JP2016223160A - Obstacle detection device for electrical shutter of building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an obstacle detection device having a plurality of tiers of light projectors/receivers 9 and 10 installed along a guide rail 6 that restarts obstacle detection control by projecting and receiving light with light projectors/receivers 9-1 to i and 10-1 to i on i-th tier and above, when light projection and reception has been blocked for the light projectors/receivers 9-i and 10-i on the i-th tier due to adhesion of a foreign matter or other defects without a stop command, in a course of opening operation of a shutter curtain 4.SOLUTION: In a case of blocking of light projection/reception by the light projectors/receivers 9-i and 10-i on the i-th tier in a course of opening operation of the shutter curtain 4 and furthermore light projection/reception by the light projectors/receivers 9-1 and 10-1 on a topmost tier, obstacle detection control is restarted through light projection/reception by the light projectors/receivers 9-1 to i and 10-1 to i on the i-th tier and above, thus disabling a closing operation due to detection of an abnormality of the light projectors/receivers 9-i and 10-i in a next closing operation of the shutter curtain 4.SELECTED DRAWING: Figure 8

Description

  The present invention relates to a technical field of an obstacle detection device in an electric shutter for building (including an overslider) that is attached to open and close an opening such as a doorway of a building such as a building.

Today, in order to open and close openings such as doorways in buildings such as buildings, there are cases where an electric shutter for construction is provided, but the electric shutter has a shutter curtain wound around a winding drum. By rotating the take-up drum forward and backward as the open / close switch is driven, it is guided up and down by guide rails provided on the left and right sides of the opening so that the opening can be opened and closed.
In such a case, when there is an obstacle in the closing path of the shutter curtain when the shutter curtain is closed, this is detected and the shutter curtain closing operation is stopped, and the obstacle is sandwiched between the shutter curtains. It is necessary to configure so that there is no.
As a means for detecting such an obstacle, conventionally, a plurality of projectors are arranged along the left and right guide rails at intervals in the vertical direction, and at least one of these projectors in a closed operation. There is an obstacle detection control unit that detects that there is an obstacle when a set of light projections and receptions is interrupted (impeded) and outputs an obstacle detection signal to the switch drive control unit. Is known in which the closing operation of the shutter curtain is stopped when an obstacle is detected based on the above (see, for example, Patent Documents 1 and 2).

Japanese Patent No. 4519209 Japanese Patent No. 4519210

However, in the above-mentioned conventional one, when the shutter curtain is closed, the seat plate slat at the lowermost end of the shutter curtain sequentially cuts off the light projecting / receiving of the lower light projecting / receiving device from the upper one. If this is judged as an obstacle detection, the shutter curtain stops and does not close even though there is no obstacle. In order to avoid this, if it is determined that the seat plate slat that is operating closed has blocked the light emitting and receiving of the light emitting and receiving device, the light emitting and receiving of the light emitting and receiving devices more than the light emitting and receiving device one step below the blocked light emitting and receiving device. Control (blanking control) so that the obstacle is detected based on the presence / absence of light transmission / reception of the light emitter / receiver below the one-stage lower light emitter / receiver. In some cases, the shutter curtain is controlled to be fully closed.
In such a control, when the shutter curtain is opened, the light projecting / receiving operation of the upper light projecting / receiving device is resumed in order from the lowermost light projecting / receiving device. In this case, the projector / receiver is ignored for the emitter / receiver at the lower level of the emitter / receiver that has been stopped due to the interruption. Thus, when the shutter curtain closing operation is resumed from the midway position, control is performed so that the closing operation can be performed without any obstacle detection.
By the way, when controlled in this way, when the shutter curtain is fully closed, light emitting / receiving may be interrupted due to foreign matters such as dust adhering to the light emitting / receiving device. The control unit ignores the light transmission / reception of the light emitters / receivers above the light emitter / receiver that is blocked, and determines that the shutter curtain has stopped halfway here. In the opening operation, the obstacle detection signal from the obstacle detection control unit is set to be ignored. As a result, the shutter curtain is fully opened. Failure in the incomplete state due to the closed operation when the projector / receiver of the projector / receiver higher than the one where the light is blocked is ignored, that is, the obstacle detection operation is stopped There is a problem of detection, there is a problem to be solved by the present invention herein.

