JP2010014522A - Supply state notifying system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a supply state notifying system, enabling the user to readily recognize electrical energy consumption. <P>SOLUTION: This supply state notifying system 100 is equipped with a supply state notifying device 30. The supply state notification device 30 is equipped with a measuring part 31 for measuring a supply state of liquid, gas or electricity. Furthermore, the supply state notification device 30 is equipped with a threshold-holding part 32 for holding a plurality of thresholds. Furthermore, the supply state notifying device 30 is equipped with a light-emitting part 33 for performing light emission, in each different mode corresponding to a comparison result between a threshold and a measurement result by the measuring part. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a supply status notification system.

  There are technologies for measuring the power consumption of each electrical product in a general household and displaying the measurement results as numerical values (for example, Patent Documents 1 and 2).

  In the techniques described in these Patent Documents 1 and 2, an alternating current measured by an alternating current device is converted into a direct current by a rectifier circuit, and the direct current and the averaged direct current voltage are compared by a comparator. Yes. And at the timing when both correspond, the electric energy is calculated in the controller comprised from a one-chip microcomputer. Further, the calculated power amount and the like are displayed on the display unit.

JP 2000-241465 A JP 2001-4665 A

  By the way, the method of making the user recognize the power consumption greatly depends on the effect of suppressing the power consumption of the electric product. Therefore, a system that allows the user to intuitively understand the power consumption is eagerly desired.

  In the technologies according to Patent Documents 1 and 2, the user is made to recognize the power consumption amount only by displaying the power consumption as numerical information. However, it is very difficult for the user to determine whether the power consumption is large or small by looking only at the numerical information.

  Accordingly, an object of the present invention is to provide a supply status notification system that allows a user to easily recognize the amount of power consumption.

  In order to achieve the above object, a supply status notification system according to claim 1 of the present invention includes an information terminal that collects and manages information, and a supply status notification device that is communicable with the information terminal. The supply status notification device includes a measurement unit that measures a supply status of liquid, gas, or electricity, a threshold value holding unit that holds a plurality of threshold values, and a measurement result of the threshold value and the measurement unit. And a light emitting unit that emits light of different modes.

  The supply status notification system according to claim 2 of the present invention is the supply status notification system according to claim 1, wherein the supply status notification device is disposed between an electrical product and an outlet. The measurement unit measures electricity supplied to the electrical product.

  Moreover, the supply status notification system according to claim 3 according to the present invention is the supply status notification system according to claim 2, wherein the measurement unit is a value of a current supplied to the electrical product to be connected. The light emitting unit emits light in different modes step by step each time a measurement result of the measuring unit exceeds the threshold value in the plurality of threshold values related to current.

  Moreover, the supply status notification system according to claim 4 according to the present invention is the supply status notification system according to claim 2, wherein the measuring unit is configured to determine the amount of power supplied to the electrical product to which the connection is made. The value is measured, and the light emitting unit emits light in different modes step by step each time the measurement result of the measuring unit exceeds the threshold value in the plurality of threshold values regarding the electric energy.

  Moreover, the supply status notification system according to claim 5 according to the present invention is the supply status notification system according to claim 2, wherein the measurement unit is configured to accumulate power consumption supplied to the electrical product to which the connection is made. The amount of light is measured, and the light emitting unit emits light in a different manner step by step each time the measurement result of the measuring unit exceeds the threshold in the plurality of thresholds related to the accumulated power consumption.

  Moreover, the supply status notification system according to claim 6 of the present invention is the supply status notification system according to claim 2, wherein the supply status notification device can set ON time and / or OFF time. A time setting unit that automatically starts supplying electricity to the electrical product when the time reaches the ON time, and automatically supplies power to the electrical product when the time reaches the OFF time. Stop.

  Moreover, the supply status notification system according to claim 7 of the present invention is the supply status notification system according to claim 2, wherein the supply status notification device includes a plurality of supply status notification devices. Are connected to different electrical products, and the information terminal manages the limit electricity total usage, and the supply status notification device connected to the electrical product in a power-off state, A first signal is transmitted to the predetermined supply status notifying device connected to the electrical product that is determined to exceed the total electricity usage amount by being supplied with electricity.

  The supply status notification system according to claim 8 of the present invention is the supply status notification system according to claim 7, wherein the predetermined supply status notification device that has received the first signal is the predetermined status notification system. When an inrush current flowing due to the power supply of the electrical product connected to the supply status notification device is detected, the electrical supply is cut off and the light emitting unit is caused to emit light.

  The supply status notification system according to claim 9 of the present invention is the supply status notification system according to claim 8, wherein the information terminal is connected to the predetermined supply status notification device. Even if the product is supplied with electricity, if it is determined that it does not exceed the total amount of electricity used, a second signal is transmitted to the predetermined supply status notification device.

  The supply status notification system according to claim 10 of the present invention is the supply status notification system according to claim 9, wherein the predetermined supply status notification device that has received the second signal is In a state where electricity can be supplied to the electrical product, and the light emission of the light emitting unit is stopped.

  The supply status notification system according to claim 11 of the present invention is the supply status notification system according to claim 1, wherein the supply status notification device is provided between a gas using device and a gas supply unit. The measuring unit measures the supply status of the gas supplied to the gas using device.

  Moreover, the supply status notification system according to claim 12 according to the present invention is the supply status notification system according to claim 11, wherein the measuring unit is configured to supply a gas to be supplied to the connected gas using device. A flow rate value is measured, and the light emitting unit emits light in different modes step by step each time a measurement result at the measuring unit exceeds the threshold value at a plurality of threshold values relating to a gas flow rate.

  The supply status notification system according to claim 13 of the present invention is the supply status notification system according to claim 1, wherein the supply status notification device is disposed between the faucet and the water supply unit. The measuring unit measures the supply status of water supplied to the faucet.

  Moreover, the supply status notification system according to claim 14 according to the present invention is the supply status notification system according to claim 13, wherein the measurement unit is a flow rate value of water supplied to the faucet at a connection destination. The light emitting unit emits light in different modes step by step each time the measurement result of the measuring unit exceeds the threshold value in the plurality of threshold values relating to the water flow rate.

  Moreover, the supply status notification system according to claim 15 of the present invention is the supply status notification system according to claim 1, wherein the supply status notification device is capable of setting a predetermined time. The light emitting unit emits light when the measuring unit measures that liquid, gas, or electricity is supplied continuously for the predetermined time or longer.

