JP2010114009A - Power supply device, lighting device, and power supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power supply device capable of being installed outdoors by enabling power supply to a lighting device by using an electromagnetic induction phenomenon. <P>SOLUTION: The power supply device is provided with a case 5, a high frequency power generating part 6 equipped inside the case 5 and converting the power from an external power source 4 into high frequency AC power, at least one power supply part 7 equipped inside the case 5 and connected with the high frequency power generating part 6 and supplying the high frequency AC power converted in the high frequency power generating part 6 to a power receiving part 10 equipped with at least one lighting device 3 fitted detachably in the case 5, and a fixing retaining part 9 fixing and retaining the lighting device 3 with the case 5 at a position where the high frequency AC power can be supplied. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a power supply device, a lighting device mounted on the power supply device, and a power supply system including the power device and the lighting device.

  An example of a power supply system configured to include a power supply device and at least one or more lighting devices attached to the power supply device is a lighting duct system.

  This lighting duct system has been conventionally used mainly as lighting equipment for indoor use such as facilities and houses, and as a power supply device in which at least one lighting device is detachably suspended and electrically connected. It has a lighting duct.

  In addition, such a lighting duct system is electrically connected, for example, by bringing a power supply unit of a lighting duct that is electrically connected with a connection line connected to a hook ceiling with a power receiving unit such as a connection terminal provided in the lighting device. By setting the state, electric power is supplied to the lighting device.

For example, in Patent Document 1, a conductive portion (power feeding portion) provided in a lighting duct and a connection terminal (power receiving portion) provided in a connection portion of a lighting device attached to the lighting duct are brought into conduction. A technique relating to a lighting duct device having a power supply structure for supplying power to the lighting device by setting the state is disclosed.
JP 2005-183207 A

  However, in the prior art, since the contact portion between the conductive portion in the lighting duct and the connection terminal of the lighting device is exposed, it does not have a waterproof function. There was an inconvenience that it could not be installed outdoors.

  However, since the lighting duct having the conventional connection structure is configured by using an attachment structure in which the lighting fixture can be movably attached by exposing the connection terminal to the outside, a waterproof means is provided for the connection terminal. This is structurally difficult, and a new power supply method has been desired.

  Therefore, the present invention has been made in view of the above circumstances, and by enabling non-contact power supply to a lighting fixture, a power supply device that can be installed outdoors, a lighting device, and An object is to provide a power supply system.

  The power supply device of the invention according to claim 1 is provided with a housing; a high-frequency power generator provided inside the housing for converting power from an external power source into high-frequency AC power; and provided inside the housing. At least one of supplying the high-frequency AC power generated by the high-frequency power generating unit to a power receiving unit provided in at least one lighting device connected to the high-frequency power generating unit and detachably attached to the housing. A power supply unit; and a fixed holding unit that fixes and holds the lighting device at a position where the high-frequency AC power can be supplied to the housing.

  A power supply apparatus according to a second aspect of the present invention is the power supply apparatus according to the first aspect, wherein the at least one power supply section includes a plurality of power supply sections along the longitudinal direction of the casing. It is arranged inside the body.

  In Claim 1 and Claim 2, when the said power supply apparatus is comprised, for example as a lighting duct apparatus, the said housing | casing is comprised by elongate square shape. In this case, a slide port having an opening as the fixed holding portion and a slide engagement portion are formed in the bottom portion of the housing along the longitudinal direction. In addition, this fixed holding | maintenance part not only hold | maintains and fixes an illuminating device with respect to a housing | casing, but can slide freely along the longitudinal direction of a housing | casing.

  Further, when the power device is configured as, for example, a hooking and sealing type device, the casing is configured, for example, in a square shape or a cylindrical shape. In this case, a pair of hook holes as a fixed holding part are formed in the bottom part of the housing.

  Note that the configuration of the fixed holding unit is not limited to the above configuration, and any means may be used as long as the lighting device is held and fixed at a position where power can be supplied to the power supply device. You may comprise.

