JP5320138B2 - Wireless power distribution system - Google Patents

Description

  The present invention relates to a wireless power distribution system that supplies power to a wireless device in a non-contact manner using waves such as electromagnetic waves.

  Conventionally, an air conditioning control system in an office building or the like is provided in a sensor for detecting environmental information such as temperature and humidity, and a supply air outlet such as a duct, and controls the opening degree of the supply air outlet. The actuator is configured to include a control device that performs drive control of the actuator in response to environmental information detected by the sensor and an operation command from the user. In this air conditioning control system, wireless connection is desired in order to eliminate the wiring work between devices (sensors, actuators, control devices) constituting the system.

  In this air conditioning control system, the sensor can be operated with low power, so that the built-in battery can be used as a power source. However, an actuator having a drive unit requires 7 to 15 W as operating power, and the battery is insufficient in capacity, so it is connected to an external power source with a wire to supply power.

  On the other hand, in recent years, wireless power distribution technology has progressed, and it has become possible to spatially transmit power that allows the actuator to operate using electromagnetic waves. There are two methods for distributing power to the actuators by radio.

  One method is, for example, as shown in Patent Documents 1 and 2, in which power electromagnetic waves are transmitted to a wireless device via a transmission line isolated from a person existing in a room (hereinafter referred to as a closed space). Called wireless power distribution system).

  As another method, for example, as disclosed in Patent Documents 3 and 4, a power transmission electromagnetic wave is transmitted to a wireless device using an indoor space where a person exists as a transmission path (hereinafter referred to as open space wireless power). Called a power distribution system).

In addition, there is a concern that the human body may be adversely affected when exposed to strong electromagnetic waves. For this reason, the radio wave protection guidelines have been established as national guidelines. In this radio wave protection guideline, for example, when the frequency of an electromagnetic wave is 1.5 Hz to 300 GHz, the upper limit value of the power density is 1 mW / cm ² in an environment where the electromagnetic wave is constantly exposed to an electromagnetic wave (unmanaged environment). In an environment exposed to electromagnetic waves for 8 hours a day and 5 days a week (in a controlled environment), the upper limit value of the power density is set to 5 mW / cm ² .

  Comparing these two methods, in the closed space wireless power distribution method, electromagnetic waves are transmitted through a transmission line isolated from indoor people, so there is no risk of human exposure to electromagnetic waves, and high-power electromagnetic waves are transmitted. On the other hand, there is an advantage that it can be done, but it is necessary to install a dedicated transmission line, which requires a large investment. In addition, if an existing office building is to be introduced later, a large construction is required. In contrast, the open space wireless power distribution method does not require a dedicated transmission line, so it is less expensive than the closed space wireless power distribution method. The introduction can be easily performed.

JP 2007-244015 A JP 2008-22429 A JP 2005-261187 A Japanese Patent Laid-Open No. 11-32451

  However, in the open space wireless power distribution system, electromagnetic waves are transmitted using the indoor space where people exist as described above. Therefore, it is necessary to observe the above-mentioned radio wave protection guidelines. When the transmission power exceeds a predetermined range, the influence on the human body cannot be ignored. Conventionally, a method for reliably monitoring such a problem has not been proposed.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide a wireless power distribution system capable of reliably monitoring system abnormality.

  In order to achieve such an object, the present invention relates to a wave transmitting device that transmits energy as waves to an indoor space by radio, and a power transmitted from the wave transmitting device and received from the received waves. In a wireless power distribution system comprising one or more wireless devices that generate and operate, a wave energy level that detects an energy level of a wave from a wave transmitter that is installed in an indoor space and received at the installation location Based on the detection means, the set value of the wave energy level set as the energy level of the wave transmitted from the wave transmission device, and the detection value of the wave energy level detected by the wave energy level detection means, the system has an abnormality. An abnormality diagnosing means for diagnosing whether or not it has occurred is provided.

  According to this invention, the energy level of the wave transmitted from the wave transmitting device is detected by the wave energy level detecting means installed in the indoor space. Based on the set value of the wave energy level transmitted from the wave transmitter and the detected value of the wave energy level detected by the wave energy level detection means, it is diagnosed whether or not an abnormality has occurred in the system. Is done.

  For example, as a first method, in the present invention, when the set value of the wave energy level and the detected value of the wave energy level are compared, and the difference between the two is not within a predetermined width, Judge that an error occurred in the system. In this case, if the difference between the set value of the wave energy level and the detected value of the wave energy level is not within the predetermined range, it is certain that at least one of the errors has occurred. Can be accurately determined.

  As a second method, in the present invention, it is determined that an abnormality has occurred in the system when at least one of the set value of the wave energy level and the detected value of the wave energy level is out of a predetermined allowable range. To do. For example, if the specified allowable range is defined as a range that does not affect the human body, and the set value of the wave energy level exceeds this allowable range or the detection value of the wave energy level exceeds, an abnormality has occurred in the system Judge.