  The supply status notification system according to claim 16 of the present invention is the supply status notification system according to claim 1, wherein the supply status notification device is capable of setting the threshold value. The unit is further provided.

  The supply status notification system according to claim 17 of the present invention is the supply status notification system according to claim 16, wherein the threshold setting unit is a rotary switch, and the rotary switch is switched. The threshold value corresponding to the switching is set.

  The supply status notification system according to claim 18 of the present invention is the supply status notification system according to claim 1, wherein the information terminal includes an input unit capable of setting the threshold value. Yes.

  The supply status notification system according to claim 19 of the present invention is the supply status notification system according to claim 1, wherein the information terminal can receive the threshold value from an external server. Department.

  The supply status notification system according to claims 1, 2, 3, 4, 5, 11, 12, 13, and 14 of the present invention is an information terminal that collects and manages information, and a supply that can communicate with the information terminal. A status notification device, the supply status notification device is a measurement unit that measures the supply status of liquid or gas or electricity, a threshold value holding unit that holds a plurality of threshold values, a threshold value and a measurement unit A light emitting unit that emits light of different modes is provided according to a result of comparison with the measurement result.

  Therefore, the user can easily recognize the power consumption and the like. Thereby, consumption of electric power etc. can be suppressed remarkably.

  Further, in the supply status notification system according to claim 6 of the present invention, the supply status notification device further includes a time setting unit capable of setting the ON time and / or the OFF time, and when the time becomes the ON time. Then, the electric supply to the electric product is automatically started, and the electric supply to the electric product is automatically stopped when the time becomes the OFF time.

  Therefore, it is possible to perform time schedule management of electricity supply to the electric product. Thereby, power saving of the electric product can be performed.

  In the supply status notification system according to claims 7 and 8 of the present invention, there are a plurality of supply status notification devices, each supply status notification device is connected to a different electrical product, and the information terminal is Electric appliances that manage the limit electric total usage and are judged to exceed the total electric usage by supplying electricity, among the supply status notification devices connected to the electric products whose power is OFF The first signal is transmitted to a predetermined supply status notification device connected to the. When the predetermined supply status notification device that has received the first signal detects an inrush current that flows due to the power supply of the electrical product connected to the predetermined supply status notification device being cut off, The light emitting unit is caused to emit light.

  Therefore, for example, the breaker can be prevented from falling in advance, and the user can be informed that the state is in a state where the limit total electric power consumption is just below. Further, the user can use the electric product with confidence without worrying about the breaker falling.

  Further, in the supply status notification system according to claims 9 and 10 of the present invention, the information terminal exceeds the total electricity consumption even if the electrical product connected to the predetermined supply status notification device is supplied with electricity. When it is determined that there is not, the second signal is transmitted to a predetermined supply status notification device. And the predetermined supply condition notification apparatus which received the 2nd signal makes the self-apparatus state in the electric supply possible state to an electric product, and stops the light emission of a light emission part.

  Therefore, there is no difficult operation on the user side, and the power supply state to the electric product can be recovered. Further, the user can use the electric product with confidence without worrying about the breaker falling.

  In the supply status notification system according to claim 15 of the present invention, the supply status notification device further includes a time setting unit capable of setting a predetermined time, and the light emitting unit continues for a predetermined time or more. When the measuring unit measures that liquid, gas, or electricity is supplied, light is emitted.

  Therefore, for example, the user can be prompted to forget to turn off the power. Therefore, useless electricity consumption can be prevented and power consumption can be saved.

  In the supply status notification system according to the sixteenth and seventeenth aspects of the present invention, the supply status notification device further includes a threshold setting unit capable of setting a threshold. The threshold setting unit is a rotary switch, and a threshold corresponding to the switching is set by switching the rotary switch.

  Therefore, the user can easily set various threshold values suitable for the type of electrical product to which the supply status notification device is connected.

  In the supply status notifying system according to claim 18 of the present invention, the information terminal includes an input unit capable of setting a threshold.

  Accordingly, the various threshold values in the supply status notification device can be set as more precise values from a remote location.

  In the supply status notification system according to the nineteenth aspect of the present invention, the information terminal includes a threshold receiving unit capable of receiving a threshold from an external server.

  Therefore, precise various threshold values can be set more easily.

  Hereinafter, the present invention will be specifically described with reference to the drawings showing embodiments thereof.

<Embodiment 1>
FIG. 1 is a diagram showing a schematic configuration of a supply status notification system according to the present embodiment.

  As shown in FIG. 1, the supply status notification system 100 includes an information terminal 10, a plurality of electrical products 20, a plurality of supply status notification devices 30, a router 50, and an external server 60.

  The information terminal 10 is connected to the supply status notification device 30 via the power line PL, and performs power line communication with the information terminal 10. The information terminal 10 collects, manages, and processes information transmitted from the supply status notification device 30.

  The electric product 20 is a home appliance such as a television, a refrigerator, and a washing machine. A supply status notification device 30 is disposed between the electrical product 20 and the outlet (power line PL). In addition, the electrical product 20 receives supply of electricity from the power line via the supply status notification device 30.

  The supply status notification device 30 can measure electricity such as current and electric power supplied to the electrical product 20 connected to its own device. The supply status notifying device 30 can also control electricity such as current and power supplied to the electrical product 30.

  FIG. 2 is a functional block diagram showing the internal configuration of the supply status notification device 30.

  The supply status notification device 30 includes a measurement unit 31, a threshold holding unit 32, a light emitting unit 33, a control unit 34, and a communication unit 35.

  The measurement unit 31 measures electricity such as current and electric power supplied from the outlet to the electrical product 20. The threshold value holding unit 32 holds a plurality of types and a plurality of types of threshold values. In addition, the light emitting unit 33 performs light emission of different colors or light emission in which the blinking period is changed (these are referred to as light emission of different modes). For example, the control unit 34 compares the threshold value held in the threshold value holding unit 32 with the amount of power measured by the measurement unit 31. Then, according to the comparison result, the control unit 34 causes the light emitting unit 33 to emit predetermined light. A multicolor light emitting diode or the like can be employed as the light emitting unit 33.

  The communication unit 35 is a part that communicates with the information terminal 10. Here, in the present application, the case where the supply status notification device 30 performs power line communication with the information terminal 10 will be referred to. However, the communication between the supply status notification device 30 and the information terminal 10 is not limited to this, and may be LAN communication or predetermined wireless communication.

