24 is increased and the closing movement speed of the shutter curtain 20 is increased. Return to step S12.

  On the other hand, when the power generation amount of the generator 51 is a large value equal to or larger than the predetermined value in step S16, the process returns to step S15.

  Therefore, according to this embodiment, the switch unit 73B of the electromagnetic relay 73 selectively selects the first resistor 74A and the second resistor for the closing movement speed of the shutter curtain 20 after the arrangement position of the detection switch 47 has passed. By switching to 74B, the shutter curtain 20 can be closed and moved to the fully closed position while setting the predetermined deceleration speed.

  Moreover, according to this embodiment, since the generator 51 is a power source for supplying power to the electromagnetic relay 73, it is not necessary to prepare a special power source unlike the embodiment of FIG.

  In this embodiment, the electromagnetic relay 73 having the switch unit 73B selectively connects the first resistor 74A and the second resistor 74B to the generator 51 in accordance with the closing movement speed of the shutter curtain 20. This is a selection switch means.

  FIG. 10 shows an embodiment in which the generator to which the rotational force of the winding shaft 24 is transmitted is an AC generator 81. For this reason, the electric circuit 82 which comprises the generator 80 with the generator 81 is an alternating current circuit.

  The electric circuit 82 includes a detection switch 47 for the generator 81, an operation switch 83 for selectively switching the electric circuit 82 between an open circuit and a closed circuit, and a variable resistance. The device 54 is connected in series. The operation switch 47 is a break contact type switch that is normally closed and opened by being operated by hand. The operation switch 84 is disposed on the handle members 33 and 34 used when the shutter curtain 20 described in FIG. 1 is opened and moved.

  Therefore, when the shutter curtain 20 is opened and moved by placing the hand on the handle members 33 and 34, the operation switch 83 is opened by this hand, whereby the electric circuit 82 becomes an open circuit and the generator 81 does not generate power. . On the other hand, when the shutter curtain 20 closes and moves by its own weight from the fully open position or the like and the shutter curtain 20 closes and moves further downward than the arrangement position of the detection switch 47, the detection switch 47 is closed and the operation switch 83 is closed. Therefore, the generator 81 generates power by the electric circuit 82 which is a closed circuit, and the closing movement speed of the shutter curtain 20 is decelerated by the braking force of the generator 81.

  As described above, in the embodiment of FIG. 10, the operation switch 83 causes the generator 81 to generate power when the shutter curtain 20 is closed and moves the generator when the shutter curtain 20 is opened, like the diode 53 of the embodiment of FIG. 5. The power generation switch means does not generate power 81.

  Note that using the operation switch 83 as the power generation switch means in this manner can also be applied when the generator is a DC generator.

  In each of the embodiments described above, the detection switch 47 and the fully closed switch 49 are used as counting means for counting the number of forward rotations of the winding shaft 24, and the shutter curtain 20 is closed from the fully closed position by this counting means. The current position of the shutter curtain 20 may be detected by counting the number of positive rotations of the winding shaft 24 when moved. Further, a fully-closed switch 49 may be disposed on the seat plate 31 of the shutter curtain 20 so as to operate when the seat plate 31 is landed on the floor.

  The present invention is applied to an opening / closing device that includes an opening / closing body that performs a closing movement and an opening movement, and that includes a brake device that brakes one of the movements. Can do.

It is a front view which shows the whole disaster prevention shutter apparatus for elevators used as the switchgear with a brake device which concerns on embodiment of this invention. It is the S2-S2 sectional view taken on the line of FIG. It is a longitudinal cross-sectional view which shows the disaster prevention shutter apparatus for elevators shown by FIG. 3 is a cross-sectional view showing an internal structure of a winding shaft 24. FIG. It is a figure which shows the electric circuit of the electric power generating apparatus containing the direct current generator shown by FIG. It is a figure which shows the electric circuit of the electric power generating apparatus which concerns on another embodiment. It is a figure which shows the flowchart of embodiment of FIG. It is a figure which shows the electric circuit of the electric power generating apparatus which concerns on another embodiment. It is a figure which shows the flowchart of embodiment of FIG. It is a figure which shows the electric circuit of the electric power generating apparatus in case the generator is an alternating current generator.

