JPWO2019171793A1 - Switch, display retention method, and display retention program - Google Patents

Abstract

The switch has an operation unit that accepts an operation for transmitting a control signal, a storage unit that stores the electric power generated by operating the operation unit, a communication unit that transmits and receives a control signal using the electric power, and a result of transmission and reception. Is provided with a display unit for displaying and holding the display.

Description

The present invention relates to a technique for displaying a transmission / reception result of a control signal.

The configuration described in Patent Document 1 is a self-power generation type remote control device, and the setting information for controlling the device is displayed by using the electric power generated by the remote control device. In addition, control is performed by transmitting the setting information.

JP-A-2017-20284

However, when the configuration of Patent Document 1 is used, only the setting information for performing the control is displayed, and the delivery confirmation of the setting information is not performed. That is, the user cannot confirm whether or not the setting information is normally transmitted to the controlled device.

Therefore, an object of the present invention is to transmit and receive control information using the electric power generated by the self-power generation device, and to maintain the result display of the transmission and reception.

This switch has an operation unit that accepts operations for transmitting control signals, a power storage unit that stores electric power generated by operating the operation unit, and a communication unit that transmits and receives control signals using electric power. It is provided with a display unit that displays the result and holds the display.

In this configuration, the transmission / reception of the control signal and the display of the transmission / reception result can be maintained based on the power stored by the switch itself.

The transmitter / receiver of this switch may perform wireless communication.

In this configuration, the cable connected to the switch is not required, the wiring space of the cable is not required, and the space saving effect can be obtained.

The display unit of this switch may change the display when the operation unit is re-operated.

In this configuration, the display can be changed by using the electric power generated by the reoperation.

The operation unit of this switch may be a push button type. Further, the power storage unit of this switch may store electric power when the operation unit is pressed or released.

In this configuration, electric power can be easily stored in the power storage unit by using the acceleration of the push button type switch.

The display unit of this switch may be electronic paper.

In this configuration, the power for holding the displayed information is not required, and the power consumption can be suppressed.

According to the present invention, the electric power generated by the self-power generation device can be used to transmit and receive control information, and the display of the result of the transmission and reception can be maintained.

FIG. 1 is a block diagram of a switch 10 according to a first embodiment of the present invention. FIG. 2 is a schematic view of the switch 10 according to the first embodiment of the present invention. FIG. 3 is a waveform diagram of the output voltage when the switch 10 according to the first embodiment of the present invention is pressed and released. FIG. 4 is a flowchart showing the control of the switch 10 according to the first embodiment of the present invention. FIG. 5 is a flowchart showing the control of the switch 10A according to the second embodiment of the present invention.

Hereinafter, embodiments for carrying out the present invention will be described with reference to some figures.

・ Application example
First, an example to which the present invention is applied will be described with reference to FIG. FIG. 1 is a block diagram of a switch 10 according to a first embodiment of the present invention. The switch is, for example, a push button type wireless switch, and performs wireless communication. In the following embodiment, a push button type wireless switch is used as a specific example of control, but it can also be applied to the control of other operation switches.

The switch 10 includes an operation unit 110, a power supply unit 120, and an execution circuit unit 130. The power supply unit 120 includes a power generation unit 121, a rectifying unit 122, a power storage unit 123, a stabilizing unit 124, and a voltage monitoring unit 125. The execution circuit unit 130 includes a disconnection control unit 131, a control unit 132, a transmission / reception unit 133, and a display unit 134. The transmission / reception unit 133 is the communication unit of the present invention.

The user presses the operation unit 110. As a result, a part of the operation unit 110 acts on the power generation unit 121, and the power generation unit 121 generates power. As a result, the voltage monitoring unit 125 determines that the operation unit 110 has been pressed. Although not particularly shown, the operation unit 110 includes an acceleration generation unit. The acceleration generation unit is configured to generate acceleration for accelerating the moving speed of the power generation shaft by using elastic force or the like in response to the operation of the operation unit 110. At this time, the acceleration is given to the power generation unit 121. This enables effective power generation as shown below.

