JP3634145B2 - Switchgear - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an opening / closing device and an opening / closing body member for opening / closing an opening provided in various structures such as buildings or vehicles, ships, and aircrafts. For example, when closing an opening by lowering a shutter curtain The present invention can be used for a building shutter that performs control for detecting whether or not an object such as an obstacle exists in front of the direction, a shutter curtain used for the shutter, and the like.
[0002]
[Background]
Generally, a building shutter that opens and closes an opening with a shutter curtain formed by connecting a large number of slats is provided at an opening of a building entrance / exit, a window, a vehicle entrance of a garage, or the like.
[0003]
Conventionally, when closing the opening in such a shutter for a building, a detecting means such as a tape switch that can detect that the shutter is in contact with an object is provided on the seat plate at the lower end of the shutter curtain. Obstacle detection control is performed to detect whether there is an obstacle ahead of the shutter curtain in the closing direction.
[0004]
[Problems to be solved by the invention]
However, the detection means provided in the conventional switchgear that performs obstacle detection control merely detects whether or not the seat plate is in contact with the object, and whether the object in contact is an obstacle, Or there is a thing which cannot distinguish whether it is a floor surface, the ground, etc.
[0005]
On the other hand, an apparatus capable of solving such a problem has been proposed (see Japanese Utility Model Publication No. 5-39195). In this apparatus, a plurality of obstacle detection means comprising on / off type detection switches are arranged along the longitudinal direction of the seat plate at the lower end of the shutter curtain. It is possible to discriminate whether the vehicle has landed or an obstacle has been detected by determining whether or not all are in the ON state.
[0006]
However, in the apparatus described in Japanese Utility Model Publication No. 5-39195, although it is possible to distinguish whether the abutted object is a floor surface or an obstacle, control based on more detailed judgment is possible. For example, when the abutting object is an obstacle, it is not possible to perform control or the like that distinguishes whether the object is a vehicle or a person.
[0007]
Therefore, apart from such a device, there is a building shutter that can make a detailed determination of the type of an abutting object, and that can further appropriately control the drive of the shutter curtain according to the situation. If so, it may be convenient depending on the installation purpose and installation status of the apparatus. Such detailed control is widely requested not only for building shutters but also for opening / closing devices for opening / closing various structures or openings provided in vehicles, ships, etc., from the viewpoint of ensuring safety and facility management. Sometimes it is done.
[0008]
An object of the present invention is to provide an opening / closing device and an opening / closing member that can perform detailed control and can take an appropriate measure according to the situation.
[0009]
[Means for Solving the Problems]
The present invention has an opening provided at a boundary position between adjacent spaces and communicating with these spaces, and an opening / closing body for opening / closing the opening. In an opening / closing device in which an opening is closed by abutting a closing surface located at a peripheral edge of the opening facing the tip surface, a plurality of devices provided on the tip end surface in the closing direction of the opening / closing body to detect contact of an object A detection means and an information processing means for performing information processing for opening / closing control of the opening / closing body based on detection information of these detection means, wherein the plurality of detection means are arranged in the longitudinal direction of the front end surface of the opening / closing body and the longitudinal direction thereof. Are arranged in a multidimensional manner by being provided in plural in at least one direction that intersects with each other.
[0010]
Here, the object is an obstacle or a closed surface, and the closed surface is, for example, a floor surface, the ground, a wall surface, a window frame or the like, and the obstacle is any object other than the closed surface. For example, a person, a vehicle, a stone, a luggage, etc. In addition, when two opening bodies move from both sides, such as an automatic door of a train or an elevator door, and the opening portion is closed by combining the front end surfaces in the closing direction, one end The other tip surface corresponds to the closed surface when viewed from the surface, and the same applies when viewed from the opposite side.
[0011]
As the detection means, a piezoelectric element, a string-like or band-like so-called tape switch cut into a predetermined length, an on / off contact switch, or the like can be used. The “intersecting direction” in the arrangement of the plurality of detecting means is a direction mainly orthogonal to the longitudinal direction, but is not limited to the orthogonal direction, and forms an acute angle of less than 90 degrees. It may be a direction, in short, a plurality of detection means only need to be arranged in a multidimensional manner.
[0012]
Further, the multidimensional arrangement means a two-dimensional or three-dimensional arrangement. The latter three-dimensional arrangement refers to an arrangement provided in each of the longitudinal direction of the front end surface in the closing direction of the opening and closing body and two directions intersecting this, and the two directions intersecting in this case are the front end surface. (Ie, a direction that forms a plane parallel to the tip surface along with the longitudinal direction) and a direction that intersects the tip surface (mainly the normal direction of the tip surface). Note that the normal direction of the front end surface usually coincides with the closing direction (movement direction) of the opening / closing body, but when the front end surface is inclined with respect to the movement direction (therefore, the closing surface is also inclined). In the case), it is not necessary to match. On the other hand, the former two-dimensional arrangement refers to an arrangement in which a plurality of arrangements are provided for each of the longitudinal direction of the front end surface in the closing direction of the opening and closing body and one direction intersecting this, and the one direction intersecting in this case is mainly the tip. Although it is a direction along the surface, it is not limited to this direction, and may be a direction intersecting the tip surface (mainly a normal direction of the tip surface). In addition, when a plurality of two directions (including the longitudinal direction) that form a plane parallel to the tip surface are provided, the arrangement may be, for example, a staggered arrangement as long as they are two-dimensionally arranged.
[0013]
The detection means is not only a closing direction front end surface of the opening / closing body (that is, a surface abutting on the closing surface when fully closed), in addition to the other surface of the closing direction front end portion, for example, the front end surface You may make it provide also in the surface located in a back side, a side surface, etc. By doing in this way, it becomes possible to detect the catch when moving the opening / closing body in the opening direction, the contact from the side, and the like.
[0014]
In addition, the detection means is preferably provided over the entire range of the front end surface in the closing direction of the opening / closing body from the viewpoint of improving detection accuracy, optimizing control, etc., but is not limited to this, and the installation status of the apparatus Depending on the installation purpose or the like, it may be partially provided such as being provided or scattered on a part of the front end surface in the closing direction.
[0015]
Further, the information processing means may be a computer or a relay circuit.
[0016]
In the present invention, when performing opening / closing control of the opening by moving the opening / closing body, the contact of the object is detected by a plurality of detection means provided on the front end surface of the opening / closing body, and these detections are detected. Information processing for opening / closing control of the opening / closing body is performed based on the detection information of the means.
[0017]
At this time, since the plurality of detection means are provided in a multidimensional manner by providing a plurality of detection means respectively in the longitudinal direction of the front end surface in the closing direction of the opening / closing body and at least one direction intersecting with the longitudinal direction, Because advanced information can be obtained, it is possible to perform various types of information processing that is the premise or standard for opening and closing control, and in addition to this, detailed control can be performed, and depending on the situation Appropriate responses can be taken.
