JP4240748B2 - Contactless power supply device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a non-contact power supply apparatus including a cordless device and a power supply device that supplies power to the cordless device without contact.
[0002]
[Prior art]
Conventionally, as shown in FIG. 31, for example, the furniture 1 has an outlet insertion port 56 at one or a plurality of locations, and the outlet insertion port 56 has a power plug 53 of an electric device 2 ′ such as a pot or a lighting fixture. There is one that can be used by placing the electric device 2 ′ on the furniture 1. A power cord 43 for supplying power to the outlet socket 56 is connected to such furniture 1, and a power plug 8 provided at the tip of the power cord 43 is disposed in the home. Plugged into the outlet of a commercial power supply.
[0003]
However, in such a conventional technique, the power cord 52 is provided in the electric device 2 ′, and the power plug 53 provided at the tip of the power cord 52 is inserted into the outlet socket 56 of the furniture 1. The power cord 52 is arranged on the furniture 1, which is an obstacle when working on the furniture 1. If the outlet socket 56 is provided in the furniture 1 in this manner, the aesthetics of the furniture 1 will be impaired. If the outlet outlet 56 is provided on the back surface of the furniture 1 so as not to stand out, the electrical equipment 2 ' The workability when inserting the power plug 53 into the outlet socket 56 or pulling it out from the outlet socket 56 is deteriorated. In addition, dust and dust easily accumulate in the insertion hole provided in the outlet insertion port 56, and cleaning is troublesome.
[0004]
On the other hand, methods for supplying electric power without contact have been well known, and there are two methods for using the supplied electric power: a method using electric power as driving power for the appliance, and an eddy current to generate heat. And a method using this heat. An example of the former is a mobile phone main body 50 and its charger 51 as shown in FIG. 32A, and the latter is an example for heating a pot 54 as shown in FIG. 32B. The electromagnetic cooker 55 is mentioned.
[0005]
FIG. 22 is a block diagram showing a circuit configuration when electric power is supplied without contact and used as driving power for the electric device 2 ′.
[0006]
A rectifier circuit 36 connected to a commercial AC power supply 44 is formed in a circuit provided in a device that supplies power, such as the charger 51, and a DC current rectified by the rectifier circuit 36 is formed. Is formed. The switching circuit 35 converts the supplied direct current into a predetermined high-frequency current, and the high-frequency current generated by the switching circuit 35 is applied to the power primary coil 4. The switching circuit 35 is connected to a control circuit 37 that generates a control signal for controlling the output of the high-frequency current generated by the switching circuit 35. The signal primary coil 40 is connected to the control circuit 37, and the operation of the control circuit 37 is controlled by an induced current generated in the signal primary coil 40.
[0007]
In addition, a circuit provided in a device to which power is supplied, such as the mobile phone main body 50, is provided with a power secondary coil 9 disposed in a magnetic flux generated by the power primary coil 4. In addition, an induced current is generated in the power secondary coil 9 by the magnetic flux generated in the power primary coil 4. An output circuit 38 is connected to the power secondary coil 9, and the induced current is supplied to the output circuit 38 for processing such as rectification and frequency conversion. The processed current is supplied to the main circuit 39 for driving the electric equipment 2 'and used as a driving source for the electric equipment 2'. A signal secondary coil 41 is connected to the output circuit 38, and the output circuit 38 outputs a high-frequency signal corresponding to the output level of the induced current supplied to the output circuit 38 to the signal secondary coil 41. It is like that.
[0008]
When a circuit having the above-described configuration is provided in a device such as the charger 51 and the mobile phone main body 50, power is supplied to the mobile phone main body 50 in a contactless manner by attaching the mobile phone main body 50 to the charger 51. can do. The power is supplied by generating an induced current in the power secondary coil 9 by disposing the power secondary coil 9 in the magnetic flux generated in the power primary coil 4 to which the high-frequency current is applied. Is. At this time, the output of the supplied power is adjusted by arranging the signal primary coil 40 in the magnetic flux generated when the high frequency signal corresponding to the output level of the supplied power is output to the signal secondary coil 41. Thus, inductive power corresponding to the output level of the supplied power is generated in the signal primary coil 40, and this induced power is input to the switching circuit 35 as a control signal.
[0009]
On the other hand, FIG. 33 shows a circuit configuration in the case where electric power is supplied without contact to generate eddy current to generate heat, and this heat is used.
[0010]
A circuit provided in a device that supplies power such as an electromagnetic cooker 55 is provided with a rectifier circuit 36, a switching circuit 35, and a power primary coil 4 similar to those shown in FIG. The AC current supplied from the AC power supply 44 is rectified by the rectifier circuit 36, the rectified DC current is converted into a high-frequency current by the switching circuit 35, and this high-frequency current is supplied to the power primary coil 4. ing. Moreover, metal cooking utensils, such as the pan 54, are arrange | positioned in the magnetic flux which generate | occur | produces in the primary coil 4 for electric power, and an eddy current generate | occur | produces in a metal cooking utensil with this magnetic flux, and it heats.
[0011]
When power is supplied in a non-contact manner in this way, it is not necessary to connect the device that supplies power and the device that is supplied with the cord 52 or the like.
[0012]
[Problems to be solved by the invention]
However, even if power is supplied without contact as described above, the power supply plug 53 is also provided with a cord 52 in a device that supplies power, such as the charger 51 and the electromagnetic cooker 55. In other words, the cord 52 is in the way when used on the furniture 1 or the like. Further, when not in use, the furniture 1 had to be cleaned up, which was troublesome.
[0013]
In addition, as a technique for combining the electromagnetic cooker 55 with the furniture 1, those disclosed in Japanese Patent Application Laid-Open No. 5-285018, Japanese Patent Application Laid-Open No. 7-245180, and the like have been proposed. Such a conventional technique can supply power only to the electromagnetic cooker 55, and cannot supply power to a cordless device without contact and use the power as driving power.
[0014]
The present invention has been made in view of the above points, and includes a cordless device to which power is supplied and a device that supplies power to the cordless device in a contactless manner, and drives the power supplied to the cordless device. It can be used as electric power, and when using a cordless device on furniture, it can be easily connected to and detached from the power source, and the device that supplies power does not take up space, etc. Non-contact type power supply device that can easily identify the position of the cordless device when power is supplied to the cordless device, while maintaining the functionality and design of the device Is intended to provide.
[0015]
[Means for Solving the Problems]
  The non-contact power feeding device according to claim 1 of the present invention is a power primary coil 4 to which power is supplied.Power transmission unit 3 havingAnd a cordless device 2 including a power secondary coil 9 disposed in a magnetic flux generated by the power primary coil 4 in a state of being disposed at a predetermined position with respect to the furniture 1, An informing means 7 for informing a predetermined arrangement position of the cordless device 2 with respect to the furniture 1;The notification means is composed of a plurality of light emitting diodes surrounding the installation position of the power transmission unit 3.It is characterized by this.
[0022]
  MaTheThe degree of displacement between the arrangement position of the cordless device 2 arranged in the furniture 1 and the predetermined arrangement position of the cordless device 2 in the furniture 1 is notified.the aboveThe information means 7 is provided.
Moreover, in addition to the structure of Claim 1, the invention according to Claim 2 includes the signal primary coil 40, the auxiliary winding coil 47, the detection circuit 46, and the primary side circuit 5 in addition to the furniture 1. The cordless device 2 includes a signal secondary coil 41 and a secondary circuit 10. The signal primary coil 40 generates an induced current corresponding to the induced current generated in the power secondary coil 9 in a state where the cordless device 2 is arranged at a predetermined arrangement position with respect to the furniture 1. The secondary circuit 10 outputs a high frequency signal corresponding to the output level of the induced current generated in the power secondary coil 9 to the signal secondary coil 41. The primary side circuit 5 controls the output of a high-frequency current to the power primary coil 4 based on the induced current generated in the signal primary coil 40. When the detection circuit 46 detects that the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 and the induced current generated in the auxiliary winding coil 47 has reached the position detection level, the detection means 7 is activated. A signal for operating is output.
A contactless power supply device according to a third aspect of the present invention includes a furniture 1 including a power transmission unit 3 having a power primary coil 4 to which power is supplied, and the furniture 1 is disposed at a predetermined position. A cordless device 2 including a power secondary coil 9 disposed in a magnetic flux generated by the power primary coil 4 in a state where the cordless device 2 is disposed, and an informing means 7 for notifying a predetermined arrangement position of the cordless device 2 with respect to the furniture 1. The informing means includes a plurality of light emitting diodes surrounding the installation position of the power transmission unit 3. The furniture 1 includes a signal primary coil 40 and a primary circuit 5, and the cordless device 2 includes a signal secondary coil 41 and a secondary circuit 10. The signal primary coil 40 generates an induced current corresponding to the high-frequency signal supplied to the signal secondary coil 41 in a state where the cordless device 2 is arranged at a predetermined arrangement position with respect to the furniture 1. The secondary circuit 10 outputs a high frequency signal corresponding to the output level of the induced current generated in the power secondary coil 9 to the signal secondary coil 41. The primary circuit 5 controls the output of the high-frequency current to the power primary coil 4 based on the induced current generated in the signal primary coil 40, and the induced current is generated in the signal primary coil 40. In this case, the notification means 7 is activated.