The power generation unit 121 outputs the electric power obtained by generating power to the rectifying unit 122. Although not particularly shown, the power generation unit 121 is electromagnetic induction in which a power generation shaft that moves in the operated direction by operating the operation unit 110 and a through hole into which the power generation shaft is partially inserted are formed. It is equipped with a member. When the operation unit 110 is operated, the power generation shaft moves in the direction of being inserted into the through hole of the electromagnetic induction member. The power generation unit 121 generates an electromotive force by moving the power generation shaft in the through hole, that is, by changing the amount of insertion of the power generation shaft into the through hole. More specifically, the power generation unit 121 utilizes electromagnetic induction, and the amount of power generation changes according to the moving speed of the power generation shaft, and the amount of power generation increases as the moving speed increases.

The rectifying unit 122 rectifies AC power into DC power. The rectifying unit 122 outputs the rectified DC power to the power storage unit 123.

The power storage unit 123 stores DC power. Further, the power storage unit 123 outputs the electric power required for transmitting the control signal and displaying the result to the stabilizing unit 124.

The stabilizing unit 124 supplies electric power to the execution circuit unit 130. The stabilizing unit 124 is, for example, a MOS-FET. The stabilizing unit 124 is connected to the cutting control unit 131. The disconnection control unit 131 controls the supply of electric power to the control unit 132, the transmission / reception unit 133, and the display unit 134.

The control unit 132 outputs a control signal to the transmission / reception unit 133. Further, the control unit 132 controls the display of the display unit 134. More specifically, the control unit 132 controls the display of the transmission / reception result and the like on the display unit 134 and the clearing of the display.

The transmission / reception unit 133 transmits the control signal and the SYN packet to the receiver 20 to which the control target device is connected. The transmission / reception unit 133 receives a SYN + ACK packet as a transmission / reception result from the control target device via the receiver 20. The transmission / reception unit 133 outputs the transmission / reception result to the control unit 132.

The control unit 132 outputs the transmission / reception result to the display unit 134. The display unit 134 is a display device that holds a display state. The display unit 134 displays the transmission / reception result, and holds the display of the transmission / reception result until the next time (at the time of re-operation) the operation unit 110 is pressed.

The display unit 134 is, for example, a liquid crystal type electronic paper, and the result of transmission / reception can be represented by changing the display, color, or the like. For example, if the result of transmission / reception is normal, it becomes colored, and if the result of transmission / reception is abnormal, it becomes colorless.

Next, the user releases the pressed state of the operation unit 110. As a result, a part of the operation unit 110 operates in the direction opposite to that when the operation unit 110 is pressed, and the power generation unit 121 generates power. As a result, the voltage monitoring unit 125 determines that the operation unit 110 has been released. At this time as well, power generation can be effectively performed by generating acceleration.

The power generation unit 121 outputs the negative electric power obtained by generating power to the rectifying unit 122.

The rectifying unit 122 rectifies the AC power so that it becomes the required DC power. The rectifying unit 122 outputs the rectified DC power to the power storage unit 123. The power storage unit 123 stores DC power.

That is, the electric power generated by operating the operation unit 110 to transmit the control signal can be used for transmitting the control signal and displaying the transmission / reception result of the control signal, and can maintain the display state of the transmission / reception result. Further, the transmission of the control signal and the display of the transmission / reception result of the control signal do not require another power source, and cost reduction can be realized.

Further, the electric power between the operation of pressing the operation unit 110 and the operation of releasing the operation unit 110 can be stored in the power storage unit 123, and the electric power can be stored more efficiently.

Further, since the display unit 134 is an electronic paper, power is not required to hold the display, and a power saving effect can be obtained.

-Configuration example 1
FIG. 1 is a block diagram of a switch 10 according to a first embodiment of the present invention. FIG. 2 is a schematic view of a switch according to the first embodiment of the present invention. FIG. 3 is a waveform diagram of the output voltage when the switch is pressed and released according to the first embodiment of the present invention. FIG. 4 is a flowchart showing the control of the switch according to the first embodiment of the present invention.