[0018]
Furthermore, since a plurality of detection means are arranged in a multidimensional manner, even if one of the detection means fails, a function that complements it by other normal detection means occurs. Compared with the case where the obstacle detection means is arranged one-dimensionally as in the apparatus described in Japanese Utility Model Publication No. 5-39195, the possibility of malfunction due to failure is reduced. In other words, unless there is a problem such as failure of all the detection means in the same row at the same time, the possibility that the detection accuracy is lowered is reduced, and the above object is achieved.
[0019]
Here, “information processing for opening / closing control of the opening / closing body” mainly includes determination of the type of the object in contact. If the type of the object is determined by the information processing means, the plurality of detection means are arranged in a multidimensional manner, so that the apparatus described in the aforementioned Japanese Utility Model Publication No. 5-39195 As compared with the case where the obstacle detection means is arranged in a one-dimensional manner, it is possible to obtain detailed information on the abutting object. For example, whether the object is an obstacle or a closed surface If it is a judgment or an obstacle, it is possible to judge whether it is a person or a vehicle.
[0020]
For this reason, it becomes possible to perform detailed and appropriate control according to the situation, such as immediately stopping the closing operation of the opening / closing body based on the determination result or switching from the closing operation to the opening operation. Therefore, it is suitable for performing object detection control in opening / closing control of shutters provided in openings of various structures such as building shutters.
[0021]
As a more specific example of determining the type of an object in this way, an object that is in contact based on the range of what the information processing means has detected that has contacted the object among a plurality of detection means There is a configuration in which the type is determined.
[0022]
In the case of such a configuration, if the range of a plurality of detection means that has detected contact with an object extends over substantially the entire area in the longitudinal direction of the front end surface in the closing direction of the opening / closing body, the opening / closing body It is possible to determine that it has contacted the closed surface, and otherwise contact with the obstacle. Further, when it is determined that the object is in contact with an obstacle, if the range is wide, it is determined that the object is in contact with a large obstacle. If the range is narrow, it is determined that the object is in contact with a small obstacle. It becomes possible.
[0023]
In addition, another specific example of determining the type of the object is that the information processing unit is in contact based on the spread speed of the range of the plurality of detection units detected to be in contact with the object. For example, it is possible to determine the type of the detected object.
[0024]
In such a configuration, if the range of a plurality of detecting means that detects contact with an object increases rapidly (if the spreading speed is high), it contacts a hard object. If it is determined that it gradually increases (if the spreading speed is slow), it is possible to determine that it is in contact with a soft object.
[0025]
By combining the above-mentioned judgment based on width and judgment based on spread speed, it becomes possible to make a more detailed judgment that combines the size of the object and the flexibility, and more detailed and appropriate for the situation. Control can be performed.
[0026]
By the way, the information processing performed by the information processing means is not limited to such determination of the type of object, and is not information processing directly used for controlling the opening / closing body in real time, but merely notification. It includes information processing that can be used for subsequent control through human resources, such as processing, in short, in any way, information that is related to or has an influence on current or future control. What is necessary is just processing. Accordingly, the following information processing may be performed in place of the determination of the object type or together with the determination of the object type.
[0027]
For example, if one detection means in the same row shows a detection result different from other detection means on both sides adjacent to it in the row, the result is ignored or the result of the detection means on both sides Complementary control using a plurality of multi-dimensional arrangements, such as correction for matching, may be performed.
[0028]
In addition, since a plurality of detection means are arranged in a multidimensional manner, it is possible to obtain detailed information on the state of the closed surface. For example, when the closed surface is a floor surface of a garage, Detects that the floor surface has been partially cut or cracked due to entering and exiting, etc., and notifies that the floor surface needs to be repaired, or interrupts control of the switchgear until such repair is performed Or you may make it cancel.
[0029]
Further, when the opening / closing body is an opening / closing device for sealing the opening, for example, in the case of a submarine or an aircraft hatch, the object of sealing is achieved if a part of the closing surface is damaged. Therefore, when the damage of the closed surface is detected by a plurality of detection means, and the damaged portion is detected, the information processing means notifies that, or controls the switchgear until the damaged portion is repaired. You may make it interrupt or cancel. In addition, by performing control for monitoring the state of the closed surface, in the case of an opening provided in a building, it is possible to prevent rainwater from entering.
[0030]
The present invention also includes an opening provided at a boundary position between adjacent spaces and communicating with these spaces, and an opening / closing body for opening / closing the opening, and a front end surface of the opening / closing body in the closing direction is provided. In the opening / closing device in which the opening is closed by contacting the closing surface located at the peripheral edge of the opening facing the tip surface, the contact of the object is detected by being provided on the tip surface in the closing direction of the opening / closing body. A detection means and an information processing means for performing information processing for opening / closing control of the opening / closing body based on detection information of the detection means, and the detection means is a magnitude of pressure applied from the object when the object comes into contact with the detection means. The information processing means is configured to perform information processing based on the change state of the magnitude of the signal output from the detection means.
[0031]
Here, as the detection means, a piezoelectric element can be used, or a strain gauge is directly attached to the front end of the opening / closing body in the closing direction, or a detection member is provided at the front end and a strain gauge is attached thereto. Capacitance-type pressure sensor that captures changes in stress caused by pressure applied from an object when contacting the object as a strain amount, or uses a front end surface in the closing direction as a diaphragm, and detects changes in capacitance between electrodes due to displacement of the diaphragm Etc. can be used.
[0032]
In the present invention, the detection means captures a change in the magnitude of the pressure applied from the abutting object, and the information processing means detects various changes based on the magnitude change state of the signal output from the detection means. Perform information processing. For example, some judgment or processing may be performed depending on the detected pressure level itself, or whether the rise of the detected pressure history curve (one of which is a time axis and the other axis is a pressure value) is fast or slow. (The length of time it takes for the pressure value to reach a certain level), whether the curve shape is convex upward or downward, or the magnitude of the gradient at the predetermined time point Judgment and processing may be performed. In particular, when the opening / closing body moves relatively slowly, it is preferable because the detection accuracy is improved.
[0033]
For this reason, compared to the case where the contact of an object is detected by a simple on / off type detection switch, more advanced information is obtained regarding the state of contact with the object, which is a premise or reference for opening / closing control. Various types of information processing can be performed in various ways, and accordingly, detailed control can be performed, and appropriate responses can be taken according to the situation. The above object is also achieved.
[0034]
Here, “information processing for opening / closing control of the opening / closing body” mainly includes determination of the type of the object in contact. In other words, the information processing unit may be configured to determine the type of the abutted object based on the magnitude change state of the signal output from the detection unit.
