JP3865343B2 - Electric shutter - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electric shutter that can be moved up and down wirelessly, and more particularly to an electric shutter that includes a fixed wireless transmitter.
[0002]
[Prior art]
Conventionally, in order to operate an electric shutter, a remote-controlled portable transmitter using infrared rays or radio waves has been used. FIG. 10 is a configuration diagram of an example of a remote-controlled electric shutter using radio waves. In the figure, 61 is a shutter slat, 62 is a switch, 63 is a switch control panel, 64 is an obstacle detection receiver, 65 is a wireless receiver, 66 is an obstacle detection unit, 67 is an obstacle detection signal transmission unit, 68 is an obstacle sensing signal receiver, 69 is an antenna, 70 is a push button switch, and 71 and 72 are portable wireless transmitters.
[0003]
The shutter slat 61 is installed in an opening or the like of a building and is moved up and down by an opening / closing device 62 provided with a drive motor. The switch 62 is controlled by the switch control board 63, and an open / close control signal is given to the switch control board 63 from the obstacle sensing receiver 64, the wireless receiver 65, and the push button switch 70.
[0004]
When the shutter slat 61 that is being lowered comes into contact with an obstacle, that is, when there is an obstacle such as a luggage or a person between the seat plate of the shutter slat 61 and the floor surface, The obstacle sensing unit 66 provided on the seat plate or the like senses the force received by the obstacle contact, and transmits the obstacle sensing signal from the obstacle sensing signal transmitting unit 67 to the obstacle sensing signal receiving unit 68. An obstacle detection signal from the object detection signal receiver 68 is input to the obstacle detection receiver 64. In this example, the obstacle sensing unit 66 is configured by a seat plate switch that is actuated by a seat plate that is moved by being pushed by the obstacle, and the obstacle sensing signal transmission unit 67 transmits an infrared signal by the operation of the seat plate switch. The obstacle sensing signal receiving unit 68 having a light receiver is configured to receive an infrared signal and send a reception signal to the obstacle sensing receiver 64. The obstacle sensing receiver 64 sends a control signal to the switch control panel 63.
[0005]
The antenna 69 receives a radio signal from the portable radio transmitter 71 or 72, and a radio receiver 65 connected to the antenna 69 demodulates the received signal from the portable radio transmitter 71 or 72, and ID The code is checked and a control signal is sent to the switch control panel 63.
[0006]
The shutter shown in FIG. 10 is used in a car garage, a store, a warehouse, etc., but can be operated from a certain distance when operated with a portable wireless transmitter. Since it can be operated by taking advantage of remote operation, it is rapidly spreading.
[0007]
This portable wireless transmitter is provided for external operation. For operation from the inside, that is, from the indoor side, a switch box with a push button switch wired from the receiver side is attached to the wall surface of the indoor, and by operating this push button switch, Is opened and closed.
[0008]
Therefore, when installing the shutter, an antenna is installed outdoors. On the indoor side, it is necessary to install a switch box and perform wiring from the switch control panel side, and wiring and piping work are indispensable.
[0009]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described circumstances, and is an electric shutter that can be operated with a fixed radio transmitter, and includes a radio transmitter that incorporates a theft prevention mechanism and can issue an alarm when removed. The purpose is to provide an electric shutter.
[0010]
[Means for Solving the Problems]
The invention according to claim 1 is an electric shutter having a receiving unit that receives a wireless signal and generates a control signal for controlling a lifting operation of the shutter, and a plurality of wireless transmitters that transmit the wireless signal to the receiving unit. At least one of the wireless transmitters is for fixing, and the mounting portion is covered with a decorative cover having a pressing portion, and provided at the back of the code input key, the up, stop, and down operation keys and the narrow hole. The anti-theft switch and the control means, the anti-theft switch is pressed by the pressing portion in the attached state of the decorative cover, and the control means is configured such that the decorative cover is removed and the anti-theft switch is pressed. A theft signal is created by the cancellation.
[0011]
According to a second aspect of the present invention, in the electric shutter according to the first aspect, the control means operates the sound generation means based on the creation of the theft signal.