  The lighting device of the invention described in claim 3 is detachably attached to a power supply device having at least one power supply unit that converts power from an external power source into high-frequency AC power and supplies the high-frequency AC power. A housing; a power receiving unit that is provided inside the housing and receives the high-frequency AC power supplied from the power supply unit of the power supply device; and A fixed holding unit that fixes and holds the AC power at a position capable of receiving AC power; a light source; and a lighting circuit that turns on the light source by supplying high-frequency AC power received by the power receiving unit to the light source. is doing.

  3. The lighting device according to claim 3, wherein the lighting device is detachably attached to the power supply device according to claim 1 or 2, and the shape of the housing and the configuration of the fixed holding portion are attached. It is comprised according to the electric power supply apparatus.

  In addition, the light source is configured by using, for example, a light emitting diode, but may be configured by using other lamps, and the type of the lamp can be changed according to the usage form.

  A power supply system according to a fourth aspect of the invention includes the power supply device according to the first or second aspect; and the lighting device according to the third aspect.

  According to the first aspect of the present invention, the power supply unit is disposed inside the housing, and the power can be supplied to the lighting device in an electrically non-contact state with respect to the power receiving unit. A power supply device having a waterproof function that can be installed can be configured. Moreover, since there is no connection structure of a connection terminal, contact resistance reduces and the mounting property of an illuminating device can be improved.

  According to the invention of claim 2, the power supply device can be configured as a lighting duct device, and the same effect as in claim 1 can be obtained.

  According to the invention of claim 3, since it is possible to supply power to the lighting device utilizing the electromagnetic induction phenomenon, a waterproof function can be obtained, so that a lighting device that can be installed outdoors can be configured. . Moreover, the mounting property of the lighting device can be improved as compared with the prior art.

  According to the invention of claim 4, it is possible to configure a power supply system that can provide a waterproof function and can be installed outdoors by making it possible to supply power to the lighting device using the electromagnetic induction phenomenon. .

Embodiments of the present invention will be described below with reference to the drawings.
(First embodiment)
1 to 4 show a first embodiment of a power supply system according to the present invention, FIG. 1 is a block diagram showing the overall configuration of the power supply system of the first embodiment, and FIGS. FIG. 2 is a perspective view showing a configuration of a power supply device of the power supply system, and FIG. 3 is a perspective view showing a configuration of a lighting device attached to the power supply device of FIG. FIG. FIG. 4 is a cross-sectional view when the illumination device of FIG. 3 is attached to the power supply device of FIG.
In the first embodiment, a configuration when applied to, for example, a lighting duct system as a power supply system will be described.

  As shown in FIG. 1, the power supply system 1 of the first embodiment includes a power supply device 2, at least one illumination device 3 that is detachably attached to the power supply device 2, and an external power source. A commercial power supply 4 and a fixed holding portion 9 that is fixed and held at a position where power can be supplied to the lighting device 3 with respect to the power supply device 2 are configured.

  The power supply device 2 constitutes, for example, a lighting duct device, and includes a housing 5, a high frequency power generation unit 6 to which a commercial power source 4 is connected via a power line 4 a, and the high frequency power generation unit 6. The power supply unit 7 includes a plurality of power supply units 7 connected via a connection line 7a.

  The connection line 7a from the commercial power source 4 is connected to the high-frequency power generation unit 6 inside the housing 5 through, for example, hook ceiling. Then, alternating current from the commercial power source 4 is supplied to the high frequency power generation unit 6.

  The high frequency power generation unit 6 is provided so as to be sealed inside the housing 5, generates alternating current from the commercial power supply 4 by converting it into high frequency alternating current power, and connects the plurality of power supply units 7 via the connection line 7 a. Output.