[0035]
If the type of object is determined by the information processing means in this way, for example, when the pressure value is large, the history curve rises quickly, the curve shape is convex upward, the gradient is large, etc. Is determined to have contacted a hard object when the pressure value is small, when the rise of the hysteresis curve is slow, when the curve shape is convex downward, or when the gradient is small, etc. It becomes possible to judge. And in making such a judgment, it is preferable to be based on information sampled in advance by actually bringing various objects into contact with each other. In addition, if each of these indicators alone cannot be determined or is inaccurate, for example, combining a plurality of indicators such as combining the magnitude of the pressure value and the slow rise of the history curve. You may make it judge.
[0036]
In addition, by combining the above-described plurality of detection means with the invention arranged in a multidimensional manner, the type of the object (object) that has been detected based on the range of the range of the plurality of detection means that has been detected to contact the object. If the process of determining the size of the object is also performed, it is possible to make a more detailed determination that combines the size of the object and the flexibility. Therefore, it is suitable for performing object detection control in opening / closing control of shutters provided in openings of various structures such as building shutters.
[0037]
Note that the information processing performed by the information processing means is not limited only to the determination of the type of the object. For example, the rise of the history curve when the opening / closing body abuts the closing surface is higher than that in a normal state. If the driving force of the opening / closing body drive motor has deteriorated, the driving force is weakened.If the history curve rises faster than normal, the opening / closing body It is possible to determine that the drive motor is operating abnormally due to an overcurrent or the like, and take appropriate measures such as notification to that effect or stop control.
[0038]
In the above-described opening / closing device of the present invention, it is desirable that the detection means has the surface on the side in contact with the object covered with a flexible member. With such a configuration, it is possible to prevent the detection means from being damaged and to prevent a decrease in detection accuracy. The hardness of the flexible member needs to be such that the pressure can be transmitted from the abutting object to the detection means.
[0039]
Furthermore, the present invention provides an opening / closing body member that forms an opening / closing body that is provided at a boundary position between adjacent spaces and opens and closes an opening that communicates with these spaces, and is a closure positioned at the peripheral edge of the opening. A front end surface in the closing direction which is disposed opposite to the surface and comes into contact with the closed surface when the opening is fully closed, and a plurality of detection means for detecting contact of an object are provided on the front end surface in the closing direction. The plurality of detection means are provided in a multidimensional manner by providing a plurality of detection means in the longitudinal direction of the front end surface in the closing direction and at least one direction intersecting with the longitudinal direction.
[0040]
Here, the opening / closing body member of the present invention includes not only one that forms the entire opening / closing body but also one that forms a part of the opening / closing body. In the case of only a partial product such as a seat plate that forms a part, in short, as long as it has a front end surface in the closing direction and a plurality of detection means are arranged in a multi-dimensional manner on the front end surface. It is included in the opening / closing body member.
[0041]
In the present invention, since a plurality of detection means are provided on the front end surface in the closing direction, an information processing means for performing opening / closing control of the opening / closing body based on the detection information of these detection means should be prepared separately. Thus, the above-described opening / closing device of the present invention can be realized, and the effect can be obtained.
[0042]
Such an opening / closing body member of the present invention may be combined with a corresponding information processing means for the first time when assembled as an opening / closing device at a construction site or the like, or may be processed before being carried into a construction site or the like. It may be combined with the means in advance and assembled as a switchgear at the construction site in this combined state. In particular, in the latter case, at the time of manufacturing the opening / closing member of the present invention, a plurality of detection means are provided on the front end surface in the closing direction, and the information processing means is combined with this at any location of the opening / closing body, for example, It can be considered to be provided at the front end portion in the closing direction (the vicinity of the front end surface) or the like. Note that the corresponding information processing means is not limited to the one provided on the opening / closing body side in this way, and is provided on the fixed portion (structure or the like in which the opening is formed) side. Alternatively, the function may be shared between the opening / closing body and the fixed part.
[0043]
In the above, the present invention is applicable to a case where the opening / closing body is a shutter curtain of a shutter device for various structures such as buildings, or a door provided in various structures such as buildings, and further, an automatic door of a taxi. , Doors for garbage storage at the rear of cleaning cars, automatic doors for trains, doors for car ferry entrances, doors for car entrances at the rear of cargo transport aircraft, military aircraft, etc. The present invention can be widely applied to general opening / closing devices including an opening / closing body for opening / closing an opening, such as various doors and doors provided.
[0044]
For example, when the opening / closing body is a shutter curtain, it is provided in various structures such as entrance shutters for entrances and garages, shutters for buildings such as window shutters, and shutters for entrances to subways and underground shopping streets. It can be suitably used as a shutter device for opening and closing the opening. These shutters may be shutters of a type in which a shutter curtain is formed by connecting a large number of slats, and this shutter curtain is wound around and stored in a winding portion of a shutter curtain storage portion. The shutter curtain is formed by connecting a plurality of panels, and the shutter curtain is stored in the shutter curtain storage unit with the individual panels separated and stacked, or the individual panels are folded and stored in a connected state. Many blades that form the shutter and shutter curtain are shielded and opened by opening the front of the opening by changing the posture vertically and horizontally, and these blades are stacked up and down and stored in the shutter curtain housing Type of shutter, shutter curtain is the link part A shutter formed by a plurality of pipe members connected to each other at the same time, and in addition to these shutter curtains, when the shutter curtain opens the opening, the front surface of the opening is covered for sun protection It may be a shutter provided with a roll screen, a shutter in which a plurality of openings are connected to an opening such as a large entrance or exit, or an overhead type shutter for feeding and storing.
[0045]
In addition, when the opening / closing body is a door, the present invention can be applied to a sliding door or a hinged door. It may be.
[0046]
Note that the opening / closing direction of the opening / closing body such as the shutter curtain includes all directions including the horizontal direction.
[0047]
Also, in the opening, the boundary position of each passage space after partitioning when the passage is partitioned by a shutter curtain or door, or each disaster prevention section after partitioning when one space is partitioned by a disaster prevention shutter or fire door It is assumed that the boundary position and the like.
[0048]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[First embodiment]
FIG. 1 shows an overall view of a building shutter 1 which is an opening / closing device according to a first embodiment of the present invention. The building shutter 1 is a device for opening and closing an opening 2 such as a building entrance / exit and a vehicle entrance.
[0049]
In FIG. 1, a building shutter 1 includes a shutter box 3 attached to an upper portion of an opening 2 and guide rails 4 extending vertically on both left and right sides of the opening 2. Inside the shutter box 3, a winding part 6 around which a shutter curtain 5 as an opening / closing body is wound is disposed. The shutter curtain 5 is formed by connecting a large number of slats 7, and a seat plate 8 is provided at the lower end thereof. The left and right end portions of the shutter curtain 5 are slidably inserted into the guide grooves of the guide rail 4, so that the shutter curtain 5 is movable up and down while being guided by the left and right guide rails 4, and is most lowered. In this state, the lower surface 8A of the seat plate 8 which is the front end surface in the closing direction comes into contact with the floor surface 13 which is the closing surface facing the seat plate 8 so as to be in the fully closed state.