<Light emission operation>
Next, it will be described in detail that the light emitting unit 33 emits light of a different mode according to the measurement result of the measuring unit 31.

  For example, the threshold value holding unit 32 stores three threshold values (first current threshold value, second current threshold value, and third current threshold value) related to current. Here, the first current threshold is smaller than the second current threshold, and the second current threshold is smaller than the third current threshold (first current threshold <second current threshold <third current threshold). In the said state, the light emission part 33 performs light emission of a different aspect in steps, whenever the measurement result in the measurement part 31 exceeds the said threshold value in the said each threshold value.

  For example, the measurement part 31 measures the electric current value supplied to the electric product 20 connected to an own machine from an outlet. As a result, it is assumed that the measurement unit 31 measures a current smaller than the first current threshold. Then, the control unit 34 compares the measured value (current value) with the first current threshold value held in the threshold value holding unit 32. In this case, since the measured value (current value) is smaller than the first current threshold value, the control unit 34 does not cause the light emitting unit 33 to emit light. In the case of no light emission, it means that the current value supplied to the electrical product 20 is at a level with no problem from the viewpoint of power consumption.

  In contrast, it is assumed that the measurement unit 31 measures a current that is greater than or equal to the first current threshold and smaller than the second current threshold. Then, the control unit 34 compares the measured value (current value) with the first current threshold and the second current threshold held in the threshold holding unit 32. In this case, since the measured value (current value) is not less than the first current threshold and less than the second current threshold, the light emitting unit 33 emits green light under the control of the control unit 34. The green light emission means that the current value supplied to the electrical product 20 is slightly higher. In other words, when the light emitting unit 33 is green, a small current is supplied to the electrical product 20.

  Further, it is assumed that the measurement unit 31 measures a current that is greater than or equal to the second current threshold and smaller than the third current threshold. Then, the control unit 34 compares the measured value (current value) with the second current threshold and the third current threshold held in the threshold holding unit 32. In this case, since the measured value (current value) is equal to or greater than the second current threshold and less than the third current threshold, the light emitting unit 33 emits yellow light under the control of the control unit 34. The yellow light emission means that the current value supplied to the electrical product 20 is high. In other words, when the light emitting unit 33 is yellow, a medium current is supplied to the electrical product 20.

  Further, it is assumed that the measurement unit 31 measures a current equal to or greater than the third current threshold value. Then, the control unit 34 compares the measured value (current value) with the third current threshold value held in the threshold value holding unit 32. In this case, since the measured value (current value) is equal to or greater than the third current threshold value, the light emitting unit 33 emits red light under the control of the control unit 34. The red light emission means that the current value supplied to the electrical product 20 is considerably high. In other words, when the light emitting unit 33 is red, a large current is supplied to the electrical product 20.

  Unlike the above, it is assumed that the threshold value holding unit 32 stores three threshold values relating to the electric energy (first electric energy threshold, second electric energy threshold, and third electric energy threshold). Here, the first power amount threshold is smaller than the second power amount threshold, and the second power amount threshold is smaller than the third power amount threshold (first power amount threshold <second power amount threshold <third power Amount threshold). In the said state, the light emission part 33 performs light emission of a different aspect in steps, whenever the measurement result in the measurement part 31 exceeds the said threshold value in the said each threshold value.

  For example, the measurement unit 31 measures the amount of power supplied from the outlet to the electrical product 20 connected to the own device. As a result, it is assumed that the measurement unit 31 measures a power amount smaller than the first power amount threshold value. Then, the control unit 34 compares the measured value (power amount) with the first power amount threshold held in the threshold holding unit 32. In this case, since the measurement value (power amount) is smaller than the first power amount threshold value, the control unit 34 does not cause the light emitting unit 33 to emit light. In the case of no light emission, it means that the amount of power supplied to the electrical product 20 is at a level that is not problematic from the viewpoint of power consumption.

  In contrast, it is assumed that the measurement unit 31 measures an amount of power that is equal to or greater than the first power amount threshold and smaller than the second power amount threshold. Then, the control unit 34 compares the measured value (power amount) with the first power amount threshold value and the second power amount threshold value held in the threshold value holding unit 32. In this case, since the measured value (power amount) is not less than the first power amount threshold value and less than the second power amount threshold value, the light emitting unit 33 emits green light under the control of the control unit 34. The green light emission means that the amount of power supplied to the electrical product 20 is slightly higher. In other words, when the light emitting unit 33 is green, a small amount of power is supplied to the electrical product 20.

  Further, it is assumed that the measurement unit 31 measures an amount of power that is equal to or greater than the second power amount threshold and smaller than the third power amount threshold. Then, the control unit 34 compares the measured value (power amount) with the second power amount threshold value and the third power amount threshold value held in the threshold value holding unit 32. In this case, since the measurement value (power amount) is equal to or greater than the second power amount threshold value and less than the third power amount threshold value, the light emitting unit 33 emits yellow light under the control of the control unit 34. The yellow light emission means that the amount of power supplied to the electrical product 20 is high. In other words, when the light emitting unit 33 is yellow, a medium power amount is supplied to the electrical product 20.

  Further, it is assumed that the measurement unit 31 measures the amount of power that is equal to or greater than the third power amount threshold. Then, the control unit 34 compares the measured value (power amount) with the third power amount threshold value stored in the threshold value holding unit 32. In this case, since the measurement value (power amount) is equal to or greater than the third power amount threshold value, the light emitting unit 33 emits red light under the control of the control unit 34. The red light emission means that the amount of power supplied to the electrical product 20 is considerably high. In other words, a large amount of power is supplied to the electrical product 20 when the light emitting unit 33 is red.

  Unlike the above, the threshold holding unit 32 stores three thresholds related to the cumulative power consumption (first cumulative power consumption threshold, second cumulative power consumption threshold, and third cumulative power consumption threshold). .

  Here, the accumulated power consumption is a total value of power consumption during a predetermined period. The first cumulative power consumption threshold is smaller than the second cumulative power consumption threshold, and the second cumulative power consumption threshold is smaller than the third cumulative power consumption threshold (first cumulative power consumption threshold < Second cumulative power consumption threshold <third cumulative power consumption threshold). In the said state, the light emission part 33 performs light emission of a different aspect in steps, whenever the measurement result in the measurement part 31 exceeds the said threshold value in the said each threshold value. The supply status notification device 30 includes a data storage unit (not shown) that stores time-series power amount information necessary for obtaining the accumulated power consumption.