[0023]
  And claims4The invention described in claim 1Any one of 3In addition to the configuration described above, the magnetic body 34 disposed between the power primary coil 4 and the power secondary coil 9 in a state where the cordless device 2 is disposed at a predetermined position with respect to the furniture 1. It is provided in the furniture 1 or the cordless device 2.
[0024]
  And claims5The invention described in claim 1 to claim 14In addition to any of the configurations described above, the cordless device 2 is provided with a rechargeable battery 48 that is charged with power supplied to the cordless device 2..
[0025]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, embodiments of the present invention will be described.And reference formWill be explained.
[0026]
In FIG. 1, a table 1 a is used as the furniture 1, and an electric pot 2 a is used as the cordless device 2.
[0027]
A power transmission unit 3 is provided on the inner surface side of the furniture member 11 (in FIG. 1, the top plate 11a of the table 1a) constituting the upper surface of the furniture 1, and the power transmission unit 3 is an interior of the case body 6 that is an exterior. The primary coil 4 for electric power and the primary side circuit 5 for supplying a high frequency current to the primary coil 4 for electric power are provided. In addition, a power cord 43 is connected to the power transmission unit 3, and power can be supplied to the primary circuit 5 by connecting the power plug 8 of the power cord 43 to the outlet of a commercial power outlet. It is like that.
[0028]
On the other hand, a power secondary coil 9 is provided at the bottom of the cordless device 2, and an output voltage (secondary output voltage) for driving the cordless device 2 from an induced current generated in the power secondary coil 9. The secondary circuit 10 is also provided for operating the cordless device 2 with this output voltage.
[0029]
And when the cordless apparatus 2 is arrange | positioned in the predetermined | prescribed arrangement position in the furniture member 11, the secondary coil 9 for electric power is arrange | positioned in the magnetic flux which generate | occur | produces by supplying a high frequency current to the primary coil 4 for electric power. Like that.
[0030]
In such a configuration, the cordless device 2 is fed without contact by magnetic coupling. That is, when the cordless device 2 is arranged at a predetermined arrangement position on the furniture member 11 and power is supplied from the outlet of the commercial power outlet to the power transmission unit 3 via the power cord 43, the cordless device 2 is indicated by an arrow in FIG. Thus, a magnetic flux is generated in the power primary coil 4, and an induced current is generated in the power secondary coil 9 of the cordless device 2 disposed in the magnetic flux. A secondary output voltage is obtained by the secondary circuit 10 in the cordless device 2.
[0031]
In the example shown in FIG. 2, the awning 1 b is used as the furniture 1, and the lighting fixture 2 b is used as the cordless device 2. A power transmission unit 3 similar to the above is provided on the inner surface side of the furniture member 11 (in FIG. 2, the upper surface plate 11b of the bag 1b) constituting the upper surface of the furniture 1, and the cordless device 2 has The power secondary coil 9 and the secondary side circuit 10 are provided.
[0032]
In such a configuration, the cordless device 2 is arranged at a predetermined arrangement position on the upper plate of the furniture 1 where the power transmission unit 3 is provided, and power is supplied from the outlet of the commercial power outlet via the power cord 43. When power is supplied to the transmission unit 3, a magnetic flux is generated in the power primary coil 4 as shown in FIG. 3, and an induced current is generated in the power secondary coil 9 of the cordless device 2 arranged in the magnetic flux. appear. The induced current is supplied to the secondary circuit 10 in the cordless device 2 to obtain a secondary output voltage.
[0033]
Further, although not shown in FIGS. 1 and 2, in the present invention, an informing means 7 for informing a predetermined arrangement position of the cordless device 2 with respect to the furniture 1 is provided. As the notification means 7, it is possible to directly display a predetermined notification position of the cordless device 2 in the furniture 1 or whether or not the cordless device is arranged at a predetermined arrangement position when the cordless device 2 is arranged on the furniture 1. An alarm can be provided. The notification means can be provided in either the furniture 1 or the cordless device 2. Details of the configuration of the notification means 7 will be described later.
[0034]
An example of the circuit configuration in the power transmission unit 3 provided in the furniture 1 and the circuit configuration in the cordless device 2 will be described in more detail.
[0035]
As shown in the block diagram of FIG. 22, the power transmission unit 3 on the furniture 1 side is provided with a power primary coil 4 and a signal primary coil 40. As the primary side circuit 5, a switching circuit 35, a control circuit 37, and a rectifier circuit 36, which are circuits for supplying a high frequency current to the power primary coil 4, are formed. The rectifier circuit 36 is connected to a commercial AC power supply 44 and converts an AC current supplied from the commercial AC power supply 44 into a DC current. The switching circuit 35 converts the direct current supplied from the rectifier circuit 36 into a high-frequency current by high-frequency switching, and supplies it to the power primary coil 4. The control circuit 37 controls the output of the high-frequency current generated by the switching circuit 35 based on the induced current supplied from the signal primary coil 40.
[0036]
On the other hand, the cordless device 2 is provided with a power secondary coil 9 and a signal secondary coil 41. As the secondary circuit 10, an output circuit 38 and a main circuit 39 are formed. The output circuit 38 generates a secondary output voltage for driving the cordless device 2 by being supplied with the induced current generated in the power secondary coil 9. A main circuit 39 that is a circuit for driving the cordless device 2 is connected to an output circuit 38, and the main circuit 39 is driven by receiving a secondary output voltage from the output circuit 38. The output circuit 38 supplies a signal current corresponding to the output of the secondary output voltage supplied to the main circuit 39 to the signal secondary coil 41 under the control of the main circuit 39.
[0037]
In a state where the cordless device 2 is arranged at a predetermined arrangement position with respect to the furniture 1, the electric power primary coil 4 and the electric power secondary coil 9 are arranged so as to face each other in an aligned state. Further, the signal primary coil 40 and the signal secondary coil 41 are arranged so as to face each other in an aligned state. In this state, when an AC current is supplied from the commercial AC power supply 44 to the power transmission unit 3 on the furniture 1 side, a high-frequency current is supplied to the power primary coil 4 and a magnetic flux is generated around the power primary coil 4. . The power secondary coil 9 is disposed in the magnetic flux, and the induced current generated as a result is supplied to the output circuit 38 to generate a secondary output voltage, which is supplied to the main circuit 39. When a signal current corresponding to the output of the secondary output voltage is supplied to the signal secondary coil 41, a magnetic flux is generated around the signal secondary coil 41. The signal primary coil 40 is arranged in this magnetic flux, and the induced current generated as a result is supplied to the control circuit 37 to generate a control signal, and this control signal is input to the switching circuit 35. The output of the high-frequency current supplied to the power secondary coil 9 is feedback-controlled.
[0038]
At this time, if the pulse waveform of the high-frequency current supplied to the power primary coil 4 is a triangular wave that rises to the right as shown in FIG. 24, the power secondary coil 9 has a high-frequency current in the off period. An induced current having a pulse waveform of a triangular wave descending to the right is generated.
[0039]
When the cordless device 2 is separated from the predetermined arrangement position, when the cordless device 2 and the predetermined arrangement position are sufficiently separated from each other, no induced current is generated in the power secondary coil 9, so that the signal secondary No signal current is supplied to the coil 41, and no induced current is generated in the signal primary coil 40. When the cordless device 2 approaches a predetermined arrangement position from this state, an induced current starts to be generated in the power secondary coil 9 and the amplitude of the pulse increases. Accordingly, the value of the secondary output voltage output from the output circuit 38 to the main body circuit 39 also increases. When the cordless device 2 is arranged at a predetermined arrangement position, the value of the secondary output voltage output from the output circuit 38 is controlled to be a predetermined value for driving the main body circuit 39. To. In the figure, the predetermined voltage value of the secondary output voltage is indicated as 100%.
[0040]
Here, the degree of coincidence described in the lowermost stage in the figure displays a measure of how much the arrangement positions of the power primary coil and the power secondary coil 9 are aligned.