[0012]
According to a third aspect of the present invention, in the electric shutter according to the first aspect, the control unit operates the sound generation unit based on the creation of the theft signal and transmits a theft alarm signal to the receiving unit. It is characterized by this.
[0013]
According to a fourth aspect of the present invention, in the electric shutter according to any one of the first to third aspects, when the predetermined code is inputted, the control means performs the theft until a predetermined time elapses. It is characterized in that no signal is created.
[0014]
According to a fifth aspect of the present invention, in the electric shutter according to any one of the first to third aspects, when the predetermined code is input, the control unit is configured to perform the theft until a predetermined time elapses. The operation based on the signal is not performed.
[0015]
According to a sixth aspect of the present invention, in the electric shutter according to the third aspect, the receiving unit generates an alarm based on reception of the theft alarm signal.
[0016]
According to a seventh aspect of the present invention, in the electric shutter according to the third aspect, the receiving unit erases from the registration data the ID code of the wireless transmitter that has transmitted the theft signal based on the reception of the theft alarm signal. It is characterized by this.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
1 and 2 are diagrams for explaining an example of an embodiment of an electric shutter according to the present invention. FIG. 1 is a configuration diagram, and FIG. 2 is an arrangement diagram illustrating an indoor side and an outdoor side separately. . In the figure, 1 is a shutter slat, 2 is a switch, 3 is a switch control panel, 4 is a receiving unit, 5 is an obstacle detection unit, 6 is an obstacle detection signal sending unit, 7 is an obstacle detection signal detection unit, 8 is an antenna, 9 is a portable radio transmitter, 10 is a radio transmitter for indoor installation, 11 is a radio transmitter for outdoor installation, 12 is a push button switch input terminal, and 13 is a case. In FIG. 2, the left side of the shutter slat 1 is the indoor side, and the right side is the outdoor side.
[0018]
The shutter slat 1 is installed at an opening of a building or the like, and is moved up and down by an opening / closing device 2 having a drive motor. The opening / closing machine 2 is controlled by the opening / closing machine control panel 3, and an opening / closing control signal is given from the receiving unit 4 to the opening / closing machine control board 3.
[0019]
When the shutter slat 1 being lowered comes into contact with an obstacle, that is, when there is an obstacle such as luggage or a person between the seat plate of the shutter slat 1 and the floor surface, the obstacle provided on the seat plate or the like The obstacle sensing unit 5 senses the force received by the contact with the obstacle, and transmits the obstacle sensing signal from the obstacle sensing signal sending unit 6 to the obstacle sensing signal detection unit 7. The detection signal is input to the receiving unit 4. Also in this embodiment, as in the conventional example, the obstacle sensing unit 5 is operated by the seat plate switch by the seat plate that is moved by being pushed by the obstacle, and the obstacle sensing signal sending unit 6 is a digital infrared signal. The obstacle detection signal detection unit 7 having a light receiver is configured to convert the infrared signal into an electric signal and send the detection signal to the reception unit 4.
[0020]
The portable wireless transmitter 9 can be carried, for example, can be loaded on a vehicle. A plurality of portable wireless transmitters 9 can be used as required by the user. The indoor-installed wireless transmitter 10 has the same specifications as the portable wireless transmitter 9, but is attached to an indoor wall or the like. The outdoor installation wireless transmitter 11 is attached outdoors such as an outer wall of a building. When the wireless transmitter is used for the operation from the indoor side or the operation from the outdoor side, there is an advantage that wiring work and piping work are unnecessary because wiring is not necessary.
[0021]
When the push button switch input terminal 12 is installed in a remote place, for example, in a car garage where the shutter is away from the main building, the push button switch is attached to the main building so that radio waves and infrared rays from the wireless transmitter can be transmitted. It is possible to operate the shutter from a purlin that does not reach. It is also possible to connect the indoor push button switch described in FIG.
[0022]
In this embodiment, the wireless transmitter uses a radio wave as a carrier wave and transmits a digital signal. However, the wireless transmitter may transmit infrared rays as a carrier wave. What used the ultrasonic wave etc. as the carrier wave may be used.