A plurality of power supply units 7 are provided so as to be sealed inside the housing 5 in accordance with the type of the lighting device 3 to be described later. The power supply unit 7 is configured by using a power transmission coil or the like for supplying power using an electromagnetic induction phenomenon.
And the electric power supply part 7 supplies the said high frequency alternating current power generated by the said high frequency electric power generation part to the electric power receiving part 10 of the illuminating device 3 mentioned later using an electromagnetic induction phenomenon.
Note that one or more power supply units 7 are provided, and it is desirable to provide an optimum number according to the number and type of the lighting devices 3.
In the casing 5 of the power supply device 2 having such a configuration, the lighting device 3 is fixed and held at a position where the high-frequency AC power can be fed by the fixed holding unit 9.

On the other hand, the lighting device 3 receives the housing 8 fixedly held on the housing 5 of the power supply device 2 by the fixed holding unit 9 and the high-frequency AC power supplied from the power supply unit 7 of the power supply device 2. The power receiving unit 10 includes a lighting circuit 11 connected to the power receiving unit 10 via a connection line 10a, and a light source 12 connected to the lighting circuit 11 via a connection line 12a. Yes.
In the first embodiment, a configuration in which one illumination device 3 is provided will be described. However, a plurality of illumination devices 3 may be attached to the power supply device 2.

  On the side of the power supply device 2 inside the housing 8, a power receiving unit 10 is provided so as to be sealed. The power receiving unit 10 is configured using a power receiving coil or the like for receiving power using an electromagnetic induction phenomenon.

  The power receiving unit 10 receives the high-frequency AC power supplied from the power supply unit 7 using an electromagnetic induction phenomenon, and outputs it to the lighting circuit 11.

  The lighting circuit 11 turns on the light source 12 by converting the high-frequency AC power received by the power receiving unit 10 into DC power and supplying the DC power to the light source 12 through the connection line 12a.

  In addition, the light source 12 is comprised using the light emitting diode, for example. Of course, the light source 12 is not limited to the light emitting diode, and may be configured using other lamps or the like.

Next, specific configurations of the power supply device 2, the lighting device 3, and the fixed holding unit 9 will be described with reference to FIGS.
As shown in FIG. 2, the power supply device 2 is configured as a lighting duct device. Therefore, the housing 5 which is a main part of the lighting duct device is formed in, for example, a horizontally long rectangular parallelepiped, and a slide port 5A having an opening 5B at the bottom is formed inside.

  Further, slide engaging portions 5C as fixed holding portions projecting toward the opening 5B along the longitudinal direction are formed on both side edges of the opening 5B of the slide port 5A.

  When the lighting device 3 is mounted on the housing 5, a housing 8 of the lighting device 3 described later is inserted into the slide opening 5 </ b> A of the housing 5, and the housing 5 is inserted into the slide engagement portion 5 </ b> C of the housing 5. The engaging portion 9 </ b> A as a fixed holding portion provided on the outer peripheral portion 8 is engaged and attached.

  Thereby, as shown in FIG. 4, the illumination device 3 is detachably attached to the power supply device 2.

The plurality of power supply units 7 are arranged along the longitudinal direction on the upper side inside the housing 5.
Note that FIG. 2 is an example in which three power supply units 7 are arranged. Of course, the number is not limited to three, and a plurality of power supply units 7 may be arranged. The power supply unit 7 is connected to the high-frequency power generation unit 6 via a connection line 7a embedded in the housing 5 (not shown).

  As shown in FIG. 2, the high-frequency power generation unit 6 is provided and fixed on the side surface portion on the base end side of the housing 5.

  The casing 5 is made of, for example, aluminum die cast, and the outer surface and inner surface thereof are painted and have insulating properties. Of course, the housing 5 itself may be configured using an insulating member such as a resin.

  In addition, it is preferable to use a member or a configuration in which the outer surface of the housing 5 is insulative and the induced current does not flow due to the high frequency magnetic field generated by the power supply unit 7.

  On the other hand, the housing 8 of the illuminating device 3 is formed so as to be able to be inserted into the slide opening 5A of the power supply device 2, for example, and is configured in a cylindrical shape using an insulating member such as a resin.

