JP2006238595A - System for displaying power state in electrical appliance and apparatus for acquiring power state in electrical appliance - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To inexpensively achieve monitoring of a power state in an electrical appliance without requiring a new function of the electrical appliance. <P>SOLUTION: A system for displaying the power state in the electrical appliance has an apparatus for acquiring the power state in the electrical appliance and a panel for displaying the power state in the electrical appliance. The apparatus for acquiring the power state in the electrical appliance is provided with a power outlet for a power plug of the electrical appliance into which the power plug of the electrical appliance is inserted, a power plug inserted into a power outlet in a building, a power line for connecting the power outlet for the plug of the electrical appliance and the power plug, a power state detecting means for detecting the power state in the target electrical appliance, and a transmitting means for implementing a short-distance wireless transmission of information on the power state detected by the power state detecting means. The panel for displaying the power state in the electrical appliance is provided with a receiving means for receiving the information on the power state and a displaying means for displaying the received information on the power state. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an electrical appliance power status display system and an electrical appliance power status acquisition device, and can be applied to, for example, monitoring the power status of a plurality of home appliances.

  For example, turning on / off power supplies for home appliances such as air conditioners, kotatsu, irons, television receivers, electric sewing machines, washing machines, refrigerators, and IT products such as personal computers, printers, and telephones in the house Conventionally, the power supply state of the state and the connection state of the outlet has been monitored by directly observing the power on / off LED of the target electrical appliance and the outlet thereof.

In addition, for electrical appliances that have built-in controlled functions in advance, various information is provided to the server with built-in control functions via a home network, etc., and the status of each electrical appliance is managed on the server side. (See Patent Documents 1 to 3).
JP 2002-77191 A JP 2004-56435 A JP 2004-228923 A

  In the method in which humans visually check the power supply status of electrical appliances, it is necessary for humans to visit each product position in the house. End up. In addition, the possibility of mistaken confirmation of the state cannot be denied (for example, when the confirmer is an elderly person), and the power-on state becomes unintended for a long time, and extra power may be consumed.

  When using a home network, etc., it is necessary to incorporate the controlled function in the electrical appliance in advance, and it is not easy to apply the status monitoring to the existing electrical appliance, and many products in the house If the controlled function is to be realized, the cost is high, and it takes a long time to realize it.

  Therefore, there is a demand for an electrical appliance power status display system and an electrical appliance power status acquisition device that can implement monitoring of the power status of the electrical appliance at a low cost without requiring a new function from the electrical appliance.

  In order to solve such a problem, an electrical appliance power status display system according to the first aspect of the present invention includes an electrical appliance power status acquisition device and an electrical appliance power status display panel. (1) The electrical appliance power status acquisition device includes: A power outlet for a product plug into which an electrical appliance power plug is inserted, a power plug to be plugged into a power outlet in a building, a power line connecting the power outlet for the product plug and the power plug, and a power source of the target electrical appliance. A power supply state detection means for detecting a state; and a transmission means for short-range wireless transmission of information on the power supply state detected by the power supply state detection means. (2) The electrical appliance power supply status display panel includes: It is characterized by comprising receiving means for receiving power state information transmitted by short-range wireless transmission and display means for displaying the received power state information.

  The appliance power status acquisition device according to the second aspect of the invention includes a product plug power outlet into which an electrical appliance power plug is inserted, a power plug to be inserted into a power outlet in a building, the product plug power outlet, and the power source. The power line connecting the plug, the power supply state detection means for detecting the power supply state of the target appliance, and the information on the power supply state detected by the power supply state detection means, the opposed appliance power supply displaying the power supply state information The status display board is provided with transmission means for performing short-distance wireless transmission.

  According to the appliance power status display system and appliance power status acquisition apparatus of the present invention, monitoring of the power status of the appliance can be realized at low cost without requiring a new function for the appliance.

  Hereinafter, an embodiment of an electrical appliance power status display system and an electrical appliance power status acquisition device according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing the overall configuration of an electrical appliance power status display system according to this embodiment. The appliance power status display system 1 of this embodiment includes one or a plurality of appliance power status acquisition devices 10-1 to 10-N and an appliance power status display panel 20.