The present invention has been created in view of the above-described circumstances and has been created for the purpose of solving these problems. The invention of claim 1 is a winding provided at an upper portion of an opening such as a doorway of a building. A drum, a shutter curtain wound around the winding drum, an electric switch for opening and closing the shutter curtain by rotating the winding drum forward and backward, and control of forward and reverse driving of the switch In providing an obstacle detection device in an electric shutter for building constructed to include a drive control unit that performs and a guide rail provided on the left and right of the opening to guide opening and closing of the shutter curtain, the obstacle detection device Is a multi-stage obstacle detection light emitter / receiver provided on the top and bottom along the guide rail, and obstacle detection is performed based on the fact that the light projection / reception of the light emitter / receiver is blocked. Drive An obstacle detection control unit that outputs to the control unit; and a light blocking unit that is provided at the lower end of the shutter curtain and has a length for blocking at least two sets of light emitting and receiving units adjacent to each other vertically. And an opening / closing device drive control unit for controlling the stop of the switch by receiving an obstacle detection signal from the obstacle detection control unit, the obstacle detection control unit, During the shutter curtain closing operation, at the stage before the projector / receiver of the uppermost projector / receiver is shut off, at least one projector / receiver of the next second stage or less is shut off. In the first case of outputting the object detection signal, in the first case, when the light emitting / receiving of the uppermost light emitting / receiving device is interrupted, the light emitting / receiving light of the second or higher light emitting / receiving device is assumed to be caused by the light blocking unit. Ignore the emitter / receiver at the third stage or lower In the second case where an obstacle detection signal is output by blocking at least one light projecting / receiving light, when the light projecting / receiving light of the i-th light projecting / receiving device is interrupted in the i-th case including the second case Assuming that it is due to the light blocking unit, the light projecting / receiving light of the i + 1st stage or higher is ignored and at least one light projecting / receiving light of the next i + 2th stage is interrupted so that the obstacle detection signal is output. Obstacle detection control is executed so that the case of the (i + 1) th output is successively moved down to the lowest projector / receiver, and when the shutter curtain is opened, the projector / receiver remains blocked. If there is a projector, it is determined that the shutter curtain has stopped at the shut-off projector / receiver position, and in the next shutter curtain closing operation, the projector / receiver one level lower than the shut-off projector / receiver More than Is configured to execute obstacle detection control by a light emitter / receiver below the one lower light emitter / receiver, and the obstacle detection controller is configured to open the uppermost projector by opening the shutter curtain. If the light emitting / receiving of the uppermost light emitting / receiving device changes from the blocked state to the light emitting / receiving state while the light emitting / receiving of at least one light emitting / receiving device except the light receiving device remains cut off, An obstacle detection apparatus for an electric shutter for building, comprising an obstacle control restarting means for restarting obstacle detection control of a light receiver.
According to the invention of claim 2, an external light detection sensor is provided in or near the uppermost projector / receiver, and the obstacle detection control unit is configured by removing the uppermost projector / receiver by closing the shutter curtain. Ignored if the outside light detection sensor did not detect outside light when the light emitting / receiving of at least one light emitting / receiving device was blocked and the light emitting / receiving light of the topmost light emitting / receiving device remained blocked 2. The obstacle detection device for an electric shutter for building according to claim 1, further comprising second obstacle control restarting means for restarting obstacle detection control of all the projectors and receivers.
According to the invention of claim 3, the obstacle detection control of all the light projectors / receivers which has been ignored when the outside light detection sensor has not detected the outside light is resumed in a time when no outside light detection is set in advance. The obstacle detection device for an electric shutter for building according to claim 2, wherein the obstacle detection device is executed when maintained.