  For example, the measurement unit 31 measures the cumulative power consumption supplied from the outlet to the electrical product 20 connected to the own device. As a result, it is assumed that the measurement unit 31 measures a cumulative power consumption smaller than the first cumulative power consumption threshold. Then, the control unit 34 compares the measured value (cumulative power consumption) with the first cumulative power consumption threshold held in the threshold holding unit 32. In this case, since the measurement value (cumulative power consumption) is smaller than the first cumulative power consumption threshold, the control unit 34 does not cause the light emitting unit 33 to emit light. In the case of no light emission, it means that the accumulated power consumption supplied to the electrical product 20 is at a level with no problem from the viewpoint of power consumption.

  In contrast, it is assumed that the measurement unit 31 measures a cumulative power consumption that is equal to or greater than the first cumulative power consumption threshold and smaller than the second cumulative power consumption threshold. Then, the control unit 34 compares the measured value (cumulative power consumption) with the first cumulative power consumption threshold and the second cumulative power consumption threshold held in the threshold holding unit 32. In this case, since the measured value (cumulative power consumption) is equal to or greater than the first cumulative power consumption threshold and less than the second cumulative power consumption threshold, the light emitting unit 33 emits green light under the control of the control unit 34. To do. The green light emission means that the cumulative power consumption supplied to the electrical product 20 is slightly higher. In other words, when the light emitting unit 33 is green, the small cumulative power consumption is supplied to the electrical product 20.

  Further, it is assumed that the measurement unit 31 measures a cumulative power consumption amount that is greater than or equal to the second cumulative power consumption threshold value and smaller than the third cumulative power consumption threshold value. Then, the control unit 34 compares the measured value (cumulative power consumption) with the second cumulative power consumption threshold and the third cumulative power consumption threshold held in the threshold holding unit 32. In this case, since the measured value (cumulative power consumption) is equal to or greater than the second cumulative power consumption threshold and less than the third cumulative power consumption threshold, the light emitting unit 33 emits yellow light under the control of the control unit 34. To do. The yellow light emission means that the cumulative power consumption supplied to the electrical product 20 is high. In other words, when the light emitting unit 33 is yellow, the middle cumulative power consumption is supplied to the electrical product 20.

  Further, it is assumed that the measurement unit 31 measures the accumulated power consumption that is equal to or greater than the third accumulated power consumption threshold. Then, the control unit 34 compares the measured value (cumulative power consumption) with the third cumulative power consumption threshold held in the threshold holding unit 32. In this case, since the measurement value (cumulative power consumption) is equal to or greater than the third cumulative power consumption threshold, the light emitting unit 33 emits red light under the control of the control unit 34. The red light emission means that the cumulative power consumption supplied to the electrical product 20 is considerably high. In other words, when the light emitting unit 33 is red, a large cumulative power consumption is supplied to the electrical product 20.

  As described above, in the supply status notification system 100 according to the present embodiment, the supply status notification device including the light emitting unit 33 that emits light in different modes according to the comparison result between the threshold value and the measurement result in the measurement unit 31. Have.

  That is, in the supply status notification system 100, a warning with a different color is given according to the electricity supply status. That is, in the supply status notification system 100, the status of electricity supply is clearly indicated. Therefore, the user can easily recognize the power consumption for each electrical product 20. For example, when red light is emitted, the user takes a power saving action for the electrical product 20 connected to the light emitting supply status notification device 30. Thereby, the power consumption can be drastically suppressed.

  Note that the threshold holding unit 32 includes the above-described various threshold values (current value threshold value of each level, power amount threshold value of each level, and cumulative power consumption amount threshold value of each level). The amount and the accumulated power consumption may be measured. In this case, the control unit 34 simultaneously performs the above-described various comparison processes (comparison process relating to the current value, comparison process relating to the electric energy, and comparison process relating to the accumulated power consumption). When any of the above conditions is satisfied under the control of the control unit 34, the light emitting unit 33 emits a corresponding color.

  Here, when the above three types of colors (red, yellow, and green) are commonly used in the case of the configuration, whether the light is emitted due to overcurrent, the amount of power is too high, or the light is accumulated. The user cannot recognize whether or not the power consumption exceeds the light emission. Therefore, it is possible to increase the light emission color of the light emitting unit 33 (for example, nine colors when three levels are set for each comparison type in three types of comparison processing) or to change the light emission blinking cycle. desirable. Alternatively, the system 100 can also be configured so that only three emission colors of the light emitting unit 33 are used and the reason why the information terminal 10 emits light can be confirmed.

<Identification information and threshold setting method>
FIG. 3 is a diagram illustrating an appearance of the supply status notification device 30.

  The supply status notification device 30 includes two rotary switches L1 and L2. Further, the supply status notification device 30 includes the light emitting unit 33. The terminal Pa is connected to the outlet side, and a plug of an electrical product 20 such as a television is inserted into the terminal Sa (illustrated by a dotted line).

  Further, the rotary switch (which can be grasped as an identification information setting unit) L1 is used when setting identification information (ID) used in communication with the information terminal 10. By setting the identification information, the information terminal 10 or the like can distinguish (identify) between itself and another supply status notification device 30.

  In this case, the reception unit (not shown) of the information terminal 10 receives the set identification information and the measurement result in the measurement unit 31 from each supply information notification device 30. And the information terminal 10 manages information, such as a measurement result transmitted from each supply status notification apparatus 30, for every identification information.

  The supply status notification device 30 further includes a rotary switch (which can be grasped as a threshold setting unit) L2 that can set each of the threshold values described above. By switching the rotary switch L2, the various threshold values corresponding to the switching are set as a set.

  For example, when the supply status notification device 30 is connected to a refrigerator, the rotary switch L2 is set to number 1 indicating the refrigerator. Thereby, various threshold values are set according to the use of a general refrigerator. When the supply status notification device 30 is connected to a television, the rotary switch L2 is set to a number 4 indicating the television. Thereby, various threshold values are set according to the use of a general television.

  The threshold setting unit need not be limited to the rotary switch L2. However, by adopting the setting by the rotary switch L2, various suitable threshold settings according to the type of the electric product 20 (TV, refrigerator, HI cooking heater, electric stove, etc.) to which the supply status notification device 30 is connected are The user can do it easily.