[0050]
The building shutter 1 is an electric shutter, and the winding unit 6 is connected to a motor 9 for rotationally driving the shutter. The motor 9 is controlled by a drive control means 11 provided on the control panel 10, and opens or closes the opening 2 by moving the shutter curtain 5 up and down by rotating forward or backward. Such control of the motor 9 by the drive control means 11 is performed based on operation information from the operation means 12 provided on the wall surface in the vicinity of the opening 2 and a signal from the receiving means 40 described later. Further, it may be performed based on a remote operation signal from a remote controller or the like (not shown).
[0051]
FIG. 2 shows an enlarged perspective view of a part of the seat plate 8 as viewed from below. In FIG. 2, on the lower surface 8A of the seat plate 8, a plurality of touch panel-like detection means 20 for detecting contact of an object are provided over the entire surface with substantially no gap. The plurality of detection means 20 are two-dimensionally arranged by being provided in plural in the longitudinal direction (X direction) of the seat plate 8 and the direction (Y direction) perpendicular to the longitudinal direction (X direction). It constitutes the Y coordinate.
[0052]
Each detection means 20 is made of a piezoelectric element, and can detect contact of an object by capturing an electromotive force generated by pressure applied when the object contacts. Since each detection means 20 can individually detect the contact of the object, by detecting which of the plurality of detection means 20 detects the contact of the object, the contact position of the object The X-Y coordinates can be grasped.
[0053]
In addition, each detection means 20 is covered with a flexible member 21 such as rubber on the surface that contacts the object. In the illustrated state, each detection means 20 is covered with a single flexible member 21. However, depending on the type of the flexible member 21, the size and sensitivity of each detection means 20, the detection accuracy For improvement, a separate flexible member may be provided for each detection means 20.
[0054]
Returning to FIG. 1, the transmitter 30 is fixed at a position on the right side from the center of the seat plate 8. The transmitter 30 includes an integrated circuit (IC) including a central processing unit (CPU), various storage devices such as a read-only memory (ROM) and a random access memory (RAM), and a control unit including a built-in program. And an information processing means 31 for determining the type of the object in contact with each other based on the detection information of each detection means 20 by the control section. A transmission unit 32 that transmits the determination result of the information processing unit 31 is configured by the transmission unit. The control panel 10 is provided with a receiving means 40 comprising a receiver for receiving a signal from the transmitting means 32. The receiving means 40 is connected to the drive control means 11 and receives the signal received by the drive control means 11. To send.
[0055]
Further, the seat plate 8 is provided with a battery 50 to supply power to the transmitter 30 constituting the information processing means 31 and the transmission means 32 and the detection means 20 through a cable (not shown). Furthermore, each detection means 20 and the information processing means 31 are connected by a cable (not shown) so that signals can be transmitted.
[0056]
In such a first embodiment, object detection control in the opening / closing operation of the building shutter 1 is performed as follows. FIG. 3 shows an outline of the flow of signals and information for object detection control. The left side in the figure is control performed on the side of the seat plate 8, and the right side in the figure is performed on the control panel 10 side. Control. First, the outline of the control viewed from the flow of signals and information between each part of the apparatus will be described.
[0057]
In FIG. 3, in parallel with the raising / lowering operation of the shutter curtain 5, it is detected whether or not an object has come into contact with each detection means 20, and these pieces of detection information are input as on / off information by the information processing means 31.
[0058]
Subsequently, based on the input detection information of each detection means 20, the information processing means 31 determines whether there is an object below the seat plate 8, and if there is an object, determines the type of the object. I do. The determination of the type of the object here includes determination of whether the object is an obstacle or the floor surface 13 and, further, determination of the type of the obstacle when the object is an obstacle.
[0059]
Thereafter, the determination result by the information processing means 31 is sent to the transmission means 32, and further the determination result is transmitted from the transmission means 32 on the seat plate 8 side to the reception means 40 on the control panel 10 side. This is the outline of the seat plate side control.
[0060]
On the other hand, the receiving means 40 that has received the transmission signal from the transmitting means 32 sends this information to the drive control means 11. Then, the drive control unit 11 that has received the reception signal from the reception unit 40, that is, the determination result by the information processing unit 31, refers to the operation information by the operation unit 12 together with the determination result, according to the request and situation of the operator Drive control of the motor 9 is performed. The operation information by the operation means 12 includes information such as pressing the close button for instructing the closing operation of the shutter curtain 5 by the operator and pressing the open button for instructing the opening operation. The above is the outline of control panel side control.
[0061]
Next, details of the seat plate side control will be described. FIG. 4 shows a flowchart of the entire seat plate side control, and FIG. 5 shows a flowchart of obstacle processing as a part thereof.
[0062]
In FIG. 4, first, the battery 50 is turned on to start object detection control (step S1). It should be noted that the turning on / off of the battery 50 may be interlocked with the operation of the operation means 12 or the power-on of the control panel 10 by remote operation, or may be by a separate operation.
[0063]
Subsequently, initial setting including input of various setting values and information that are judgment criteria in the control, for example, a predetermined number of signals used in step S10 described later is performed (step S2). If necessary information has already been set, this initial setting is omitted, but it is preferable to change the setting so as to follow the actual operation of the apparatus as necessary.
[0064]
Thereafter, the information processing means 31 refers to the on / off information of each detection means 20 to determine whether any one of the detection means 20 is in an on state (step S3).
[0065]
Here, if none of the detection means 20 is in the ON state, it is confirmed whether or not it is being memorized that the shutter curtain 5 is in the fully closed state (step S4). In the case where the fully closed state is being memorized, if the fully closed state is actually continued, at least one detection means 20 in the on state should be present. Since the shutter curtain 5 can be determined to be separated from the floor surface 13, the information processing means 31 sends the determination result to the transmission means 32, and the transmission means 32 uses the determination result as the floor surface separation signal. Transmitting toward the receiving means 40 on the side (step S5). Subsequently, the information processing means 31 resets the fully closed state stored so far (step S6), and then returns to the process of step S3.
[0066]
On the other hand, if it is confirmed in step S4 that the fully closed state is not being memorized, it is further confirmed whether or not it is memorizing that the shutter curtain 5 is in a state of detecting that the shutter curtain 5 is in contact with an obstacle (step S4). S7). Here, when the obstacle detection state is being stored, if the obstacle detection state is actually continued, at least one detection means 20 in the on state should be present. In this case, since it can be determined that the shutter curtain 5 is separated from the obstacle, the information processing means 31 sends the determination result to the transmission means 32, and the transmission means 32 controls the determination result as an obstacle separation signal. Transmission is performed toward the receiving means 40 on the panel 10 side (step S8). Subsequently, after the obstacle detection state stored so far is reset by the information processing means 31 (step S9), the processing returns to step S3. If the obstacle detection state is not being memorized in step S7, the process directly returns to the process in step S3, and thereafter, while the ascending operation of the shutter curtain 5 continues, steps S3, S4 and S4 are performed. The loop process of S7 is repeated.