[0041]
In the example shown in the figure, when the value of the secondary output voltage exceeds 120% of the predetermined value, a predetermined control signal is output from the output circuit 38 to the control circuit 37, and the control circuit 37 outputs the signal accordingly. The secondary coil 41 is controlled so as to supply a predetermined signal current (three continuous pulse currents in the illustrated example). At this time, an induced current (three continuous pulse currents in the illustrated example) corresponding to the pulse current supplied to the signal secondary coil 41 is generated in the signal primary coil 40 and input to the switching circuit 35, and the switching circuit 35 35 changes the switching frequency accordingly and controls so that the value of the secondary output voltage decreases (area D in the figure). When the secondary output voltage falls below a predetermined value indicated as 100% in the figure by controlling so that the value of the secondary output voltage decreases in this way, the output circuit 38 outputs a predetermined value. The control signal 37 is output to the control circuit 37, and the control circuit 37 is controlled to supply a predetermined signal current (two continuous pulse currents in the illustrated example) to the signal secondary coil 41 accordingly. At this time, an induced current (two continuous pulse currents in the illustrated example) corresponding to the pulse current supplied to the signal secondary coil 41 is generated in the signal primary coil 40 and is input to the switching circuit 35. 35 returns the switching frequency accordingly and controls the secondary output voltage to rise. By performing feedback control on the secondary output voltage value in this way, the secondary output voltage value is maintained within a certain range.
[0042]
Further, when the cordless device 2 is not arranged at a predetermined arrangement position, the current is reduced by reducing the number of pulses of the current supplied from the switching circuit 35 on the power transmission unit 3 side of the furniture 1 to the power primary coil 4. When the cordless device 2 is arranged at or near the predetermined arrangement position, a high-frequency current having a predetermined frequency is applied from the switching circuit 35 to the power primary coil 4. It can be controlled to supply. In this case, for example, control as shown in FIG. 25 can be performed. In the illustrated example, when the cordless device 2 is away from the predetermined arrangement position, a current with a small number of pulses is supplied from the switching circuit 35 to the power primary coil 4 (region A in the figure). ). At this time, when the cordless device 2 approaches a predetermined arrangement position, an induced current starts to be generated in the power secondary coil 9 and the amplitude of the pulse increases. Accordingly, the secondary output voltage output from the output circuit 38 to the main body circuit 39 also increases. When the secondary output voltage exceeds 95% of the predetermined value, the output circuit 38 supplies a predetermined signal current (one pulse current in the figure) to the signal secondary coil 41 and an induced current ( 1 pulse current) is generated in the signal primary coil 40 (region B in the figure). When this induced current is detected by the control circuit 37, the control circuit 37 inputs a control signal to the switching circuit 35, and the switching circuit 35 changes the switching frequency in accordance with this control signal, and the power primary coil 4 has a predetermined value. It is configured to be controlled so as to supply a high-frequency current having a frequency.
[0043]
Here, in the region C in the figure, the secondary output voltage has reached 95% of the predetermined value, but the signal primary coil 40 generates an induced current necessary for changing the switching frequency. This is a state in which the cordless device 2 is arranged at or near the predetermined arrangement position and a delay in response until this is detected.
[0044]
Moreover, the circuit configuration in the power transmission unit 3 provided in the furniture 1 and the circuit configuration in the cordless device 2 can be configured as shown in FIG. Here, in addition to the circuit configuration shown in FIG. 22, a detection circuit 46 connected to the switching circuit 35 is provided, and an auxiliary winding coil 47 is connected to the detection circuit 46 and the auxiliary winding coil 47 is used for power 1. It is arranged on the side of the next coil 4. Even in such a circuit configuration, it is possible to perform power feeding to the cordless device 2 and feedback control of the secondary output voltage value by controlling in the same manner as shown in FIG. Also in the configuration shown in FIG. 26, the power consumption can be reduced in the same manner as in the circuit configuration shown in FIG.
[0045]
In the example shown in FIG. 26, control can be performed so as to reduce the power consumption based on the detection result of the value of the induced current generated in the auxiliary winding coil 47.
[0046]
First, in the configuration shown in FIG. 26, when the cordless device 2 is arranged on the furniture 1, as shown in FIGS. 29 (a) to 29 (d), the operation when the control for reducing the power consumption is not performed is performed. As shown in FIG. In the illustrated example, first, when a high-frequency current having a pulse waveform of a triangle wave rising to the right is supplied to the power primary coil 4, the power secondary coil 9 has a triangle wave falling to the right during the off period of the high-frequency current. An induced current having a pulse waveform is generated.
[0047]
When the cordless device 2 is away from the predetermined arrangement position as shown in FIG. 29 (b), when the cordless device 2 is sufficiently away from the predetermined arrangement position, as shown in FIG. 29 (e), No induced current is generated in the power secondary coil 9, and therefore no signal current is supplied to the signal secondary coil 41, and no induced current is generated in the signal primary coil 40. From this state, when the cordless device 2 approaches a predetermined arrangement position as shown in FIG. 29 (c), an induction current starts to be generated in the power secondary coil 9 as shown in FIG. 29 (f). The amplitude of the pulse increases. Then, as shown in FIG. 29 (d), when the cordless device 2 is arranged at a predetermined arrangement position and the amplitude of the induced current generated in the current secondary coil exceeds a predetermined value (hereinafter referred to as a power supply level). As shown in FIG. 29G, the value of the secondary output voltage output from the output circuit 38 is controlled to be a predetermined value for driving the main body circuit 39. On the other hand, the auxiliary winding coil 47 generates an induced current having a pulse waveform with a triangular waveform rising to the right during the off period of the pulse waveform of the induced current generated in the power secondary coil 9. As the amplitude of the induced current generated in the coil 9 increases, the amplitude of the induced current generated in the auxiliary winding coil 47 increases.
[0048]
The degree of coincidence described in the lowermost level in the figure displays a measure of how much the arrangement positions of the power primary coil and the power secondary coil 9 are aligned.
[0049]
Here, the value of the amplitude of the induced current generated in the auxiliary winding coil 47 when the amplitude of the induced current generated in the power secondary coil 9 reaches the power supply level is defined as a position detection determination level. When the detection circuit 46 detects that the value of the induced current generated in the auxiliary winding coil 47 has reached the position detection determination level, the detection circuit 46 inputs a predetermined control signal to the switching circuit 35 and performs switching according to this control signal. The circuit 35 is configured to change the switching frequency and to be controlled to supply a high-frequency current having a predetermined frequency to the power primary coil 4. The area A in FIG. 28 is an area where the amplitude of the induced current generated in the auxiliary winding coil 47 does not reach the position detection determination level, and the area B is the amplitude of the induced current generated in the auxiliary winding coil 47. Indicates a region that has reached the position detection determination level. In the region C, the amplitude of the induced current generated in the power secondary coil 9 reaches the power supply level, but the amplitude of the induced current generated in the auxiliary winding coil 47 does not reach the position detection determination level. And shows a delay in response between when the cordless device 2 is arranged at or near the predetermined arrangement position and until this is detected.
[0050]
As the notification means 7, for example, as shown in FIG. 4, the upper surface of the furniture member 11 (the top plate 11a of the table 1a in FIG. 4) constituting the upper surface of the furniture 1, and the cordless device 2 (electric pot in FIG. 4). On the bottom surface of 2a), it is possible to form a fitting portion 13 that is concavo-convexly fitted to each other. In the illustrated example, as the fitting portion 13, a fitting convex portion 13 a is provided on the upper surface of the furniture member 11, and a fitting concave portion 13 b is provided on the bottom surface of the cordless device 2. And the cordless apparatus 2 is arrange | positioned in the predetermined | prescribed arrangement position in the furniture 1 by making the fitting parts 13 fit.
[0051]
If it does in this way, the cordless apparatus 2 can be arrange | positioned in the predetermined | prescribed arrangement position on the furniture 1 by carrying out uneven | corrugated fitting part 13 mutually. However, unevenness is formed on the upper surface of the furniture 1, so that the functionality and design of the furniture 1 are impaired, and it is difficult to clean.
[0052]
In the example shown in FIG. 5, the notification means 7 is configured without changing the outer shape of the furniture 1, and is visible on a predetermined arrangement position on the furniture 1, that is, on the upper surface of the furniture 1 above the power transmission unit 3. A display is formed. Specifically, in FIG. 5A, a visible display is formed at a predetermined arrangement position by a coloring portion 12a that is colored by painting, printing, or the like in a color different from other portions of the upper surface of the furniture 1. . In FIG. 5 (b), a symbol 12b such as × mark is stamped at a predetermined arrangement position on the upper surface of the furniture 1 by painting, printing or the like to form a visible display. In FIG. 5 (c), a visible display is formed by printing a character 12c such as “Place” at a predetermined arrangement position on the upper surface of the furniture 1 by painting or printing. The commonly used paints and inks used to attach these indications can be used, but if a fluorescent paint is used, the cordless device 2 in the furniture 1 should be arranged even in a dark place. A predetermined arrangement position can be recognized.
[0053]
In the example shown in FIG. 6, as the notification unit 7, an electrical device that is controlled so as to operate when the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 is provided in the furniture 1. As such an electric device, in FIG. 6A, an air conditioner 15a is disposed on the table 1a, and in FIG. 6B, an air purifier 15b is disposed on the table 1a. In this case, when the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1, the electric device is activated to notify that the cordless device 2 is arranged at the predetermined arrangement position.