  The information terminal 10 is provided with an input unit (not shown), and the user can operate the input unit to remotely set the various thresholds in the supply status notification device 30. Can also be adopted.

  Further, the information terminal 10 may include a threshold receiving unit (not shown) that receives various desired thresholds from the external server 60. For example, the user operates the information terminal 10 to connect to the external server 60 via the router 50 and the Internet line 65. Thereafter, the user operates the information terminal 10, and the threshold receiving unit acquires various desired threshold values from the remote external server 60.

  Alternatively, the center selects various threshold values desired by the user in response to a request from the user by telephone or the like, and the selected various threshold values are transmitted from the external server 60 via the Internet line 65 and the router 50 to the information terminal 10. You may transmit to a threshold value receiving part.

  In this way, by operating the input unit of the information terminal 10 and setting various threshold values, a threshold value can be set more precisely than the threshold value setting by the rotary switch L2.

  Whether the current capacity is large or small varies greatly depending on the type and model number of the electrical equipment. Also, the current capacity value often varies depending on the user's sense. Therefore, it is difficult to set various threshold values by manual input by the user.

  Therefore, by configuring so that the threshold value can be downloaded (received) from the external server 60, it becomes possible to receive the help of the center where the external server 60 is installed, and various precise threshold values can be set more easily. Can do. As described above, for example, the user inputs (or contacts the center) information that can be understood by looking at the instruction manual such as the type, manufacturer, and model. Thereby, appropriate various threshold values are determined and selected on the center side (more specifically, on the external server 60 side), and the selected various threshold values are transmitted to the threshold value receiving unit of the information terminal. Various threshold values received by the threshold value reception unit are set in the supply status notification device 30. Thereby, precise various threshold values can be set more easily.

<Embodiment 2>
In the present embodiment, the supply status notification device 30 described in the first embodiment is further provided with the following functions.

  As shown in FIG. 4, the supply status notification device 30 according to the present embodiment further includes a time setting unit 36 in addition to the configuration of the supply status notification device 30 according to the first embodiment. The time setting unit 36 can set the current time, ON time, and OFF time.

  The ON time at which the time is set in the predetermined supply status notification device 30 is reached. Then, the control part 34 arrange | positioned at the predetermined supply condition notification apparatus 30 automatically starts the electric supply to the electric product 20 connected to the predetermined supply condition notification apparatus 30. On the other hand, it is an OFF time in which the time is set in the predetermined supply status notification device 30. Then, the control part 34 arrange | positioned at the predetermined supply condition notification apparatus 30 automatically stops the electric supply to the electric product 20 connected to the predetermined supply condition notification apparatus 30.

  In the present embodiment, as described above, it is possible to perform time schedule management of electricity supply to the electrical product 20. Thereby, power saving of the electrical product 20 is possible.

<Embodiment 3>
In the present embodiment, the supply status notification system described in the first and second embodiments is further provided with the following functions.

  On the information terminal 10 side, the total limit electricity usage defined by the breaker is managed. The limit total electricity usage is a threshold value indicating whether or not a breaker installed in a home will fall. As shown in FIG. 1, there are a plurality of supply status notification devices 30, and each supply status notification device 30 is connected to a different electrical product 20. Each electrical product 20 is connected to a predetermined breaker. In this configuration, when the total electric usage of each electric product 20 reaches the above-mentioned limit electric total usage, the predetermined breaker is dropped.

  The management method of the limit electricity usage in the information terminal 10 can be performed as follows, for example. The power usage of the main breaker is measured by the power sensor, and the information terminal 10 constantly monitors how much the current usage is relative to the limit value of the main breaker. For example, if the limit electric total usage of the main breaker is 40 amperes and the current state is 38 amperes based on the measurement result of the power sensor, the information terminal 10 determines that there is no more 2 amps or more to the limit electric total usage. it can.

  Now, it is very inconvenient for the user of the electric product 20 that the breaker suddenly falls as described above. Therefore, in the supply status notification system according to the present embodiment, in addition to the information terminal 10 managing the limit electricity total usage, the information terminal 10 transmits the first signal. Here, the first signal is sent to the electrical product 20 that is determined to exceed the total electrical usage amount by being supplied with electricity, among the supply status notification devices 30 connected to the electrical product 20 whose power is OFF. It is transmitted to the predetermined supply status notification device 30 connected.

  Further, in the present embodiment, the predetermined supply status notification device 30 that has received the first signal causes an inrush current that flows due to the power supply of the electrical product 20 connected to the predetermined supply status notification device 30 being turned on. When it is detected, the power supply is cut off. Furthermore, the supply status notification device 30 causes the light emitting unit 33 to emit light in a predetermined manner.

  For example, it is assumed that the information terminal 10 determines that the total amount of electricity used is exceeded when the power supply of the plurality of electrical products 20 is ON and the power supply of the dryer is turned ON from OFF. Then, the information terminal 10 transmits the first signal to a predetermined supply status notification device 30 connected to the dryer.

  Assume that in the predetermined supply status notification device 30 that has received the first signal, the dryer is powered on after the first signal is received. Then, the measurement part 35 arrange | positioned at the predetermined supply condition notification apparatus 30 detects the rush current (microcurrent) which arises due to the power supply ON of a dryer. The control unit 34 disposed in the predetermined supply status notification device 30 shuts off the electrical supply to the dryer due to, for example, switch disconnection or the like due to the detection of the inrush current. Further, the control unit 34 causes the light emitting unit 33 to emit white light or the like due to the detection of the inrush current.

  As described above, in the present embodiment, the information terminal 10 transmits the first signal in consideration of the total amount of electricity used, and the predetermined supply status notification device 30 that has received the first signal And light emission for notifying the interruption. Thereby, it can prevent in advance that a breaker falls, and can notify a user that it is in the state of the limit electric power consumption limit. Further, the user can use the electric product with confidence without worrying about the breaker falling.

  Next, the operation for restoring the electrical interruption will be described.

  It is assumed that the information terminal 10 determines that the total amount of electricity used is not exceeded even if the electrical product 20 connected to the predetermined supply status notification device 30 is supplied with electricity. In this case, the information terminal 10 transmits a second signal to the predetermined supply status notification device 30. The predetermined supply status notification device 30 that has received the second signal sets the self-apparatus to a state in which electricity can be supplied to the electrical product 20. Furthermore, the predetermined supply status notification device 30 stops the light emission of the light emitting unit indicating the electric supply interruption.

