JP4527454B2 - Switchgear - Google Patents

Description

  The present invention relates to a shutter device including an overhead door, a door, a sliding door including a shutter, a window, a roll screen, a blind, an awning device, a gate, a gate, a sliding wall device, etc. In particular, the present invention relates to an opening / closing device that is preferable for application as a shutter device.

2. Description of the Related Art Conventionally, in an opening / closing device that recognizes that an opening / closing body during a closing operation is closer to an object closer to the closing direction than the opening / closing body, a non-contact type comprising a light emitting portion and a light receiving portion at the lower end of the opening / closing body There is a sensor provided so that the non-contact sensor senses that the opening / closing body is close to an object on the closing direction side (see Patent Document 1).
Furthermore, the opening / closing device that recognizes that the opening / closing body during the closing operation is in contact with an object closer to the closing direction than the opening / closing body is provided with a movable portion that is slidable in the vertical direction at the lower end of the opening / closing body. In addition, a contact type sensor that detects that the movable part is in contact with and slides on an object on the closing direction side is known (see Patent Document 2).

However, according to the opening / closing device in which an object is sensed by a contact sensor or a non-contact sensor as in the prior art described above, the support structure of the sensor or the like is complicated, and a movable part such as an opening / closing body is used. Since electrical wiring is provided, there is a risk of causing mechanical failure, malfunction, electrical contact failure, and the like.
JP-A-11-182161 JP-A-9-170389

  The present invention has been made in view of the above-described conventional circumstances, and the problem to be solved is a simple structure with low failure and malfunction and good productivity, and the opening / closing body in operation is in contact with an obstacle or abutment. An object of the present invention is to provide an opening / closing device capable of recognizing contact with an object such as a target part.

In order to solve the above-described problems, the present invention provides an opening / closing apparatus including an opening / closing body capable of opening / closing and a drive source for operating the opening / closing body, and biases the opening / closing body in an opening direction. A biasing means for increasing a biasing force for biasing the opening / closing body in the opening direction as the opening / closing body is operated in a direction opposite to the biasing direction, and detecting a load value of the driving source during the operation of the driving source An opening / closing device that includes a load detection unit, a storage device, and a control unit that controls the drive source based on the detected load value, so that the load value during the closing operation rapidly increases immediately after seating The biasing means suppresses load fluctuation in a state where the opening / closing body is not in contact with the object during the closing operation of the opening / closing body, so that the opening / closing body is in contact with the object. The load value and a negative change pattern of the load value It is adjusted so that the change in the pattern becomes conspicuous, wherein the control unit includes a function of detecting a master pattern to be compared with the load patterns, by closing operation of the closing body from the fully open position, the load The load value detected by the detection unit exceeds a predetermined threshold stored in advance in the storage device to determine the fully closed position of the opening / closing body, and detects the master pattern during the closing operation,
After detection of the master pattern, the control unit closes the opening / closing body when the load pattern detected by the load detection unit substantially matches a predetermined range of the master pattern during the closing operation of the opening / closing body. The predetermined range is a part of the master pattern corresponding to a time range slightly before the opening / closing body is seated on the contact target part .
Further, in a further invention, the storage device stores in advance an obstacle sensing master pattern indicating a load value change pattern when the opening / closing body abuts against an obstacle,
When the load pattern detected by the load detection unit substantially coincides with the obstacle sensing master pattern during the closing operation of the opening / closing body, the control unit temporarily stops the opening / closing body and then reverses the opening / closing body. It is characterized by stopping again .

  Here, the opening / closing apparatus according to the present invention may be an opening / closing apparatus that partitions or opens a space by the opening / closing body. The opening / closing apparatus can be opened / closed by winding or unwinding the opening / closing body by a winding shaft, It includes a mode in which the body is unwound and stored without winding up, a mode in which the opening / closing body is rotated in the form of a door to open / close.

  Further, as a preferable specific example of the opening / closing body, a mode in which a plurality of slats and pipes are continuously provided in the opening / closing direction, or a single or a plurality of panels, a sheet-like object, and a net-like object are provided in the opening / closing direction. Aspects, or a mode in which slats, panels, pipes, sheet-like objects, net-like objects, etc. are appropriately combined can be mentioned. Can do.

  Moreover, as a preferable specific example of the drive source, a DC electric motor, an AC electric motor, or the like can be used.

The load value is a load value of the drive source, and the load value includes a load torque.
Further, the means for detecting the load value is, for example, a configuration in which the load current is measured when the drive source is a DC electric motor, or the rotation speed when the drive source is an AC electric motor. Or a configuration in which a torque such as an output shaft of the drive source is measured with a torque meter or the like.