[0023]
The operation of raising and lowering the shutter will be described. The portable wireless transmitter 9, the indoor wireless transmitter 10, and the outdoor wireless transmitter 11 are an ascending key, a descending key, and a stop key for instructing respective operations of “up”, “down”, and “stop”. Two operation keys are provided, and the shutter can be operated. However, the wireless transmitter 11 for outdoor installation is provided with a numeric keypad in addition to the above three operation keys, and controls the shutter even if the operation key is operated unless the registered ID number is input. You can't do that.
[0024]
The ID numbers of the portable wireless transmitter 9 and indoor wireless transmitter 10 are registered in the receiving unit 4, and the wireless transmitters other than the registered portable wireless transmitter 9 and indoor wireless transmitter 10 are registered. The shutter does not operate with this operation signal. However, in the portable wireless transmitter 9 and indoor wireless transmitter 10, when the operation key is operated, the code signal of the ID number stored in each transmitter is automatically added together with the operation signal. Sent. Therefore, the user can operate the shutter with the wireless transmitter by first registering the ID number of each wireless transmitter in the receiving unit 4 with respect to the ID number.
[0025]
The push button switch connected to the push button switch input terminal 12 is also provided with three operation keys, an up key, a down key, and a stop key. Operation from a place where radio waves from the type wireless transmitter 9 do not reach is possible, but if it is not necessary, wiring to the push button switch input terminal 12 is not necessary.
[0026]
When the contact of the obstacle is detected while the shutter slat 1 is descending, the shutter operation is stopped immediately when the obstacle is detected, and moves up for a predetermined time and then stops or rises and stops. An operation that causes the vehicle to descend again after a predetermined time has elapsed from the point in time, or if the obstacle is not removed during this time, the obstacle is detected again during the descent again, and then stopped and raised. It is designed to perform an appropriate operation such as an operation that repeats the above or an operation that prevents further lowering after the second rise. A program for performing a plurality of operations described above may be incorporated so that it can be selected by a dip switch or the like.
[0027]
When a seat plate switch is used as the obstacle sensing unit 5, when the shutter slat is lowered and the seat plate touches the floor or the like in a normal closing operation, the obstacle is detected and stopped. There is a risk of malfunction that will rise again later. In this embodiment, the lower limit switch for detecting the lower limit of the lowering of the shutter slat is detected at a position 10 to 20 mm before the ground position (the value of 10 to 20 mm is an example, and the present invention is not limited to this. Not.) If the seat switch is activated while the lower limit switch is activated, it is determined that the floor has been contacted with the floor or the like, and is stopped. The predetermined time during which the reversal rise is performed is adjustable in the range of 0 to 1.5 seconds, for example. When this predetermined time is set to 0, the operation is stopped by the operation of the seat plate switch. When the predetermined time is set to a value other than 0, the reversal rise is such that the gap between the floor and the like is not opened.
[0028]
The obstacle sensing signal sending unit is turned on by the operation of the seat plate switch and sends the obstacle sensing signal, but the power supply circuit is controlled by a timer circuit so that the power supply circuit is turned off after a predetermined time. The timer circuit may be an analog circuit or a digital circuit. Therefore, even if the seat plate switch continues to operate in the closed state, the power source is not unnecessarily consumed.
[0029]
When the seat switch is activated before the lower limit switch is activated (in general, when an obstacle is sensed), it reverses upward for 5 seconds and stops. Although it may be lowered again after a predetermined time, in this specific example, the stopped state after the reverse rise is maintained. The shutter closing operation can be completed by performing the lowering operation after removing the obstacle.