  Whether the electrical appliance power status acquisition devices 10-1 to 10-N are interposed in the power supply path to the electrical appliances 2-1 to 2-N, and are the electrical appliances 2-1 to 2-N plugged in? Information on whether or not the power of the electrical appliances 2-1 to 2-N is on or off is acquired and transmitted to the electrical appliance power status display board 20 by radio. Hereinafter, whether or not the power plug is inserted and whether the power is on or off are collectively referred to as a power state.

  The appliance power status display panel 20 displays the power status of the appliances 2-1 to 2-N transmitted from the appliance power status acquisition devices 10-1 to 10-N.

  FIG. 2 is a schematic plan view of the appliance power state acquisition device 10 (10-1 to 10-N), and FIG. 3 is an electrical functional block diagram of the appliance power state acquisition device 10.

  In FIG. 2, an appliance power state acquisition device 10 includes a power plug 11 for plugging into a power outlet provided on a wall surface of a house, and an appliance 2 (2-1 to 2-N) whose power status is to be displayed. ), And the power plug 11 and the power outlet 12 are electrically connected inside the appliance power state acquisition device 10. That is, the electrical appliance power state acquisition device 10 does not interfere with the on / off of the power supply to the electrical appliance 2. In FIG. 2, the power plug 11 has a cord (cable), but the cord may be an inner cord.

  As shown in FIG. 3, the appliance power state acquisition device 10 includes a power on / off sensor 13, a plug connection sensor 14, and a power state transmission circuit 15.

  The power on / off sensor 13 detects on / off of the power of the electric appliance 2. The power on / off sensor 13 uses, for example, a clamp sensor capable of measuring a current while a measured electric wire is in a live state, and a current flows from the power plug 11 to the power outlet 12 (therefore, the electrical appliance 2). The on / off of the power supply of the electric appliance 2 connected to the electric appliance power supply state acquisition device 10 is detected depending on whether or not the electric appliance is on. Here, the determination threshold value of the clamp sensor may be variable. Some electrical appliances consume power to continuously operate built-in timers even when the power is turned off, and the power may be turned off even when current is flowing. Is preferably adjustable. Needless to say, the power on / off sensor 13 may be other than the clamp sensor.

  The plug connection sensor 14 detects whether or not the power plug of the electric appliance 2 is inserted into the power outlet 12 of the electric appliance power state acquisition device 10. Examples of the plug connection sensor 14 include a sensor that detects insertion of a power plug depending on whether or not a pin provided at the tip of the hole of the power outlet 12 has moved, or a photo that is shielded from light when the power plug is inserted. The thing using a coupler etc. can be mentioned.

  The power supply state transmission circuit 15 supplies information on the power supply state of the electric appliance 2 determined by the detection signal of the power supply on / off sensor 13 and the detection signal of the plug connection sensor 14 to the electric appliance power supply state display panel 20 (a power supply state reception circuit 23 to be described later). To send to. For example, an existing near field communication system is applied to the wireless communication system between the power supply state transmission circuit 15 and a power supply state reception circuit 23 described later. For example, a wireless LAN method, a Bluetooth method, a ZigBee method, an RFID method, or the like can be applied.

  For example, the power supply state transmission circuit 15 may include a timer and autonomously transmit the power supply state at a predetermined cycle. For example, when there is a request from the appliance power supply state display board 20 The power status may be transmitted. In the latter case, the power state transmission circuit 15 naturally has a reception function. In the following description, the latter is assumed.

  Although omitted in FIG. 3, the appliance power state acquisition device 10 includes a power supply unit that supplies operation power to the power on / off sensor 13, the plug connection sensor 14, and the power state transmission circuit 15. This power supply unit may be a battery, may be one that obtains operating power from a commercial power supply from a household power line, or may be obtained from energy of a received signal from the appliance power supply status display panel 20 (for example, RFID In the case of a method).