  The threshold value is a value that is set to exceed the increased load value when the load value increases due to the opening / closing body abutting against an object. This threshold value may be determined as appropriate. For example, the threshold value may be an experimentally measured value or a theoretically obtained value.

Further , specific examples of the urging means include springs, springs, elastic bodies such as rubber, and the like. Also, the urging means includes a braking means for applying a brake to the operating open / close body. Is also included.
The urging means includes, for example, a mode in which the opening / closing body is urged so as to rotate the winding shaft in a direction opposite to the direction of the feeding operation in an opening / closing device that winds or feeds the opening / closing body by the winding shaft. It includes a mode in which the winding shaft is urged to rotate in a direction opposite to the direction of the take-up operation.
Further, the biasing means includes, for example, a mode for biasing the opening / closing body in a direction opposite to the direction of the storing operation, or a feeding operation in an opening / closing device that stores or feeds the opening / closing body without winding. The aspect etc. which urge the said opening-closing body to the direction opposite to a direction are included.
Further, a plurality of types of the urging means such as an urging means for urging the opening / closing body in a direction opposite to the direction of the storing operation and an urging means for urging the opening / closing body in a direction opposite to the direction of the feeding operation. It is also possible to provide a combination of means.

In the present specification, the “opening / closing body width direction” means a direction substantially perpendicular to the opening / closing direction of the opening / closing body and not the thickness direction of the opening / closing body.
Further, in this specification, the “opening / closing body opening / closing direction” means a direction in which the opening / closing body moves to partition or open the space.

Since the present invention is configured as described above, the following effects can be obtained . Without a such complex configuration as slave come techniques, with a good simple structure productivity, opening and closing body it can be determined whether the contact with the obstacle. In addition, since there are relatively few mechanical configurations such as gears, limit switches, reset mechanisms, etc., and it is possible to adopt a configuration that does not include electrical wiring in movable parts such as opening and closing bodies, mechanical failures and malfunctions, Electrical contact failures can be reduced.

Further , the biasing means that increases the biasing force as the opening / closing body is operated suppresses load fluctuations in a state where the opening / closing body is in a closing operation and is not in contact with the object, so that the opening / closing body is applied to the object. The load value at the time of contact can be significantly increased, and as a result, it can be easily determined whether or not the load value exceeds the threshold value. That is, if the biasing means is not provided, the load value in a state where the opening / closing body is not in contact with the object during the closing operation tends to fluctuate easily depending on the position of the opening / closing body. Although it is difficult to make a significant increase in the load value when contacting an object and it may be difficult to determine whether the load value exceeds a threshold value, according to the present invention, the opening / closing body is in a closing operation. Since the fluctuation of the load value in a state where it is not in contact with the object can be suppressed by the above urging means, the load value when the opening / closing body is in contact with the object is significantly increased, and whether or not the load value exceeds the threshold value It is possible to facilitate the determination.

Furthermore , when the object which contact | abutted is an obstruction, the impact and pressing force with respect to the obstruction can be relieve | moderated by the reversing operation | movement of an opening-closing body .

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
An example according to the present embodiment is arranged in or inside an opening part or inside of a housing such as a house, building, warehouse, factory, underground mall, tunnel, vehicle loading platform, etc., and opens and closes the opening part or partitions the space inside the housing. It will be described as a shutter device that opens and closes.

  The opening / closing device A includes an opening / closing body 10 that opens and closes by sliding an end portion in the closing direction, a guide rail 20 that surrounds and guides the opening / closing direction of the opening / closing body 10 in the width direction (left-right direction in FIG. 1). And a winding device 30 that winds and unwinds the opening / closing body 10, and detects a load pattern that is a load value change pattern during the operation of the drive source 33 in the winding device 30. The state of the opening / closing body 10 is recognized from a comparison between a load pattern and a master pattern that is a load value change pattern stored in advance.

  The opening / closing body 10 constitutes an opening / closing body main body 11 by connecting a plurality of so-called slats formed by bending a horizontally long substantially rectangular metal plate so as to rotate between the vertically adjacent slats. A seat plate member 12 for contacting the contact target site p is connected to the end of the body main body 11 on the closing direction side (lower side in the illustrated example) over the opening / closing body width direction.

  Further, the guide rail 20 has a substantially U-shaped cross section at a portion surrounding an end portion in the width direction of the opening / closing body 10 by processing such as drawing or extrusion forming of an aluminum alloy material, bending processing of a steel plate or other metal plate. It is a member formed in a shape, and is disposed between the winding device 30 and the contact target portion p.