[0067]
In step S3, if any one of the detection means 20 is in an on state, whether or not the number of signals (the number of detection means 20 in an on state) is equal to or less than a predetermined number is determined. Judgment is made (step S10). If the number of signals exceeds a predetermined number, it can be determined that the obstacle is in contact with the floor surface 13. If the number of signals is equal to or less than the predetermined number, it is an abnormality of the apparatus or the obstacle or the floor surface 13. This is done because it can be determined that the state is a transitional state at the beginning of contact.
[0068]
In step S10, when the number of signals in the on state is equal to or less than the predetermined number, first, the signal state (each XY coordinate of the on signal) is stored (step S11). It is determined whether or not it matches the predetermined signal generation state stored in 31 (step S12). Here, the predetermined signal generation state is a signal pattern in a state considered to be abnormal. For example, the signal of the detection means 20 at a specific location is always on, or the on-state signal is dispersed. This is the case.
[0069]
If the predetermined signal generation state matches with step S12, an event corresponding to the signal state is extracted from each event indicating an abnormal state stored in advance (step S13). After transmitting the information together with the signal state at that time to the receiving means 40 on the control panel 10 side by the transmitting means 32 (step S14), the processing returns to step S3. Here, as an event indicating an abnormal state, for example, the failure of the detection means 20 at a specific location, the time for replacement of the detection means 20 being close, and the like can be mentioned.
[0070]
On the other hand, if it does not coincide with the predetermined signal generation state in step S12, it can be determined that the state is not an abnormal state but a transitional state at the beginning of contact with the obstacle or the floor surface 13, so that in step S3 Returning to the processing, the loop processing of steps S3, S10, S11, and S12 is repeated until the number of signals reaches a predetermined number. It is to be noted that the time monitoring or the number of repetitions of this loop processing is performed, and if it is repeated for a predetermined time or a predetermined number of times, abnormal processing (for example, the possibility of occurrence of an initial failure of the detecting means 20) is performed. May be.
[0071]
In step S10, if the number of signals in the on state is not less than the predetermined number, first, the signal state (each XY coordinate of the on signal) is stored (step S15), and the longitudinal direction of the lower surface 8A of the seat plate 8 is stored. It is determined whether or not the detection means 20 arranged at both end positions (in the X direction in FIG. 2) is in an on state (step S16). The both end positions are one row at the extreme ends of the both sides or several rows including them, and usually correspond to portions that are contained in the sliding grooves of the left and right guide rails 4. The purpose is to determine whether or not there is a detection means 20 that is turned on at least one by one. Although it is an extremely rare case, the same detection result is obtained as a result even though it is not in contact with the floor surface 13 such as when there is an obstacle of exactly the same size at each end position. In such a case, it may not be possible to distinguish between the contact with the floor surface 13 and the contact with the obstacle. You may make it add.
[0072]
Subsequently, if it is not determined in step S16 that the detection means 20 at both ends is in the on state, the signal in the on state is further applied over substantially the entire length of the lower surface 8A of the seat plate 8 in the longitudinal direction. It is determined whether or not there is (step S17).
[0073]
If the detection means 20 at both ends is turned on in step S16 and if there is an on signal over substantially the entire length in the longitudinal direction in step S17, the shutter curtain 5 is It is confirmed whether or not it is memorized that it is in the fully closed state (step S18). If it is already memorized, the process returns to step S3 as it is. A state is memorize | stored (step S19), and after a fully closed signal is transmitted to the receiving means 40 by the side of the control panel 10 by the transmission means 32 (step S20), it returns to the process of step S3. Even if it is not determined in step S16 that the detection means 20 on both ends are in the on state, if there is an on state signal over substantially the entire length in the longitudinal direction in step S17, The determination that the shutter is closed (contact with the floor surface 13) is based on the case where the shutter curtain 5 is closed in a slightly inclined state.
[0074]
On the other hand, if it is not determined in step S17 that there is an on-state signal over substantially the entire length in the longitudinal direction, it is confirmed whether or not it is stored that the shutter curtain 5 is fully closed ( In step S21), if it is being stored, the process returns to step S3 as it is, and if it is not being stored, the obstacle processing described below is performed (steps S31 to S35), and then the process returns to step S3.
[0075]
In FIG. 5, in the obstacle processing, first, it is confirmed whether or not it is being memorized that the shutter curtain 5 is in the state of detecting that it is in contact with the obstacle (step S31), and the obstacle detection state is already stored. If it is in the middle, the process returns to step S3.
[0076]
On the other hand, if the obstacle detection state is not being stored, an obstacle type determination process is performed (step S32). In this obstacle type determination process, the range of the detection means 20 that is in the ON state and the time required for the detection means 20 to reach such a range, that is, the speed of expansion of the range of the ON signal are determined. It becomes a judgment factor.
[0077]
Here, the determination of the range of the former ON signal range may be performed using the determination result in the process of step S10 (see FIG. 4), or time has elapsed since the determination of step S10. The number of ON signals may be confirmed again.
[0078]
Further, the determination of the speed of spreading the latter ON signal range is performed until the number of ON signals reaches a predetermined number in the process of step S10 after the first ON signal is detected in the process of step S3 (see FIG. 4). Or the number of repetitions of the loop processing of steps S3, S10, S11, and S12 during that time, or in order to obtain more detailed information, the first ON signal is detected in the processing of step S3. At this time, a dedicated task for determining the spreading speed may be started separately in parallel, and the determination result of the dedicated task may be referred to.
[0079]
When the ON signal range is wide and the spreading speed is high, it is determined that the vehicle is in contact with a large and hard obstacle such as a car, and the ON signal range is wide and the spreading speed is slow. Is judged to have come into contact with a large and soft obstacle such as an adult. In addition, when the range of the ON signal is narrow and the spreading speed is high, it is determined that it is in contact with a small and hard obstacle such as a stone or a luggage, and the range of the ON signal is narrow and the spreading speed is high. When it is late, it is determined that the object is in contact with a small and soft obstacle such as a child.
[0080]
Further, when such an obstacle type determination is made, a real obstacle is brought into contact in advance, and a signal pattern generated at that time is stored in the information processing means 31, and matches or approximates this signal pattern. Things may be extracted, and if such a learning mode function is provided, more reliable type determination can be performed.
[0081]
Next, after the process of step S32 is completed, the type of obstacle obtained as a result of the determination is stored in the information processing means 31 (step S33), and it is detected that the shutter curtain 5 is in contact with the obstacle. The information processing means 31 stores the information in the middle state (step S34), and further, the transmission means 32 transmits the obstacle detection signal together with the obstacle type information to the reception means 40 on the control panel 10 side ( Step S35), the process returns to step S3. The above is the details of the seat plate side control.