  As a third method, in the present invention, it is determined that an abnormality has occurred in the system when at least one of the set value of the wave energy level and the detected value of the wave energy level cannot be acquired. In the present invention, the abnormality diagnosis means diagnoses an abnormality of the system based on the set value of the wave energy level and the detected value of the wave energy level. In this case, if any one of the set value of the wave energy level and the detected value of the wave energy level is missing, the abnormality diagnosis cannot be performed accurately. In such a case, the third method of the present invention determines that an abnormality has occurred in the system.

  In the present invention, when it is determined that an abnormality has occurred in the system by the abnormality diagnosing means, an abnormality notification to that effect may be performed, but if wave transmission from the wave transmission device is continued as it is, There is a risk of affecting the existing human body. In this case, by immediately stopping the transmission of the wave from the wave transmitting device, it is possible to eliminate the possibility of affecting the human body existing in the indoor space and realize fail-safe.

  In the present invention, the setting value of the wave energy level is determined as a value within a range that does not affect the human body existing in the indoor space, and a value within a range that does not affect other systems existing in the indoor space. It may be determined as. For example, when there is a possibility that a person exists in the indoor space such as in the daytime, the set value of the wave energy level is set to a value within a range that does not affect the human body. When there is no possibility that a person is present in the indoor space, such as at night, the value is set within a range that does not affect other systems such as an alarm system.

  In the present invention, the abnormality diagnosis means may be provided in a device other than the wave transmission device, or may be provided in the wave transmission device. When an abnormality diagnosis unit is provided in a device other than the wave transmission device, the set value of the wave energy level is sent from the wave transmission device to an external device provided with the abnormality diagnosis unit, or the wave from the wave energy level detection unit is transmitted. The detected value of the energy level must be sent to an external device provided with an abnormality diagnosis means. On the other hand, if the abnormality diagnosing means is provided in the wave transmission device, the set value of the wave energy level can be obtained in the wave transmission device, and the wave energy level detection means can be obtained from the antenna of the wave transmission device. It is also possible to receive the detected value of the energy level, and it is possible to complete the system abnormality diagnosis inside the wave transmitting apparatus.

  According to the present invention, the wave energy level detecting means for detecting the energy level of the wave transmitted from the wave transmitting device is installed in the indoor space, and the set value of the wave energy level and the detected value of the wave energy level are used. Based on this, the system is diagnosed as to whether or not an abnormality has occurred in the system.Therefore, if the difference between the set value of the wave energy level and the detected value of the wave energy level is not within the predetermined range, the system It is determined that an abnormality has occurred, or it is determined that an abnormality has occurred in the system when at least one of the set value of the wave energy level and the detected value of the wave energy level is out of a predetermined allowable range, Abnormality in the system when at least one of the set value of the wave energy level and the detected value of the wave energy level cannot be obtained Such as by judged to have occurred, it is possible to reliably monitor abnormalities of the system.

1 is a configuration diagram of a wireless power distribution system showing an embodiment (Embodiment 1) of the present invention. It is a time chart for demonstrating the specific process operation | movement performed with the wireless power supply apparatus and external controller in the wireless power distribution system of this Embodiment 1. FIG. It is a functional block diagram of the principal part of the system control part in the wireless power supply apparatus in the first embodiment. It is a functional block diagram of the principal part of the external controller in this Embodiment 1. It is a block diagram of the wireless power distribution system which shows other embodiment (Embodiment 2) of this invention. It is a time chart for demonstrating the specific process operation | movement performed with the wireless power supply apparatus and external controller in the wireless power distribution system of this Embodiment 2. FIG. It is a functional block diagram of the principal part of the system control part in the wireless power supply apparatus in the second embodiment. It is a figure (figure seen from the ceiling side) which shows the example of arrangement at the time of providing many human detection sensors and electric field strength sensors.

Hereinafter, the present invention will be described in detail with reference to the drawings.
[Embodiment 1]
FIG. 1 is a configuration diagram of a wireless power distribution system showing an embodiment (Embodiment 1) of the present invention. In the figure, 1 is an indoor space, 2 is a wireless power supply device located in the indoor space 1, 3 is a wireless device located in the indoor space 1, 4 is an external power source, 5 is a system monitoring and actuator open. An external controller 6 for transmitting degree command information and the like is an electric field strength sensor for detecting the level of electromagnetic waves from the wireless power supply device 2 installed in the indoor space 1 and received at the installation location. Is installed in the immediate vicinity of the wireless power supply device 1.