  A pair of engaging portions 9 </ b> A are provided on both side surfaces of the housing 8. In addition, a power receiving unit 10 formed in a cylindrical shape in the same manner is disposed on the upper portion of the housing 8 on the power supply device 2 side.

  The power receiving unit 10 may be configured so that the charging unit of the power receiving unit 10 is not exposed to the outside, and the power receiving unit 10 itself may be configured to be exposed to the outside of the housing 8. The structure arrange | positioned inside may be sufficient.

  As described above, the lighting circuit 11 is embedded in the housing 8 (see FIG. 4). A lamp body 8B having a light source 12 is provided at the lower portion of the housing 8 via a connection portion 8A.

  A light source 12 is disposed at a predetermined position of the lamp body 8B, and a connection line 12a (see FIG. 1) connected to the light source 12 is connected to the lighting circuit 11 in the housing 8 via the lamp body 8B and the connection portion 8A. Connected (see FIG. 4).

  In addition, although the illuminating device 3 demonstrated the structure which has the housing | casing 8, the connection part 8A, and the lamp main body 8B, it is not limited to this, The housing | casing 8 which is a principal part, and the electric power receiving part 10 As long as the lighting circuit 11 and the light source 12 are provided, the lighting device may have any shape. Further, the lamp body 8B is not limited to the shape as shown in FIG. 3, and may be configured using, for example, a spot formed or other types of shapes.

  Further, in the power supply system 1 of the present embodiment, the slide port 5A, the opening 5B and the slide engagement portion 5C of the power supply device 2 and a pair of engagement portions 9A provided in the housing 8 of the illumination device 3 Constitutes a fixed holding portion 9.

By providing this fixed holding portion 9, even when the lighting device 3 is slid along the longitudinal direction of the power supply device 2, a position where power can be supplied using the electromagnetic induction phenomenon, that is, the power supply portion 7 is provided. It becomes possible to hold and fix at a position opposite to.
In the first embodiment, the holding and fixing portion 9 includes a pair of engagements provided on the slide port 5A, the opening 5B and the slide engagement portion 5C of the power supply device 2 and the housing 8 of the illumination device 3. The configuration is not limited to the joint portion 9A, and the housing 8 of the lighting device 3 may be held and fixed to the housing 5 using other methods.

  Therefore, according to such a configuration, it is possible to configure a power supply system 1 that can supply power in a contactless state between the power supply unit 7 and the power reception unit 10 using the electromagnetic induction phenomenon.

Next, the effect | action of this Embodiment is demonstrated using FIGS.
Now, it is assumed that the illumination device 3 is attached to the power supply device 2 (lighting duct device) as shown in FIG.

In this case, the housing 8 of the lighting device 3 is inserted into the slide opening 5A of the housing 5 of the power supply device 2, and the engaging portion 9A of the housing 8 is inserted into the slide engaging portion 5C of the housing 5. Engage and attach.
And the housing | casing 8 of the illuminating device 3 is slid so that the electric power receiving part 10 of the illuminating device 3 may oppose and arrange | position the electric power supply part 7 of the electric power supply apparatus 2. FIG.
Thereafter, when the user turns on a switch (not shown), the alternating current from the commercial power supply 4 is supplied to the high frequency power generation unit 6, and the high frequency power generation unit 6 converts the alternating current from the commercial power supply 4 into high frequency alternating current power. And output to the plurality of power supply units 7 through the connection line 7a.

  And the some electric power supply part 7 supplies the supplied high frequency alternating current power to the electric power receiving part 10 of the illuminating device 3 which is a non-contact state with the said electric power supply part 7 using an electromagnetic induction phenomenon ( Power).

  Then, on the lighting device 3 side, the lighting device 3 is held and fixed at a position where power can be supplied to the power supply device 2 by the fixing and holding unit 9. The high-frequency AC power supplied from the supply unit 7 can be received using an electromagnetic induction phenomenon.