  For example, in the example using the dryer, even if the power supply of the electric product 20 such as a stove or a microwave oven is changed from the ON state to the OFF state and the electric power is supplied to the dryer, 10 is judged. Then, the information terminal 10 transmits a second signal to the predetermined supply status notification device 30 connected to the dryer.

  When the predetermined supply status notification device 30 receives the second signal, the control unit 34 provided in the predetermined supply status notification device 30 can supply electricity to the dryer by switch connection or the like. To. Further, the control unit 34 stops white light emission or the like that was emitted by the light emitting unit 33 in order to notify the electrical interruption. When the user who confirms the stop of the light emission turns on the power of the dryer again, a normal dryer operation becomes possible.

  As described above, in the present embodiment, the information terminal 10 transmits the second signal in consideration of the total amount of electricity used, and the predetermined supply status notification device 30 that has received the second signal Release the interruption of the supply and stop the light emission to notify that the interruption. Thereby, there is no difficult operation on the user side, and the power supply state to the electric product 20 can be recovered. Furthermore, the user can use the electric product 20 with confidence without worrying about the breaker falling.

<Embodiment 4>
The present embodiment is characterized in that the supply status notification system described in the first, second, and third embodiments further includes the following functions.

  As shown in FIG. 4, the supply status notification device 30 according to the present embodiment further includes a time setting unit 36 in addition to the configuration of the supply status notification device 30 according to the first embodiment. A predetermined time can be set in the time setting unit 36 in addition to the time setting described in the second embodiment.

  It is assumed that in the supply status notification device 30 in which a predetermined time is set, the measurement unit 31 measures that electricity is supplied to the electric device 20 continuously for a predetermined time or more. At this time, in the supply status notification device 30 in which a predetermined time is set, the light emitting unit 33 performs light emission in a predetermined mode in order to notify that the continuous electricity supply is performed.

  Here, a plurality of predetermined times can be set, and the light emitting unit 33 may perform light emission in different modes (different colors or lighting cycle changes, etc.) according to the comparison between each predetermined time and the continuous electricity supply time. . For example, it is assumed that a first predetermined time and a second predetermined time are set as the predetermined time. In this case, when the light emitting unit 33 emits light of the first color when the power is continuously supplied for the first predetermined time or longer and the power is continuously supplied for the second predetermined time or longer. In addition, the light emitting unit 33 emits light of the second color.

  Since the present embodiment is configured as described above, for example, the user can be prompted to forget to turn off the power. Therefore, useless electricity consumption can be prevented and power consumption can be saved.

<Embodiment 5>
In each of the embodiments described above, the supply status notification device 30 can measure the electricity supply status, and performs light emission in a different mode according to the electricity supply status.

  On the other hand, in the present embodiment, the supply status notification device 30 can measure the supply status of a gas (such as a gas) and perform light emission in a different mode depending on the supply status of the gas. Features.

  For example, in the supply status notification system according to the present embodiment, the supply status notification device 30 having the configuration shown in FIG. 2 is provided between a gas using device (a water heater, a fueling device, etc.) and a gas supply unit (gas pipe). It is arranged. And the measurement part 31 arrange | positioned at the said supply condition notification apparatus 30 measures the supply condition of the gas supplied to the said gas using apparatus. The measurement unit 31 measures the flow rate value of the gas supplied to the connected gas using device. The threshold holding unit 32 holds a plurality of thresholds related to the gas flow rate. In the control unit 34, the threshold held in the threshold holding unit 32 is compared with the gas flow rate measured by the measurement unit 31. And the control part 34 makes the light emission part 33 perform light emission of a different aspect in steps, whenever the measurement result in the measurement part 31 exceeds a threshold value.

  The communication unit 35 is a part that communicates with the information terminal 10. Here, in the present embodiment, it is more desirable that the supply status notification device 30 performs specific low-power wireless communication, wireless communication such as Bluetooth (registered trademark) or ZigBee (registered trademark) with the information terminal 10. Here, when the supply status notification device 30 is not configured to perform power line communication, the supply status notification device 30 does not receive power supply from an outlet. Therefore, when the wireless communication is employed, a battery-type device is employed as the supply status notification device 30. The information terminal 10 collects, manages, and processes information transmitted from the supply status notification device 30.

<Light emission operation>
Next, it will be described in detail that the light emitting unit 33 emits light in a different mode according to the measurement result of the measuring unit 31.

  For example, the threshold value holding unit 32 stores three threshold values (first gas flow threshold value, second gas flow threshold value, and third gas flow threshold value) related to the gas flow rate. Here, the first gas flow threshold is smaller than the second gas flow threshold, and the second gas flow threshold is smaller than the third gas flow threshold (first gas flow threshold <second gas flow threshold <third gas Flow threshold). In the said state, the light emission part 33 performs light emission of a different aspect in steps, whenever the measurement result in the measurement part 31 exceeds the said threshold value in the said each threshold value.

  For example, the measurement unit 31 measures the gas flow rate value supplied from the gas supply path to the gas using device connected to the own device. As a result, it is assumed that the measurement unit 31 measures a gas flow rate smaller than the first gas flow threshold. Then, the control unit 34 compares the measured value (gas flow rate value) with the first gas flow threshold value held in the threshold value holding unit 32. In this case, since the measured value (gas flow rate value) is smaller than the first gas flow threshold value, the control unit 34 does not cause the light emitting unit 33 to emit light. In the case of no light emission, it means that the flow rate of the gas supplied to the gas-using device is at a level with no problem from the viewpoint of the amount of consumed gas.

  In contrast, it is assumed that the measurement unit 31 measures a gas flow rate that is greater than or equal to the first gas flow threshold and smaller than the second gas flow threshold. Then, the control unit 34 compares the measured value (gas flow rate value) with the first gas flow threshold and the second gas flow threshold held in the threshold holding unit 32. In this case, since the measured value (gas flow rate value) is not less than the first gas flow threshold value and less than the second gas flow threshold value, the light emitting unit 33 emits green light under the control of the control unit 34. The green light emission means that the gas flow rate value supplied to the gas using device is slightly higher. In other words, when the light emitting unit 33 is green, a small gas flow rate is supplied to the gas using device.