According to the first aspect of the present invention, when the projection / reception of the light projecting / receiving device in the middle is interrupted while the shutter curtain is open, the light projecting / receiving of the uppermost light projecting / receiving device is further stopped. If there is a change in the light emitting / receiving state, it is determined that the shutter curtain has moved up beyond the uppermost light emitting / receiving device rather than stopping at an intermediate position. When the light reception control is resumed, the switch is stopped based on the detection of the light emitter / receiver interrupted in the next closing operation. If this stop is not due to the presence of an obstacle, the light emitter / receiver It turns out that the problem is caused by adhesion or the like, and the corresponding maintenance is promoted, so that the architectural electric shutter can be reliably maintained.
According to the second aspect of the present invention, when the projection / reception of the light projecting / receiving device in the middle is interrupted while the shutter curtain is being opened, the light projecting / receiving of the uppermost projector / receiver is further blocked. If this is the case, it will be possible to determine whether or not there is a problem such as foreign matter adhering to the uppermost projector / receiver based on the presence or absence of external light detection by the external light detection sensor. As a result, the electric shutter for architecture can be maintained more reliably.
According to the invention of claim 3, abnormality detection of the uppermost projector / receiver can be performed over the day and night.

It is a front view of the shutter device for construction. It is a cross-sectional side view of the shutter device for construction. It is a principal part perspective view of the shutter device for construction. It is a block circuit diagram of an obstacle detection device. It is the schematic of an uppermost stage | paragraph (receiving) optical device. It is a flowchart figure of the control part for a drive. It is a flowchart figure of closing operation control of the control part for obstacle detection. It is a flowchart figure of the opening action control of the control part for obstacle detection.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, reference numeral 1 denotes an electric shutter (device) for construction, and the shutter 1 is rotatably provided on the left and right brackets 2 provided on the ceiling side (the back of the ceiling) of openings such as doorways and the left and right brackets 2. Winding drum 3, shutter curtain 4 wound around the winding drum 3, opening / closing device 5 that rotates the winding drum 3 forward and backward to open / close the shutter curtain 4, and opening / closing the shutter curtain 4 that opens / closes It is conventional to use various member devices such as guide rails 6 provided on the left and right of the opening for guiding.

  7 is a light projecting side base material constituting the obstacle detection device, 8 is also a light receiving side base material, and the light projecting / receiving side base materials 7 and 8 have a column shape which is long in the vertical direction, and an appropriate interval in the vertical direction ( For example, a plurality of light projectors (light projecting sensors) 9 and light receivers (light receiving sensors) 10 are embedded in pairs with a gap of 5 cm. Here, as the light to be projected and received, infrared rays and far infrared rays are exemplified, but it goes without saying that the light is not limited thereto. In the present embodiment, the light projecting / receiving base materials 7 and 8 are attached to the indoor side surfaces of the left and right guide rails 6 by attachment members such as a double-sided adhesive tape or an adhesive. The guide rail 6 is attached to both indoor side surfaces or both outdoor side surfaces, one base member 7 is attached to the outdoor side surface of one guide rail 6, and the other base member 8 is attached to the indoor side surface of the other guide rail 6. However, in order to prevent contamination due to adhesion of rainwater or the like, it is preferable to attach to the indoor side.

  The light receiving side base material 8 includes an obstacle detection control unit 11 which is electrically connected to the light projecting and receiving elements 9a and 10a of the light projecting and receiving devices 9 and 10, respectively. In addition to being connected, it is also electrically connected to a drive control unit 12 for driving and controlling the switch 5.

A typical flowchart of the opening / closing control routine of the drive control unit 12 is shown. First, any one of the opening / closing stop commands (the opening / closing command is self-held until the opening / closing command is issued) from the push button switch 5a. It is determined whether or not there is a failure (S-1), and if this is a close command, a close operation command is output to the switch 5, and the switch 5 is closed (S-2). Next, it is determined whether or not it is fully closed (S-3). If it is determined that it is fully closed (YES), the switch 5 is stopped (S-4). When it is determined that it is not fully closed (NO), it is determined whether or not an obstacle detection signal is input from the obstacle detection control unit 11 (S-5), and it is determined that there is an input (YES). If it is detected, the switch 5 is stopped (S-6). In this case, the process returns to the determination (S-5) as to whether or not an obstacle detection signal has been input. On the other hand, if it is determined that no obstacle detection signal is input (NO), the process returns to the determination (S-1) as to whether or not an opening / closing stop command has been issued.
On the other hand, if it is determined that there is an open command in the determination of whether or not there is an open / close stop command (S-1), the open / close device 5 is driven to open (S-7) and is determined to be fully open ( In S-8), the switch 5 is stopped (S-9). When it is determined that it is not fully open, the process returns to the determination (S-1) of whether or not an opening / closing stop command has been issued.
If there is a stop command in the determination of whether or not there is an open / close stop command (S-1), the switch 5 stops (S-10).