[0082]
Details of the control panel side control will be described below. First, the receiving means 40 that has received the transmission signal from the transmitting means 32 sends this information to the drive control means 11. As a transmission signal from the transmission means 32, a floor surface separation signal (step S5), an obstacle separation signal (step S8), event information indicating an abnormal state, a signal state at that time (step S14), a fully closed signal ( Step S20), obstacle detection signal, obstacle type information (Step S35), and the like.
[0083]
Subsequently, the drive control unit 11 constantly checks whether or not the signal is received by the receiving unit 40 at a predetermined period, and when the signal is received by the receiving unit 40, various controls are performed according to the type of the signal. .
[0084]
For example, when an obstacle detection signal is received, if the type of the obstacle is a human or the like, the closing operation of the shutter curtain 5 is immediately stopped and the opening operation is started. If the type is pebbles, luggage, or the like, after the closing operation of the shutter curtain 5 is stopped, the opening operation is performed a little and the control can be performed. When the rotation speed of the motor 9 can be changed, it is possible to perform control such as raising the shutter curtain 5 at a higher speed than usual when it comes into contact with a human being, or simply stopping the operation. It is also possible to perform control such that the operation is automatically continued when a predetermined time elapses after the operation is stopped. Further, when a fully closed signal is received, control for stopping the closing operation can be performed.
[0085]
Further, not only the opening / closing operation of the shutter curtain 5 but also processing such as alarm lamp lighting, buzzer sounding, status notification, etc. may be performed based on the received signal and information. When event information indicating an abnormal state and a signal state at that time are received, an operator is notified of the abnormality (including an abnormal part and an abnormal state) by performing a warning or a status notification to that effect. In addition to being able to notice and take corrective action, it is possible to grasp a place where failure is likely to occur, so that it is possible to obtain information effective for subsequent control.
[0086]
On the other hand, when there is no signal reception by the receiving means 40, the drive control means 11 checks whether or not the close button or the open button of the operation means 12 is pressed, and when the close button is pressed. The shutter curtain 5 is closed unless the fully-closed state is being stored or the obstacle detection state is being stored, and when the open button is pressed, unless the fully-open state is being stored or the obstacle detection state is being stored, The shutter curtain 5 is opened. Further, when the fully closed or fully opened state is being stored or the obstacle detection state is being stored, the opening / closing operation is not performed. Then, the process proceeds to the next periodic process.
[0087]
According to such 1st embodiment, there exist the following effects. That is, since a plurality of detection means 20 arranged two-dimensionally are provided, it is possible to obtain high-level information regarding the contacting object. For this reason, when the opening / closing control of the shutter curtain 5 is performed, it is possible to take appropriate measures in detail and according to the situation.
[0088]
Specifically, since the information processing unit 31 determines the type of the contacted object based on the detection information from the plurality of detection units 20, it is determined whether the object is an obstacle or the floor 13 (see FIG. 4 steps S16, S17, etc.), and if it is an obstacle, it is possible to determine what kind of obstacle it is (steps S31 to S35).
[0089]
In the obstacle type determination process (step S32 in FIG. 5), the information processing means 31 makes a determination in consideration of the width of the range of each detection means 20 that has been turned on and its spreading speed. It is possible to make a detailed type determination that combines the size of the object and the hardness. For this reason, since detailed control can be performed by the drive control means 11 based on this detailed determination, more appropriate control according to the situation can be performed as compared with the conventional case.
[0090]
In addition, since the plurality of detection means 20 are two-dimensionally arranged, the possibility of malfunction due to a failure can be reduced as compared with the conventional one-dimensional arrangement. Then, when there is an on-state signal by the information processing means 31 (step S3 in FIG. 4), if the number of on-state signals is equal to or less than a predetermined number (step S10), whether or not it is an abnormal state. (Step S12), in addition to being able to avoid erroneous determination and the occurrence of malfunctions based on it, it is possible to know that the failure location and replacement time are near by the processing, so that the operator Can take appropriate response measures.
[0091]
Furthermore, since each detecting means 20 is covered with a flexible member 21 such as rubber on the surface that comes into contact with the object, the detecting means 20 can be prevented from being damaged. As a result, a decrease in detection accuracy can be avoided as a result.
[0092]
[Second Embodiment]
The building shutter 101 which is the switchgear according to the second embodiment of the present invention is substantially the same as the building shutter 1 which is the switchgear according to the first embodiment except for the signal output format of the detection means and the information processing means. Since the control method is substantially the same except that the control in the information processing means is partially different, the same parts are denoted by the same reference numerals, detailed description thereof is omitted, and only different parts are described below. To do.
[0093]
FIG. 6 shows an outline of a control signal and information flow performed on the seat plate 8 side in the object detection control in the building shutter 101 of the second embodiment. Further, the control on the right control panel side in the figure is exactly the same as in the case of the first embodiment, and is not shown.
[0094]
The detection means 20 of the first embodiment is composed of a piezoelectric element, and a plurality of two-dimensionally arranged on the lower surface 8A of the seat plate 8 as shown in FIG. 2, but the detection means 120 of the second embodiment is also piezoelectric. It consists of elements, and the number and arrangement thereof are exactly the same as in the case of the first embodiment. Moreover, the point covered with flexible members 21, such as rubber | gum, is the same.
[0095]
However, in the first embodiment, the output signal of each detection means 20 is regarded as an on / off signal by the information processing means 31, but in the second embodiment, each detection means 120 is obtained by the information processing means 131. Are different from each other in that the output signal is regarded as a continuous signal that is output according to the magnitude of pressure applied from the object when the object abuts. The difference in the signal output format does not mean that the output itself due to the electromotive force generated in the piezoelectric element is different, but the processing until the information is input to the information processing means 31 and 131 or the information processing means 31 and 131. This means that the signal input format is different.
[0096]
In such a second embodiment, object detection control in the opening / closing operation of the building shutter 101 is performed in substantially the same manner as in the first embodiment, but processing different from that in the first embodiment is performed in the following points.
[0097]
That is, also in the second embodiment, the processing flow shown in FIGS. 4 and 5 is the same as in the case of the first embodiment. However, in the first embodiment, in the obstacle type determination process (step S32) of FIG. 5, the information processing unit 31 takes into account the range of each detection unit 20 that is turned on and the spreading speed thereof. However, in the second embodiment, the information processing unit 131 causes the detection unit 120 to turn on (predetermined). The state of the object has reached the pressure of the object) and the state of the object is adjusted by considering the state of the output signal of the detection means 120 that is in the ON state and the change state of the output signal of the detection means 120. The type is determined.
[0098]
First, the determination of the size of the object is made based on the range of the range of the ON signal (signal reaching a predetermined pressure) just as in the case of the first embodiment. You may make it using the judgment result in the process of step S10, or you may make it confirm the number of ON state signals again since time has passed since the judgment time of step S10.