[0030]
FIG. 3 is a block diagram of an example of the embodiment on the receiving unit side. In the figure, the same parts as those in FIGS. 4a is a central processing unit (CPU), 4b is a ROM storing programs and unique data, 4c is a RAM, 4d, 4e, 4f and 4g are input units, and 4h is an output unit. The RAM 4c is used for temporary storage for the operation of the CPU 4a. At least a part of the RAM 4c is composed of a nonvolatile RAM, and stores an ID code, setting data, and the like of the wireless transmitter. The input unit 4d has a demodulator that demodulates the radio wave signal received from the antenna 8, and the demodulated digital signal is stored in the RAM 4c and analyzed. The input unit 4e receives the output signal from the obstacle detection signal receiving unit 7. The digital signal created by the obstacle sensing signal transmitter is stored in the RAM 4c and analyzed. The input unit 4f is for receiving a signal from the input terminal 12, and an operation signal from an operation switch connected to the input terminal is stored in the RAM 4c and analyzed. The input unit 4 g receives signals from the upper limit switch and the lower limit switch generated from the switch 2, and inputs the upper limit position signal and the lower limit position signal of the shutter slat to the reception unit 4. The output unit 4 h is an interface that transmits a shutter control signal created by the receiving unit 4 to the switch control panel 3.
[0031]
4A and 4B are diagrams for explaining an indoor-installed radio transmitter. FIG. 4A is a perspective view of the radio transmitter, FIG. 4B is a perspective view of a mounting base, and FIG. FIG. 4D is a perspective view of the cover, and FIG. In the figure, 21 is a wireless transmitter, 22 is an up key, 23 is a stop key, 24 is a down key, 25 is a low battery indicator, 26 is a code registration / deletion switch, 27 is a mounting base, 28 is a mounting hole, 29 Is a mounting screw, 30 is an engagement piece, 31 is a decorative cover, 32 is a lid, 33 is a window, and 34 is a tool insertion hole.
[0032]
In this embodiment, the wireless transmitter 21 is the same as that used as the portable wireless transmitter. However, the shutter cannot be operated when it is removed from the mount in consideration of theft or the like. You may make it give the function which becomes. The wireless transmitter 21 is provided with an up key 22, a stop key 23, and a down key 24, and an operation signal including an ID number can be transmitted by pressing these keys. The battery exhaustion display unit 25 performs lighting display when the voltage of the built-in battery becomes equal to or lower than a predetermined voltage, but it is preferable in terms of energy efficiency to display intermittently. The code registration / deletion switch 26 is provided for registering and deleting ID codes of other wireless transmitters registered in the receiving unit 4, and an on / off switch is installed in the back of the small hole. It adopts a structure that can be operated by inserting a thin needle.
[0033]
The mounting base 27 is attached to a wall, a pillar, or the like by screwing a mounting screw 29 through the mounting hole 28. After attaching the mounting base 27, the wireless transmitter 21 is placed and the decorative cover 31 is fitted into the mounting base 27. On the upper and lower inner walls of the decorative cover 31, there are engaged portions that engage with the engaging pieces 30 of the mounting base 27. When the decorative cover 31 is fitted together, the engaged portions of the decorative cover 31 are engaged with the engaging pieces 30. Engage with and bite. The engaging piece 30 has elasticity, and when it bites into the engaged portion, the decorative cover 31 is in a state that cannot be removed by hand.
[0034]
In order to remove the decorative cover 31, a tool having a tapered needle shape is inserted into the tool insertion holes 34 provided on the upper and lower side surfaces of the decorative cover 31, respectively, and the engagement piece 30 is pressed against elasticity. In the state where it is attached and removed from the engaged portion, the decorative cover 31 can be removed, and the wireless transmitter 21 can be removed.
[0035]
In this way, the decorative cover 31 is attached so that it cannot be removed unless an appropriate tool is used. Therefore, the radio transmitter 21 fixed to the wall surface cannot be removed by hand alone without using a tool. . In this specification, the fixed state of the wireless transmitter that cannot be removed only by hand is referred to as a substantially fixed state that cannot be removed.
[0036]
Since the wireless transmitter 21 is fixed so as not to be removed, the wireless transmitter 21 attached to the wall surface of the indoor can prevent theft from a person who does not know how to remove it.