[0054]
In this way, examples of circuit configurations in the case where the notification means 7 that operates in a state in which the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 are provided in the furniture 1 are shown in FIGS. ).
[0055]
The circuit configuration shown in FIG. 23A is based on the control signal input from the control circuit 37 by connecting the notification means 7 to the control circuit 37 of the power transmission unit 3 on the furniture 1 side in addition to the configuration of FIG. Thus, the notification means 7 is controlled. Then, the cordless device 2 is disposed at a predetermined arrangement position on the furniture 1, a predetermined signal current is supplied to the signal secondary coil 41, and an induced current corresponding to the signal current coil is generated in the signal primary coil 40. When detected by the control circuit 37 (see FIGS. 24 and 25 described above), the control means 37 operates the notification means 7.
[0056]
On the other hand, in addition to the configuration of FIG. 26, the circuit configuration shown in FIG. 27A is provided with a notification means control circuit 42 connected to the detection circuit 46 on the furniture 1 side, and the notification means control circuit 42 has a notification means 7. And the notification means control circuit 42 controls the notification means 7 in accordance with an input signal input from the detection circuit 46. When the detection circuit 46 detects that the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 and the induced current generated in the auxiliary winding coil 47 has reached the position detection level (see FIG. 28 described above). The detection circuit 46 inputs a predetermined input signal to the notification means control circuit 42, and the notification means control circuit 42 to which the input signal is input operates the notification means 7.
[0057]
In the example shown in FIGS. 7, 8, and 9, the LED (light emitting diode) lamp 14 is provided as the notification means 7 in the furniture 1 or the cordless device 2. The LED lamp 14 is controlled such that the blinking pattern changes between when the cordless device 2 is arranged at a predetermined arrangement position and when the cordless device 2 is not arranged at a predetermined arrangement position. Here, the power primary coil 4 on the furniture 1 side and the power secondary coil 9 on the cordless device 2 side can be fed without being strictly positioned, but are strictly aligned. However, it is preferable to provide the LED lamp 14 so that the predetermined arrangement position of the cordless device 2 can be accurately identified from the arrangement position of the LED lamp 14.
[0058]
In FIG. 7A, an LED driving device 15 having an LED driving circuit is arranged inside the side surface of the furniture 1 (table 1a), and blinking is controlled by the LED driving device 15 on the side surface of the table 1a. An LED lamp 14 is provided to constitute the notification means 7. The LED driving device 15 and the power transmission unit 3 are connected by a signal line.
[0059]
In FIG. 7B, the LED lamp 14 is disposed on the side surface of the electric pot 2 a that is the cordless device 2 to constitute the notification means 7.
[0060]
8A shows a furniture 1 corresponding to the installation position of each power transmission unit 3 by providing a plurality (four in the figure) of power transmission units 3 on the back surface of the top plate 11a of the table 1a which is the furniture 1. FIG. The LED lamp 14 is disposed on the upper surface of the slab to form the notification means 7 so that the predetermined position of the cordless device 2 is notified by the position of the LED lamp 14.
[0061]
In FIG. 9, a plurality (three in the figure) of LED lamps 14 are arranged on the upper surface of the furniture 1 so as to surround the installation position of the power transmission unit 3 provided on the back surface of the table 1 a that is the furniture 1. The notification means 7 is configured to notify that a portion surrounded by the plurality of LED lamps 14 is a predetermined arrangement position of the cordless device 2.
[0062]
Here, when the LED lamp 14 is disposed on the outer surface of the furniture 1, as shown in FIG. 8B, a through hole 16 is formed in the furniture member 11 constituting the outer surface of the furniture 1, and the through hole 16. The LED lamp 14 is arranged inside, the opening outside the through hole 16 is closed with a transparent panel 17 made of acrylic resin or the like, and the outer surface of the furniture member 11 and the outer surface of the transparent panel 17 are flush with each other. This can be done by forming.
[0063]
In this way, when the notification means 7 is configured by the LED lamp 14, the circuit configuration can be configured as shown in FIGS.
[0064]
An example of the circuit configuration in the case where the notification means 7 that operates differently between the state in which the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 and the state in which the cordless device 2 is not arranged at the predetermined arrangement position is provided in the furniture 1 FIG. 23 (a) and FIG. 27 (a).
[0065]
The circuit configuration shown in FIG. 23A is based on the control signal input from the control circuit 37 by connecting the notification means 7 to the control circuit 37 of the power transmission unit 3 on the furniture 1 side in addition to the configuration of FIG. Thus, the notification means 7 is controlled. And the cordless apparatus 2 is not arrange | positioned in the predetermined | prescribed arrangement position on the furniture 1, a predetermined | prescribed signal current is not supplied to the secondary coil 41 for signals, and the induced current according to it is supplied to the primary coil 40 for signals. In the state where it does not occur, the control circuit 37 controls the notifying means 7 so as to perform a predetermined operation, and the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 so that the signal secondary coil 41 has a predetermined value. When the control circuit 37 detects that a signal current is supplied and an induced current corresponding to the signal current is generated in the signal primary coil 40, the control circuit 37 controls the notification means 7 to perform another predetermined operation. (See FIGS. 24 and 25 described above).
[0066]
In addition to the configuration of FIG. 26, the circuit configuration shown in FIG. 27A is provided with a notification means control circuit 42 connected to the detection circuit 46 on the furniture 1 side, and the notification means control circuit 42 has a notification means 7. And the notification means control circuit 42 controls the notification means 7 in accordance with an input signal input from the detection circuit 46. When the cordless device 2 is not arranged at the predetermined arrangement position on the furniture 1 and the induced current generated in the auxiliary winding coil 47 has not reached the position detection level, the notification means control circuit 42 notifies the notification means. 7 detects that the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 and the induced current generated in the auxiliary winding coil 47 has reached the position detection level. Is detected (see FIG. 28), the detection circuit 46 inputs a predetermined input signal to the notification means control circuit 42, and the notification means control circuit 42 to which the input signal is input, the notification means 7 It is configured to control to perform the operation.
[0067]
On the other hand, a circuit configuration in the case where the cordless device 2 is provided with notification means 7 that operates differently between a state in which the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 and a state in which the cordless device 2 is not arranged at the predetermined arrangement position. Examples of are as shown in FIGS. 23 (b) and 27 (b).
[0068]
The circuit configuration shown in FIG. 23B is in addition to the configuration of FIG. 22 provided by connecting the notification means control circuit 42 to the output circuit 38 of the cordless device 2, and connecting the notification means 7 to the notification means control circuit 42. The notification means control circuit 42 is configured to control the notification means 7 in accordance with an input signal input from the output circuit 38. When the cordless device 2 is not arranged at a predetermined arrangement position on the furniture 1 and the secondary output voltage generated in the output circuit 38 does not reach a predetermined value, the notification means control circuit 42 causes the notification means 7 to When the cordless device 2 is controlled to perform a predetermined operation and the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1 and a secondary output voltage having a predetermined value is generated by the output circuit 38, the output circuit 38 is notified. A predetermined input signal is input to the control circuit 42, and the notification means control circuit 42 to which the input signal is input is configured to control the notification means 7 to perform other predetermined operations accordingly.
[0069]
In addition to the configuration of FIG. 26, the circuit configuration shown in FIG. 27B is provided by connecting the notification means control circuit 42 to the output circuit 38 on the cordless device 2 side, and the notification means control circuit 42 is provided with notification means. 7 is provided, and the notification means control circuit 42 controls the notification means 7 in accordance with an input signal input from the detection circuit 46. When the cordless device 2 is not arranged at a predetermined arrangement position on the furniture 1 and the induced current generated in the power secondary coil 9 has not reached the power supply level, the notification means control circuit 42 notifies the notification means. The output circuit 38 indicates that the induction current generated in the power secondary coil 9 has reached the power supply level when the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1. Is detected, the output circuit 38 inputs a predetermined input signal to the notification means control circuit 42, and the notification means control circuit 42 to which the input signal is input controls the notification means 7 to perform other predetermined operations. (See FIG. 28 described above).
