JP2021022478A - Power source device and lighting device - Google Patents

Abstract

To inhibit an insulation sheet from protruding from a slit during assembly of a power source case and a power source cover.SOLUTION: A projecting part 40 is provided at a side wall part 26 of a power source cover 25. The projecting part 40 presses a side wall part 36 of an insulation sheet 35 from the outer side. A slit 27 is formed at the side wall part 26 of the power source cover 25. The slit 27 opens at a position below an upper end part of the side wall part 36 of the insulation sheet 35 and above the projecting part 40.SELECTED DRAWING: Figure 4

Description

The present invention relates to a power supply device and a luminaire.

Conventionally, a lighting fixture including a wireless communication module that receives a wireless signal for dimming control has been known (see, for example, Patent Document 1).

Patent Document 1 discloses a configuration in which a circuit board on which a wireless communication module is mounted is housed in a power supply housing, and a slit (opening) through which a wireless signal passes is formed in a side plate portion of the power supply housing. There is.

JP-A-2018-139202

Here, the inventor of the present application makes it easy to assemble a power supply housing by using a box-shaped power supply case that opens upward and a power supply cover that is formed in a box shape that opens downward and is fitted into the power supply case. I thought. We also considered arranging an insulating sheet extending along the bottom and side walls of the power supply case between the metal power supply case and the circuit board.

However, in such a configuration, when the power supply cover is fitted toward the power supply case, the upper end of the side wall portion of the insulating sheet passes through the slit and protrudes to the outside of the power supply cover, resulting in poor assemblability. There is a risk of

The present invention has been made in view of this point, and an object of the present invention is to prevent the insulating sheet from popping out from the slit when the power supply case and the power supply cover are assembled.

The present invention includes a box-shaped power supply case that opens upward, a power supply cover that is formed in a box shape that opens downward and fitted into the power supply case, and a circuit board housed inside the power supply case. The following solutions were taken for power supply devices equipped with.

That is, the first invention includes an insulating sheet that is arranged between the power supply case and the circuit board and extends along the bottom portion and the side wall portion of the power supply case, and is provided on the side wall portion of the power supply case or the power supply cover. Is provided with a protrusion that protrudes inside the power supply case and presses the side wall portion of the insulating sheet, and the side wall portion of the power supply cover is below the upper end portion of the side wall portion of the insulating sheet and the protrusion portion. A slit is formed at a position above the position.

In the first invention, a protrusion is provided on the side wall of the power supply case or the power supply cover. The protrusion presses the side wall of the insulating sheet. A slit is formed in the side wall portion of the power supply cover. The slit is opened at a position below the upper end of the side wall of the insulating sheet and above the protrusion.

As a result, it is possible to prevent the side wall portion of the insulating sheet from popping out from the slit when the power supply case and the power supply cover are assembled.

Specifically, when the power supply cover is fitted toward the power supply case, the side wall portion of the insulating sheet is pressed by the protrusion. As a result, the side wall portion of the insulating sheet is in a state of being inclined toward the inside of the power supply case. After that, the upper end of the side wall of the insulating sheet crosses the opening position of the slit, but since the upper end of the insulating sheet is inclined inward, it is possible to prevent it from popping out of the slit.

In the second invention, in the first invention, the protrusion is provided on the side wall of the power supply case.

In the second invention, by providing the protrusion on the side wall of the power supply case, when the insulating sheet is arranged on the power supply case, the side wall of the insulating sheet is pressed by the protrusion. Therefore, while the power supply cover is fitted toward the power supply case, the upper end portion of the insulating sheet is maintained in an inwardly inclined state, and the insulating sheet can be prevented from popping out from the slit.

In the third aspect of the invention, in the first invention, a through hole is formed in the side wall portion of the power supply case, and the protrusion portion is provided in the side wall portion of the power supply cover and is fitted into the through hole. The power supply case and the power supply cover are fixed to each other.

In the third invention, a through hole is formed in the side wall portion of the power supply case, and a protrusion is provided on the side wall portion of the power supply cover. The power supply case and the power supply cover are fixed by fitting the protrusions into the through holes.

As a result, the insulation sheet can be prevented from popping out from the slit, and the power supply case and the power supply cover can be fixed by the protrusions.

A fourth invention is a lighting fixture including the power supply device according to any one of claims 1 to 3 and a lamp unit that lights up by the electric power supplied from the power supply device.