[0037]
FIG. 5 is a perspective view of a wireless transmitter for outdoor installation. In the figure, 40 is a radio transmitter body unit for outdoor installation, 41 is a mounting hole, 42 is an up key, 43 is a stop key, 44 is a down key, 45 is a code input key, 46 is a cover, 47 is a code registration / deletion A switch, 48 is an anti-theft switch, 49 is a battery cover, and 50 is a decorative cover.
[0038]
The wireless transmitter main body 40 for outdoor installation is fixed by screwing a mounting screw (not shown) into the mounting hole 41 into the outer wall or the like. After fixing with screws, the mounting portion is covered with the decorative cover 50. Therefore, unless the decorative cover 50 is removed, it cannot be removed from the outer wall or the like to which the outdoor-installed radio transmitter main body 40 is attached. As will be described later, the decorative cover 50 is attached by being fitted to the outdoor-installed radio transmitter main body 40 in this embodiment, but it is engaged with a screw or an engaging claw and engaged with a tool. An attachment structure that cannot be easily removed by hand, such as the structure described with reference to FIG. It is preferable to provide a waterproof structure by providing elastic packing or the like on the joint surface of the decorative cover 50 with the outdoor transmitter radio transmitter main body 40.
[0039]
On the upper surface of the surface covered with the decorative cover 50, there are provided operation keys such as an up key 42, a stop key 43, and a down key 44, and nine code input keys 45. The nine code input keys 45 correspond to the numbers 1 to 9, but may be provided with 10 code input keys by adding 0, or with 8 or less code input keys, Only some of the numbers may be used. These keys are covered with a cover 46. The cover 46 is attached with a rotating shaft, and when the key is operated, the cover 46 is opened upward as shown in the figure to expose the key operation surface. It is preferable that the cover 46 is waterproof so that rainwater does not enter the key operation surface when the cover 46 is closed. The key operation surface should also be waterproof.
[0040]
A code registration / deletion switch 47 and an anti-theft switch 48 similar to those described with reference to FIG. 4 are provided in a portion covered with the decorative cover 50. The antitheft switch 48 also has a structure using an on / off switch installed in the back of the small hole, and has the same structure as the code registration / erasure switch 47. The anti-theft switch 48 has a protruding member protruding on the back side of the decorative cover 50, and with the decorative cover 50 attached, the anti-theft switch 48 is pressed to turn off the switch. When the decorative cover 50 is removed, the antitheft switch 48 is turned on, and a theft signal is created in the control unit having the CPU of the wireless transmitter.
[0041]
FIG. 6 is an explanatory diagram of battery replacement of the outdoor-installed wireless transmitter. In the figure, the same parts as those in FIG. Reference numeral 51 denotes a coin, 52 denotes a battery storage unit, and 53 denotes a button battery.
[0042]
To replace the battery, the decorative cover 50 is opened using a coin 51 as shown in FIG. There is a slit-shaped notch (not shown) at the boundary with the outdoor-installed radio transmitter main body 40 at the lower part of the decorative cover 50, and the decorative cover 50 is removed by inserting a coin 51 into the notch. Can do. As described above, the attachment structure of the decorative cover 50 is not limited to the structure of removing with a coin, and therefore the decorative cover 50 is removed by applying a tool or a removal method suitable for the attachment structure.
[0043]
Although the battery cover 49 is removed, the battery cover 49 can also be removed with a coin. As shown in FIG. 6B, the coin lid 49 is removed, the battery is taken out, a new button battery 53 is inserted into the battery housing portion 52, the battery lid 49 is attached, and the decorative cover 50 is attached. The battery is not limited to a button battery, and other types of batteries may be used.
[0044]
FIG. 7 is an example of a flowchart illustrating the operation of the antitheft switch. In the wireless transmitter, the power switch is not turned on in the standby state. When three types of operation keys, the up key, the stop key, and the down key are pressed, the key switch corresponding to each key is turned on, the power is turned on, and a signal corresponding to the key is generated. Stored in memory. The supplied power is turned off when a predetermined time, for example, 5 seconds elapses. Therefore, if the next key is pressed within this predetermined time, continuous input is possible, but if the key operation is interrupted and a predetermined time elapses during a series of key operations, the power is turned off and the key is turned off. The input will be invalid.