  On the other hand, at the left and right lower end portions of the shutter curtain 4, there is provided a light blocking body 13a for blocking (blocking) light beams projected and received by the light projecting / receiving devices 9 and 10 including the lowermost seat plate slat 4a. However, the light blocking unit 13a and the seat plate slat 4a constitute the light blocking unit 13 according to the present invention. The light blocking unit 13 includes two sets of projectors 10 and 10 adjacent to each other in the vertical direction. It is set to a length (dimension) that blocks light reception.

Then, the light transmission / reception between the light projectors / receivers 9 and 10 as a pair is executed as follows. If the number of light emitters / receivers 9 and 10 is n, from the top of the light emitter / receiver “9-1, 10-1”, “9-2, 10-2” for easy explanation. , ..., "9-n, 10-n" are sequentially coded. In addition, there is a space without a projector / receiver between the uppermost projector / receivers 9-1 and 10-1 and the seat plate slat 4a in a fully opened state.
Incidentally, the obstacle detection control unit 11 closes the shutter curtain 4 by sequentially blocking the light projecting and receiving light of the lower light projecting and receiving devices 9 and 10 from the uppermost light projecting and receiving devices 9-1 and 10-1. On the contrary, it is possible to determine that the opening operation is performed by resuming the upper light emitting / receiving sequentially from the lowest light emitting / receiving devices 9-n, 10-n.

When the obstacle detection control unit 11 is turned on, the uppermost projector 9-1, then the second projector 9-2, the next third projector 9-3, and the lower projector in sequence. When the projection command is output to 9 and the projection command is output to the lowermost projector 9-n, the projection command is output again to the uppermost projector 9-1, and this is repeated thereafter. On the other hand, the light receiver 10 determines whether light reception (signal reception) has been performed. If light reception is performed, a light reception signal is output to the obstacle detection control unit 11 and no light is received. Is controlled so that no light reception signal is output.
When the obstacle detection control unit 11 outputs a projection command to the i-th projector 9-i from the top, it determines whether or not there is a light reception signal from the i-th receiver 10-i from the top. If there is, there is no obstacle and no signal is output to the drive control unit 12, but if there is no light reception signal, the light transmission / reception of the i-th light emitter / receiver is blocked by the obstacle. Therefore, the obstacle detection signal is output to the drive control unit 12. Incidentally, the repeated control of light projection and reception is performed at a speed of several to several tens of times per second.

  The obstacle detection control unit 11 continues to perform such repeated control of light transmission and reception. In the process of closing the shutter curtain 4, the light blocking unit 13 is the uppermost light projecting and receiving device. 9-1 and 10-1 until the light transmission / reception is cut off (S-11), the light transmission / reception units 9-2, 10-2 to 9-n, 10-n of the second and subsequent stages are used. In the first case where it is determined whether or not at least one of the received light is blocked (S-12) and it is determined that the light is blocked, the obstacle detection control unit 11 determines that there is an obstacle on the closing locus of the shutter curtain 4. Judgment is made and an obstacle detection signal is output to the drive control unit 12 (S-13), and the drive control unit 12 receiving the control controls to stop the switch 5 to perform an obstacle avoidance operation, and is necessary. Emergency notification means (eg emergency lights and buzzers) 14 Luke, is set to the emergency report to the control room. Then, when the blocked light emitting / receiving is restored after the obstacle is moved away (or removed), the output of the obstacle signal to the drive control unit 12 is stopped, and the closing operation of the shutter curtain 4 is resumed. . On the other hand, if none of the light projecting / receiving devices 9-2, 10-2 to 9-n, 10-n after the second stage is cut off, it is determined that there is no obstacle and the obstacle detection signal There is no output, and the closing operation of the shutter curtain 4 is continued.