  In addition, the winding device 30 includes a winding shaft 32 that winds and unwinds the opening / closing body 10 in a storage case 31 in which an opening for allowing the opening / closing body 10 to appear and retract on the lower side, and the winding shaft. A drive source 33 that electrically rotates in both directions via a power transmission means such as a chain and a sprocket, a load value detector 36 that detects a load value (load torque) of the drive source 33, and a winding shaft 32. Thus, urging means 34, 34 for urging the opening / closing body 10 in the releasing direction, a control unit 40 for controlling the electric drive source 33, and the like are provided.

The winding shaft 32 is disposed in the width direction of the opening / closing body and is supported so as to freely rotate around the shaft main body 32a and both ends of the shaft main body 32a fixed to the inner surface of the storage case 31. It consists of a rotating body 32b.
According to the illustrated example, the rotating body 32b is configured in a substantially cylindrical shape, but may be configured so that the opening / closing body 10 can be wound around the outer periphery thereof. For example, a predetermined interval is provided on the outer periphery of the shaft main body 32a. A plurality of freely rotatable discs may be supported substantially coaxially, and these discs may be connected by a plurality of rod-shaped bodies to form a substantially bowl shape.

The drive source 33 includes a DC motor, a brake mechanism, and the like, and performs forward rotation, reverse rotation, stop, and the like according to a control signal from the control unit 40.
A load value detector 36 is connected to the power supply wiring of the drive source 33 so as to detect the load current.

The load value detection unit 36 is configured to transmit an electrical signal corresponding to the magnitude of the load current of the drive source 33 to the control unit 40.
That is, since the drive source 33 is configured by a DC motor, the load value (load torque) in the rotational direction applied to the drive shaft of the drive source 33 and the load current of the drive source 33 have a substantially proportional correlation. . Therefore, the load value detection unit 36 indirectly detects the load value (load torque) of the drive source 33 by detecting the load current of the drive source 33.
Note that the drive source 33 may be configured by an AC motor. In this case, since the load torque and the rotational speed of the AC motor have a correlation, the load value detection unit 36 includes the AC motor. The number of rotations of the drive shaft is detected.

The biasing means 34 is a coil spring disposed between the outer peripheral surface of the shaft main body 32a of the winding shaft 32 and the inner surface of the rotating body 32b, and the rotation of the rotating body 32b is controlled in the opening / closing body winding direction. One end side thereof is fixed to the shaft main body 32a and the other end side thereof is fixed to the rotating body 32b so as to be biased.
Therefore, the urging means 34 urges the opening / closing body 10 in the opening direction, and increases the urging force as the opening / closing body 10 is operated in a direction opposite to the urging direction (closing direction).
The characteristics of the urging means 34 are that the load value and load when the opening / closing body abuts against the object are suppressed by suppressing the load fluctuation when the opening / closing body 10 is in the closing operation and not abutting against the object. It is adjusted appropriately so that the change of the pattern becomes remarkable.
The biasing means 34 is provided on one end side and the other end side of the take-up shaft 32 according to the preferred example shown in the figure. A configuration in which two or more are provided in the axial direction is also possible.

Here, if the load applied to the drive source 33 is theoretically described with reference to FIG. 2, the load value (load torque) Tx applied to the drive source 33 is determined when the opening / closing body 10 is extended from the winding shaft 32. The absolute value of the value calculated by subtracting the torque Ts applied to the winding shaft 32 by the weight of the opening / closing body 10 from the biasing torque Tb by the biasing means 34 (see FIG. 2A).
When the end of the opening / closing body 10 in the closing direction comes into contact with the contact target site p, torque Ta due to the reaction force by the contact target site p is added to the absolute value (FIG. 2B). )reference).

When the load value Tx (load torque) during the closing operation of the opening / closing body 10 is actually measured, as shown by a broken line in FIG. 3, the change characteristic varies depending on the elapsed time during the closing operation. The load pattern increases and decreases gradually as it approaches the seating, and rapidly increases immediately after the seating.
Note that the load value Tx repeatedly increases and decreases slightly because the recesses of the slats constituting the opening / closing body 10 are periodically fitted to and detached from the outer peripheral surface of the winding shaft 32.
Also, the load value Tx suddenly increases immediately after seating because the biasing force of the biasing means 34 increases due to the rotation of the drive source 33 immediately after the seating, or the opening / closing body 10 moves away from the contact target portion p due to the seating. This is caused by receiving torque Ta due to reaction force.