[0045]
Further, since the wireless transmitter is installed outdoors, there is a problem in crime prevention when the shutter is operated simply by pressing the operation key. Therefore, along with the operation key operation, the ID code determined by the wireless transmitter is input by the code input key. In one example, the operation key is pressed after inputting the ID code, but this order may be reversed. As the ID code, a specific code is determined at the time of shipment by the wireless transmitter, but the user can change it to a desired code. The changed ID code is stored in the wireless transmitter and transmitted, and the registration data of the receiving unit is updated.
[0046]
FIG. 7A shows an input flow of a normal shutter operation. When the code input key and the operation key for performing each operation of ascending, stopping, and descending are pressed at intervals that do not elapse the predetermined time described above, and the respective key switches are sequentially turned on, the flow starts. In S11, the input ID code is compared with the ID code registered in the wireless transmitter, and if the input ID code does not match the registered ID code, an operation signal is transmitted. Turn off the power and end the flow. When the input ID code matches the ID code registered in the wireless transmitter in S11, the process proceeds to S12, the operation signal and ID code corresponding to the operation key are transmitted, and the power is turned off. End the flow. Even when the input ID code does not match the registered ID code, an operation signal and an inappropriate ID code may be transmitted. Since the ID code is checked at the receiver, the shutter does not operate. From the viewpoint of battery life, it is advantageous to prevent transmission when the ID codes do not match.
[0047]
As described above, the control unit may forcibly turn off the power, but the power may be turned off and the flow may be terminated when the predetermined time elapses.
[0048]
FIG. 7B is a flow when the antitheft switch is activated. When the anti-theft switch is activated, the flow starts. In S13, a theft signal is created. The theft signal may be a specific code signal, may be a signal indicating that the anti-theft switch has been activated, or may be a signal corresponding to an activation signal for setting the potential of a specific portion to H level or L level. . Next, in S14, a theft signal indicating that the antitheft switch has been activated is transmitted together with the ID code. In this case, the ID code is read from the memory by the control unit of the wireless transmitter and transmitted to the receiving unit together with the theft signal. This ID code does not need to be added, but if there is another shutter system in the area where the transmission signal of the wireless transmitter can be received, there is a risk of malfunction, and in order to prevent this malfunction, the ID code is It is desirable to add and transmit. In S15, the buzzer provided in the wireless transmitter is sounded. In this case, it is preferable to perform an operation for continuing to turn on the power. Therefore, the loop of S15 continues and the buzzer continues to sound. This ringing continues until the battery is depleted. In this way, a person who has stolen has a high possibility of having to keep holding it and throwing it away on the spot, thus preventing theft. When the anti-theft switch is activated, a circuit that performs self-holding may be provided, or a theft signal may be stored so that the buzzer cannot be stopped even if the anti-theft switch is pressed.
[0049]
FIG. 8 is an example of a flowchart illustrating the operation of the receiving unit that has received the theft signal. When the signal is not received, S21 and S22 are looped and are in a standby state. When the operation signal is received, the process proceeds from S21 to S22, where the ID code matches are checked. If the ID code matches the registered ID code, the ascending operation, the stopping operation, or the descending operation is performed according to the operation signal. Do. If the ID codes do not match, the process returns to the standby loop without operating the shutter, but the illustration is omitted. If the stop signal is received during the ascending operation or the descending operation, the stopping operation is performed. When a theft signal is received, the process proceeds from S22 to S24, where the received ID code is checked. If the ID code matches the registered ID code, the buzzer of the receiving unit is sounded, and the theft signal is transmitted in S25. The ID code registered for the machine is deleted from the receiving unit. Next, the operation of the receiving unit is stopped (for example, the power is turned off), and the flow is ended. Then, it can be understood that the outdoor wireless transmitter has been stolen because the shutter does not operate even when another wireless transmitter or a push button switch as described in FIG. 10 is operated. Moreover, you may make it return to the loop of a standby state, as shown to a broken line, without complete | finishing a flow. In any case, it is preferable that the buzzer in S24 does not sound for a long time. If the ID code sent with the theft signal does not match in S25, the process returns to the standby loop without operating the shutter, but the illustration is omitted.