[0099]
Further, regarding the determination of the hardness of the object, after the first ON signal (signal that has reached a predetermined pressure) is detected in the process of step S3 in FIG. Is stored in the information processing means 131 through the A / D conversion circuit, and is performed based on the history information. Further, when there are a plurality of ON signals in the process of step S3, the average value thereof can be taken, or only the output of the signal at the center position among the ON signals can be taken. However, even if the signal is an ON signal, it is not taken into consideration if it is determined as an abnormal state in the process of step S12.
[0100]
FIG. 7 shows an example of a history curve (pressure P-time T curve) detected by the detection means 120. Here, the value of the pressure P on the vertical axis indicates a pressure value in a portion exceeding a predetermined pressure that is a reference for determining whether or not the process is in the ON state in the process of step S3.
[0101]
When performing the type determination, the information processing means 131 may use the detected pressure itself as an index as shown in FIG. 7 (A), or the rise of the detected pressure history curve as shown in FIG. 7 (B). It may be used as an index whether the pressure value is fast or slow (the length of time required for the pressure value to reach a certain level P1). Further, as shown in FIG. 7C, whether the curve shape is convex upward or downward may be used as an index, and as shown in FIG. 7D, the magnitude of the gradient at a predetermined time T1 may be used as an index. Furthermore, it is possible to make a judgment by combining these indices.
[0102]
For example, when the pressure value is large, when the rise of the history curve is fast, when the curve shape is convex upward, when the gradient is large, etc., it is determined that the object is in contact with a hard object. When the rising of the curve is slow, when the curve shape is convex downward, or when the gradient is small, it can be determined that the curve is in contact with a soft object. And in making such a judgment, it is preferable to be based on information sampled in advance by actually bringing various objects into contact with each other.
[0103]
Further, when the descending speed of the shutter curtain 5 is relatively slow or when the information processing means 131 has a performance capable of high-speed processing, the entire shape of the history curve is captured and a high-order approximation function is derived, and this function Judgment may be made based on the coefficient.
[0104]
According to such 2nd embodiment, there exist the following effects. That is, since the information processing unit 131 makes a determination in consideration of the range of each of the detection units 120 that is turned on based on the detection information from the plurality of detection units 120 arranged two-dimensionally, the object Can be determined, and the determination in consideration of the change state (history) of the signal output of the detection means 120 in the ON state can be performed. Thus, as in the case of the first embodiment, detailed classification determination can be performed by combining the size and hardness of the object. For this reason, since detailed control can be performed by the drive control means 11 based on this detailed determination, more appropriate control according to the situation can be performed as compared with the conventional case.
[0105]
Further, as in the case of the first embodiment, it is possible to detect an abnormal state, to avoid the occurrence of erroneous determination / malfunction associated therewith, and to notify the operator to that effect. Thus, it is possible to obtain an effect of preventing breakage of each detecting means 120.
[0106]
[Deformation form]
Note that the present invention is not limited to the above-described embodiments, and modifications and the like within a range in which the object of the present invention can be achieved are included in the present invention.
[0107]
In other words, in each of the embodiments, the information processing means 31 and 131 are provided on the seat plate 8 side, but on the seat plate 8 side, the detection information of the detection means 20 and 120 is transmitted by the transmission means 32. However, the information processing means 31 and 131 may be provided on the control panel 10 side, or the processing to be performed by the information processing means 31 and 131 is shared between the seat plate 8 side and the control panel 10 side. You may do it.
[0108]
Further, in each of the above embodiments, it is determined whether or not the floor 13 is in contact (steps S16 and S17 in FIG. 4), and what kind of obstacle is (step S32 in FIG. 5). Is performed as a separate process, but these determinations may be performed simultaneously as the same process. When performing such simultaneous processing, the actual obstacles and the floor surface 13 are brought into contact with each other in advance, and the signal pattern generated at that time is stored in the information processing means 31 and coincides with this signal pattern. Alternatively, it may be determined by extracting an approximation.
[0109]
Further, in each of the above embodiments, whether or not the contact with the floor surface 13 is determined is whether or not the detection signals 20 arranged at both end positions in the longitudinal direction of the lower surface 8A of the seat plate 8 are in the ON state. (Step S16), or by determining whether or not there is an ON signal over substantially the entire length in the longitudinal direction (Step S17), in addition to such determination processing, A learning mode function for storing an actual signal pattern may be provided to make a comprehensive judgment combining these, or only the learning mode function may be performed without performing the two-step process of steps S16 and S17. The determination may be made in a one-step process based on the above.
[0110]
Further, the number of detection means 20 and 120 in each of the embodiments in the X and Y directions is not limited to the number shown in FIG. What is necessary is just to determine suitably according to the magnitude | size of the detection means 20 and 120, the processing capability of the information processing means 31 and 131, the required detection accuracy, etc.
[0111]
Furthermore, the arrangement of the detection means 20 and 120 is not limited to the grid-like arrangement with substantially no gaps as shown in FIG. 2. For example, the arrangement of gaps such as a staggered arrangement or an arrangement in every other row is possible. Arbitrary arrangement, not diagonal arrangement, radial arrangement, multiple ring arrangement, etc. are arbitrary, and it is only necessary to arrange them two-dimensionally.
[0112]
Further, the arrangement of the detection means of the present invention is not limited to the two-dimensional arrangement as in each of the above embodiments, and may be a three-dimensional arrangement, for example, as shown in FIG. In FIG. 8, on the lower surface 208A of the seat plate 208, not only the direction along the lower surface 208A (X and Y directions) but also the normal direction of the lower surface 208A, that is, the shutter curtain opening / closing direction (Z direction). A plurality of detection means 220 are provided so as to overlap each other.
[0113]
In the case of such a three-dimensional arrangement, in the Z direction, when the detection means 220A on the side close to the lower surface 208A is turned on, it is determined that it is in contact with a hard object, and the lower surface When only the detection means 220B on the side far from 208A is turned on, it is possible to determine that it is in contact with a soft object. Of course, since this intermediate state can also be detected, intermediate determination is also possible. Therefore, when combined with the information obtained by the two-dimensional arrangement in the X and Y directions as in each of the above embodiments, a more detailed type determination can be made, and accordingly, more appropriate control can be performed. Will be able to do.
[0114]
Furthermore, as shown in FIG. 9, even when a plurality of detection means 320 are provided on the lower surface 308A of the seat plate 308 in the X and Z directions, it is possible to determine the size of the object and the determination of the flexibility. Then, as shown in FIG. 10, in order to three-dimensionally arrange the detection means 420 on the lower surface 408A of the seat plate 408, it is arranged in a special arrangement such as one-row arrangement or staggered arrangement with respect to the XY plane. A plurality of layers may be stacked in the Z direction.