When the shutter curtain 4 continues to be closed and the light blocking unit 13 reaches the uppermost projector / receiver 9-1 and 10-1 to block light transmission / reception between them (S-11), obstacle detection is performed. The control unit 11 determines that the seat plate slat 4a has reached the uppermost projector / receiver 9-1 and 10-1, and when this determination is made, the second and subsequent projector / receivers 9-1 are installed. 2, 10-1 and 2 are ignored (blanked) (S- 14), and the light emitters / receivers 9-3 to n and 10 −3 to n below the next third-stage light emitter / receiver It is determined whether or not at least one of the light emitting and receiving is interrupted (S-15), and in the second case where it is determined that the light is interrupted, it is determined that there is an obstacle and the obstacle detection control unit 11 An object detection signal is output to the drive control unit 12 (S-16) to stop the switch 5, but if it is not blocked, Closing operation of the shutter curtain 4 is continued as no object.
Next, when the light transmission / reception of the second light emitters / receivers 9-2 and 10-2 is blocked (S-15), it is determined that the seat plate slat 4a has been smoothly lowered and blocked. The projectors / receivers 9-1 through 10-3 above the third-stage projector / receiver are ignored (S-17), and the projectors / receivers 9-4-n below the next fourth stage are ignored. It is determined whether or not at least one of the light projections and receptions 10-4 to n is blocked (S-18), and in the third case where it is determined that the light is blocked, it is determined that there is an obstacle and the obstacle is detected. The controller 11 outputs an obstacle detection signal to the drive controller 12 (S-19) to control the stop of the switch 5, but if it is not blocked, the shutter curtain 4 is closed as there is no obstacle. Operation continues.
Then, the light emitters / receivers 9 and 10 for which the obstacle detection is determined in this way sequentially move to the lower light emitters / receivers 9 and 10, and the i-th and subsequent light emitters / receivers 9-i to n and 10 -i. When an obstacle detection determination is made as to whether or not at least one of the light emitting and receiving light of n is blocked (S-21), the light projecting and receiving devices 9-1 to (i-1) at the (i-1) th stage or higher. The light transmission / reception of 10-1 to (i-1) is ignored (S-20). In this case, the light transmission / reception of the i-th stage light transmission / reception devices 9-i to n and 10-i to n is cut off. In the i-1th case (S-22), it is determined that there is an obstacle, and an obstacle detection signal is output from the obstacle detection controller 11 to the drive controller 12 (S-23). Then, the stop control of the opening / closing machine 5 is performed, but if it is not obstructed, the closing operation of the shutter curtain 4 is continued because there is no obstacle. Determination, the light emitting and receiving the emitter and receiver 9-n, 10-n of the n-th stage is ignored (S-24) made repeated sequentially repeated drops until, and the shutter curtain 4 is stopped fully closed. Incidentally, since it is conventionally known that the fully closed stop of the shutter curtain 4 is performed by the fully closed detection of the fully closed detection sensor provided separately, the details are omitted.

  On the other hand, when the shutter curtain 4 is opened, the obstacle detection control unit 11 enters an obstacle detection control stop state in which the presence / absence of the light projection / reception units 9 and 10 is ignored. Then, as the seat plate slat 4a passes, the upper light emitting / receiving is resumed (recovered / returned) sequentially from the lowermost light emitting / receiving device 9-n, 10-n (S-25). When the light transmission / reception of the light emitting / receiving units 9- (n-1) and 10- (n-1) is resumed (S-26), the light transmission / reception of the light emitting / receiving units 9-n and 10-n at the bottom is released. (S-27), and the obstacle detection control unit 11 receives the stop command from the push button switch 5a during the opening operation of the shutter curtain 4, and throws the i-th stage. When the light projection / reception of the light receivers / receivers 9-i and 10-i does not resume, the shutter curtain 4 is stopped at the position where the light projection / reception of the light projector / receivers 9-i and 10-i is interrupted, that is, halfway open. The projector / receiver 9-1 to (i + 1), 10-1 to (i +) Emitting and receiving ignores the), in a case where a result was stopped halfway open, so that it corresponds to a case where there is opening and closing of the shutter curtain 4.