[0050]
Note that the registered ID code may not be deleted in S25.
[0051]
As described above, when the antitheft switch is operated, if the buzzer of the wireless transmitter or the receiving unit is sounded, there is a problem that the buzzer sounds when the battery is replaced. The sounding of the buzzer on the receiving side may be performed with the power off. Moreover, since the buzzer of the wireless transmitter is not removed until the battery is removed, the buzzer can be sounded in a short period of time and cannot be tolerated. However, it is not always preferable that the buzzer sounds for a short time when the battery is replaced. Also, it is troublesome to turn off the power supply on the receiving unit side when replacing the battery, and the power-off operation may be forgotten. In this case, it is preferable not to make a buzzer or the like during battery replacement.
[0052]
FIG. 9 is an example of a flowchart showing an operation when the anti-theft switch based on the request is activated. In this embodiment, the user removes the cosmetic cover after inputting the ID code of the wireless transmitter before removing the cosmetic cover for battery replacement or the like. After inputting the ID code, the decorative cover may be removed by performing a predetermined key operation, for example, pressing a stop key three times. In any case, if a specific key operation for inputting an ID code is performed before removing the decorative cover, a theft signal is not created until a certain time has elapsed.
[0053]
In the wireless transmitter, when the above-described ID code is input and the code matches the ID code stored in the wireless transmitter, a timer for a predetermined time, for example, 5 minutes is started and the timer is turned on. The timer may be a counting digital timer or an analog timer. When the anti-theft switch is activated, it is checked in S31 whether or not the timer is on. If the ID code has not been input or if 5 minutes have elapsed even if the ID code has been input, the timer is not in the on state, and the process proceeds to S33 to S35. S33 to S35 are the same as S13 to S15 described with reference to FIG. If the anti-theft switch is activated and the timer is on, S32 and S36 are looped. During this time, no theft signal is created. Therefore, even if the decorative cover is removed, the wireless transmitter and the buzzer of the receiving unit do not ring or a theft signal is not transmitted. Also, if work such as battery replacement is completed during the loop of S32 and S36 and a decorative cover is attached, the antitheft switch is turned off in S36, so the wireless transmitter is turned off and the flow is terminated. To do. When 5 minutes elapses without the antitheft switch being turned off, the process proceeds from S32 to S33 to S35, and enters the theft mode.
[0054]
In this way, on condition that the ID code is input, even if the makeup cover is removed within a predetermined time, if the user does not enter the theft mode, even if the user removes the makeup cover for battery replacement or the like, The buzzer will not sound.
[0055]
In the above-described embodiment, the theft signal is not created until a predetermined time has elapsed after the ID code is input. However, the theft signal may be created. The operation based on the theft signal may not be performed, such as not sounding or not transmitting the theft signal.
[0056]
Also, if the timer is reset when the battery is replaced, it may be considered that when the battery is replaced, the anti-theft switch is in the on state, so that the mode is shifted to the theft mode. In order to prevent this, at the time of starting the power supply by battery replacement, it is only necessary to prevent transition to the theft mode until a predetermined time elapses after the battery is inserted.
[0057]
In the above-described embodiment, the electric shutter having the configuration for performing the obstacle detection has been described. However, the present invention does not necessarily need to perform the obstacle detection, and the electric shutter does not have such a configuration. It can also be applied to. Further, the push button switch input terminal is not necessarily required. 5 to 9 may be used as the indoor-installed radio transmitter 10 in FIG. 2.
[0058]
【The invention's effect】
As is apparent from the above description, according to the present invention, the use of a wireless transmitter as a pushbutton switch for fixing eliminates the need for wiring work by attaching a switch box for indoor operation. There is no need for piping work, and construction costs can be reduced.