[0115]
In each of the above embodiments, the detection means 20 is provided only on the lower surface 8A of the seat plate 8 as shown in FIG. 2, but the detection means 520 is provided only on the lower surface 508A of the seat plate 508 as shown in FIG. Instead, it may be provided on the upper surface 508B and the side surface 508C of the seat plate 508. By doing so, it is possible to detect catching when the shutter curtain rises and contact of an obstacle from the side.
[0116]
And although the detection means 20 and 120 of each said embodiment were provided over the whole range of the lower surface 8A of the seat board 8, the detection means of this invention is the whole range of the closing direction front end surface of an opening-closing body. It is not necessary to be provided across, and may be provided in part. However, it is preferable to provide the entire range as in the above-described embodiments from the viewpoints of detection accuracy improvement and control optimization.
[0117]
Further, in each of the embodiments described above, the detection means 20, 120 is covered with the flexible member 21 on the surface that contacts the object, but the covering with the flexible member 21 may be omitted. However, it is preferable to cover with the flexible member 21, so that the detection means 20, 120 can be prevented from being damaged.
[0118]
Furthermore, in each said embodiment, when the number of ON state signals is below a predetermined number in step S10, the abnormal state grasping process in steps S11 to S14 was performed. It is also possible to simply ignore it and return to step S3.
[0119]
Further, in the second embodiment, only the history of the output signal of the detection means 120 in which the ON signal (signal reaching the predetermined pressure) is detected first in the processing of step S3 in FIG. However, when the processing capability and storage capacity of the information processing means 131 are large, the history of the output signals of all the detection means 120 is stored from the time when the ON signal is first detected. Alternatively, during control, the history of the output signals of all the detection means 120 may be stored for a predetermined time at all times, and the determination may be made based on changes in these signal states.
[0120]
【The invention's effect】
As described above, according to the present invention, a plurality of detection means are arranged in a multidimensional manner on the front end surface of the opening / closing body in the closing direction, and various processes are performed by the information processing means based on the detection information. Therefore, when controlling the switchgear, it is possible to perform detailed control and to take an appropriate action according to the situation.
[0121]
Further, according to the present invention, the detecting means for outputting a signal corresponding to the magnitude of the pressure applied from the abutting object is provided on the front end surface of the opening / closing body in the closing direction, and the output signal is changed to a large or small state. Since various processes are performed by the information processing means based on this, it is possible to perform detailed control when controlling the opening / closing device, and there is an effect that it is possible to take appropriate measures according to the situation.
[Brief description of the drawings]
FIG. 1 is an overall view of a building shutter that is an opening and closing device of a first embodiment of the present invention.
FIG. 2 is an enlarged perspective view of a part of the seat plate of the first embodiment as viewed from below.
FIG. 3 is a schematic diagram showing the flow of signals and information for object detection control of the first embodiment.
FIG. 4 is a flowchart showing details of seat plate side control according to the first embodiment.
FIG. 5 is a flowchart showing details of obstacle processing according to the first embodiment.
FIG. 6 is a partial schematic view showing the flow of signals and information for object detection control according to the second embodiment of the present invention.
FIG. 7 is an explanatory diagram of object type determination based on a history curve of an output signal according to the second embodiment.
FIG. 8 is a partial schematic view showing a three-dimensional arrangement which is a modification of the present invention.
FIG. 9 is a partial schematic view showing a two-dimensional arrangement which is a modification of the present invention.
FIG. 10 is a partial schematic diagram showing a special three-dimensional arrangement which is a modification of the present invention.
FIG. 11 is a partial schematic diagram in a case where the seat plate according to a modification of the present invention is arranged on a surface other than the lower surface.
[Explanation of symbols]
1,101 Building shutters as switchgear
2 opening
5 Shutter curtain that is an opening and closing body
8A, 208A, 308A, 408A, 508A The lower surface of the seat plate which is the front end surface of the opening / closing body in the closing direction
13 Floor as a closed surface
20, 120, 220, 220A, 220B, 320, 420, 520 detection means
21 Flexible member
31, 131 Information processing means

Claims (4)

An opening provided at the boundary position of adjacent spaces and communicating with these spaces, and an opening / closing body for opening / closing the opening, the front end surface of the opening / closing body facing the front end surface In the opening / closing apparatus in which the opening is closed by abutting on a closing surface located at a peripheral edge of the opening.
A plurality of detection means provided on the front end surface of the opening / closing body in the closing direction for detecting contact of an object, and information processing means for performing information processing for opening / closing control of the opening / closing body based on detection information of these detection means And
The plurality of detection means are arranged in a multidimensional manner by being provided in plural in each of the longitudinal direction of the front end surface in the closing direction of the opening / closing body and at least one direction intersecting with the longitudinal direction. An opening / closing apparatus characterized in that a type of an object in contact is determined based on a spreading speed of a range of detection means that has detected contact with an object. An opening provided at the boundary position of adjacent spaces and communicating with these spaces, and an opening / closing body for opening / closing the opening, the front end surface of the opening / closing body facing the front end surface In the opening / closing apparatus in which the opening is closed by abutting on a closing surface located at a peripheral edge of the opening.
A plurality of detection means provided on the front end surface of the opening / closing body in the closing direction for detecting contact of an object, and information processing means for performing information processing for opening / closing control of the opening / closing body based on detection information of these detection means And
The plurality of detection means are provided in a multidimensional manner by providing a plurality of detection means at least in the longitudinal direction of the front end surface in the closing direction of the opening / closing body and in a direction that forms a plane parallel to the front end surface in the closing direction together with the longitudinal direction And the information processing means is configured to determine the type of the abutting object based on the range of the detected one of the plurality of detecting means that is in contact with the object. For complementary control in which when one detection means shows a detection result different from the other detection means on both sides adjacent to it in the column, the result is ignored or corrected to match the result of the detection means on both sides An opening and closing device characterized in that it is also a means. An opening provided at the boundary position of adjacent spaces and communicating with these spaces, and an opening / closing body for opening / closing the opening, the front end surface of the opening / closing body facing the front end surface In the opening / closing apparatus in which the opening is closed by abutting on a closing surface located at a peripheral edge of the opening.
A plurality of detection means provided on the front end surface of the opening / closing body in the closing direction for detecting contact of an object, and information processing means for performing information processing for opening / closing control of the opening / closing body based on detection information of these detection means And
The plurality of detection means are provided in a multidimensional manner by providing a plurality of detection means at least in the longitudinal direction of the front end surface in the closing direction of the opening / closing body and in a direction that forms a plane parallel to the front end surface in the closing direction together with the longitudinal direction. An opening / closing apparatus, wherein the information processing means is also a means for obtaining information on the state of the closed surface based on detection signals of the detection means. The switchgear according to any one of claims 1 to 3 , wherein the detecting means has a flexible member covering the surface on the side in contact with the object.

Images