  Note that the load value (load torque) during the opening operation of the opening / closing body 10 is not shown in the graph or the like, but shows different change characteristics depending on the elapsed time during the opening / closing operation, and rapidly increases in the vicinity of the fully opened position of the opening / closing body 10. It becomes the load pattern to do.

In addition, the control unit 40 uses, as a program, an electrical signal input from the load value detection unit 36 or an operation unit (not shown) (operation BOX, remote controller, computer that generates operation signals, portable terminals, activation sensors, etc.). This is a control circuit that electronically calculates and outputs a control signal corresponding to the processing result to the drive source 33 to cause the drive source 33 to rotate forward, reverse, stop, etc., and stores a master pattern and the like A device (for example, an EEPROM or a flash memory) is provided.
The control unit 40 has a programmed logic circuit using, for example, a microcomputer or a programmable controller so that a circuit configuration, a set value for control, and the like can be easily changed according to the field situation. However, a wired logic circuit using a relay circuit or other electronic circuit can also be used.

Next, processing by the control unit 40 will be described in detail based on a flowchart.
The flowchart shown in FIG. 4 shows a procedure for detecting a master pattern for comparison with the load pattern as an initial setting.

First, the control unit 40 determines whether or not there is a master pattern detection command (step 1). If there is a master pattern detection command, the process proceeds to the next step 2; .
The master pattern detection command is a command for starting a master pattern detection operation. For example, a special operation of an operation unit (not shown) (for example, an operation of pressing the release button three times in succession, an opening button and a closing button) This command is issued when there is a simultaneous pressing operation or when there is an automatic recognition that the master pattern is not stored in the storage device in the control unit 40.

  When the master pattern detection command is issued, the control unit 40 performs a normal opening / closing operation (for example, an open button) by an operation unit (not illustrated) (operation BOX, remote controller, computer that generates an operation signal, portable terminal, activation sensors, and the like). And the operation by the close button) are invalidated (step 2). Note that, according to a preferred example of the present embodiment, the operation of stopping the opening / closing body is always effective for improving safety.

  Next, the control unit 40 operates the open / close body 10 to the fully open position that is the reference position of the master pattern and stops it (step 3), and starts detection of the master pattern by the electrical signal from the load value detection unit 36. Then, the closing operation of the opening / closing body is started (step 4). The detection of the master pattern will be described more specifically. The control unit 40 sequentially stores the input signal from the load detection unit 36 at predetermined time intervals.

  Then, the control unit 40 determines whether or not the opening / closing body 10 has been stopped halfway in response to a command from an operation unit or safety device (not shown) (step 5). If not, the process returns to step 3 above. That is, when the opening / closing body 10 is stopped halfway, the control unit 40 restarts the process from the point of step 3 because the change pattern of the load value is different from the normal value.

In the next step 6, it is determined whether or not the opening / closing body 10 is in the fully closed position. If it is in the fully closed position, the process proceeds to step 7, and if not, the process proceeds to step 5. Is returned.
In this step 6, it is determined that the opening / closing body 10 is in the fully closed position because the load value detected by the load value detection unit 36 exceeds a predetermined threshold value stored in advance in the storage device of the control unit 40. However, as other means, the position detecting means (not shown) determines that the fully closed position is reached, or the closing operation time of the opening / closing body 10 exceeds a predetermined value. It is good also as a mode etc. which made it judge by the signal made to judge by the signal transmitted by confirming the fully closed position of the opening-closing body 10 visually.

Next, the control unit 40 temporarily stops the opening / closing body 10 for a predetermined time (step 7), and causes the opening / closing body 10 to open (step 8). Accordingly, in step 8 and subsequent steps, the detected load pattern is the pattern for the opening operation.
Then, in step 9, it is determined whether or not the opening / closing body 10 has been stopped halfway in the same manner as in step 5 above. If it has been stopped halfway, the process returns to step 3; The process proceeds to step 10 in FIG.
Note that this step 9 is a process of restarting the detection of the master pattern from the beginning when there is a stop in the middle. For example, after the above step 7, a process of temporarily storing the master pattern during the closing operation is added. If there is a midway stop, the process can be returned to the above step 8, and the master pattern can be detected again from the start of the opening operation.

In the next step 10, it is determined whether or not the opening / closing body 10 is in the fully open position. If it is in the fully open position, the process proceeds to step 11, and if not, the process returns to step 9. It is.
In this step 10, it is determined that the opening / closing body 10 is in the fully open position because the load value detected by the load value detection unit 36 exceeds a predetermined threshold stored in the storage device of the control unit 40. It may be determined, but it may be based on other means as in Step 6 above.