  FIG. 4 is an explanatory diagram showing a display surface of the electrical appliance power status display board 20, and FIG. 5 is an electrical functional block diagram of the electrical appliance power status display board 20. FIG. 4 illustrates a case where the number of appliance power state acquisition devices 10 is three.

  The display surface SUR of the appliance power status display panel 20 includes a row in which the terms “connection”, “ON”, “OFF” are located at the top, “home appliance A”, “home appliance B”, “home appliance”. Light emitting elements (for example, LEDs) 21-11 to 21-33 are provided at the intersections of the rows where the term “C” is located on the left side, and at positions away from the regions of these light emitting elements. A display on switch 22 is provided.

  The lighting of each of the light emitting elements 21-11 to 21-33 indicates that the electrical appliances determined by the row are in a state determined by the column. FIG. 2 shows that “home appliance A” has the power plug “connected” and the power is on, and “home appliance B” does not have the power plug “connected”. The home appliance C ”shows a case where the power plug is“ connected ”but the power is off.

  Here, the light-emitting elements 21-11, 21-12, 21-21, 21-22, and 21-31, 21-32 related to “connection” and “ON” are the light-emitting elements 21-13 related to “OFF”, The brightness at the time of lighting is higher than 21-23 and 21-33. In many cases of confirming the display, the user confirms that the user has forgotten to turn off the power. Therefore, in order to emphasize the lighting of the light-emitting elements related to “ON” and “ON” indicating the state of forgetting to turn off, The brightness was increased.

  Note that the terms “connection”, “ON”, and “OFF” are fixedly printed on the display surface SUR, for example, “home appliance A”, “home appliance B”, and “home appliance C”. The term is written by a user on a label made of paper or the like. The user decides that the power plug of the electrical appliance whose power status is to be monitored is pointed to the outlet of one of the electrical appliance power status acquisition devices 10, and sets the line corresponding to the electrical appliance power status acquisition device 10 Affix the label that can recognize the product in association.

  The display on switch 22 activates the display of the electrical appliance power status display panel 20.

  The appliance power status display panel 20 includes a power status receiving circuit 23 and a display control circuit 24 in addition to the light emitting elements 21-11 to 21-33 and the display on switch 22, as shown in FIG.

  The power supply status receiving circuit 23 receives the power supply status information transmitted by the power supply status transmission circuit 15 of the appliance power supply status acquisition device 10 (10-1 to 10-N) and supplies it to the display control circuit 24. In FIG. 5, one power supply state receiving circuit 23 is described, and this power supply state receiving circuit 23 is common to all the appliance power supply state acquisition devices 10-1 to 10 -N. A separate power status receiving circuit 23 may be provided for each power status acquisition device 10-1 to 10-N.

  When the display on switch 22 is turned on, the display control circuit 24 forms a drive signal for controlling the light emitting element group 21 based on the power state information from the power state receiving circuit 23, and It controls turning on and off.

  Here, the display control circuit 24 may, for example, periodically and repeatedly take in and display power state information while the display on switch 22 is on. Further, for example, when the display on switch 22 is turned on, the display control circuit 24 takes in information on the power supply state and performs the display for a predetermined time (for example, 30 seconds), and when the predetermined time has elapsed. In addition, the power supply of the electrical appliance power status display panel 20 may be automatically turned off.

  The display control circuit 24 receives information on the power supply state automatically transmitted by each appliance power supply state acquisition device 10 at a predetermined cycle, depending on the configuration and function of each appliance power supply state acquisition device 10 facing each other. In addition, each appliance power state acquisition device 10 may be requested to request power state information by wireless communication using a polling method, and the returned power state information may be You may make it receive, take in, and display.

  According to the embodiment, the power supply state of the electrical appliance can be displayed without mounting a new function on the electrical appliance.

  In addition, according to the above-described embodiment, the appliance power status acquisition device and the appliance power status display panel are configured to exchange power status information by one-to-one short-range wireless communication, and use a complicated network configuration. In addition, since only the connection of the power plug and the power-on are displayed, monitoring of the power state of the electrical appliance can be realized with a simple configuration and at a low cost.