  By the way, when the shutter curtain 4 is opened, the obstacle detection control unit 11 is in a state where the projection / reception of the i-th projector / receiver 9-i, 10-i remains blocked. If this is due to the output of a stop command to the drive control unit 12, the shutter curtain 4 has stopped at this position, but the cause is an abnormality in the light emitters / receivers 9-i, 10-i. In this case, the drive control unit 12 continues to drive the opening / closing device 5 to open, and as a result, the shutter curtain 4 is fully opened, but the projectors / receivers 9-1 to (i + 1) at the (i + 1) th stage or higher. ) 10-1 to (i + 1) are kept neglected, and the next time the shutter curtain 4 is closed, the i + 1 stage projector / receivers 9-1 to (i + 1) 10-1 to (i + 1) is ignored Will be closing operation is performed in the state, in order to avoid this, the first obstacle control resuming means control described next in obstacle detection control unit 11 is executed.

As the first obstacle control restarting unit control, the obstacle detection control unit 11 interrupts the light transmission / reception of the i-th light emitter / receiver 9-i, 10-i during the closing operation of the shutter curtain 4. If it is determined (S-29) that the light emitting / receiving of the uppermost light emitting / receiving devices 9-1 and 10-1 has changed from the blocked state to the light emitting / receiving (resumed) state, it is ignored. The control for resuming the determination of the presence / absence of light transmission / reception of the light projectors / receivers 9-1 to (i + 1), 10-1 to (i + 1) at the (i + 1) th stage or higher is executed (S-30).
Incidentally, in the present embodiment, the determination that the light emitting / receiving of the uppermost light emitting / receiving devices 9-1 and 10-1 has changed from the blocked state to the light emitting / receiving light (resumed) state is made. Since 10 is on the same side with respect to the shutter core, when the light blocking section 13 passes through the uppermost projector / receivers 9-1 and 10-1, the uppermost projector / receivers 9-1 and 10-1 emit light. This is due to the fact that the light reception is interrupted once and has changed to the light projecting / receiving state after this interruption, but is not limited to this. For example, the optical axes of the light projecting / receiving devices 9, 10 Is crossing the shutter core, the change of the uppermost projector / receiver 9-1, 10-1 to the projected / received light causes the seat plate slat 4a to exceed the uppermost projector / receiver 9-1, 10-1. Of course, it may be controlled in this way.

Then, when the shutter curtain 4 is closed next time, it is determined that the light projecting / receiving light of the i-th light projecting / receiving device 9-i, 10-i is cut off. The obstacle detection state is recognized from the detection control unit 11 to the drive control unit 12 and the closing operation of the shutter curtain 4 is stopped, and the administrator closes the shutter curtain 4. When there is no obstacle on the locus, it is determined that the light projection / reception is interrupted due to foreign matter adhering (or failure) to the light projection / reception units 9, 10 other than the uppermost light projecting / reception units 9-1, 10-1. In the case where the shutter curtain 4 can be closed in the state where the obstacle detection control is performed by returning the blocked projection / reception by performing a cleaning operation, etc. If the projector / receiver fails Will maintenance such replacing the emitter and receiver 9 and 10 as a thing.
In this case, as in the case of detecting an obstacle, notification may be made by sounding a buzzer or turning on a hazard lamp.

On the other hand, when the light emitting / receiving of the uppermost light emitting / receiving devices 9-1 and 10-1 is interrupted due to foreign matter adhesion (failure) or the like, the light emitting / receiving devices of the i-th light emitting / receiving devices 9-i and 10-i are blocked. When the received light remains blocked, the first obstacle control restarting unit control is not executed. Therefore, the obstacle detection control unit 11 executes the second obstacle control resumption means control.
In this device, an external light detection (illuminance) sensor element 15 is provided in or near the uppermost light emitter / receiver 9-1, 10-1, and the i-th light emitter / receiver 9-i, 10-i. In a state where the light transmission / reception is interrupted (S-28) and the light transmission / reception of the uppermost light emitter / receiver 9-1, 10-1 is interrupted (S-29), the external light detection sensor 15 is external light. It is determined whether or not detection (sunshine detection) is being performed (S-31), and if it is determined that there is no external light detection (blocked), external light detection is further set in advance. It is determined whether or not there is no external light detection (blocking, darkness) for a period of time (for example, 24 hours and 48 hours) (S-35), and if there is no external light detection for a predetermined time, light transmission / reception is ignored. Restarts all light emission and reception (S-36) and outputs an obstacle detection signal (S-37). The switch 5 is stopped and a notification device (not shown) provided on the base materials 7 and 8 is notified (S-38). Thus, in the closing operation of the shutter curtain 4 after the set time, i steps The closing operation of the shutter curtain 4 is stopped by entering an obstacle detection state where the light projecting / receiving devices 9-i and 10-i of the eyes are blocked. Of course, you may make it alert | report by sounding a buzzer or lighting a hazard lamp.