And the control part 40 stops the opening-closing body 10, complete | finishes the detection of a master pattern (step 11), memorize | stores the detected master pattern in the memory | storage device in the control part 40 (step 12), and after that, The normal opening / closing operation is validated (step 13).
Therefore, the load pattern of the operation from the fully open to fully closed state of the opening and closing body 10 and the load pattern from the fully closed to fully open state of the opening and closing body 10 are stored in the storage device as a master pattern.
In addition, as a master pattern, you may make it memorize | store the pattern before operation | movement of the opening / closing body 10 and the pattern after the stop of the opening / closing body 10 as needed. In this case, a predetermined time is provided between the start of detection of the master pattern and the start of the closing operation of the opening / closing body in Step 4 above, or the stop of the opening / closing body 10 is stopped in Step 11 above. A predetermined time may be provided until the end of detection. If these structures are used, whether the opening / closing body 10 has stopped at a normal timing, whether the opening / closing body 10 has overrun after sitting, or has become slack, based on a pattern comparison after the opening / closing body 10 stops. Judgment can be made possible.

Next, an example of processing performed by the control unit 40 when the opening / closing body 10 is opened will be described (see FIG. 5).
First, the control unit 40 determines whether or not an open signal from an operation unit or the like (not shown) has been input (step 21). If there is an input, the process proceeds to the next step 22; Is in an input waiting state for an open signal.

In the next step 22, the opening / closing body 10 is opened and detection of the load value by the load value detection unit 36 is started.
In step 23, it is determined whether or not the detected load value exceeds a predetermined threshold value stored in the storage device of the control unit 40. If the threshold value is exceeded, the opening / closing body 10 is set to the fully open position. If it is determined that there is, the opening operation of the opening / closing body 10 is stopped in the next step 24, and if not, the state of waiting for exceeding the threshold is maintained.

  In the case of closing the opening / closing body 10, as shown in FIG. 6, when the control unit 40 receives a closing signal from an operation unit or the like (not shown) in step 31, the process of the next step 32 is performed. Then, the closing operation of the opening / closing body 10 is started, and the detection of the load pattern is started. The load pattern detected in step 23 is a load value (load torque) that is sequentially detected by the load value detector 36 as time elapses in the closing operation of the opening / closing body 10.

In the next step 33a, it is determined whether or not the load pattern detected by the load value detection unit 36 has a range that substantially matches the predetermined range (near fully closed) of the master pattern stored in step 12 described above. If it is determined that there is a matching range, the opening / closing body 10 is stopped in the next step 34a, and if not, the process proceeds to step 33b.
Here, the predetermined range is a time range H (see FIG. 3) slightly before the opening / closing body 10 is seated on the contact target portion p, and this range H is the opening / closing body 10 in the process of step 34a. Is appropriately set so as to stop at the same time or immediately after it is seated on the contact target part p, and is stored in advance in the storage device of the control unit 40 as data.

Therefore, according to the above-mentioned steps 33a and 34a, the opening / closing body 10 is prevented from loosening by stopping immediately at the same time or immediately after sitting on the contact target site p.
That is, if the opening / closing body 10 is stopped by the threshold value when fully closed, the drive source 33 does not stop for a while after the opening / closing body 10 is seated, which may cause the opening / closing body 10 to be slack. However, according to the above-described processing, it is possible to prevent the opening / closing body 10 from being slackened after sitting.

The process for determining whether or not the predetermined pattern of the master pattern is present in the load pattern will be described in more detail. During the closing operation of the opening / closing body 10, a plurality of load value data for the predetermined range is used. Are sampled and the average value of these load value data is calculated, and then this average value is sequentially updated as time passes by a so-called moving average method. Then, each time the average value is calculated, the average value is compared with the average value of the data in the predetermined range of the master pattern, and it is determined whether or not the average values of both coincide with each other within the predetermined error range. To do.
In addition, for example, in the case where it is difficult to determine the fully closed state or the contact with the obstacle only by the processing due to receiving wind pressure or other external factors, for example, in addition to the above processing, An average value of load value data in a wider range than the predetermined range is calculated, the average value is sequentially updated as time passes, and each time the average value is calculated, the average value corresponds to the master pattern. By comparing with the average value of the range and determining whether or not the average value of both of them is within a predetermined error range, the detection accuracy can be further improved.