  Further, it is assumed that the measurement unit 31 measures a gas flow rate that is equal to or greater than the second gas flow threshold value and smaller than the third gas flow threshold value. Then, the control unit 34 compares the measured value (gas flow rate value) with the second gas flow threshold value and the third gas flow threshold value held in the threshold value holding unit 32. In this case, since the measured value (gas flow rate value) is not less than the second gas flow threshold value and less than the third gas flow threshold value, the light emitting unit 33 emits yellow light under the control of the control unit 34. The yellow light emission means that the gas flow rate value supplied to the gas using device is high. In other words, when the light emitting unit 33 is yellow, the medium gas flow rate is supplied to the gas using device.

  Further, it is assumed that the measurement unit 31 measures a gas flow rate that is equal to or higher than the third gas flow threshold. Then, the control unit 34 compares the measured value (gas flow rate value) with the third gas flow threshold value held in the threshold value holding unit 32. In this case, since the measured value (gas flow rate value) is equal to or greater than the third gas flow threshold value, the light emitting unit 33 emits red light under the control of the control unit 34. The red light emission means that the gas flow value supplied to the gas-using device is considerably high. In other words, when the light emitting unit 33 is red, a large gas flow rate is supplied to the gas using device.

  With the above configuration, an abnormality in the supply of gas such as gas can be displayed so as to be easily recognized by the user. This can prompt the user to reduce the amount of gas used.

  In the present embodiment as well, threshold setting can be performed by operating a threshold setting unit (such as a rotary switch) provided in the supply status notification device 30 itself, as in the first embodiment. The threshold may be set by an input operation from the information terminal 10 side. Alternatively, the information terminal 10 may receive a threshold value from the external server 60 via the Internet line 65 and the router 50 and cause the supply status notification device 30 to set the received threshold value.

  In the present embodiment, it is possible to add the contents (configuration) described in the fourth embodiment. That is, the supply status notification device 30 may include a time setting unit 36 that can set a predetermined time. It is assumed that the measurement unit 31 measures that gas is supplied to the gas using device continuously for a predetermined time or more. At this time, in the supply status notification device 30 in which a predetermined time is set, the light emitting unit 33 performs light emission in a predetermined mode in order to notify that the continuous electricity supply is performed.

<Embodiment 6>
In the present embodiment, the supply status notification device 30 can measure the supply status of a liquid (tap water or the like), and emits light in different modes depending on the supply status of the liquid.

  For example, in the supply status notification system according to the present embodiment, the supply status notification device 30 having the configuration shown in FIG. 2 is disposed between (a faucet or the like) and a water supply unit (water pipe). And the measurement part 31 arrange | positioned at the said supply condition notification apparatus 30 measures the supply condition of the water supplied to the said faucet. The measurement unit 31 measures the flow rate value of the water supplied to the connected faucet. The threshold holding unit 32 holds a plurality of thresholds related to the water flow rate. In the control unit 34, the threshold held in the threshold holding unit 32 is compared with the water flow rate measured by the measurement unit 31. And the control part 34 makes the light emission part 33 perform light emission of a different aspect in steps, whenever the measurement result in the measurement part 31 exceeds a threshold value.

  The communication unit 35 is a part that communicates with the information terminal 10. Here, in the present embodiment, it is more desirable that the supply status notification device 30 performs specific low-power wireless communication, wireless communication such as Bluetooth (registered trademark) or ZigBee (registered trademark) with the information terminal 10. Here, when the supply status notification device 30 is not configured to perform power line communication, the supply status notification device 30 does not receive power supply from an outlet. Therefore, when the wireless communication is employed, a battery-type device is employed as the supply status notification device 30. The information terminal 10 collects, manages, and processes information transmitted from the supply status notification device 30.

<Light emission operation>
Next, it will be described in detail that the light emitting unit 33 emits light of a different mode according to the measurement result of the measuring unit 31.

  For example, it is assumed that the threshold value holding unit 32 stores three threshold values relating to the water flow rate (first water flow threshold value, second water flow threshold value, and third water flow threshold value). Here, the first water flow threshold is smaller than the second water flow threshold, and the second water flow threshold is smaller than the third water flow threshold (first water flow threshold <second water flow threshold <third water flow threshold). In the said state, the light emission part 33 performs light emission of a different aspect in steps, whenever the measurement result in the measurement part 31 exceeds the said threshold value in the said each threshold value.

  For example, the measurement part 31 measures the water flow value supplied to the faucet connected to an own machine from a water supply path. As a result, it is assumed that the measurement unit 31 measures a water flow rate smaller than the first water flow threshold value. Then, the control unit 34 compares the measured value (water flow value) with the first water flow threshold value held in the threshold value holding unit 32. In this case, since the measurement value (water flow value) is smaller than the first water flow threshold value, the control unit 34 does not cause the light emitting unit 33 to emit light. In the case of no light emission, it means that the flow rate of water supplied to the faucet is at a level with no problem from the viewpoint of water consumption.

  In contrast, it is assumed that the measurement unit 31 measures a water flow rate that is greater than or equal to the first water flow threshold value and smaller than the second water flow threshold value. Then, the control unit 34 compares the measured value (water flow value) with the first water flow threshold and the second water flow threshold held in the threshold holding unit 32. In this case, since the measured value (water flow value) is not less than the first water flow threshold value and less than the second water flow threshold value, the light emitting unit 33 emits green light under the control of the control unit 34. The green light emission means that the water flow rate supplied to the faucet is slightly higher. In other words, when the light emitting unit 33 is green, a small water flow rate is supplied to the faucet.

  Further, it is assumed that the measurement unit 31 measures a water flow rate that is greater than or equal to the second water flow threshold value and smaller than the third water flow threshold value. Then, the control unit 34 compares the measured value (water flow value) with the second water flow threshold and the third water flow threshold held in the threshold holding unit 32. In this case, since the measured value (water flow value) is not less than the second water flow threshold and less than the third water flow threshold, the light emitting unit 33 emits yellow light under the control of the control unit 34. The yellow light emission means that the flow rate of water supplied to the faucet is high. In other words, when the light emitting unit 33 is yellow, a medium water flow rate is supplied to the faucet.