  In the present embodiment configured as described, in the process in which the shutter curtain 4 is closed, the uppermost projector / receivers 9-1 and 10-1 are in the stage before the light projection / reception is cut off. The light emitting / receiving of the light emitting / receiving units 9-1 and 10-1 is a dummy, and at least one of the light emitting / receiving units 9-2 to n and 10-2 to n of the second and subsequent stages is cut off. In the first case where the obstacle detection signal is output in this case, and in this first case, when the light emitting / receiving of the uppermost light emitting / receiving device 9-1, 10-1 is interrupted, it is assumed that the light blocking unit 13 is blocking Neglecting the light transmission / reception of the second and higher level light emitters / receivers 9-1, 10-1 and 2, at least the light emitting / receiving devices 9-3 to n / 10 −3 to n / In the second case where an obstacle detection signal is output when one light emitting / receiving is interrupted, this second In the i-th case including the i-th projector / receiver 9-i and 10-i, when the light-sending / receiving is interrupted by the light blocking unit 13, the i + 1-th projector / receiver 9-1- (I + 1) 10-1 to (i + 1) are ignored and at least one of the projectors 9- (i + 2) to n and 10- (i + 2) to n in the next i + 2 stage or lower is used. The obstacle detection control is executed in such a manner that the case of the (i + 1) th when the obstacle detection signal is output due to being interrupted is sequentially moved down to the lowermost projector / receiver 9-n, 10-n. As a result, when the shutter curtain 4 is in the closing operation, it is possible to detect obstacles in many stages and finely.

  On the other hand, when the shutter curtain 4 is opened, the light projecting / receiving operations of the upper light projecting / receiving devices 9, 10 are resumed in order from the lowermost light projecting / receiving device 9-n, 10-n. When the i-th light emitter / receiver 9-i, 10-i remains blocked, the obstacle detection control unit 11 indicates that the shutter curtain 4 has the i-th light emitter / receiver 9-i, It is determined that the operation has been stopped at the position where 10-i is interrupted, and accordingly, the presence / absence of light transmission / reception of the i + 1-th projector / receiver 9-2 to (i + 1), 10-2 to (i + 1) is ignored. become. As a result, when the opening / closing operation of the shutter curtain 4 stopped halfway is resumed, the obstacle detection from the stop position is surely performed.

  In such an opening operation of the shutter curtain 4, the drive control unit 12 opens the shutter curtain 4 when no stop command is received at the positions of the i-th projector / receivers 9-i and 10-i. Is controlled so as to continue. Then, when the light blocking unit 13 is raised beyond the uppermost projector / receiver 9-1, 10-1, the uppermost projector / receiver 9-1, 10-1 is changed from the blocked state to the projected / received state. In this case, the obstacle detection control unit 11 determines that the shutter curtain is rising beyond the uppermost projector / receiver rather than stopping at the middle position. The obstacle detection control of the light emitters / receivers 9-1 to (i + 1) and 10-1 to (i + 1) at the (i + 1) -th stage, which has been ignored until now, is resumed. As a result, it is assumed that the projector / receivers 9-i and 10-i, which are interrupted in the next closing operation of the shutter curtain 4, are in the obstacle detection state, the switch 5 is stopped, and this stop is the obstacle. If it does not depend on the presence of the projector, it is found that the light emitter / receiver is defective due to the adhesion of foreign matter, etc., and corresponding maintenance is promoted, so that the architectural electric shutter can be reliably maintained.

  Further, in the process of opening the shutter curtain 4, when the light projection / reception of the i-th light emitter / receiver 9-i, 10-i on the way is interrupted, the uppermost light emitter / receiver 9- In the case where the light projecting / receiving light of 1 and 10-1 remains in the cut-off state, there may be a case where the uppermost light projecting / receiving device 9-1 or 10-1 has a defect such as adhesion of foreign matter. This determination can be made based on whether or not the external light detection sensor 15 detects external light. As a result, corresponding maintenance is promoted, and the building electric shutter can be more reliably maintained.