Based on the configuration of the switch 10 of FIG. 1 described above, a more specific configuration example will be described with reference to FIG.

As shown in FIG. 2, the switch 10 includes a housing 115. The housing 115 includes an operation unit 110 and a display unit 134.

As shown in FIGS. 1 and 2, the receiver 20 connected to the PLC or the like, which is the control target device, executes the control by receiving the signal transmitted from the transmission / reception unit 133. Further, the receiver 20 transmits the reception result to the transmission / reception unit 133.

More specifically, the transmission / reception unit 133 transmits the control signal and the SYN packet to the receiver 20. The receiver 20 receives the control signal and transmits a SYN + ACK packet to the transmission / reception unit 133. The transmission / reception unit 133 receives the SYN + ACK packet and confirms that the control signal has been delivered to the receiver 20.

The transmission / reception unit 133 outputs the transmission / reception result to the control unit 132. The control unit 132 outputs the result of this transmission / reception to the display unit 134. The display unit 134 is a display device that holds a display state.

The display unit 134 displays the result of transmission / reception. The display, color, and the like of the display unit 134 are changed depending on the result of transmission and reception. As described above, for example, when the transmission / reception result is normal, the color becomes colored, and when the transmission / reception result is abnormal, the color becomes colorless.

The display unit 134 may be an electrophoresis type electronic paper or a dot matrix type (TFT type) electronic paper. In this case, the result of transmission / reception or the wording indicating the control signal may be displayed.

FIG. 3 is an example of a waveform diagram of the output voltage when the operation unit 110 is pressed and when the operation unit 110 is released. The left side of FIG. 3 shows the operation time of pressing the operation unit 110, and the right side of FIG. 3 shows the operation time of releasing the operation unit 110.

As shown in FIG. 3, a positive voltage is output when the operation unit 110 is pressed, and a negative voltage is output when the operation unit 110 is released. From this, it is possible to determine whether the operation of pressing the operation unit 110 or the operation of releasing the operation unit 110. Further, when the operation unit 110 is pressed, a threshold value may be provided, and when the threshold value is exceeded, it may be determined that the operation unit 110 has been pressed.

The control of the switch according to the first embodiment of the present invention is shown with reference to the flowchart of FIG.

The operation unit 110 is pressed by itself to transmit a control signal. As a result, the power generation unit 121 generates a positive voltage (S101).

As described above, the power generation unit 121 supplies electric power to the execution circuit unit 130 via the power generation unit 121, the rectifier unit 122, the power storage unit 123, and the stabilization unit 124 (S102).

The control unit 132 clears the display of the display unit 134 (S103).

The control unit 132 outputs a control signal to the transmission / reception unit 133, and the transmission / reception unit 133 transmits the control signal to the receiver 20 (S104).

When the transmission / reception unit 133 can receive the transmission / reception result from the receiver 20 to which the control target device is connected (S105: Yes), the transmission / reception unit 133 displays the transmission / reception result on the display unit 134 (S106).

When the transmission / reception unit 133 cannot receive the transmission / reception result from the receiver 20 to which the control device is connected (S105: No), nothing is displayed on the display unit 134 (S116).

The disconnection control unit 131 disconnects the power supply unit 120 and the execution circuit unit 130 (S107). Since the display unit 134 is a display state holding type, the display contents can be held even if the power supply is stopped.

Next, the operation unit 110 releases the pressed state. As a result, the operation unit 110 generates a negative voltage (S108).

The operation unit 110 stores electricity in the power storage unit 123 via the power generation unit 121 and the rectifying unit 122 (S109).

That is, the electric power generated by operating the operation unit 110 can be used for transmitting the control signal and displaying the transmission / reception result of the control signal, and the display state can be maintained. Further, the transmission of the control signal and the display of the transmission / reception result of the control signal do not require another power source, and cost reduction can be realized. This is more effective, especially in wireless switches where it is not easy to supply power from the outside.

The result of transmission / reception can be held by the display unit 134, and the visibility of the user is improved. Further, since the display unit 134 is electronic paper, power is not required to maintain the display state, so that a power saving effect can be obtained.