  In the above description, various modified embodiments have been referred to, but further modified embodiments exemplified below can be cited.

  In the above embodiment, the appliance power status acquisition device is for one appliance, but one appliance power status acquisition device acquires the power supply normal status of a plurality of appliances. Also good. For example, the power outlet 12, the power on / off sensor 13, the plug connection sensor 14, and the power state transmission circuit 15 may be provided by the number of target electrical appliances. Further, for example, the power outlets 12, the power on / off sensors 13, and the plug connection sensors 14 are provided as many as the number of electrical appliances, and the power status transmission circuit 15 is shared, and the power status of each electrical appliance is obtained by time division transmission. Information may be transmitted.

  Moreover, in the said embodiment, although the power status information showed what consists of two elements, whether the power plug is inserted and whether the power is on or off, only one of the elements is handled. Thus, you may make it comprise an appliance power status acquisition apparatus and an appliance power status display panel. In addition, the user may be able to select and indicate from these two elements as the power state of the display target.

  Further, in the above-described embodiment, the light emitting element for notifying the power off is shown in addition to the light emitting element for notifying the power on, but the light emitting element for notifying the power off is omitted. Anyway.

  Furthermore, in the above-described embodiment, the power supply state is displayed using the light emitting element. However, the power supply state may be displayed using a display such as a liquid crystal display. Furthermore, in addition to visual display or instead of visual display, other notification methods may be used. For example, voice may be output using a voice synthesis technique, a buzzer may be sounded in a predetermined power supply state, and braille may be displayed. The term “display” in the claims includes such notification.

It is a block diagram which shows the whole structure of the electric appliance power supply status display system of embodiment. It is a schematic plan view of the electrical appliance power state acquisition apparatus of embodiment. It is an electrical functional block diagram of the electric appliance power supply state acquisition apparatus of embodiment. It is explanatory drawing which shows the display surface of the electric appliance power supply status display panel of embodiment. It is an electrical functional block diagram of the electric appliance power supply state display board of embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Electrical appliance power status display system, 2-1 to 2-N ... Electrical appliance, 10, 10-1 to 10-N ... Electrical appliance power status acquisition device, 11 ... Power plug, 12 ... Power outlet, 13 ... Power source ON / OFF sensor, 14 ... plug connection sensor, 15 ... power supply state transmission circuit, 20 ... electric appliance power supply state display board, 21, 21-11 to 21-33 ... light emitting element, 22 ... display ON switch, 23 ... power supply state reception circuit 24. Display control circuit.

Claims (4)

It has an appliance power status acquisition device and an appliance power status display panel,
The appliance power status acquisition device is
A power outlet for the product plug into which the electrical appliance power plug is inserted;
A power plug that plugs into a power outlet in the building,
A power line for connecting the power plug for the product plug and the power plug;
Power supply state detection means for detecting the power supply state of the target appliance;
Transmission means for short-range wireless transmission of information on the power supply state detected by the power supply state detection means,
The electrical appliance power status display panel
Receiving means for receiving information on the power state transmitted by the transmitting means by short-range wireless transmission; and
An electrical appliance power status display system comprising: display means for displaying received power status information.   The power supply state detection means includes a power supply on / off detection unit that obtains power supply on / off information of a target electrical appliance based on energization / non-energization between the product plug power outlet and the power plug. The electrical appliance power status display system according to Item 1.   The electrical appliance according to claim 1 or 2, wherein the power state detection means includes a connection detection unit that obtains connection information as to whether or not an electrical appliance power plug is inserted into the product plug power outlet. Power status display system. A power outlet for the product plug into which the electrical appliance power plug is inserted;
A power plug that plugs into a power outlet in the building,
A power line connecting the power outlet for the product plug and the power plug;
Power supply state detection means for detecting the power supply state of the target appliance;
A power supply state acquisition characterized by comprising: a transmission means for short-distance wireless transmission of power supply state information detected by the power supply state detection means to an opposing appliance power supply state display panel for displaying the power supply state information. apparatus.

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