  In FIG. 1, for easy understanding, the wireless power supply device 2 and the wireless device 3 are positioned in the indoor space 1, but it is only necessary to perform wireless communication with each other through the indoor space 1. The wireless device 3 may be located outside the indoor space 1. Further, in this wireless power distribution system, the wireless power supply device 2 corresponds to the wave transmission device referred to in the present invention, and the electric field intensity sensor 6 corresponds to the wave energy level detection means referred to in the present invention. A plurality of wireless devices 3 may be provided.

  The wireless power supply device 2 receives a power supply from an external power supply 4 and generates a stable power supply voltage 2A, and a system control unit 2B that operates by receiving a power supply voltage from the stabilized power supply 2A. And a distribution level control unit 2C, a transmission / reception unit 2D for transmitting electromagnetic waves to the indoor space 1 and receiving electromagnetic waves from the indoor space 1 via the antenna ANT1, and information from the outside received via the transmission / reception unit 2D Is received to the system control unit 2B.

  The wireless device 3 is an actuator having a drive unit, and includes a motor 3A, a deceleration unit 3B that decelerates the rotation of the motor 3A and transmits it to the drive shaft DS, a driver unit 3C that drives the motor 3A, and a deceleration unit 3B. A position detection unit 3D for detecting the rotation angle position of the drive shaft DS via the driver unit 3C and receiving the feedback of the rotation angle position of the drive shaft DS detected by the position detection unit 3D to control the rotation of the motor 3A And a control unit 3E.

  In addition, the wireless device 3 includes a receiving unit 3F that sends environmental information such as temperature and humidity from the wireless sensor (not shown) in the indoor space 1 received via the antenna ATN2 to the control unit 3E, and a control unit 3E A transmission unit 3G that transmits information to the indoor space 1 via the antenna ATN2, a rectification unit 3H that rectifies the electromagnetic wave from the wireless power supply device 2 received via the antenna ATN2 by converting it into a current, and a rectification unit 3H The power storage unit 3I stores charges due to the rectified current, and the stabilized power supply unit 3J generates a stable power supply voltage from the charges stored in the power storage unit 3I. The power supply voltage generated by the stabilized power supply unit 3J is supplied to the motor 3A, the driver unit 3C, the control unit 3E, the reception unit 3F, and the transmission unit 3G.

  In the wireless power supply device 2, the system control unit 2B determines the presence / absence of a person in the indoor space 1 according to a schedule indicating the possibility of the presence / absence of the person in the indoor space 1, and according to the determination result of the presence / absence. It has a distribution level determination function for determining a set value of the level of electromagnetic waves transmitted from the antenna ANT1 to the indoor space 1 as a distribution level. Further, the system control unit 2B has a transmission stop command generation function for generating a transmission stop command for stopping transmission of electromagnetic waves to the indoor space 1 in accordance with an abnormality diagnosis result described later from the external controller 5.

  In the wireless power supply device 2, the distribution level control unit 2C has a function of receiving the distribution level determined by the system control unit 2B and controlling the level of electromagnetic waves transmitted from the antenna ANT1 to the indoor space 1 according to the distribution level. doing. Further, the distribution level control unit 2C has a function of receiving a transmission stop command from the system control unit 2B and stopping transmission of electromagnetic waves from the antenna ANT1 to the indoor space 1 in accordance with the transmission stop command.

  The external controller 5 acquires the power distribution level (set value of the level of the transmission electromagnetic wave) determined by the system control unit 2B in the wireless power supply device 2 and is detected from the wireless power supply device 2 detected by the electric field strength sensor 6. Obtain the electromagnetic wave reception level (detected value of the received electromagnetic wave level), and check whether there is an abnormality in the system based on the acquired setting value of the transmitted electromagnetic wave level and the detected value of the received electromagnetic wave level Has an abnormality diagnosis function to diagnose.

  In the present embodiment, the power distribution level determination function, the transmission stop command generation function in the system control unit 2B of the wireless power supply apparatus 2, the abnormality diagnosis function in the external controller 5, and the like include hardware including a processor and a storage device, and these It is realized by a program that realizes these functions in cooperation with hardware. In the present embodiment, the external controller 5 and the wireless power supply device 2 and the external controller 5 and the electric field strength sensor 6 are connected by wire.

  It should be noted that a schedule indicating the possibility of the presence / absence of a person in the indoor space 1 used in the system control unit 2B may be set in the system control unit 2B in advance, or the antenna ANT1, the transmission / reception unit 2D, and the reception control. It may be set to be changeable from the outside through the route of the unit 2E.

  Hereinafter, a specific processing operation performed by the wireless power supply device 2 and the external controller 5 in the first embodiment will be described with reference to a time chart shown in FIG.

  In this example, as a schedule indicating the possibility of the presence / absence of a person in the indoor space 1 in the system control unit 2B, a time zone in which a person can be present (a time zone in which the person can be present) is 6:00 to 22:00. It is assumed that the time zone is determined, and other time zones are defined as time zones during which people cannot be present (time zones during which rooms are not available).