-Configuration example 2
Next, the outline of the switch according to the second embodiment will be described with reference to FIG. FIG. 5 is a flowchart showing the control of the switch 10A according to the second embodiment of the present invention.

In the second embodiment, the control execution procedure is different from that in the first embodiment. Other points are the same as those in the first embodiment, and the description of the same parts will be omitted.

The operation unit 110 is pressed by itself to transmit a control signal. As a result, the power generation unit 121 generates a positive voltage (S201).

As described above, the power generation unit 121 supplies electric power to the execution circuit unit 130 via the power generation unit 121, the rectifier unit 122, the power storage unit 123, and the stabilization unit 124 (S202).

The control unit 132 outputs a control signal to the transmission / reception unit 133, and the transmission / reception unit 133 transmits the control signal to the receiver 20 (S203).

When the transmission / reception unit 133 can receive the transmission / reception result from the receiver 20 (S204: Yes), the transmission / reception unit 133 displays the transmission / reception result on the display unit 134 (S205). Activates a timer when receiving the transmission / reception results. This timer is a timer that counts down a predetermined time. For example, the timer is 180 seconds.

When the transmission / reception unit 133 cannot receive the result of transmission / reception from the receiver 20 (S204: No), the transmission / reception unit 133 does not display anything on the display unit 134 (S215).

The disconnection control unit 131 disconnects the power supply unit 120 and the execution circuit unit 130 (S206).

Next, the operation unit 110 releases the pressed state. As a result, the operation unit 110 generates a negative voltage (S207).

The operation unit 110 stores electricity in the power storage unit 123 via the power generation unit 121 and the rectifying unit 122 (S208).

The display unit 134 refreshes the display state of the display unit 134 when the count of the countdown timer received in step S204 becomes 0 (S209).

Even with such a configuration, the electric power generated by operating the operation unit 110 can be used for transmitting the control signal and displaying the transmission / reception result of the control signal, and the display state can be maintained. This improves the visibility of the user. Further, the transmission of the control signal and the display of the transmission / reception result of the control signal do not require another power source, and cost reduction can be realized.

Further, since the display unit 134 is electronic paper, power is not required to maintain the display state, so that a power saving effect can be obtained.

Further, by using the timer, the display is automatically refreshed, and the convenience is improved without the user making a mistake in the next operation. In the above example, the time information of the timer is set to 180 seconds, but it may be 180 seconds or less, or 180 seconds or more, and can be set according to the operation in the actual environment.

10, 10A ... Switch 20 ... Receiver 110 ... Operation unit 115 ... Housing 120 ... Power supply unit 121 ... Power generation unit 122 ... Rectifier unit 123 ... Power storage unit 124 ... Stabilization unit 125 ... Voltage monitoring unit 130 ... Execution circuit unit 131 ... Disconnection control unit 132 ... Control unit 133 ... Transmission / reception unit 134 ... Display unit

Claims (7)

An operation unit that accepts operations for transmitting control signals,
A power storage unit that stores the electric power generated by operating the operation unit, and
A communication unit that transmits and receives the control signal using the electric power,
A display unit that displays the result of transmission / reception and holds the display,
With a switch. The switch according to claim 1, wherein the communication unit performs wireless communication. The display unit
When the operation unit is re-operated, the display is changed.
The switch according to claim 1. The operation unit is a push button type.
The power storage unit
The switch according to claim 1, wherein the electric power is stored during the pressing operation of the operating unit or the releasing operation. The switch according to any one of claims 1 to 4, wherein the display unit is an electronic paper. Steps to accept operations for transmitting control signals,
The step of storing the power generated by the above operation and
The step of transmitting and receiving the control signal using the electric power, and
A step of displaying the result of the transmission / reception and holding the display,
The display retention method that the computer executes. Steps to accept operations for transmitting control signals,
The step of storing the power generated by the above operation and
The step of transmitting and receiving the control signal using the electric power, and
A step of displaying the result of the transmission / reception and holding the display,
A display retention program that causes a computer to run.

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