JP4483082B2 - Operating device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an operating device having an illumination function that can illuminate an operation unit in a dark place by providing an illumination function.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there are electronic device operation devices that are used even in dark places, such as in-vehicle recording / reproducing devices, which illuminate the operation unit itself or the periphery of the operation unit to improve the operability of the operation unit in a dark place. . This operation device can adjust the reproduction volume and tune the radio by rotating the operation unit.
[0003]
As shown in FIG. 6, the operation device 100 including such an operation unit includes a printed circuit board 101, a rotary switch 102 mounted on the printed circuit board 101, and a circular opening 103 formed in the housing. Mounted on the printed circuit board 101, an operation unit 106 that protrudes to the outside and engages with the operation element 105 of the rotary switch 102, a light guide 107 that is exposed to the outside through the opening 103 and is provided in the vicinity of the operation unit 106 And a light emitting element 108 that illuminates the operation unit or its periphery via the light guide 107.
[0004]
In this operation device 100, a printed circuit board 101 made of a rigid copper clad laminate on which a rotary switch 102 and a light emitting element 108 are mounted is disposed on the back side of the control panel 110.
[0005]
A rotary switch 102 that performs volume adjustment, channel selection, and the like includes an operation element 105 and an operation unit 106 that rotates the operation element 105.
[0006]
The operation unit 106 is formed in a cylindrical shape and protrudes from a circular opening 103 formed in the control panel 110 of the operation device 100. As shown in FIG. 6, the operating unit 105 is attached to the operating unit 106, and when the operating unit 106 is rotated, the operating unit 105 is also rotated.
[0007]
An operator 105 that is rotated by the operation unit 106 is attached to the case main body 111 of the rotary switch 102. In the case body 111, a plurality of switching terminals (not shown) are arranged near the operation element 105. When the operation element 105 is rotated, the switching terminals in the case main body 111 are sequentially turned on.
[0008]
The case main body 111 through which the operation element 105 is inserted is formed in a substantially square shape. Further, the case main body 111 is formed in a substantially U-shaped cross section by being bent at the periphery, and is disposed on the printed circuit board 101.
[0009]
The light guide 107 formed so as to surround the operation unit 106 is formed in a substantially ring shape from a light-transmitting polycarbonate (PC) resin or the like. The light guide 107 is disposed around the operation unit 106 protruding from the control panel 110 of the operation device 100 and faces outward from the opening 103.
[0010]
A light emitting element 108 that illuminates the operation unit 106 by irradiating the light guide 107 is a light emitting element such as an LED (light emitting diode), and is a printed circuit board 101 disposed in the vicinity of the control panel 110 of the housing. On top, it is mounted in a substantially circular shape facing the light guide 107. Accordingly, the light emitting element 108 emits light from the light guide 107 to the outside of the control panel 110, and illuminates the operation unit 106 and its periphery. Thereby, the operability of the operation unit 106 can be improved even in a dark place.
[0011]
In this operation device 100, when the operation unit 106 is rotated, the operation element 105 mounted therein is rotated, and the switching terminals provided on the printed circuit board 101 are sequentially conducted to adjust the volume of the car audio. Channel selection is possible.
[0012]
Moreover, there exists an operation apparatus which illuminates the operation part and the periphery of the operation part as shown in FIG. The operation device 120 protrudes to the outside through a printed circuit board 121, a rotary switch 122 mounted on the printed circuit board 121, and a circular opening 123 formed in the electronic device casing, and an operation element 125 of the rotary switch 122. An operation portion 126 that engages with the light guide body, a light guide 127 that is exposed to the outside through the opening 123 and is provided in the vicinity of the operation portion 126, and is mounted on the printed circuit board 121. Or it has the light emitting element 128 which illuminates the periphery.
[0013]
The rotary switch 122 that performs volume adjustment and channel selection is configured such that the operation element 125 is rotatably supported by a case main body 129 disposed on the printed circuit board 121, and the operation element 125 is rotated by the operation unit 126. The contact terminals (not shown) arranged inside the case body are sequentially conducted. Further, the outer diameter of the operation portion 126 that rotates the operation element 125 is formed to be smaller than the outer diameter of the case main body 129.
[0014]
A light guide 127 disposed on the inner peripheral side of the opening 123 formed in the electronic device casing and surrounding the operation unit 126 is made of a light-transmitting polycarbonate (PC) resin or the like. It is formed in a substantially ring shape.
[0015]
The light emitting element 128 that illuminates the rotary switch 122 and its periphery is mounted in a substantially circular shape so as to surround the case main body 129 of the printed circuit board 121.