In the fourth invention, the lighting fixture is configured by supplying electric power to the lamp unit from the power supply device according to any one of the first to third inventions.

According to the present invention, it is possible to prevent the insulating sheet from popping out from the slit when assembling the power supply case and the power supply cover.

It is a side view which shows the structure of the lighting equipment which concerns on this Embodiment 1. It is a front sectional view which shows the structure of the power supply device. It is a front sectional view for demonstrating the trouble that an insulating sheet pops out from a slit. It is a front sectional view for demonstrating the work of fitting a power supply cover into a power supply case. It is a front sectional view which shows the structure of the power source device which concerns on this Embodiment 2. It is a front sectional view for demonstrating the work of fitting a power supply cover into a power supply case. It is a front sectional view which shows the structure of the power supply device which concerns on this Embodiment 3. It is a front sectional view for demonstrating the work of fitting a power supply cover into a power supply case.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. It should be noted that the following description of the preferred embodiment is essentially merely an example and is not intended to limit the present invention, its application or its use.

<< Embodiment 1 >>
As shown in FIG. 1, the luminaire 1 is, for example, a downlight embedded in the ceiling surface 5. The luminaire 1 includes a lamp unit 10 and a power supply device 20 for lighting the lamp unit 10.

The lamp unit 10 includes a fixture main body 11, a mounting frame 12, an LED module 13, and a heat radiating member 14. The appliance main body 11 is fixed to the ceiling surface 5 by the mounting frame 12 in a state of being inserted into the mounting hole 6 of the ceiling surface 5.

The LED module 13 is configured by mounting a plurality of LEDs (Light Emitting Diodes) on the lower surface of a rectangular substrate. The LED is, for example, a white LED for lighting.

The heat radiating member 14 has a plurality of fins made of aluminum or an aluminum alloy. The LED module 13 is attached to the lower surface of the heat radiating member 14. As a result, the heat generated from the LED module 13 is transmitted to the heat radiating member 14 and radiated into the atmosphere.

One end of the power cable 15 is connected to the lamp unit 10. A power supply device 20 is connected to the other end of the power cable 15. The power supply device 20 includes a metal power supply case 21 and a metal power supply cover 25.

The power supply case 21 is formed in a box shape with an opening at the top (see FIG. 2). The power supply case 21 is formed in a rectangular parallelepiped shape that is long in the left-right direction in FIG. The power supply case 21 is arranged behind the ceiling. The power supply case 21 is provided with a pair of mounting legs 21a. The mounting legs 21a are fixed to the ceiling.

As shown in FIG. 2, the circuit board 30 is housed inside the power supply case 21. A lighting circuit (not shown) for lighting the lamp unit 10 and a wireless communication module 31 as a circuit component are mounted on the circuit board 30.

An insulating sheet 35 is arranged between the power supply case 21 and the circuit board 30. The insulating sheet 35 extends along the bottom and side wall 22 of the power supply case 21.

The power supply cover 25 is formed in a box shape with an opening at the bottom. The power supply cover 25 is formed in a rectangular parallelepiped shape that is long in the left-right direction in FIG. A slit 27 is formed in the side wall portion 26 of the power supply cover 25. The slit 27 extends in the longitudinal direction (left-right direction in FIG. 1) of the power supply cover 25. The opening length of the slit 27 is longer than the length of the insulating sheet 35 in the longitudinal direction (left-right direction in FIG. 1).

The slit 27 is opened in the side wall portion 26 of the power supply cover 25 at a position below the upper end portion of the side wall portion 36 of the insulating sheet 35 and above the protrusion 40.

A protrusion 40 is provided on the side wall portion 26 of the power supply cover 25. The protruding portion 40 projects from the inner surface of the side wall portion 26 of the power supply cover 25 to the inside of the power supply case 21. The protrusion 40 is formed by extruding a part of the side wall portion 26 of the power supply cover 25 from the outside to bulge it. A plurality of protrusions 40 are provided along the longitudinal direction of the power supply cover 25 (three in FIG. 1). The protrusions 40 are provided on the left and right side wall portions 26 in FIG. 2, respectively. The lower portion of the protrusion 40 is formed in an arc shape.

The protrusion 40 presses the side wall 36 of the insulating sheet 35 from the outside. As a result, the side wall portion 36 of the insulating sheet 35 is in a state of being inclined toward the inside of the power supply case 21.