  Further, it is assumed that the measurement unit 31 measures a water flow rate equal to or higher than the third water flow threshold value. Then, the control unit 34 compares the measured value (water flow rate value) with the third water flow threshold value held in the threshold value holding unit 32. In this case, since the measurement value (water flow rate value) is equal to or greater than the third water flow threshold value, the light emitting unit 33 emits red light under the control of the control unit 34. The red light emission means that the flow rate of water supplied to the faucet is considerably high. In other words, when the light emitting unit 33 is red, a large water flow rate is supplied to the faucet.

  With the above configuration, it is possible to display an abnormality in the supply of liquid such as water so that the user can easily recognize the abnormality. This can prompt the user to reduce the amount of water used.

  In the present embodiment as well, threshold setting can be performed by operating a threshold setting unit (such as a rotary switch) provided in the supply status notification device 30 itself, as in the first embodiment. The threshold may be set by an input operation from the information terminal 10 side. Alternatively, the information terminal 10 may receive a threshold value from the external server 60 via the Internet line 65 and the router 50 and cause the supply status notification device 30 to set the received threshold value.

  In the present embodiment, it is possible to add the contents (configuration) described in the fourth embodiment. That is, the supply status notification device 30 may include a time setting unit 36 that can set a predetermined time. It is assumed that the measurement unit 31 measures that water has been supplied to the faucet continuously for a predetermined time or more. At this time, in the supply status notification device 30 in which a predetermined time is set, the light emitting unit 33 performs light emission in a predetermined mode in order to notify that the continuous electricity supply is performed.

It is a figure which shows the structure of the supply condition notification system which concerns on Embodiment 1. FIG. It is a block diagram which shows the internal structure of a supply condition notification apparatus. It is a figure which shows the external structure of a supply condition notification apparatus. It is a block diagram which shows the internal structure of a supply condition notification apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Information terminal 20 Electrical product 30 Supply status notification apparatus 31 Measurement part 32 Threshold holding part 33 Light emission part 34 Control part 35 Communication part 36 Time setting part 50 Router 60 External server 65 Internet line PL Power line 100 Supply status notification system

Claims (19)

An information terminal that collects and manages information;
A supply status notification device capable of communicating with the information terminal,
The supply status notification device includes:
A measuring unit for measuring the supply status of liquid, gas or electricity;
A threshold holding unit holding a plurality of thresholds;
In accordance with a comparison result between the threshold value and the measurement result in the measurement unit, a light-emitting unit that emits light in different modes is provided.
Supply status notification system characterized by that. The supply status notification device includes:
Between the electrical appliance and the outlet,
The measuring unit is
Measuring electricity supplied to the appliance;
The supply status notification system according to claim 1. The measuring unit is
Measure the value of the current supplied to the connected electrical product,
The light emitting unit
In each of the plurality of thresholds related to current, each time a measurement result in the measurement unit exceeds the threshold, light emission of different modes is performed step by step.
The supply status notification system according to claim 2. The measuring unit is
Measure the amount of power supplied to the connected electrical product,
The light emitting unit
In each of the plurality of thresholds related to the amount of electric power, each time the measurement result in the measurement unit exceeds the threshold, light emission of different modes is performed step by step.
The supply status notification system according to claim 2. The measuring unit is
Measure the value of the cumulative power consumption supplied to the connected electrical product,
The light emitting unit
In each of the plurality of thresholds related to cumulative power consumption, each time a measurement result in the measurement unit exceeds the threshold, light emission of different modes is performed step by step.
The supply status notification system according to claim 2. The supply status notification device includes:
A time setting unit capable of setting an ON time and / or an OFF time;
When the time reaches the ON time, it automatically starts supplying electricity to the electrical product,
When the time reaches the OFF time, the power supply to the electrical product is automatically stopped.
The supply status notification system according to claim 2. The supply status notification device includes:
Multiple
Each of the supply status notification devices
Each connected to a different said electrical product,
The information terminal
We manage the total electricity consumption limit,
Among the supply status notification devices connected to the electrical product whose power is OFF, the predetermined supply that is connected to the electrical product that is determined to exceed the total amount of electricity usage by being supplied with electricity Sending a first signal to the status notification device;
The supply status notification system according to claim 2. The predetermined supply status notification device that has received the first signal is:
When an inrush current flowing due to the power supply of the electrical product connected to the predetermined supply status notification device is detected, the electrical supply is shut off,
Causing the light emitting unit to emit light,
The supply status notification system according to claim 7. The information terminal
Even if the electrical product connected to the predetermined supply status notification device is supplied with electricity, if it is determined that the total amount of electricity used is not exceeded, a second signal is transmitted to the predetermined supply status notification device ,
The supply status notification system according to claim 8. The predetermined supply status notification device that has received the second signal is:
Make yourself ready to supply electricity to the electrical product,
Stop the light emission of the light emitting unit,
The supply status notification system according to claim 9. The supply status notification device includes:
Arranged between the gas use device and the gas supply unit,
The measuring unit is
Measuring the supply status of the gas supplied to the gas-using device;
The supply status notification system according to claim 1. The measuring unit is
Measure the flow rate of the gas supplied to the connected gas-using device,
The light emitting unit
In each of the plurality of threshold values related to the gas flow rate, each time a measurement result in the measurement unit exceeds the threshold value, light emission of different modes is performed step by step.
The supply status notification system according to claim 11. The supply status notification device includes:
Between the faucet and the water supply,
The measuring unit is
Measuring the supply status of the water supplied to the faucet,
The supply status notification system according to claim 1. The measuring unit is
Measure the flow rate of water supplied to the connected faucet,
The light emitting unit
In each of the plurality of threshold values relating to the water flow rate, each time a measurement result in the measurement unit exceeds the threshold value, light emission of different modes is performed step by step.
The supply status notification system according to claim 13. The supply status notification device includes:
A time setting unit capable of setting a predetermined time;
The light emitting unit
When the measurement unit measures that liquid, gas, or electricity is supplied continuously for the predetermined time or longer, light emission is performed.
The supply status notification system according to claim 1. The supply status notification device includes:
A threshold setting unit capable of setting the threshold;
The supply status notification system according to claim 1. The threshold setting unit includes:
A rotary switch,
By switching the rotary switch, the threshold value according to the switching is set.
The supply status notification system according to claim 16. The information terminal
An input unit capable of setting the threshold;
The supply status notification system according to claim 1. The information terminal
A threshold receiving unit capable of receiving the threshold from an external server;
The supply status notification system according to claim 1.

Images