In step 33b, it is determined whether or not the load pattern detected by the load value detector 36 has a range that substantially matches the obstacle sensing master pattern. If not, the process is returned to step 33a.
Here, the obstacle detection master pattern indicates a load value change pattern when the opening / closing body 10 abuts against an obstacle, and is measured experimentally and stored in advance in the storage device of the control unit 40. It is remembered.
More specifically, the processing in step 33b is performed by the moving average method in substantially the same manner as the processing in step 33a, and the average value of the load value data in a predetermined range and the obstacle detection master pattern are obtained every time. The average value is compared, and it is determined whether or not they match within a predetermined error range.

  When the load pattern and the obstacle detection master pattern substantially coincide with each other in step 33b, it is presumed that the opening / closing body 10 is in contact with the obstacle. Therefore, the control unit 40 opens and closes during the closing operation. After the body 10 is temporarily stopped, the body 10 is reversed and then stopped again (step 34b) to relieve an impact, a pressing force and the like on the obstacle.

Next, a process for operating the opening / closing body 10 to a predetermined intermediate position will be described (see FIG. 7).
Upon receipt of the intermediate opening signal in step 41, the control unit 40 determines whether or not the closing direction end of the opening / closing body 10 is located closer to the fully closed side than the predetermined intermediate position by the processing of the next step 42. To do.
This determination is performed by storing a load pattern associated with the operation of the opening / closing body 10 performed immediately before the step 41, searching for the load pattern from the master pattern, and the searched pattern being more than the intermediate position. What is necessary is just to judge whether it is a thing of a fully closed side.

When it is determined in step 42 that the opening / closing body is located on the fully closed side with respect to the predetermined intermediate position, the opening operation of the opening / closing body 10 is started and the detection of the load pattern is also started (step 42a).
In the next step 43a, it is determined whether or not the detected load pattern has a range that substantially matches the predetermined range (near the middle) of the master pattern. If there is a range that matches, the next step The operation of the opening / closing body 10 is stopped at 44. If not, the process of step 43a is repeated.

If it is determined in step 42 that the opening / closing body is located on the open side of the predetermined intermediate position, the closing operation of the opening / closing body 10 is started and the detection of the load pattern is also started (step 42b).
In the next step 43b, it is determined whether or not the detected load pattern has a range that substantially matches the predetermined range (near the middle) of the master pattern. If there is a range that matches, the next step The operation of the opening / closing body 10 is stopped at 44. If not, the process of step 43b is repeated.

  More specifically, the processing of the step 43a or 43b is performed by the moving average method in substantially the same manner as the processing of the step 33a. It is determined whether or not they coincide with each other within a predetermined error range.

Note that, according to the embodiment, the determination of whether the opening / closing body 10 is located closer to the closing side or the opening side than the intermediate position is based on the operation of the opening / closing body 10 performed immediately before the step 41. The accompanying load pattern is stored, this load pattern is searched from the master pattern, and it is determined whether or not the searched pattern is a fully closed side from the intermediate position. As the means, a contact type or non-contact type sensor is provided at the intermediate position, and the closing direction end of the opening / closing body 10 passes through the sensor by an opening operation (opening signal), or by a closing operation (closing signal). If the stored data is based on an opening operation, it is determined that the closing direction end of the opening / closing body 10 is on the fully open side with respect to the intermediate position, and the stored data is closed. Movement If it is due to the closure direction end portion of the closing member 10 may be determined that the closed side of the intermediate position.
Further, as other means, a friction means for giving a load change to the operating opening / closing body 10 is provided at the intermediate position, and the opening / closing body 10 is detected by sensing the load change (including a load pattern change). When the load change is recognized, it is stored whether the closing direction end of the opening / closing body 10 has been opened or closed, and the stored data is based on the opening operation. If it is determined that the closing direction end of the opening / closing body 10 is on the fully open side with respect to the intermediate position, and if the stored data is due to the closing operation, the closing direction end of the opening / closing body 10 is determined. It may be determined that the portion is closer to the closing side than the intermediate position.

  Further, according to the above embodiment, at the time of initial setting (see FIG. 4), after closing the opening / closing body 10 from the fully opened position to the fully closed position and stopping, the opening / closing body 10 is moved from the fully closed position to the fully opened position. The master pattern during the operation is continuously detected, but the master pattern for the close operation and the master pattern for the open operation may be detected separately.

Further, according to the above-described embodiment, the initial setting for storing the master pattern (see FIG. 4) is stored in the master pattern when the switch A is turned on or when there is a power failure. However, a part or all of the master pattern may be updated by a load pattern during a normal opening / closing operation of the opening / closing body 10. According to this aspect, even when the normal load pattern changes, such as when the frictional resistance of the opening / closing body 10 or the drive source 33 increases due to long-term use, so as to correspond to the changed latest load pattern, Master pattern can be maintained.
Furthermore, in the above aspect, part or all of the master pattern may be updated based on an average value of load pattern samples for a predetermined number of times in the past.