[0070]
As described above, when the cordless device 2 of the LED lamp 14 serving as the notification means 7 disposed in the furniture 1 or the cordless device 2 is disposed at a predetermined arrangement position, the cordless device 2 is disposed at the predetermined arrangement position. FIG. 10 shows an example of the change in the blinking pattern when not arranged. Here, in FIGS. 10A to 10C, the upper row shows the blinking pattern of the LED lamp 14 in a state where the cordless device 2 is not arranged at the predetermined arrangement position, and the lower portion shows the predetermined arrangement of the cordless device 2. The blinking pattern of the LED lamp 14 in the state arrange | positioned in the position is shown, and the change of the light extinction state of the LED lamp 14 and a lighting state by time passage is shown. In each blinking pattern, “◯” indicates a light-off state, “●” indicates a light-on state, and these are arranged in order from left to right as time passes. In the example shown in FIG. 10A, the LED lamp 14 continues to be extinguished when the cordless device 2 is not arranged at the predetermined arrangement position, and the LED lamp when the cordless device 2 is arranged at the predetermined arrangement position. 14 continues to be lit. In the example shown in FIG. 10B, the LED lamp 14 continues to be extinguished when the cordless device 2 is not arranged at the predetermined arrangement position, and the LED lamp when the cordless device 2 is arranged at the predetermined arrangement position. 14 blinks by repeatedly turning on and off. In the example shown in FIG. 10C, the LED lamp 14 repeats lighting and extinction both in the state where the cordless device 2 is not arranged at the predetermined arrangement position and the state where the cordless device 2 is arranged at the predetermined arrangement position. In the state where the cordless device 2 is arranged at the predetermined arrangement position, the time during which the LED lamp 14 is turned off is shorter.
[0071]
Here, when the LED lamp 14 is disposed on the upper surface of the furniture 1 as shown in FIGS. 8 and 9, the cordless device 2 is placed on the LED lamp 14 even when the LED lamp 14 is lit. There is a possibility that the lamp 14 is blocked and cannot be seen. In this case, as shown in FIG. 10C, the LED lamp 14 is controlled to be lit or blinking even when the cordless device 2 is not arranged at the predetermined arrangement position, and the LED lamp 14 is blinked or lit. When not, it is preferable that the cordless device 2 is disposed above the LED lamp 14 so that it can be identified that the cordless device 2 is disposed at a predetermined position. Alternatively, a plurality of LED lamps 14 are arranged so as to surround the center of a predetermined arrangement position of the cordless device 2, and the LED lamps 14 are not arranged even when arranged at the predetermined arrangement position. Sometimes, any one of the LED lamps 14 may be visible.
[0072]
When the LED lamp 14 is controlled as shown in FIGS. 10A to 10C, when the cordless device 2 is arranged at a predetermined arrangement position, the LED lamp 14 lights or blinks for a certain period of time, and thereafter Is preferably turned off, and when the cordless device 2 is displaced from the predetermined arrangement position, it is preferable to control to start the operation when the cordless apparatus 2 is not arranged at the predetermined arrangement position. Can be reduced. Further, in order to easily perform an operation in a dark place, as shown in FIG. 10C, either when the cordless device 2 is placed at a predetermined placement position or when it is not placed, It is preferable that the LED lamp 14 is controlled to be lit or blinking.
[0073]
In the example shown in FIG. 11, the lighting device 18 is provided as the notification means 7 in one of the furniture 1 or the cordless device 2. The lighting device 18 is configured such that the lighting state changes between when the cordless device 2 is arranged at a predetermined arrangement position and when the cordless device 2 is not arranged at a predetermined arrangement position. . FIG. 11A shows an illumination device 18 equipped with a fluorescent lamp 19 placed on the corner of the upper surface of the table 1a, which is the furniture 1, and the circuit configuration thereof is shown in FIGS. 23A and 27A. ). FIG. 11 (b) shows the lighting device 18 that is integrally disposed on the upper side surface of the electric pot 2a that is the cordless device 2, and the circuit configuration thereof is as shown in FIGS. 23 (b) and 27 (b). Can be configured. For example, as illustrated in FIG. 12A, the lighting device 18 is turned on in a state where the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1, and the cordless device 2 is arranged on the furniture 1. It is controlled to turn off the light when it is not placed at the position. Further, when a lighting device 18 having two types of lighting lamps such as a fluorescent lamp 19 and a Natsume ball 20 is used, for example, as shown in FIG. The fluorescent lamp 19 is turned on while being placed at the position, the summer eyeball 20 is turned off, and the fluorescent lamp 19 is turned off and the summer eyeball is turned off when the cordless device 2 is not placed at the predetermined arrangement position on the furniture 1. You may make it control so that 20 lights up.
[0074]
In FIG. 13, the power transmission unit 3 provided in the furniture 1 is provided with a sound generating device 21 such as a buzzer as the notification unit 7, and the sound generating device 21 generates a sound such as a buzzer sound or a voice. By generating the information, it is notified whether the cordless device 2 is arranged at a predetermined arrangement position in the furniture 1, and the circuit configuration is shown in FIG. 23 (a) and FIG. 27 (a). It can be constituted as follows. For example, in a state where the cordless device 2 is not arranged at a predetermined arrangement position, a sound such as a buzzer sound or a voice is not generated from the sound generation device 21, and when the cordless device 2 is arranged at a predetermined arrangement position, the sound generation device 21. So that a buzzer sound, sound, etc. are generated from the sound. In this case, whether or not the cordless device 2 is arranged at a predetermined arrangement position in the furniture 1 can be confirmed without looking toward the furniture 1 or the cordless device 2. The sound generator 21 is not limited to a buzzer or the like, and an appropriate device can be used. Further, the installation position and configuration of the sound generator 21, the notification method, and the like are not limited to the configuration illustrated here, and an appropriate configuration can be adopted.
[0075]
When the notification means 7 is configured by the LED lamp 14, the lighting device 18, the sound generation device 21, and the like, the notification means 7 notifies how much the cordless device 2 is deviated from a predetermined arrangement position on the furniture 1. It can also be configured to.
[0076]
For example, when the notification means 7 is constituted by the LED lamp 14, as shown in FIG. 19A, the positional relationship between the cordless device 2 and a predetermined arrangement position on the furniture 1 is indicated by the cordless device 2 on the furniture 1. 1 in a predetermined arrangement position (normal position), a state slightly away from the predetermined arrangement position (near position) from the normal position, and a power 1 The state where the influence of the magnetic flux generated in the secondary coil 4 slightly reaches the secondary coil 9 for power and the induced current is generated (far position), and the influence generated in the primary coil 4 for power is the secondary coil for power. 9 is divided into a state (incorrect position) where no induced current is generated in the secondary coil 9 for power, and the LED is turned off at the erroneous position, flashes at a slow cycle at the far position, and fast at the near position. Flashes periodically and lights continuously at the normal position It is intended to control to so that.
[0077]
Further, as shown in FIG. 19B, the notification means 7 is composed of level lamps composed of a plurality of (six in the illustrated example) lamps arranged in a line, and a predetermined arrangement on the cordless device 2 and the furniture 1. The position relationship with the position is divided into multiple positions from the near position to the far position according to the number of level lamps between the correct position and the incorrect position, and between the correct position and the incorrect position, and the level lamp In the wrong position, all the lamps are turned off, all the lamps are turned on in the correct position, and the lamps are turned on one by one as the distance from the far position to the near position is approached at the multiple positions from the far position to the near position. To control. Here, “□” in the figure indicates an unlit lamp, and “■” indicates an lit lamp.
[0078]
Further, when the notification means 7 is constituted by a buzzer, for example, as shown in FIG. 20A, the positional relationship between the cordless device 2 and a predetermined arrangement position on the furniture 1 is set to a normal position, a near position, and a far position. In the wrong position, the buzzer does not sound and there is no sound.In the far position, the buzzer sounds in a slow cycle, in the near position, the buzzer sounds in a fast cycle, and in the correct position, the buzzer sounds continuously. It controls so that it sounds like it.
[0079]
Further, when the notification means 7 is constituted by a sound generation device, for example, as shown in FIG. 20B, the positional relationship between the cordless device 2 and a predetermined arrangement position on the furniture 1 is set to a normal position, a near position, It is divided into a far position and an incorrect position. At the wrong position, a sound such as "I'm off" is emitted. At a far position, a sound such as "I am far" is emitted. At a near position, a sound such as "Near" is heard. It is controlled so that a sound such as “correctly installed” is emitted at the normal position.
[0080]
A mechanism for detecting the degree of positional deviation from the predetermined arrangement position of the cordless device 2 by the notification means 7 as described above and notifying the detection result by the notification means 7 will be described.
[0081]
A case where the circuit configuration is configured as shown in FIG. As shown in FIGS. 24 and 25, as the cordless device 2 approaches a predetermined position and the positions of the power primary coil and the power secondary coil coincide with each other, the powerless secondary coil 9 is generated. The amplitude of the induced power and the value of the secondary output voltage increase. Therefore, in the output circuit 38, the amplitude of the induced current of the secondary coil 9 for power and the magnitude of the value of the secondary output voltage are set as the degree of positional deviation between the cordless device 2 and a predetermined arrangement position. A predetermined signal current is supplied to the signal secondary coil 41 in accordance with the degree of the positional deviation. At this time, an induced current corresponding to the signal current is generated in the signal primary coil 40, and the control circuit 37 that has detected the induced current has already changed according to the degree of positional deviation between the cordless device 2 and the predetermined arrangement position. As described above, the notification means 7 is controlled.