[When it is determined that there is a person in the indoor space 1]
The system control unit 2B monitors the current time, and if the current time is in the time zone from 6:00 to 22:00, the system control unit 2B determines that the time zone in the indoor space 1 is a time zone in which the user can stay. That is, it is highly likely that a person is present in the indoor space 1, and it is determined that a person is present in the indoor space 1.

  Then, from the determination result that there is a person in the indoor space 1, the system control unit 2B sets the setting value (distribution level) of the electromagnetic wave transmitted to the indoor space 1 as the low power setting value LPW.

The low-power set value LPW in this case is a level of electromagnetic waves that does not affect the human body as defined by the radio wave protection guidelines. When the frequency is 1.5 Hz to 300 GHz, Then, the upper limit value of the power density is 1 mW / cm ^2, and the upper limit value of the power density is 5 mW / cm ² in the management environment. In FIG. 2, the power level corresponding to the upper limit value of the power density in this case is indicated as PWsafe, and the low power set value LPW is determined as a value smaller than the power level PWsafe.

  Therefore, when it is determined that there is a person in the indoor space 1, the wireless power supply device 2 transmits an electromagnetic wave with small power smaller than the power level PWsafe that does not affect the human body to the indoor space 1. It will be a thing.

[When it is determined that there is no person in the indoor space 1]
The system control unit 2B monitors the current time, and if the current time is in a time zone other than 6 o'clock to 22 o'clock, the system control unit 2B determines that the time zone in the indoor space 1 is a time zone in which no room is available. That is, it is highly likely that no person exists in the indoor space 1, and it is determined that no person exists in the indoor space 1.

  Then, the system control unit 2B sets the set value (distribution level) of the electromagnetic wave transmitted to the indoor space 1 as the high power set value HPW from the determination result that there is no person in the indoor space 1.

  The set value HPW of the high power in this case is an electromagnetic wave having a power level higher than the power level PWsafe that does not possibly affect the human body, and is a power that can sufficiently secure the operating power of the wireless device 3. Further, the electric power has no possibility of affecting other systems such as an alarm system (not shown) existing in the indoor space 1.

  Therefore, when it is determined that no person is present in the indoor space 1, the wireless power supply device 2 transmits high-power electromagnetic waves larger than the power level PWsafe that does not affect the human body to the indoor space 1. Will be.

  An electromagnetic wave (low-power electromagnetic wave, high-power electromagnetic wave) transmitted from the wireless power supply device 2 passes through the indoor space 1 and is received by the wireless device 3. In the wireless device 3, the electromagnetic wave from the wireless power supply device 2 is sent to the rectifying unit 3H. The rectifying unit 3H converts the electromagnetic wave into a current to be rectified, and sends the rectified current to the power storage unit 3I. The power storage unit 3I stores a charge due to the current from the power storage unit 3I.

  In this case, when it is determined that there is a person in the indoor space 1, the electrical energy from the low-power electromagnetic wave from the wireless power supply device 2 is received and the power storage unit 3I is charged. When it is determined that no person is present in the indoor space 1, electric power is received from the high-power electromagnetic wave from the wireless power supply device 2, and power is stored in the power storage unit 3I.

  Here, when it is determined that a person is present in the indoor space 1, the electrical energy obtained from the low-power electromagnetic waves from the wireless power supply device 2 is small. However, in this case, the power storage unit 3I stores electrical energy obtained from high-power electromagnetic waves when it is determined that no person is present in the indoor space 1. When it is determined that there is a person in the indoor space 1, the electric energy stored in the power storage unit 3I is used, and the power supply power when receiving the low-power electromagnetic wave is secured.

[Abnormal diagnosis]
On the other hand, in the indoor space 1, the electric field strength sensor 6 detects the level of electromagnetic waves from the wireless power supply device 2 received at the installation location. The level of the electromagnetic wave detected by the electric field intensity sensor 6 is sent to the external controller 5 as a detection value RPW of the level of the received electromagnetic wave. In addition, the distribution level determined by the system control unit 2B in the wireless power supply device 2, that is, the setting value LPW / HPW of the level of the transmission electromagnetic wave from the wireless power supply device 2 is not limited to the distribution level control unit 2C but externally. It is also sent to the controller 5.

  The external controller 5 acquires the set value LPW / HPW of the level of the transmitted electromagnetic wave from the system control unit 2B of the wireless power supply device 2, and acquires the detection value RPW of the level of the received electromagnetic wave from the electric field strength sensor 6, Based on the acquired set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level, it is diagnosed whether an abnormality has occurred in the system.

  In this case, if the setting value of the transmission electromagnetic wave level from the system control unit 2B of the wireless power supply apparatus 2 is LPW, the setting value LPW of the transmission electromagnetic wave level is compared with the detection value RPW of the reception electromagnetic wave level. , It is determined that an abnormality has occurred in the system when it is not within a predetermined width.