[0016]
[Problems to be solved by the invention]
However, since the light emitting element 108 is mounted facing the light guide 107 as shown in FIG. 6 in the operating device 100, the light from the light emitting element 108 is directly irradiated onto the light guide 107, and the light emitting element 108 108 bright spots are clearly recognized, and light unevenness due to the bright spots occurs.
[0017]
In this case, if the mounting position of the light emitting element 108 is shifted from the light guide 107 in the outer peripheral direction of the operation unit 106, it becomes difficult to mount other components near the operation unit 106, and the mounting position of the peripheral components is restricted. Therefore, it is difficult to perform high-density mounting on the printed circuit board 101.
[0018]
Further, as shown in FIG. 7, in the operation device 120, since the diameters of the operation unit 126 and the light guide 127 are smaller than the diameter of the case main body 129, the light emitting element 128 is disposed outside the light guide 127. The In addition, a corner portion of the case main body 129 of the rotary switch 122 is disposed in the vicinity of a part of the light emitting element 128. For this reason, the light from the light emitting element 128 is obstructed by the case main body 129, and light unevenness may occur in the light emitted from the light guide 127.
[0019]
Furthermore, in the conventional rotary switches 102 and 122, the arrangement positions of the light emitting elements 108 and 128 are determined, and the illumination range and the shapes of the rotary switches 102 and 122 are limited.
[0020]
Therefore, the present invention mounts a light emitting element on a substrate disposed on the upper part of the case body of the rotary switch, and prevents light from being generated without being blocked by the case body. An object of the present invention is to provide an operating device that can be mounted and has a degree of freedom in mounting a peripheral portion of a rotary switch.
[0021]
[Means for Solving the Problems]
An operating device to which the present invention is applied has a main printed circuit board disposed in a housing, a main body part and an operation element provided on the main body part, and a variable electrical element attached to the main printed circuit board, An operation portion that protrudes outside from the opening formed in the housing and engages with an engagement portion formed in the operation element of the variable electrical element, and faces the outside from the opening formed in the housing. A light guide provided in the vicinity of the operation unit, a sub-print board spaced from the main print board and disposed between the variable electrical element and the light guide, and the light guide to the sub-print board. A plurality of light emitting elements mounted over the entire circumference of the operation unit so as to face the lower surface of the operation unit through a body, and the light emitting element attached to the sub printed circuit board includes the operation element. Is smaller than the outer diameter of the operation part. Is disposed, the auxiliary printed board is electrically connected to the main printed circuit board And is housed in a housing portion provided continuously to the opening of the housing. The light emitting element mounted on the sub printed circuit board illuminates the operation unit or the periphery of the operation unit via the light guide.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an operation device to which the present invention is applied will be described with reference to the drawings, taking as an example a case where the operation device is used for a control panel of an in-vehicle audio device. 1, 2, and 4, the configuration of the operating device serving as a reference example of the present invention will be described, and in FIG. 5, the configuration of the operating device to which the present invention is applied will be described. As shown in FIG. 3, the electronic device is formed in a 1 DIN size that can be mounted on a vehicle, and a substantially circular opening 3 is formed in the control panel 2. In the opening 3, an operation unit 5 of the rotary switch 4 is projected, and a light guide 7 that is formed around the operation unit 5 and illuminates the operation unit 5 is disposed. The control panel 2 has a display unit 8 on which the volume, the selected channel, and the like are displayed.
[0023]
In this audio device, when the user turns on the light emitting element 10, the light from the light emitting element 10 is emitted outward through the light guide 7, and the operation unit 5 and the periphery of the operation unit 5 are illuminated. . Therefore, the operability of the control panel 2 in a dark place can be improved.
[0024]
As shown in FIGS. 1A and 1B, an operating device 1 used for such an audio device or the like has a rotary switch 4 for adjusting the reproduction volume of car audio and the front side of the control panel 2. The light-transmitting light guide 7 provided around the operation unit 5 and the sub-printed circuit board 12 mounted on the case main body 11 of the rotary switch 4 are mounted via the light guide 7. The light emitting element 10 which illuminates the operation part 5 or its periphery is provided.
[0025]
The rotary switch 4 includes an operation element 6 that is rotatably supported by a case body 11 mounted on a main printed circuit board 15 disposed on the back side of the control panel 2. Further, the operating element 6 is engaged with an operating section 5 for rotating the operating element 6.
[0026]
As shown in FIGS. 1A and 1B and FIG. 2, the operation element 6 is formed in a substantially cylindrical shape, and is cut out in a substantially L-shaped cross section in the vertical direction. The engaging part 14 is formed. The operation element 6 is supported by the case body 11 so that the base end side is rotatable.