  And the high frequency electric power received by the electric power receiving part 10 is converted into direct-current power by the lighting circuit 11, and is supplied to the light source 12 via the connection line 12a. As a result, the light source 12 is turned on.

  Therefore, according to the first embodiment, as described above, it is possible to supply power to the lighting device 3 using the electromagnetic induction phenomenon. The electric power supply system 1 which can do is realizable.

  In addition, according to the first embodiment, the lighting device 3 can be easily attached to the power supply device 2 by the fixed holding portion 9 without worrying about the contact state between the conductive portion and the contact terminal as in the prior art. Can do.

  In the above-described example, the case where alternating current from the commercial power supply 4 is supplied to the high-frequency power generation unit 6 and power is supplied to the plurality of power supply units 7 by turning on the switch has been described.

  However, if the power supply device 2 includes a plurality of power supply units 7, if power is supplied to the power supply unit 7 to which the lighting device 3 is not connected, power consumption may be wasted.

  Therefore, it is preferable to supply power only to the power supply unit 7 corresponding to the connected lighting device 3 when the switch is turned on and power is supplied from the commercial power supply 4 to the high-frequency power generation unit 6. For example, an individual switch that detects that the lighting device is connected to the fixed holding unit 9 and turns on the power supply from the high-frequency power generation unit 6 to the power supply unit 7 may be provided.

  As a result, power can be supplied only to the connected lighting device 3, and wasteful power consumption can be reduced. As an individual switch, for example, a push button switch that contacts a part of the lighting device 3 when connected may be provided in the power supply device 2, or the power supply device 2 and the lighting device 3 are connected to each other. It is also possible to provide a wireless function capable of communication in the positional relationship and turn on / off depending on the presence or absence of this communication.

  Moreover, you may comprise so that the supply electric power of the some electric power supply part 7 may mutually differ. As a result, it is possible to connect the lighting devices 3 having different power consumption ratings to one power supply device 2 to supply power.

  In this case, the shapes of the power supply device 2 and the fixed holding portion 9 of the lighting device 3 are changed in accordance with the power supplied from the power supply unit 7, and the lighting fixture 3 whose ratings do not match is erroneously connected. You may make it prevent.

  Furthermore, an individual switch that turns on and off by determining whether the power consumption rating of the lighting fixture 3 and the supply power of the power supply unit 7 match or not by the wireless function described above may be provided.

(Second Embodiment)
5 to 8 show a second embodiment of the power supply system according to the present invention, FIG. 5 is a perspective view showing an external configuration of the power supply apparatus according to the second embodiment, and FIG. FIG. 7 is a cross-sectional view of the power supply device of FIG. 5, and FIG. 8 is a cross-sectional view of the illumination device of FIG. 6.
5 to 8, the same components as those in the power supply system 1 of the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different portions are described.

  The power supply system 1 according to the second embodiment is not configured to include the lighting duct device according to the first embodiment, but is configured as a system including a hook ceiling type power supply device and a lighting device.

  Specifically, as shown in FIGS. 5 and 6, the power supply system 1 according to the second embodiment is configured to include a hook and ceiling type power supply device 2 </ b> A and a lighting device 3 </ b> A.

  As shown in FIGS. 5 and 7, the hook-ceiling-type power supply device 2A has a high-frequency power in which a housing 5X and a commercial power supply 4 are connected via a power supply line 4a in substantially the same manner as in the first embodiment. The generator 6 is configured to have one power supply unit 7 connected to the high-frequency power generator 6 via a connection line 7a.

  As shown in FIG. 5, the housing 5 </ b> X is formed in, for example, a substantially cylindrical shape, and the power supply unit 7 is disposed on the bottom surface, and a pair of hook holes 5 a are formed around the power supply unit 7. It is formed as a space isolated from the power supply unit 7. That is, the hook hole 5 a is configured to be airtight with respect to the power supply unit 7.