  Further, if the setting value of the level of the transmission electromagnetic wave from the system control unit 2B of the wireless power supply device 2 is HPW, the setting value HPW of the level of the transmission electromagnetic wave is compared with the detection value RPW of the level of the reception electromagnetic wave, If it is not within a predetermined width, it is determined that an abnormality has occurred in the system.

  In this case, if the difference between the set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level does not fall within a predetermined range, it is certain that an abnormality has occurred in at least one of them. It is possible to accurately determine whether or not there is an abnormality.

  When the external controller 4 determines that an abnormality has occurred in the system, the external controller 4 sends the determination result (abnormality diagnosis result) to the system control unit 2B of the wireless power supply apparatus 2. Upon receiving an abnormality diagnosis result indicating that an abnormality has occurred in the system from the external controller 4, the system control unit 2B generates a transmission stop command and sends it to the power distribution level control unit 2C. The distribution level control unit 2C stops transmission of electromagnetic waves from the antenna ANT1 to the indoor space 1 in accordance with a transmission stop command from the system control unit 2B.

  In this way, in this embodiment, when it is determined that a person is present in the indoor space 1 while reliably monitoring a system abnormality, there is no possibility of affecting the human body from the wireless power supply device 2. A low-power electromagnetic wave can be transmitted to the indoor space 1 and power can be supplied to the wireless device 3 that requires a large amount of power by the open space wireless power distribution system while complying with the radio wave protection guidelines.

  FIG. 3 shows a functional block diagram of the main part of the system control unit 2B in the wireless power supply apparatus 2 according to the first embodiment. The system control unit 2B includes a schedule storage unit 2-1, a presence / absence determination unit 2-2, a power distribution level determination unit 2-3, and a transmission stop command generation unit 2-4. In 2-1, a schedule indicating the possibility of the presence / absence of a person in the indoor space 1 is stored.

  In the system control unit 2B, the presence / absence determination unit 2-2 determines the presence / absence of a person in the indoor space 1 according to the schedule stored in the schedule storage unit 2-1. The distribution level determination unit 2-3 sets the setting value (distribution level) of the electromagnetic wave transmitted to the indoor space 1 according to the determination result of the presence / absence of the person in the presence / absence determination unit 2-2 as a setting value for low power. It is determined whether it is set to LPW or high power set value HPW. In response to the abnormality diagnosis result from the external controller 5, the transmission stop command generation unit 2-4 generates a transmission stop command for stopping the transmission of electromagnetic waves to the indoor space 1.

  FIG. 4 shows a functional block diagram of a main part of the external controller 5 in the first embodiment. The external controller 5 has an abnormality diagnosis unit 5A. The abnormality diagnosis unit 5A acquires the set value LPW / HPW of the level of the transmission electromagnetic wave from the system control unit 2B in the wireless power supply device 2 and the detection value RPW of the level of the reception electromagnetic wave from the radio wave intensity sensor 6, and acquires this Based on the set value LPW / HPW of the level of the transmitted electromagnetic wave and the detected value RPW of the level of the received electromagnetic wave, it is diagnosed whether an abnormality has occurred in the system.

[Embodiment 2]
FIG. 5 is a configuration diagram of a wireless power distribution system showing another embodiment (Embodiment 2) of the present invention. In the second embodiment, the presence / absence of a person in the indoor space 1 is detected using the person detection sensor 7, and the detection result is transmitted to the wireless power supply apparatus 2 wirelessly. The human detection sensor 7 is provided as one of the wireless devices in the present invention, and has a function of receiving electromagnetic waves from the wireless power supply device 2 and generating its own power supply.

  In the human detection sensor 7, 7A is a human detection unit, 7B is a control unit, 7C is a reception unit, 7D is a transmission unit, 7E is a rectification unit, 7F is a power storage unit, 7G is a stabilized power supply unit, ANT3 is an antenna, The power supply voltage generated by the stabilized power supply unit 7G is supplied to the human detection unit 7A, the control unit 7B, the reception unit 7C, and the transmission unit 7D.

  Hereinafter, with reference to the time chart shown in FIG. 6, a specific processing operation performed by the wireless power supply device 2 and the external controller 5 in the second embodiment will be described.

[When there are people in the interior space 1]
When detecting the presence of a person in the indoor space 1 (point t1 shown in FIG. 6A), the human detection sensor 7 transmits the detection result to the wireless power supply device 2. When receiving the detection result from the human detection sensor 7, the wireless power supply device 2 sends the detection result to the system control unit 2B through the path of the antenna ANT1, the transmission / reception unit 2D, and the reception control unit 2E.