An upper insulating sheet 45 is arranged on the power supply cover 25. The upper insulating sheet 45 extends along the ceiling portion and the side wall portion 26 of the power supply cover 25. The lower end of the side wall 46 of the upper insulating sheet 45 is supported by the protrusion 40. The upper insulating sheet 45 ensures the insulation between the wireless communication module 31 and the power supply cover 25.

A lock portion 41 is provided on the side wall portion 26 of the power supply cover 25. The lock portion 41 projects into the power supply case 21 at a position below the protrusion 40 on the side wall portion 26 of the power supply cover 25. A through hole 42 is formed in the side wall portion 22 of the power supply case 21.

The lock portion 41 is fitted into the through hole 42 when the power supply case 21 and the power supply cover 25 are assembled. As a result, the power supply case 21 and the power supply cover 25 are locked and fixed.

As described above, by providing the protrusion 40 on the side wall 26 of the power supply cover 25, it is possible to prevent the side wall 36 of the insulating sheet 35 from protruding from the slit 27.

Hereinafter, when the work of fitting the power supply cover 25 into the power supply case 21 is performed, when the protrusion 40 is not provided on the side wall portion 26 of the power supply cover 25 (see FIG. 3), the protrusion 40 is provided. The case (see FIG. 4) will be described with reference to the drawings.

In the example shown in FIG. 3, the protrusion 40 is not provided on the side wall portion 26 of the power supply cover 25. Further, the side wall portion 36 of the insulating sheet 35 is inclined so as to spread outward toward the upper side.

Here, when the power supply cover 25 is fitted toward the power supply case 21, the upper end portion of the insulating sheet 35 may enter the gap between the power supply cover 25 and the upper insulating sheet 45. Then, if the fitting operation is continued, the side wall portion 36 of the insulating sheet 35 may protrude from the slit 27.

On the other hand, in the example shown in FIG. 4, the protrusion 40 is provided on the side wall portion 26 of the power supply cover 25. Here, when the power supply cover 25 is fitted toward the power supply case 21, the upper end portion of the side wall portion 36 of the insulating sheet 35 comes into contact with the protrusion 40. Then, when the fitting operation is continued, the side wall portion 36 of the insulating sheet 35 is pressed from the outside by the protrusion 40. As a result, the side wall portion 36 of the insulating sheet 35 is in a state of being inclined toward the inside of the power supply case 21.

After that, the upper end portion of the side wall portion 36 of the insulating sheet 35 crosses the opening position of the slit 27, but since the upper end portion of the insulating sheet 35 is inclined inward, it is possible to suppress the protrusion from the slit 27. it can.

<< Embodiment 2 >>
FIG. 5 is a front sectional view showing the configuration of the power supply device according to the second embodiment. Hereinafter, the same parts as those in the first embodiment are designated by the same reference numerals, and only the differences will be described.

As shown in FIG. 5, the power supply case 21 is formed in a box shape with an upper opening. An insulating sheet 35 is arranged between the power supply case 21 and the circuit board 30. The insulating sheet 35 extends along the bottom and side wall 22 of the power supply case 21.

A protrusion 40 is provided on the side wall 22 of the power supply case 21. The protrusion 40 projects from the inner surface of the side wall portion 22 of the power supply case 21 to the inside of the power supply case 21. The protrusion 40 presses the side wall 36 of the insulating sheet 35 from the outside. As a result, the side wall portion 36 of the insulating sheet 35 is in a state of being inclined toward the inside of the power supply case 21.

The power supply cover 25 is formed in a box shape with an opening at the bottom. A slit 27 is formed in the side wall portion 26 of the power supply cover 25. The slit 27 is opened in the side wall portion 26 of the power supply cover 25 at a position below the upper end portion of the side wall portion 36 of the insulating sheet 35 and above the protrusion 40.

As shown in FIG. 6, the side wall portion 22 of the power supply case 21 is provided with a protrusion 40. Therefore, when the insulating sheet 35 is arranged in the power supply case 21, the side wall portion 36 of the insulating sheet 35 is pressed from the outside by the protrusion 40. As a result, the side wall portion 36 of the insulating sheet 35 is in a state of being inclined toward the inside of the power supply case 21.