[0082]
A case where the circuit configuration is configured as shown in FIG. As shown in FIGS. 24 and 25, as the cordless device 2 approaches the predetermined arrangement position and the positions of the power primary coil and the power secondary coil coincide with each other, the value of the secondary output voltage is increased. It gets bigger. Therefore, in the output circuit 38, the amplitude of the induced current of the secondary coil 9 for power and the magnitude of the value of the secondary output voltage are set as the degree of positional deviation between the cordless device 2 and a predetermined arrangement position. A predetermined input signal is input to the notification means control circuit 42 in accordance with the degree of the positional deviation. At this time, the notification means control circuit 42 controls the notification means 7 as described above in accordance with the degree of positional deviation between the cordless device 2 and a predetermined arrangement position.
[0083]
A case where the circuit configuration is configured as shown in FIG. As shown in FIG. 28, the induction generated in the power secondary coil 9 as the cordless device 2 approaches a predetermined arrangement position and the positions of the power primary coil and the power secondary coil coincide with each other. The amplitude of power increases, and the amplitude of the induced current generated in the auxiliary winding coil 47 also increases accordingly. The detection circuit 46 detects the amplitude of the induced current of the auxiliary winding coil 47 as the degree of displacement between the cordless device 2 and a predetermined arrangement position, and the notification means control circuit 42 according to the degree of displacement. The predetermined input signal is input. At this time, the notification means control circuit 42 controls the notification means 7 as described above in accordance with the degree of positional deviation between the cordless device 2 and a predetermined arrangement position.
[0084]
A case where the circuit configuration is configured as shown in FIG. 27B will be described. As shown in FIG. 28, the induction generated in the power secondary coil 9 as the cordless device 2 approaches a predetermined arrangement position and the positions of the power primary coil and the power secondary coil coincide with each other. The amplitude of power increases. The output circuit 38 detects the amplitude of the induced current of the secondary coil 9 for power as the degree of positional deviation between the cordless device 2 and a predetermined arrangement position, and according to the degree of positional deviation, the notification means control circuit 42 predetermined input signals are input. At this time, the notification means control circuit 42 controls the notification means 7 as described above in accordance with the degree of positional deviation between the cordless device 2 and a predetermined arrangement position.
[0085]
In the example shown in FIG. 14, in addition to the configuration shown in FIG. 1, two magnets 22 are arranged on the back surface side of the upper surface plate 11 b that is a member constituting the upper surface of the table 1 a that is the furniture 1, The notification means 7 is configured by arranging two magnets 22 at the bottom of the electric pot 2a which is the cordless device 2. At this time, the two magnets 22 arranged in the furniture 1 are arranged so as to sandwich the power primary coil 4 on both sides of the power transmission unit 3, respectively, while the two magnets 22 arranged in the cordless device 2 are arranged. The magnets 22 are arranged so as to sandwich the power secondary coil 9 on both sides of the power secondary coil 9. In the state where the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1, the electric power primary coil 4 and the electric power secondary coil 9 are arranged to face each other, and the furniture 22 side magnet 22 is further arranged. And the magnet 22 on the cordless device 2 side are aligned so that the different poles face each other vertically. In this case, when the cordless device 2 is brought close to a predetermined arrangement position on the furniture 1, the cordless device 2 is placed on the furniture 1 by an attractive force acting between the magnets 22 on the furniture 1 side and the cordless device 2 side. As a result, the predetermined arrangement position of the cordless device 2 in the furniture 1 is notified. The cordless device 2 after being arranged at the predetermined arrangement position is held by the attractive force between the magnets 22 and the arrangement position is not easily displaced, and the cordless device 2 can be used stably. Here, the installation position, the number, and the configuration of the magnets 22 are not limited to the above configuration, and an appropriate configuration can be adopted.
[0086]
In the example shown in FIG. 15, in addition to the configuration of FIG. 1, a vertical through hole 25 communicating with the power transmission unit 3 is formed in the top plate 11 a (furniture member 11) of the table 1 a (furniture 1). In the illustrated example, the case body 6 constituting the exterior of the power transmission unit 3 is provided such that the upper opening is in contact with the inner surface side of the furniture member 11 of the furniture 1, and the through hole 25 is formed in the case body 6. It is formed so as to communicate with the inside. Here, in the case body 6, a plurality of bosses 27 project from the bottom toward the information, and a substrate on which the primary circuit 5 is formed is disposed on the boss. This substrate is fixed to the boss with a fixing tool 28 such as a screw. A primary coil for power is disposed on the upper surface of the substrate. The through-hole 25 is formed in a rectangular shape in the illustrated example, and a stepped portion 26 that protrudes inward with an inner diameter smaller than that of the outer surface is formed on the inner surface thereof. On the other hand, the notification member 23, which is a separate member from the furniture 1, is formed in a plate shape, and the size in plan view is substantially the same as the through hole 25. On the outer peripheral surface of the notification member 23, a stepped portion 24 is formed on the outer surface side, which has a larger outer shape than the inner surface side and protrudes outward, and the outer shape of the notification member 23 and the through hole 25. The inner diameter on the outer surface side matches, and the outer shape on the inner surface side of the notification member 23 matches the inner diameter on the inner surface side of the through hole 25. Then, when the notification member 23 is attached to the through hole 25 from the outer surface side of the furniture 1, the through hole 25 is closed by the notification member 23. In this state, the outer surface of the notification member 23 is substantially flush with the outer surface of the furniture 1. Formed. This notification member 23 constitutes the notification means 7. At this time, the notification member 23 and the stepped portions 24 and 26 of the through hole 25 are engaged with each other, so that the notification member 23 is prevented from falling. The notification member 23 is disposed at a predetermined arrangement position of the cordless device 2 in the furniture 1, and the predetermined arrangement position of the cordless device 2 can be confirmed by visually checking the notification member 23. When the notification member 23 is removed, the inside of the power transmission unit 3 is exposed through the through hole 25, and the maintenance of the power primary coil 4 and the circuit of the power transmission unit 3 can be easily performed.
[0087]
In the example shown in FIG. 16, as shown in FIGS. 16A and 16B, the notification member 23 and the through hole 25 are formed in a circular shape in plan view. In addition, a notch 29 having a shape in which the stepped portion 26 is partially cut is formed on the inner peripheral surface of the through hole 25, and in the notch 29, the inner peripheral surface of the through hole 25 is on the outer surface side. And the inner surface side are formed flush with each other. For this reason, when the one side part arrange | positioned in the notch part 29 of the alerting | reporting member 23 is pressed inward in the state which mounted | wore the through-hole 25 with the alerting | reporting member 23, as shown in FIG.16 (c), alerting | reporting is carried out. The other side of the member 23 protrudes outward, so that the notification member 23 can be easily detached from the furniture 1.
[0088]
Further, in the example shown in FIG. 17, a handle piece 30 projecting sideways from a part of the notification member 23 is extended, while the through hole 25 has a handle hole portion that matches the handle piece 30. 31 is formed. A step portion is not formed on the inner peripheral surface of the handle hole portion 31, and the inner surface side and the outer surface side are formed flush with each other. For this reason, when the handle piece 30 disposed in the handle hole 31 of the notification member 23 is pressed inward with the notification member 23 attached to the through hole 25, the handle piece 30 of the notification member 23 and The side portion on the opposite side protrudes outward, so that the notification member 23 can be easily detached from the furniture 1.
[0089]
Note that the notification member 23 shown in FIGS. 15 to 17 is a member different from the furniture 1, or can easily recognize the predetermined arrangement position of the cordless device 2 as long as it has a different color from the outer surface of the furniture 1. However, even if they are not separate members or have the same color, they may be recognized as separate from the furniture 1. A plurality of pieces of furniture 1 may be provided. Moreover, it does not need to be formed in a plate shape, and an appropriate configuration can be adopted. Moreover, the structure for removing from the furniture 1 is not limited to the above.
[0090]
In the example shown in FIG. 18, the notification member 23 and the case body 6 of the power transmission unit 3 are integrally formed.
[0091]
In FIG. 18A, the case body 6 of the power transmission unit 3 is integrally formed on the lower surface side of the notification member 23, and the upper surface side of the case body 6 of the power transmission unit 3 is blocked by the notification member 23. Has been. The outer peripheral edge portion of the notification member 23 is formed as a flange portion 31 that protrudes outward from the side surface of the case body 6 of the power transmission portion 3. On the other hand, the through hole 25 formed in the furniture member 11 of the furniture 1 has a plan view dimension that is substantially the same as that of the notification member 23, and a stepped portion 26 to which the flange portion 31 is locked inside the inner peripheral surface. Is formed. Then, the case body 6 of the power transmission unit 3 is inserted into the through hole 25 from the outside of the furniture member 11 of the furniture 1 and is attached to the furniture 1 by engaging the flange portion 31 of the notification member 23 with the step portion 26. At this time, the outer surface of the notification member 23 is formed flush with the outer surface of the furniture member 11 of the furniture 1. Further, the power transmission unit 3 can be easily detached from the furniture 1 by pulling the notification member 23 and the power transmission unit 3 outward from the through hole 25.