  The system control unit 2B determines that there is a person in the indoor space 1 based on the detection result from the human detection sensor 7 sent via the reception control unit 2E. Then, based on the determination result that there is a person in the indoor space 1, the setting value (distribution level) of the electromagnetic wave transmitted to the indoor space 1 is set as the low power setting value LPW.

The low power set value LPW in this case is an electromagnetic wave that does not affect the human body as defined in the radio wave protection guidelines, as in the first embodiment, and the frequency is 1.5 Hz to 300 GHz. In an unmanaged environment, the upper limit value of power density is 1 mW / cm ^2, and in an managed environment, the upper limit value of power density is 5 mW / cm ² . In FIG. 6, the power level corresponding to the upper limit value of the power density in this case is indicated as PWsafe.

  Therefore, when it is determined that there is a person in the indoor space 1, the wireless power supply device 2 transmits an electromagnetic wave with small power smaller than the power level PWsafe that does not affect the human body to the indoor space 1. It will be a thing.

[When there is no person in the indoor space 1]
When detecting the absence of a person in the indoor space 1 (point t2 shown in FIG. 6A), the human detection sensor 7 transmits the detection result to the wireless power supply device 2. When receiving the detection result from the human detection sensor 7, the wireless power supply device 2 sends the detection result to the system control unit 2B through the path of the antenna ANT1, the transmission / reception unit 2D, and the reception control unit 2E.

  The system control unit 2B determines that there is no person in the indoor space 1 based on the detection result from the human detection sensor 7 sent via the reception control unit 2E. Then, based on the determination result that there is no person in the indoor space 1, the set value (distribution level) of the electromagnetic wave transmitted to the indoor space 1 is set as the high power set value HPW.

  The set value HPW of the high power in this case is an electromagnetic wave having a power level higher than the power level PWsafe that has no possibility of affecting the human body as in the first embodiment, and the operation of the wireless device 3 It is the electric power which can secure electric power enough. Further, the electric power has no possibility of affecting other systems such as an alarm system (not shown) existing in the indoor space 1.

  Therefore, when it is determined that no person is present in the indoor space 1, the wireless power supply device 2 transmits high-power electromagnetic waves larger than the power level PWsafe that does not affect the human body to the indoor space 1. Will be.

[Abnormal diagnosis]
On the other hand, in the indoor space 1, the electric field strength sensor 6 detects the level of electromagnetic waves from the wireless power supply device 2 received at the installation location. The level of the electromagnetic wave detected by the electric field intensity sensor 6 is sent to the external controller 5 as a detection value RPW of the level of the received electromagnetic wave. In addition, the distribution level determined by the system control unit 2B in the wireless power supply device 2, that is, the setting value LPW / HPW of the level of the transmission electromagnetic wave from the wireless power supply device 2 is not limited to the distribution level control unit 2C but externally. It is also sent to the controller 5.

  The external controller 5 acquires the set value LPW / HPW of the level of the transmitted electromagnetic wave from the system control unit 2B of the wireless power supply device 2, and acquires the detection value RPW of the level of the received electromagnetic wave from the electric field strength sensor 6, Based on the acquired set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level, it is diagnosed whether an abnormality has occurred in the system.

  In this case, if the setting value of the transmission electromagnetic wave level from the system control unit 2B of the wireless power supply apparatus 2 is LPW, the setting value LPW of the transmission electromagnetic wave level is compared with the detection value RPW of the reception electromagnetic wave level. If the difference between the two is not within the predetermined range, it is determined that an abnormality has occurred in the system.

  Further, if the setting value of the level of the transmission electromagnetic wave from the system control unit 2B of the wireless power supply device 2 is HPW, the setting value HPW of the level of the transmission electromagnetic wave is compared with the detection value RPW of the level of the reception electromagnetic wave, When the difference between the two is not within the predetermined range, it is determined that an abnormality has occurred in the system.

  In this case, if the difference between the set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level does not fall within a predetermined range, it is certain that an abnormality has occurred in at least one of them. It is possible to accurately determine whether or not there is an abnormality.

  When the external controller 4 determines that an abnormality has occurred in the system, the external controller 4 sends the determination result (abnormality diagnosis result) to the system control unit 2B of the wireless power supply apparatus 2. Upon receiving an abnormality diagnosis result indicating that an abnormality has occurred in the system from the external controller 4, the system control unit 2B generates a transmission stop command and sends it to the power distribution level control unit 2C. The distribution level control unit 2C stops transmission of electromagnetic waves from the antenna ANT1 to the indoor space 1 in accordance with a transmission stop command from the system control unit 2B.

  As described above, in the second embodiment, similarly to the first embodiment, when it is determined that there is a person in the indoor space 1 while reliably monitoring the system abnormality, the wireless power supply device 2 moves to the human body. Sends low-power electromagnetic waves that have no risk of impact to the indoor space 1 and supplies power to the wireless devices 3 that require high power without any problems using the open space wireless power distribution system while complying with the radio wave protection guidelines. can do.