  The hook hole 5a is provided in an arc shape, and has an insertion hole 5a1 wider than the other end on one end side and an engagement hole 5a2 narrower than the one end on the other end side. An engagement step 5a3 is formed on the inner peripheral side of the engagement hole 5a2. And the connecting blade 9A1 provided in the upper part of 3 A of illuminating devices mentioned later is inserted by this hook hole 5a. Accordingly, the lighting device 3A is detachably attached to the power supply device 2A.

  In the second embodiment, the high-frequency power generator 6 is embedded in the housing 5X as shown in FIG. Moreover, it is desirable that the housing 5X be configured using an insulating member such as a resin. Furthermore, it is preferable to use a member or a configuration in which the outer surface of the housing 5X has an insulating property and an induced current does not flow due to a high-frequency magnetic field generated by the power supply unit 7.

  Further, the shape of the housing 5X is not limited to the shape shown in FIG. 5, and may be configured in other shapes as long as it has the high-frequency power generation unit 6, the power supply unit 7, and the hooking hole 5a. good.

  On the other hand, as shown in FIGS. 6 and 8, the hook-ceiling type lighting device 3A has a power receiving unit 10 that receives the high-frequency AC power supplied from the housing 8X and the power supply unit 7 of the power supply device 2A. And a lighting circuit 11 connected to the power receiving unit 10 via a connection line 10a, and a light source 12 connected to the lighting circuit 11 via a connection line 12a.

  The casing 8X is configured in substantially the same shape as the casing 5X of the power supply apparatus 2A using an insulating member such as resin. Further, a pair of connecting blades 9A1 are provided on the upper surface of the housing 8X to fit into the hooking holes 5a and to hold the lighting device 3 fixedly.

  The contact blade 9A1 has a length substantially the same as the length from the opening of the hooking hole 5a to the engagement step 5a3, and the tip is bent toward the inner peripheral side of the housing 8X. Has a wide end portion 9A2.

  When connecting the lighting device 3A to the power supply device 2A, the connection blade 9A1 provided on the upper portion of the lighting device 3A is inserted into the insertion hole 5a1 of the housing 5X, and in this state, the housing 5X is connected to the power supply device 3A. To rotate. At this time, the tip of the connection blade 9A1 engages with an engagement step portion 5a3 formed on the inner peripheral side of the engagement hole 5a2. Thereby, 3 A of illuminating devices are mounted | worn with the electric power supply apparatus 2A.

  In the upper part of the housing 8X on the side of the power supply device 2A, a power receiving unit 10 formed in a substantially cylindrical shape is disposed in the same manner. The power receiving unit 10 is formed so that the charging unit is not exposed to the outside. The power receiving unit 10 may be disposed inside the housing 8X.

  A lighting circuit 11 is embedded in the housing 8X (see FIG. 8). A light source 12 is disposed below the housing 8X, and the light source 12 is covered with an umbrella, a reflecting plate member, or the like attached to the lower portion of the housing 5X.

  The lighting device 3A is not limited to the configuration shown in FIGS. 6 and 8, and includes a housing 8X having a connection blade 9A1, a power receiving unit 10, a lighting circuit 11, and a light source 12, which are main parts. Any shape of lighting device may be used.

  In the power supply system 1 of the present embodiment, the pair of hook holes 5a provided in the housing 5X of the power supply device 2A and the pair of connection blades 9A1 provided in the housing 8X of the lighting device 3A are as follows. A fixed holding portion 9 is configured.

  Therefore, also in the second embodiment, by providing such a fixed holding portion 9, the power supply device 2A can be supplied with power using electromagnetic induction, that is, the power supply portion 7. It becomes possible to hold and fix the lighting device 3A at a position facing the.

  In the second embodiment, the hook-ceiling type power supply device 2A has a housing 5X that is not formed in a columnar shape, for example, a horizontally long rectangular shape, and at the same time, a plurality of the power supply devices 2A along the longitudinal direction of the housing 5X. The power supply unit 7 may be disposed, and a plurality of pairs of hook holes 5 a may be provided so as to correspond to the power supply units 7.