  Further, according to the above embodiment, during the opening operation (see FIG. 5), it is determined that the opening / closing body 10 is in the fully open position based on whether or not the load value exceeds a predetermined threshold value (fully open). Alternatively, the determination may be made based on whether or not the load pattern substantially matches a predetermined range (near fully open) of the master pattern.

Further, according to the embodiment, the load pattern substantially coincides with the predetermined range (near the fully closed) of the master pattern that the opening / closing body 10 is in the fully closed position during the closing operation (see FIG. 6). However, it is also possible to determine whether or not the load value exceeds a predetermined threshold (fully closed).
However, in this case, since the rotation of the drive source 33 is continued for a while after the opening / closing body 10 contacts the contact target site p, the opening / closing body 10 is slightly slackened. Therefore, in the process of step 34a, it is preferable that the opening / closing body 10 is slightly reversed after being stopped and then stopped again.

  Further, according to the above embodiment, during the closing operation (see FIG. 6), the opening pattern 10 is in contact with the obstacle, and the load pattern is within a predetermined range of the obstacle sensing master pattern (near full closure). However, it is also possible to determine whether or not the load value exceeds a predetermined threshold value.

Note that, according to the above-described embodiment, by appropriately adjusting the characteristics of the biasing means 34, the load pattern and the master pattern can be easily compared, and the load value when the opening / closing body 10 is seated. However, it is also possible to adopt a mode in which the urging means 34 is omitted.
In addition, by using a plurality of types of urging means 34, it is possible to appropriately adjust the synthesized urging characteristics, and to further easily compare the load pattern and the master pattern.

Next, an opening / closing device A ′ that is another example of the present invention will be described. In addition, in the following description, the overlapping detailed description is abbreviate | omitted about the location substantially the same as the switchgear A mentioned above.
The switchgear A ′ is different from the switchgear A described above in that the processing by the control unit 40 is changed to that shown in FIGS. 8A and 8B. This is substantially the same (see FIG. 1).
That is, according to the above-described opening / closing device A, the state of the opening / closing body 10 is recognized by using both the processing for comparing the load torque and the master torque and the processing for comparing the load value and the threshold value. However, the opening / closing device A ′ does not use the former process, but uses only the latter process (a process for comparing the load value and the threshold value).

  More specifically, the control unit 40 ′ is input from the load value detection unit 36 or an operation unit (not shown) (operation BOX, remote controller, computer that generates an operation signal, portable terminal, activation sensors, etc.). This is a control circuit that electronically computes an electrical signal based on a program, outputs a control signal corresponding to the processing result to the drive source 33, and causes the drive source 33 to rotate forward, reverse, stop, etc. A storage device (for example, an EEPROM or a flash memory) that stores the load value input from the value detection unit 36 is provided.

  As shown in the flowchart of FIG. 8, the processing by the control unit 40 ′ is based on processing during the opening operation (see FIG. 8A), processing during the closing operation (see FIG. 8B), and the like. Thus, the above-described opening / closing apparatus A is simple and does not include the process for initial setting and the process for the operation up to the intermediate position.

The processing by the control unit 40 ′ will be described in detail. When the opening / closing body 10 is opened, the control unit 40 ′ performs the processing by the control unit 40 (steps 21 to 24) as shown in FIG. In substantially the same manner, the opening / closing body 10 is opened by the input of an opening signal from an operation unit (not shown) and the load value detecting unit 36 starts detecting the load value (steps 51 and 52).
In step 53, it is determined whether or not the detected load value exceeds a predetermined threshold value stored in the storage device of the control unit 40 '(step 53). 10 is determined to be in the fully open position, the opening operation of the opening / closing body 10 is stopped in the next step 54, and if not, the opening operation of the opening / closing body 10 is continued until the threshold value is exceeded.

Further, as shown in FIG. 8B, the control unit 40 ′ when closing the opening / closing body 10 causes the opening / closing body 10 to close by an input of a closing signal from an operation unit or the like (not shown). At the same time, the load value detection unit 36 starts detecting the load value (steps 61 and 62).
In step 63, it is determined whether or not the detected load value exceeds a predetermined threshold value stored in the storage device of the control unit 40 '(step 63). 10 is determined to be in contact with the object (obstacle or contact target site p) on the closing direction side, and in the next step 64, the opening operation of the opening / closing body 10 is temporarily stopped, reversed, and then stopped again. If the threshold is not exceeded in step 63, the closing operation of the opening / closing body 10 is continued until the threshold is exceeded.