  FIG. 7 shows a functional block diagram of the main part of the system control unit 2B in the wireless power supply apparatus 2 according to the second embodiment. The system control unit 2B includes a presence / absence determination unit 2-2, a power distribution level determination unit 2-3, and a transmission stop command generation unit 2-4.

  In the system control unit 2B, the presence / absence determination unit 2-2 determines the presence / absence of a person in the indoor space 1 according to the detection result from the human detection sensor 7. The distribution level determination unit 2-3 sets the setting value (distribution level) of the electromagnetic wave transmitted to the indoor space 1 according to the determination result of the presence / absence of the person in the presence / absence determination unit 2-2 as a setting value for low power. It is determined whether it is set to LPW or high power set value HPW. In response to the abnormality diagnosis result from the external controller 5, the transmission stop command generation unit 2-4 generates a transmission stop command for stopping the transmission of electromagnetic waves to the indoor space 1.

  In the first and second embodiments described above, the set value LPW / HPW of the level of the transmitted electromagnetic wave is compared with the detection value RPW of the level of the received electromagnetic wave, and the system is used when the difference between the two is not within a predetermined range. However, when at least one of the set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level deviates from a predetermined allowable range, the system is abnormal. It may be determined that the occurrence has occurred.

  For example, in the first embodiment, when the current time is in the time zone from 7 o'clock to 22 o'clock, a predetermined allowable range is determined as a range that does not affect the human body, and this allowable range is a set value of the level of the transmission electromagnetic wave When the LPW exceeds or the detection value RPW of the received electromagnetic wave level exceeds, it is determined that an abnormality has occurred in the system. In addition, when the current time is in a time zone other than 7:00 to 22:00, a predetermined allowable range is determined as a range that may not affect other systems existing in the indoor space 1, and the allowable range is set as a transmission electromagnetic wave. When the set value HPW of the level exceeds or the detection value RPW of the received electromagnetic wave level exceeds, it is determined that an abnormality has occurred in the system.

  Further, in the second embodiment, when the human detection sensor 7 detects the presence of a person in the indoor space 1, the predetermined allowable range is determined as a range that does not affect the human body, and this allowable range is defined as the level of the transmission electromagnetic wave. When the set value LPW exceeds or the detection value RPW of the received electromagnetic wave level exceeds, it is determined that an abnormality has occurred in the system. In addition, when the human detection sensor 7 does not detect the presence of a person in the indoor space 1, the predetermined allowable range is determined as a range that may not affect other systems existing in the indoor space 1, and the allowable range is When the set value HPW of the transmitted electromagnetic wave level is exceeded or the detected value RPW of the received electromagnetic wave level is exceeded, it is determined that an abnormality has occurred in the system.

  In this case, the setting values LPW and HPW of the level of the transmission electromagnetic wave are originally determined as values within the allowable range described above, but an error may occur in the setting values for some reason. Assuming such a case, in this example, when the setting value LPW / HPW of the level of the transmission electromagnetic wave exceeds a predetermined allowable range, it is determined that an abnormality has occurred in the system.

  Further, it may be determined that an abnormality has occurred in the system when at least one of the set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level cannot be acquired. 1 and 2, the external controller 5 determines a system abnormality based on the set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level. In this case, if either one of the set value LPW / HPW of the transmitted electromagnetic wave level or the detected value RPW of the received electromagnetic wave level is missing, the abnormality diagnosis cannot be performed accurately. Assuming such a case, if at least one of the set value LPW / HPW of the transmitted electromagnetic wave level and the detected value RPW of the received electromagnetic wave level cannot be acquired, it is determined that an abnormality has occurred in the system.

  In the first and second embodiments described above, the external controller 5 is provided with an abnormality diagnosis function for diagnosing a system abnormality, but the system controller 2B of the wireless power supply apparatus 2 is provided with a similar abnormality diagnosis function. You may do it. In this case, the detection value RPW of the received electromagnetic wave level may be sent from the radio wave intensity sensor 6 to the system control unit 2B of the wireless power supply device 2 in the same manner as in the case of the external controller 5. The detected value RPW of the received electromagnetic wave level from the radio wave intensity sensor 6 is received by the antenna ATN1 of the wireless power supply apparatus 2, and the received detected value RPW of the received electromagnetic wave level and the value determined inside the system control unit 2B are determined. The system abnormality diagnosis may be performed using the set value LPW / HPW of the level of the transmission electromagnetic wave. In this way, it is possible to complete the system abnormality diagnosis inside the wireless power supply device 2. The antenna ATN1 of the wireless power supply apparatus 2 receives the detection value RPW of the received electromagnetic wave level from the radio wave intensity sensor 6, and sends the received detection value RPW of the received electromagnetic wave level to the external controller 5, The controller 5 may perform system abnormality diagnosis.