[0092]
In FIG. 18B, the case body 6 of the power transmission unit 3 is integrally formed on the lower surface side of the notification member 23, and the upper surface side of the case body 6 of the power transmission unit 3 is blocked by the notification member 23. ing. The outer end portion of the notification member 23 is formed flush with the outer peripheral surface of the case body 6, and a mounting rib 32 projects from the outer peripheral surface of the case body 6 toward the outside. On the other hand, the through hole 25 formed in the furniture member 11 of the furniture 1 has a plan view dimension that is substantially the same as that of the notification member 23, and an inner peripheral surface thereof is formed flush with the entire surface. . Here, the dimension of the step between the upper surface of the notification member 23 and the upper surface of the mounting rib 32 and the dimension of the thickness of the furniture member 11 of the furniture 1 are formed substantially the same. Then, the notification member 23 is inserted into the through hole 25 from the inside of the furniture member 11 of the furniture 1, and the mounting rib 32 is locked to the inner surface of the furniture member 11, and the mounting rib 32 and the furniture member are fixed by a fastener 33 such as a screw. 11 and the notification member 23 and the power transmission unit 3 are attached to the furniture 1. Moreover, the case body 6 of the electric power transmission part 3 is easily removed from the furniture 1 by removing the fixing tool 33.
[0093]
When the power transmission unit 3 and the notification member 23 are integrally formed as described above and formed so as to be detachable from the furniture 1, the maintenance of the power transmission unit 3 is facilitated. The power transmission unit 3 can be easily replaced in accordance with fluctuations in the power supply output corresponding to the power supply, and power can be efficiently supplied to the cordless device 2. In addition, the structure of the attachment / detachment method of the integral thing of the electric power transmission part 3 and the alerting | reporting member 23 is not limited to the above structures, A suitable structure can be applied.
[0094]
In the example shown in FIG. 21A, the furniture member 11 provided with the power transmission unit 3 is aligned with the primary coil 4 for power to form a through hole 49 and the inside of the through hole 49 is magnetic. A body 34 is provided. In this way, as shown in FIG. 21A, in the state where the cordless device 2 is arranged at a predetermined arrangement position with respect to the furniture 1, the power primary coil 4 and the power secondary coil 9 The magnetic body 34 is disposed between the two. At this time, the magnetic flux formed around the power primary coil 4 is prevented from diffusing in the region between the power primary coil 4 and the power secondary coil 9, as shown in FIG. The magnetic flux density around the power secondary coil 9 is higher than when no magnetic body 34 is provided. As a result, in the power secondary coil 9, an induction current is efficiently generated according to the current flowing in the power primary coil 4, and the power feeding efficiency is improved.
[0095]
In the example shown in FIG. 30, the cordless device 2 is provided with a rechargeable battery (storage battery) 48 connected to the output circuit 38 so that the rechargeable battery 48 can be charged when power is supplied to the cordless device 2.
[0096]
In the example shown in FIG. 30 (a), a switch Sw is provided for switching a circuit connection state between a state in which the output circuit 38 and the main body circuit 39 are connected and a state in which the output circuit 38 and the rechargeable battery 48 are connected. Further, the rechargeable battery 48 and the main circuit 39 are connected. Then, in a state where the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1, the switch Sw is connected to the main circuit 39 and the output circuit 38, the cordless device 2 is operated, and the switch Sw is turned on. By switching to a state in which the rechargeable battery 48 and the main body circuit 39 are connected, the rechargeable battery 48 can be charged. In a state where the cordless device 2 is separated from a predetermined arrangement position on the furniture 1, the cordless device 2 can be operated by supplying the power charged in the rechargeable battery 48 to the main circuit 39. .
[0097]
In the example shown in FIG. 30B, the output circuit 38, the main body circuit 39, and the rechargeable battery 48 are connected to each other via the control circuit 45, and the output circuit 38 is controlled by the control circuit 45 according to the operation status of the cordless device 2. The connection state between the main circuit 39 and the rechargeable battery 48 is controlled. For example, when the cordless device 2 is operated in a state where the cordless device 2 is arranged at a predetermined arrangement position on the furniture 1, the power supplied from the furniture 1 side by connecting the output circuit 38 and the main body circuit 39 is connected. When the cordless device 2 is activated and the cordless device 2 is stopped in a state where the cordless device 2 is disposed at a predetermined position on the furniture 1, the output circuit 38 and the rechargeable battery 48 are connected. When the rechargeable battery 48 is charged and the cordless device 2 is operated while the cordless device 2 is separated from a predetermined position on the furniture 1, the main circuit 39 and the rechargeable battery 48 are connected to the rechargeable battery 48. The charged power can be supplied to the main circuit 39 to operate the cordless device 2.
[0098]
【The invention's effect】
  As described above, the non-contact power feeding device according to claim 1 of the present invention is a primary coil for power to which power is supplied.Power transmission unit havingA cordless device having a secondary coil for power arranged in a magnetic flux generated by the primary coil for power in a state of being arranged at a predetermined arrangement position with respect to the furniture, and a cordless device for furniture And a notification means for notifying the predetermined arrangement position, so that the cordless device can be supplied with power by arranging the cordless device at the predetermined arrangement position on the furniture, and the power supplied to the cordless device can be driven. In addition, when using a cordless device on furniture, it is easy to connect to and disconnect from the power supply, and the device that supplies power is easy to use without taking up space. Functionality and design are not impaired, maintenance such as cleaning can be performed easily, and the position of the cordless device when supplying power to the cordless device can be easily identified. It is those that can be.
In addition, since the notifying means is composed of a plurality of light emitting diodes surrounding the installation position of the power transmission unit, it is notified that a portion surrounded by the plurality of light emitting diodes is a predetermined arrangement position of the cordless device. The user can recognize the predetermined arrangement position of the cordless device from the arrangement position of the light emitting diode and the blinking pattern.
[0105]
  MaTheNotify the degree of displacement between the position of the cordless device placed on the furniture and the predetermined position of the cordless device on the furniturethe aboveSince the notification means is provided, the cordless device can be more easily arranged at a predetermined arrangement position on the furniture based on the notification result from the notification means.
According to a second aspect of the present invention, in addition to the configuration of the first aspect, the furniture includes a signal primary coil, an auxiliary winding coil, a detection circuit, and a primary side circuit, and the cordless device includes a signal 2 A secondary coil and a secondary circuit, and the primary coil for signal is induced in accordance with an induced current generated in the secondary coil for power in a state where the cordless device is arranged at a predetermined arrangement position with respect to the furniture. A current is generated, and the secondary side circuit outputs a high-frequency signal corresponding to an output level of an induced current generated in the power secondary coil to the signal secondary coil, and the primary side The circuit controls the output of high-frequency current to the power primary coil based on the induced current generated in the signal primary coil, and the detection circuit is arranged at a predetermined position on the furniture for the cordless device. Auxiliary winding carp When it is detected that the induced current generated in the signal reaches the position detection level, a signal for operating the notification means is output, so that feedback control using the induced current generated in the signal primary coil is performed. This makes it possible to maintain the output voltage value of the induced current generated in the secondary coil for power within a certain range, and further, the cordless device is arranged at a predetermined arrangement position on the furniture and is used as an auxiliary winding coil. When the induced current generated reaches the position detection level, the notification means can be activated.
Moreover, the non-contact electric power feeder which concerns on Claim 3 is in the state arrange | positioned in the predetermined | prescribed arrangement position with respect to this furniture with the electric power transmission part which has the primary coil for electric power supplied with electric power. The cordless device includes a cordless device including a power secondary coil disposed in a magnetic flux generated by the power primary coil, and an informing means for notifying a predetermined arrangement position of the cordless device relative to the furniture. Power can be supplied to the cordless device by placing it at a predetermined location, and the power supplied to the cordless device can be used as driving power. When the cordless device is used on furniture, Can be easily connected and disconnected, and the equipment that supplies power is easy to use without taking up space, and the functionality and design of the furniture are not impaired. Scan is easy, yet is capable to easily identify the position of the cordless equipment when supplying power to the cordless device.
The furniture includes a signal primary coil and a primary circuit, and the cordless device includes a signal secondary coil and a secondary circuit. The signal primary coil includes a cordless device connected to the furniture. An induction current corresponding to a high-frequency signal supplied to the signal secondary coil is generated in a state of being arranged at a predetermined arrangement position, and the secondary side circuit is an induction generated in the power secondary coil. A high-frequency signal corresponding to the output level of the current is output to the signal secondary coil, and the primary side circuit supplies a high-frequency current to the power primary coil based on the induced current generated in the signal primary coil. In addition to controlling the output of the signal, when the induced current is generated in the primary coil for signal, the notification means is operated. Therefore, by feedback control using the induced current generated in the primary coil for signal, It becomes possible to maintain the output voltage value of the induced current generated in the secondary coil for force within a certain range, and further, the cordless device is arranged at a predetermined arrangement position on the furniture, and the signal secondary coil is predetermined. When the signal current is supplied and an induced current corresponding to the signal current is generated in the signal primary coil, the notification means can be activated.