  INDUSTRIAL APPLICATION This invention can be utilized for the obstruction detection apparatus in the electrically-driven shutter for construction which opens and closes opening parts, such as a doorway of a building.

DESCRIPTION OF SYMBOLS 1 Shutter device 3 Winding drum 4 Shutter curtain 5 Switch 6 Guide rail 9 Light projector 10 Light receiver 11 Obstacle detection control part 12 Drive control part 13 Light blocking part 15 Outside light detection sensor

Claims (3)

A winding drum provided at the upper part of an opening such as a doorway of a building, a shutter curtain wound around the winding drum, and a shutter curtain opening and closing operation by rotating the winding drum forward and backward An electric motor for construction comprising an electric switch, a drive controller for controlling forward / reverse drive of the switch, and guide rails provided on the left and right of the opening to guide the opening and closing of the shutter curtain When installing an obstacle detection device on the shutter,
The obstacle detection device
-A multi-stage projector / receiver for detecting obstacles provided above and below the guide rail;
An obstacle detection control unit that detects an obstacle based on the fact that the light projection and reception of the light projecting and receiving device is interrupted and outputs an obstacle detection signal to the drive control unit;
A light blocking unit provided at the lower end of the shutter curtain, and having a length for blocking at least two sets of light emitting and receiving units adjacent to each other vertically;
-It is configured with a switch driving control unit that controls the stop of the switch by receiving an obstacle detection signal from the obstacle detection control unit,
The obstacle detection control unit includes:
-During the shutter curtain closing operation, at the stage before the light emitting / receiving of the uppermost projector / receiver is cut off, at least one of the light emitting / receiving units in the second and subsequent stages is cut off. In the first case where an obstacle detection signal is output, in the first case, when the light emitting / receiving of the uppermost light emitting / receiving device is interrupted, it is assumed that the light blocking unit causes the light emitting / receiving device of the second or higher light emitting / receiving device. The i-th case including the second case, in which the second case of outputting an obstacle detection signal by ignoring the received light and blocking at least one of the next three-stage projectors and receivers is interrupted When the light transmission / reception of the i-th light emitting / receiving device is interrupted, the light transmission / reception unit ignores the light transmission / reception of the light transmission / reception devices at the (i + 1) th and higher stages, and Obstacle detection by blocking at least one light emitting / receiving (I + 1) th to become that when, running as down repeated until the sequential bottom emitter and receiver obstacle detection control for outputting No.,
・ In the shutter curtain opening operation, if there is a projector / receiver that is still blocked, the shutter curtain is judged to have stopped at the blocked projector / receiver position, and the next shutter curtain is closed. In operation, it is configured to perform obstacle detection control by the light emitter / receiver below the one light emitter / receiver below the one light emitter / receiver below the one light emitter / receiver lower than the blocked light emitter / receiver. And
The obstacle detection controller includes a shutter curtain opening operation, and the light emitting / receiving of the uppermost projector / receiver is stopped with at least one light emitting / receiving device except the uppermost projector / receiver being blocked. In the electric shutter for building, characterized in that there is provided an obstacle control restarting means for restarting obstacle detection control of all the projectors / receivers that have been ignored when is changed from the blocked state to the projector / receiver state Obstacle detection device. An external light detection sensor is provided in or near the uppermost projector / receiver, and the obstacle detection control unit includes at least one projector / receiver except for the uppermost projector / receiver by closing the shutter curtain. Failure of all light emitters / receivers that were ignored when the external light detection sensor did not detect external light when the light emitter / receiver was blocked and the light emitter / receiver of the topmost light emitter / receiver was still blocked 2. The obstacle detection apparatus for an electric shutter for building according to claim 1, further comprising second obstacle control restarting means for restarting the object detection control. Resuming the obstacle detection control of all the projectors that have been ignored when the outside light detection sensor has not detected outside light is executed when a state in which no outside light is detected is maintained for a preset time. The obstacle detection device for an electric shutter for building according to claim 2.

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