  In the second embodiment described above, only one human detection sensor 7 or electric field strength sensor 6 is provided, but a plurality of similar human detection sensors or electric field strength sensors may be provided. FIG. 8 shows an arrangement example (viewed from the ceiling side) when a large number of human detection sensors and electric field strength sensors are provided. In the figure, A is a transceiver (wireless power supply device), B is a human body detection sensor with built-in wireless power distribution (human detection sensor), C is an electric actuator with built-in wireless power distribution, and D is an electric field strength sensor. In this example, the human body detection sensor B with built-in wireless power distribution is already installed in the indoor space 1 for another purpose such as lighting control.

  Moreover, although Embodiment 1 and 2 mentioned above demonstrated the case where electromagnetic waves were used as a wave, a wave is not restricted to electromagnetic waves, You may use light, an ultrasonic wave, etc. as a wave. When the wave is light, a laser beam irradiation unit, an LED, a light bulb, or the like is used as the transmission unit, and a solar cell or a photodiode is used as the reception unit. Further, when the wave is an ultrasonic wave, a piezo vibrator or an electrostrictive vibrator is used as a transmission / reception means.

  The wireless power distribution system of the present invention is a system that supplies power to wireless devices in a non-contact manner by waves such as electromagnetic waves, and is used not only in buildings but also in various places such as offices in factories, workplaces, plants, etc. It can be used in places.

  DESCRIPTION OF SYMBOLS 1 ... Indoor space, 2 ... Wireless power supply apparatus, 2A ... Stabilization power supply part, 2B ... System control part, 2C ... Distribution level control part, 2D ... Transmission / reception part, 2E ... Reception control part, 3 ... Wireless apparatus, 3A ... Motor, 3B ... Deceleration part, 3C ... Driver part, 3D ... Position detection part, 3E ... Control part, 3F ... Reception part, 3G ... Transmission part, 3H ... Rectification part, 3I ... Power storage part, 3J ... Stabilization power supply part, 4 ... external power supply, 5 ... external controller, 6 ... radio wave intensity sensor, 7 ... human detection sensor, 7A ... human detection unit, 7B ... control unit, 7C ... reception unit, 7D ... transmission unit, 7E ... rectification unit, 7F ... Power storage unit, 7G ... Stabilized power supply unit, ANT1, ANT2, ANT3 ... Antenna, DS ... Drive shaft, 2-1 ... Schedule storage unit, 2-2 ... Presence / absence determination unit, 2-3 ... Distribution level determination unit, 2-4: Transmission stop command generation unit, 5A: Abnormality diagnosis unit.

Claims (8)

A wave transmitting device that transmits energy as waves to the indoor space wirelessly, and one or more wireless devices that operate by receiving the waves transmitted from the wave transmitting device and generating their own power supply from the received waves. In a wireless power distribution system comprising:
Wave energy level detection means for detecting the energy level of the wave from the wave transmission device installed in the indoor space and received at the installation location;
An abnormality occurs in the system based on the set value of the wave energy level set as the energy level of the wave transmitted from the wave transmitter and the detected value of the wave energy level detected by the wave energy level detecting means. An abnormality diagnosis means for diagnosing whether or not a wireless power distribution system is provided. The wireless power distribution system according to claim 1,
The abnormality diagnosis means includes
Comparing the set value of the energy level of the wave with the detected value of the energy level of the wave, and determining that an abnormality has occurred in the system if the difference between the two is not within a predetermined range. A featured wireless power distribution system. The wireless power distribution system according to claim 1,
The abnormality diagnosis means includes
It is determined that an abnormality has occurred in the system when at least one of the set value of the wave energy level and the detected value of the wave energy level is outside a predetermined allowable range. . The wireless power distribution system according to claim 1,
The abnormality diagnosis means includes
A wireless power distribution system, characterized in that an abnormality has occurred in the system when at least one of the set value of the wave energy level and the detected value of the wave energy level cannot be acquired. In the wireless power distribution system according to any one of claims 1 to 4,
A wireless power distribution system comprising: wave transmission stopping means for stopping wave transmission from the wave transmitting device when it is determined by the abnormality diagnosing means that an abnormality has occurred in the system. In the wireless power distribution system according to any one of claims 1 to 5,
The set value of the energy level of the wave is
The wireless power distribution system is defined as a value within a range that does not affect a human body existing in the indoor space. In the wireless power distribution system according to any one of claims 1 to 5,
The set value of the energy level of the wave is
The wireless power distribution system is characterized in that it is determined as a value within a range that does not affect other systems existing in the indoor space. In the wireless power distribution system according to any one of claims 1 to 7,
The abnormality diagnosis means includes
A wireless power distribution system provided in the wave transmission device.

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