[0059]
In addition, when the cosmetic cover that covers the mounting portion of the wireless transmitter is removed, the wireless transmitter can be prevented from being stolen by shifting to the theft mode. In particular, a wireless transmitter suitable for outdoor installation is provided. it can. In addition, by not making a transition to the theft mode within a predetermined time after entering the ID code, no alarm sound or the like will be generated even if the user removes the cosmetic cover when replacing the battery. effective.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an example of an embodiment of an electric shutter according to the present invention.
FIG. 2 is a layout view illustrating the electric shutter of FIG. 1 separately for an indoor side and an outdoor side.
FIG. 3 is a block diagram of an example of an embodiment on a receiving unit side.
FIG. 4 is an explanatory diagram of a radio transmitter for indoor installation according to an embodiment of the present invention.
FIG. 5 is a perspective view of a wireless transmitter for outdoor installation.
FIG. 6 is an explanatory diagram of battery replacement of a wireless transmitter for outdoor installation.
FIG. 7 is an example of a flowchart showing the operation of the anti-theft switch.
FIG. 8 is an example of a flowchart illustrating an operation of a receiving unit that receives a theft signal.
FIG. 9 is an example of a flowchart showing an operation when an anti-theft switch is activated.
FIG. 10 is a configuration diagram of an example of a remote control type electric shutter using radio waves.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Shutter slat, 2 ... Switch, 3 ... Control part, 4 ... Reception part, 5 ... Obstacle detection part, 6 ... Obstacle detection signal sending part, 7 ... Obstacle detection signal detection part, 8 ... Antenna, 9 DESCRIPTION OF SYMBOLS ... Portable wireless transmitter, 10 ... Indoor transmitter wireless transmitter, 11 ... Outdoor transmitter wireless transmitter, 12 ... Push button switch input terminal, 13 ... Case, 21 ... Wireless transmitter, 22 ... Lift button, 23 ... Stop button, 24 ... Descent button, 25 ... Battery dead indicator, 26 ... Code registration / deletion switch, 27 ... Mounting base, 28 ... Mounting hole, 29 ... Mounting screw, 30 ... Engagement piece, 31 ... Cosmetic cover, 32 ... lid part, 33 ... window part, 34 ... tool insertion hole, 40 ... radio transmitter body part for outdoor installation, 41 ... mounting hole, 42 ... ascending key, 43 ... stop key, 44 ... descending key, 45 ... code input Key, 46 ... Cover, 47 ... Code registration and deletion Switch, 48 ... anti-theft switch, 49 ... battery cover, 50 ... decorative cover, 51 ... coin, 52 ... battery housing portion, 53 ... button cell.

Claims (7)

In an electric shutter having a receiving unit that receives a wireless signal and generates a control signal for controlling a lifting operation of the shutter, at least one wireless transmitter of a plurality of wireless transmitters that transmit the wireless signal to the receiving unit Is a fixing cover that is covered with a decorative cover having a pressing portion, and includes a cord input key, ascent, stop, and descend operation keys, and an antitheft switch and control means provided in the back of the narrow hole. The anti-theft switch is pressed by the pressing portion in the attached state of the decorative cover, and the control means generates a theft signal when the decorative cover is removed and the anti-theft switch is released. Electric shutter characterized by creating. The electric shutter according to claim 1, wherein the control unit operates a sound generation unit based on the creation of the theft signal. 2. The electric shutter according to claim 1, wherein the control unit activates a sound generation unit based on the creation of the theft signal and transmits a theft alarm signal to the receiving unit. 4. The electric shutter according to claim 1, wherein when the predetermined code is input, the control unit does not create the theft signal until a predetermined time elapses. 4. The electric motor according to claim 1, wherein, when a predetermined code is input, the control unit does not perform an operation based on the theft signal until a predetermined time elapses. shutter. The electric shutter according to claim 3, wherein the receiving unit generates an alarm based on reception of the theft alarm signal. The electric shutter according to claim 3, wherein the receiving unit deletes from the registration data the ID code of the wireless transmitter that has transmitted the theft signal based on the reception of the theft alarm signal.

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