  Also in the second embodiment, the holding and fixing portion 9 is not limited to the hooking and sealing type hooking hole 5a and the connecting blade 9A1, and the housing 5X is illuminated using other methods. The housing 8X of the device 3A may be held and fixed.

  The power supply system 1 according to the second embodiment having such a configuration operates in substantially the same manner as in the first embodiment.

  Therefore, according to the second embodiment, even when the power supply system 1 is applied to a hook and ceiling type, the same effect as that of the first embodiment can be obtained.

  Conventionally, the hanging ceiling type lighting device has been exclusively for indoor use. However, if the power supply system of the second embodiment is used, it can be installed for outdoor use.

  Further, since the fixed holding portion 9 may be a hooked and ceiling type configuration, the manufacturing process can be simplified and the cost can be reduced, and the mounting property of the lighting device 3 is also good as in the conventional case.

  In this embodiment, different power may be supplied in the same manner as in the first embodiment, and a function for preventing a lighting device with a different rating from being connected or detecting that a lighting device has been connected is detected. Thus, an individual switch configured to be able to supply power may be provided.

The present invention is not limited to the embodiments described above, and various modifications can be made without departing from the spirit of the invention.

The block diagram which shows 1st Embodiment of the electric power supply system which concerns on this invention, and shows the whole structure of an electric power supply system. The perspective view which shows the structure of the external appearance of the power supply apparatus of the power supply system of FIG. The perspective view which shows the structure of the external appearance of the illuminating device with which the electric power supply apparatus of FIG. 2 is mounted | worn. Sectional drawing when the illuminating device of FIG. 3 is mounted on the power supply device of FIG. The perspective view which shows the structure of the external appearance of the electric power supply apparatus in 2nd Embodiment of the electric power supply system which concerns on this invention. The perspective view which shows the structure of the external appearance of the illuminating device with which the electric power supply apparatus of FIG. 5 is mounted | worn. Sectional drawing of the electric power supply apparatus of FIG. Sectional drawing of the illuminating device of FIG.

Explanation of symbols

1 ... Power supply system,
2, 2A ... power supply device,
3, 3A ... lighting device,
4 ... Commercial power supply,
5, 5X ... Case,
5A ... slide opening,
5B ... Opening,
5C ... slide engaging part,
5a ... Hook hole,
6 ... high-frequency power generator,
7: Power supply unit,
8, 8X ... Case,
8A ... connection part,
8B ... lamp body,
9A ... engaging portion,
9 ... fixed holding part,
9A1 ... connecting blade,
10: Power receiving unit,
11 ... lighting circuit,
12 ... Light source.

Claims (4)

A housing;
A high-frequency power generation unit provided inside the housing for converting power from an external power source into high-frequency AC power;
The high-frequency alternating current generated by the high-frequency power generating unit in a power receiving unit provided in at least one lighting device that is provided inside the housing and is connected to the high-frequency power generating unit and is detachably attached to the housing. At least one power supply for supplying power;
A fixed holding part for fixing and holding the lighting device at a position where the high-frequency AC power can be fed with respect to the housing;
A power supply device comprising:   The power supply device according to claim 1, wherein the at least one power supply unit includes a plurality of power supply units disposed in the housing along a longitudinal direction of the housing. A casing that is detachably attached to a power supply device that has at least one power supply unit that converts power from an external power source into high-frequency AC power and supplies the high-frequency AC power;
A power receiving unit that is provided inside the housing and receives the high-frequency AC power supplied from the power supply unit of the power supply device;
A fixed holding unit that fixes and holds the casing at a position where the high-frequency AC power can be received with respect to the power supply device;
With a light source;
A lighting circuit for turning on the light source by supplying high-frequency AC power received by the power receiving unit to the light source;
An illumination device comprising: The power supply device according to claim 1 or claim 2;
A lighting device according to claim 3;
An electric power supply system comprising:

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