Then, when the power supply cover 25 is fitted toward the power supply case 21, the upper end portion of the side wall portion 36 of the insulating sheet 35 crosses the opening position of the slit 27, but the upper end portion of the insulating sheet 35 faces inward. Since it is inclined to, it is possible to prevent it from popping out from the slit 27.

In the present embodiment, the power supply cover 25 is not provided with the protrusion 40, and the upper insulating sheet cannot be supported. Therefore, the upper insulating sheet is omitted. However, for example, the upper insulating sheet may be attached to the power supply cover 25 by using double-sided tape or the like.

<< Embodiment 3 >>
FIG. 7 is a front sectional view showing the configuration of the power supply device according to the third embodiment. Hereinafter, the same parts as those in the first embodiment are designated by the same reference numerals, and only the differences will be described.

As shown in FIG. 7, the power supply case 21 is formed in a box shape with an upper opening. An insulating sheet 35 is arranged between the power supply case 21 and the circuit board 30. The insulating sheet 35 extends along the bottom and side wall 22 of the power supply case 21. A through hole 42 is formed in the side wall portion 22 of the power supply case 21.

The power supply cover 25 is formed in a box shape with an opening at the bottom. A slit 27 is formed in the side wall portion 26 of the power supply cover 25. The slit 27 is opened in the side wall portion 26 of the power supply cover 25 at a position below the upper end portion of the side wall portion 36 of the insulating sheet 35 and above the protrusion 40.

A protrusion 40 is provided on the side wall portion 26 of the power supply cover 25. The protruding portion 40 projects from the inner surface of the side wall portion 26 of the power supply cover 25 to the inside of the power supply case 21. The protrusion 40 presses the side wall 36 of the insulating sheet 35 from the outside. As a result, the side wall portion 36 of the insulating sheet 35 is in a state of being inclined toward the inside of the power supply case 21.

The protrusion 40 is fitted into the through hole 42 when the power supply case 21 and the power supply cover 25 are assembled. As a result, the power supply case 21 and the power supply cover 25 are locked and fixed.

As shown in FIG. 8, when the power supply cover 25 is fitted toward the power supply case 21, the upper end portion of the side wall portion 36 of the insulating sheet 35 comes into contact with the protrusion 40. Then, when the fitting operation is continued, the side wall portion 36 of the insulating sheet 35 is pressed from the outside by the protrusion 40. As a result, the side wall portion 36 of the insulating sheet 35 is in a state of being inclined toward the inside of the power supply case 21.

After that, the upper end portion of the side wall portion 36 of the insulating sheet 35 crosses the opening position of the slit 27, but since the upper end portion of the insulating sheet 35 is inclined inward, it is possible to suppress the protrusion from the slit 27. it can. Further, the power supply case 21 and the power supply cover 25 are fixed by fitting the protrusion 40 into the through hole 42.

As a result, the protrusion 40 can prevent the insulating sheet 35 from popping out from the slit 27 and fix the power supply case 21 and the power supply cover 25.

As described above, the present invention is extremely useful and industrially applicable because it has a highly practical effect of suppressing the insulating sheet from popping out of the slit when assembling the power supply case and the power supply cover. The possibility is high.

1 Lighting equipment 10 Lighting equipment unit 20 Power supply device 21 Power supply case 22 Side wall part 25 Power supply cover 26 Side wall part 27 Slit 30 Circuit board 35 Insulation sheet 36 Side wall part 40 Protrusion part 42 Through hole

Claims (4)

It is provided with a box-shaped power supply case that opens upward, a power supply cover that is formed in a box shape that opens downward and fitted into the power supply case, and a circuit board housed inside the power supply case. It ’s a power supply,
An insulating sheet arranged between the power supply case and the circuit board and extending along the bottom and side walls of the power supply case is provided.
The side wall of the power supply case or the power supply cover is provided with a protrusion that protrudes inside the power supply case and presses the side wall of the insulating sheet.
A power supply device in which a slit is formed in the side wall portion of the power supply cover at a position below the upper end portion of the side wall portion of the insulating sheet and above the protrusion portion. In claim 1,
The protrusion is a power supply device provided on the side wall of the power supply case. In claim 1,
A through hole is formed in the side wall portion of the power supply case.
A power supply device in which the protrusion is provided on the side wall of the power supply cover and is fitted into the through hole to fix the power supply case and the power supply cover. The power supply device according to any one of claims 1 to 3.
A lighting fixture including a lamp unit that lights up by electric power supplied from the power supply device.

Images