  In addition, the threshold value in the above step 63 is the case where both the case where the opening / closing body 10 contacts an obstacle in the middle of closing and the case where the opening / closing body 10 contacts the contact target portion p and is fully closed. It is a value set so as to be exceeded by the load value. This threshold value is a value experimentally measured in advance or theoretically derived, and is stored in the storage device of the control unit 40 ′.

According to the opening / closing device A ′, when it is determined in step 63 that the opening / closing body 10 has come into contact with an object, and the object is an obstacle, the opening / closing body 10 is reversed in the next step 64. Impact on obstacles is reduced.
Further, when the object is the contact target site p, the drive source 33 continues to operate slightly after the opening / closing body 10 is seated, but the bending of the opening / closing body 10 occurring at that time is reduced by the reversing operation. Is done.
Therefore, with a simple configuration in terms of mechanical and control circuit, it is recognized that the operating opening / closing body 10 has come into contact with an object such as an obstacle or a contact target portion, and the opening / closing body 10 can be operated appropriately. Can be stopped.

  According to the opening / closing device A ′, by appropriately adjusting the characteristics of the urging means 34, the peak of the load value when the opening / closing body 10 abuts on the object becomes prominent. However, the biasing means 34 may be omitted.

  Moreover, according to the said embodiment, when the opening-and-closing body 10 in closing operation contacts with an obstacle, the structure which detects the obstruction is illustrated, but the opening-and-closing body 10 (in opening operation | movement) ( In detail, for example, it may be configured to sense that a portion protruding in the thickness direction or the like is in contact with an obstacle.

The schematic diagram which shows an example of the switchgear concerning this invention. It is explanatory drawing which shows the calculation theory of the load value (load torque) concerning a drive source, (a) shows the state by which the opening / closing body is suspended by the winding axis | shaft, (b) is the contact object of the opening / closing body. The state which contact | abutted to the site | part is shown. The graph which shows an example of the load pattern and master pattern during closing operation of an opening-and-closing body. The flowchart which shows an example of the process by the control part at the time of initial setting. The flowchart which shows an example of the process by the control part at the time of open | release operation of an opening-and-closing body. The flowchart which shows an example of the process by the control part at the time of closing operation of an opening-and-closing body. The flowchart which shows an example of the process by the control part at the time of operating an opening-closing body to an intermediate position. In another example of the opening / closing device according to the present invention, (a) is a flowchart showing an example of processing by the control unit when the opening / closing body is closed, and (b) is by the control unit when opening / closing the opening / closing body. It is a flowchart which shows an example of a process.

Explanation of symbols

A, A ′: switchgear 10: switchgear 33: drive source 36: load value detection unit 40, 40 ′: control unit Tx: load value

Claims (2)

In an opening / closing apparatus comprising an opening / closing body capable of opening and closing, and a drive source for operating the opening / closing body,
A biasing means for biasing the opening / closing body in the opening direction and increasing a biasing force for biasing the opening / closing body in the opening direction as the opening / closing body is operated in a direction opposite to the biasing direction;
A load detector for detecting a load value of the drive source during operation of the drive source;
A switching device comprising a storage device, comprising a control unit for controlling the drive source based on the detected load value, wherein the load value during the closing operation is rapidly increased immediately after sitting;
The biasing means suppresses the load fluctuation in the state where the opening / closing body is not in contact with the object during the closing operation of the opening / closing body, so that the load value when the opening / closing body contacts the object and It is adjusted so that the change of the load pattern which is the change pattern of the load value becomes remarkable,
The control unit has a function of detecting a master pattern for comparison with the load pattern, closes the opening / closing body from a fully open position, and the load value detected by the load detection unit is stored in the storage device in advance. Judging the fully closed position of the opening and closing body by exceeding a stored predetermined threshold, and detecting the master pattern during the closing operation,
After detection of the master pattern, the control unit closes the opening / closing body when the load pattern detected by the load detection unit substantially matches a predetermined range of the master pattern during the closing operation of the opening / closing body. Stop
The opening / closing apparatus characterized in that the predetermined range is a part of the master pattern and corresponds to a time range slightly before the opening / closing body is seated on the contact target portion . The storage device stores in advance an obstacle sensing master pattern indicating a change pattern of a load value when the opening / closing body contacts an obstacle,
When the load pattern detected by the load detection unit substantially coincides with the obstacle sensing master pattern during the closing operation of the opening / closing body, the control unit temporarily stops the opening / closing body and then reverses the opening / closing body. The switchgear according to claim 1, wherein the switchgear is stopped again .

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