[0106]
  And claims4The invention described in claim 1Any one of 3In addition to the configuration of the above, the furniture or the cordless device is provided with a magnetic body disposed between the power primary coil and the power secondary coil in a state where the cordless device is disposed at a predetermined arrangement position with respect to the furniture. Since the magnetic material is provided, diffusion of the magnetic flux is suppressed, the magnetic flux density around the secondary coil for power is improved, and the power supply efficiency to the cordless device is improved.
[0107]
  And claims5The invention described in claim 1 to claim 14In addition to any of the configurations described above, since the cordless device is provided with a rechargeable battery that is charged with the power supplied to the cordless device, the power of the rechargeable battery is maintained even when the cordless device is separated from the predetermined arrangement position. It can operate cordless equipment.
[Brief description of the drawings]
[Figure 1]referenceAn example of a form is shown, (a) is a perspective view, (b) is AA sectional drawing of (a).
[Figure 2]referenceThe other example of a form is shown, (a) is a perspective view, (b) is sectional drawing.
[Fig. 3]referenceIt is a partially expanded sectional view which shows operation | movement of a form.
[Fig. 4]referenceThe other example of a form is shown, (a) is a perspective view, (b) is sectional drawing.
FIG. 5 (a) to (c) are respectivelyReference formIt is a perspective view which shows another example.
[Fig. 6] (a) and (b) are respectivelyreferenceIt is a perspective view which shows the other example of a form.
[Fig. 7] (a) and (b) are respectivelyreferenceIt is a perspective view which shows the other example of a form.
[Figure 8] (a)referenceThe perspective view which shows the further another example of a form, (b) is a partial cross section figure.
FIG. 9 shows an embodiment of the present invention.oneIt is a one part perspective view which shows an example.
10 (a) to (c) are shown in any of FIGS. 7 to 9. FIG.ShapeIt is a conceptual diagram which shows an example of the operation | movement of a state.
FIG. 11 (a) and (b) are respectivelyreferenceIt is a perspective view which shows the other example of a form.
Fig. 12 (a) and (b) are the same as abovereferenceIt is a conceptual diagram which shows an example of the operation | movement of a form.
FIG. 13referenceIt is a perspective view which shows the other example of a form.
FIG. 14referenceThe further another example of a form is shown, (a) is a perspective view, (b) is a partial cross section figure.
FIG. 15referenceThe further another example of a form is shown, (a) is a perspective view, (b) is a partial cross section figure.
FIG. 16referenceThe further another example of a form is shown, (a) is a perspective view, (b) (c) is one part sectional drawing.
FIG. 17referenceThe further another example of a form is shown, (a) is a perspective view, (b) is AA sectional drawing of (a), (c) is BB sectional drawing of (a).
FIG. 18referenceAnother example of a form is shown, and (a) and (b) are some sectional views.
FIG. 19A is shown in any of FIGS.ShapeConceptual diagram showing an example of the behavior of the state, (b) is otherForm ofIt is a conceptual diagram which shows an example of the operation | movement of a state.
20 (a) and (b) are shown in FIG.referenceIt is a conceptual diagram which shows the example of operation | movement of a form.
FIGS. 21A and 21B are partial cross-sectional views for explaining the operation of still another embodiment of the present invention.
FIG. 22 is a block diagram showing an example of a circuit configuration in the present invention.
FIG. 23 (a)Is a bookThe block diagram which shows the other example of the circuit structure in invention, (B) is a block diagram showing a reference form of a circuit configurationIt is.
24 is a waveform of a current flowing through the power primary coil and the power secondary coil in the circuit configuration shown in FIGS. 22 and 23, a voltage value of the secondary output voltage, and a signal secondary coil and a signal primary coil; It is a graph which shows an example of the waveform of the electric current which flows.
25 is a waveform of a current flowing through the power primary coil and the power secondary coil in the circuit configuration shown in FIGS. 22 and 23, a voltage value of the secondary output voltage, and a signal secondary coil and a signal primary coil; It is a graph which shows the other example of the waveform of the flowing electric current.
FIG. 26 is a block diagram showing still another example of the circuit configuration in the present invention.
FIG. 27 (a)Is a bookThe block diagram which shows the further another example of the circuit structure in invention, (B) is a block diagram showing a reference form of a circuit configurationIt is.
FIGS. 28A and 28B are graphs showing examples of waveforms of currents flowing through the primary coil for power, the secondary coil for power, and the auxiliary winding coil in the circuit configurations shown in FIGS. 26 and 27, respectively. .
FIGS. 29A to 29D are conceptual diagrams showing the arrangement relationship between furniture and a cordless device, and FIGS. 29E to 29G are for electric power corresponding to the arrangement relationship in FIGS. It is a graph which shows an example of the waveform of the electric current which flows into a primary coil, a secondary coil for electric power, and an auxiliary winding coil.
FIGS. 30A and 30B are schematic cross-sectional views showing still other examples of the embodiment of the present invention, respectively.
FIGS. 31A and 31B are perspective views showing the prior art.
32 (a) and 32 (b) are perspective views showing still another conventional technique.
FIG. 33 is a block diagram showing an example of a circuit configuration in the prior art shown in FIG.
[Explanation of symbols]
  1 Furniture
  2 Cordless equipment
  3 Power transmission section
  4 Primary coil for electric power
5 Primary circuit
  7 Notification means
  9 Secondary coil for electric power
10 Secondary circuit
  18 Lighting equipment
  21 Sound generator
  22 Magnet
  23 Notification member
  34 Magnetic material
40 Primary coil for signal
41 Signal secondary coil
46 Detection circuit
47 Auxiliary winding coil
  48 rechargeable battery

Claims (5)

Furniture having a power transmission section having a primary coil for power to which power is supplied, and for power arranged in a magnetic flux by the primary coil for power in a state of being arranged at a predetermined arrangement position with respect to this furniture A position between a cordless device including a secondary coil, a predetermined arrangement position of the cordless device with respect to furniture, and a predetermined arrangement position of the cordless device arranged in the furniture and a predetermined arrangement position of the cordless device in the furniture An informing means for informing the degree of deviation ,
The non-contact power feeding device according to claim 1, wherein the informing means includes a plurality of light emitting diodes surrounding an installation position of the power transmission unit.   The furniture includes a signal primary coil, an auxiliary winding coil, a detection circuit, and a primary circuit, and the cordless device includes a signal secondary coil and a secondary circuit.
  The primary coil for signal generates an induced current according to the induced current generated in the secondary coil for power in a state where the cordless device is arranged at a predetermined arrangement position with respect to the furniture,
  The secondary side circuit outputs a high frequency signal corresponding to the output level of the induced current generated in the power secondary coil to the signal secondary coil,
  The primary circuit controls the output of a high-frequency current to the power primary coil based on the induced current generated in the signal primary coil,
  The detection circuit is a signal for operating the notification means when it is detected that the cordless device is arranged at a predetermined arrangement position on the furniture and the induced current generated in the auxiliary winding coil has reached the position detection level. The non-contact power feeding device according to claim 1, wherein   A power transmission unit having a power primary coil to which power is supplied, a furniture including a signal primary coil and a primary side circuit, and a power 1 in a state of being arranged at a predetermined arrangement position with respect to the furniture. A cordless device having a secondary coil for power, a secondary coil for signal, and a secondary side circuit arranged in a magnetic flux by a secondary coil; and an informing means for notifying a predetermined arrangement position of the cordless device with respect to furniture. ,
  The notification means is composed of a plurality of light emitting diodes surrounding the installation position of the power transmission unit,
  The primary coil for signal generates an induced current according to a high-frequency signal supplied to the secondary coil for signal in a state where the cordless device is arranged at a predetermined arrangement position with respect to the furniture,
  The secondary side circuit outputs a high frequency signal corresponding to the output level of the induced current generated in the power secondary coil to the signal secondary coil,
  The primary circuit controls the output of the high-frequency current to the power primary coil based on the induced current generated in the signal primary coil, and the notification is made when an induced current is generated in the signal primary coil. A contactless power supply device for operating a means. The furniture or the cordless device is provided with a magnetic body arranged between the power primary coil and the power secondary coil in a state where the cordless device is arranged at a predetermined arrangement position with respect to the furniture. A contactless power supply device according to any one of claims 1 to 3 . The contactless power supply device according to any one of claims 1 to 4 , wherein the cordless device is provided with a rechargeable battery that is charged with power supplied to the cordless device.

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