Explanation of symbols

DESCRIPTION OF SYMBOLS 20 Shutter curtain which is an opening / closing body 24 Winding shaft 47 Detection switch which is a detection switch means 48 Speed increasing device 50, 60, 70, 80 Electric power generation apparatus 51 DC generator 52, 62, 72, 82 Electric circuit 53 With electric power generation switch means Certain diodes 54 and 74 Variable resistors 63 Electromagnetic relays 64 Winding shaft rotational speed detectors as speed detecting means 65 Control devices as control means 66 Power supply 68 Changeover switch means 73 Electromagnetic relays 74A and 74B as selection switch means A plurality of power consuming means having different power values, and resistors 81 having different electric resistance values 81 AC generator 83 Operation switch being power generation switch means

Claims (11)

  In the opening / closing device with a brake device provided with a brake device for braking one of the opening movement and the closing movement of the opening / closing body that can be opened and closed, the brake device is the one of the opening / closing bodies. An opening / closing device with a brake device, characterized in that it is constituted by a power generation device that consumes the kinetic energy of the movement of this by the generation of electric power.   The switchgear with a brake device according to claim 1, wherein the power generator includes a generator for generating power by transmitting the kinetic energy of the switch, and the power generated by the power generator. An electric circuit that consumes the electric circuit, and the electric circuit includes power generation switch means that causes the generator to generate power when the one of the opening / closing bodies is moved and does not cause the generator to generate power when the other is moved. An opening / closing device with a brake device.   3. The switchgear with brake device according to claim 2, wherein the generator is a DC generator, and the power generation switch means is a diode.   3. The switchgear with a brake device according to claim 2, wherein the generator is one of a DC generator and an AC generator, and the power generation switch means selectively opens and closes the electric circuit. An opening / closing device with a brake device, which is an operation switch operated to form a circuit.   5. The opening / closing device with a brake device according to claim 2, wherein a moving force of the opening / closing body is transmitted to the generator via a moving force transmission path, and the opening / closing body includes the opening / closing body. An opening / closing device with a brake device, characterized in that a speed increasing device is provided for increasing the moving speed of the motor and transmitting it to the generator.   6. The opening / closing device with a brake device according to claim 2, wherein the electric circuit receives speed detection means for detecting a speed of the one movement of the opening / closing body and a signal from the speed detection means. And a switching unit controlled by the control unit to selectively switch the electric circuit between an open circuit and a closed circuit according to a speed of the one movement of the opening / closing body detected by the speed detection unit. And an opening / closing device with a brake device.   The switchgear with a brake device according to any one of claims 2 to 6, wherein the electric circuit includes a plurality of power consuming means having different power consumption values and a speed of the one movement of the switchgear. And a selector switch means for selectively connecting one of the power consuming means to the generator.   The opening / closing device with a brake device according to any one of claims 1 to 7, wherein the opening / closing body is a shutter curtain in which the downward movement is a closed movement and the upward movement is an open movement. An opening and closing device with a brake device.   9. The opening / closing device with a brake device according to claim 8, wherein the shutter curtain is a self-weight-closing shutter curtain that closes and moves downward by its own weight, and the power generation device generates power by transmitting kinetic energy of the shutter curtain. And an electric circuit that uses the generator as a power source and consumes the electric power generated by the power source. The electric circuit generates electric power for the generator during the closing movement of the shutter curtain. The power generation switch means that does not cause the generator to generate power during the other movement and the self-weight closed shutter curtain that has been closed and moved from the fully open position to a predetermined height position are closed. And a switch device with a brake device, characterized in that it comprises a detection switch means   10. The opening / closing device with a brake device according to claim 9, wherein the shutter curtain is opened / closed by forward / reverse rotation of a winding shaft for winding and feeding the shutter curtain, and the generator is connected to the winding shaft. An opening / closing device with a brake device, characterized in that   The switchgear with a brake device according to any one of claims 8 to 10, wherein the shutter curtain is a shutter curtain for disaster prevention for forming a disaster prevention zone by reaching a fully closed position. Opening and closing device with brake device.

Images