[0027]
The case main body 11 that rotatably supports the operation element 6 is composed of a substantially rectangular parallelepiped casing, and lead terminals 16 that electrically connect the rotary switch 4 to the main printed circuit board 15 project downward from the side surface of the case main body. Has been. And the case main body 11 is mounted on the switch mounting part 18 of the main printed circuit board 15 mentioned later, and is soldered. Further, the case body 11 is inserted into a connection hole 19 in which the lead terminal 16 is formed in the main printed circuit board 15, so that electrical connection with the main printed circuit board 15 is achieved. A plurality of contact terminals (not shown) are disposed in the case body 11.
[0028]
The operation portion 5 that is engaged with the operation element 6 and rotates the operation element 6 by rotating the operation element 6 is formed in a substantially cylindrical shape having a larger diameter than the operation element 6. The operation portion 5 has an engagement step portion 21 that is engaged with an engagement portion 20 formed on the light guide 7 described later on the outer peripheral surface. The operation unit 5 is engaged with the operation element 6, so that a gap in which a sub printed circuit board 12 on which a light emitting element 10 described later is mounted is disposed between the lower surface side and the upper surface of the case body 11. Is formed. Such an operation unit 5 protrudes from the opening 3 formed in the control panel 2 to a height that can be gripped by the user.
[0029]
In such a rotary switch 4, the operation unit 5 protrudes from the opening 3 formed in the control panel 2 of the electronic device to a grippable height. When the operation unit 5 is rotated, the rotary switch 4 also rotates the operation element 6 so that the contact terminals mounted in the case body 11 are sequentially conducted to adjust the volume of the car audio or the car switch. Radio channel can be selected.
[0030]
The main printed circuit board 15 on which the rotary switch 4 is placed is made of a rigid copper-clad laminate, and the substrate surface is disposed on the back side of the control panel 2. The main printed circuit board 15 is formed with a switch mounting portion 18 on which the rotary switch 4 is mounted, and a conductive pattern 22 for transmitting an electric signal of the rotary switch 4 is printed by a print etching method or the like. Further, the main printed circuit board 15 has a connector 23 that is electrically connected to a sub printed circuit board 12 on which a light emitting element 10 to be described later is mounted attached in the vicinity of the switch mounting portion 18. The main printed circuit board 15 is arranged so that the operation element 6 of the rotary switch 4 faces outward from the opening 3 formed in the control panel 2.
[0031]
The mounting plate 25 that is disposed on the case main body 11 and on which the light emitting element 10 is mounted is mounted on the case main body 11 so that the mounting plate 25 for arranging the light emitting element 10 on the case main body 11 is formed by bending a metal flat plate. The main surface portion 26 formed in a substantially square shape and the side surface portion 27 formed by bending are formed, and the whole is formed in a substantially U-shaped cross section. The mounting plate 25 is disposed on the main printed circuit board 15 so as to cover the case body 11 of the rotary switch 4. Further, an insertion hole 28 through which the operation element 6 and the operation portion 5 of the rotary switch 4 are inserted is formed in a substantially central portion of the main surface portion 26 of the mounting plate 25.
[0032]
On both side surfaces 27, 27 of the mounting plate 25, substantially hook-shaped engaging portions 29 for engaging the mounting plate 25 and the main printed circuit board 15 are formed on the installation surface with the main printed circuit board 15. Has been. The mounting plate 25 is inserted into the insertion hole 28 formed in the main surface portion 26 through the operation portion 5 and the operation element 6 of the rotary switch 4 so as to cover the case main body 11 of the rotary switch 4. Arranged above. The mounting plate 25 is mounted on the main printed circuit board 15 by engaging the engaging section 29 with an engaging groove 30 previously formed in the main printed circuit board 15 and then bending the engaging section 29. It is done. Thereby, the main surface portion 26 of the mounting plate 25 is disposed on the case body 11 of the rotary switch 4. At this time, the main surface portion 26 of the mounting plate 25 is located below the lower surface portion of the operation portion 5, and a light emitting element described later is mounted between the operation portion 5 and the main surface portion 26 of the mounting plate 25. A gap in which the sub printed circuit board 12 is disposed is formed.
[0033]
The sub printed circuit board 12 mounted on the mounting plate 25 is formed of a so-called flexible printed circuit board having flexibility. As shown in FIG. 2, the sub printed circuit board 12 includes a substantially circular main surface portion 31 on which the light emitting element 10 is mounted, and a connection portion 33 for conducting the light emitting element 10 and the main printed circuit board 15. The main surface portion 31 is bonded to the main surface portion 26 of the mounting plate 25.
[0034]
The main surface portion 31 formed in a substantially circular shape of the sub printed circuit board 12 is provided with an insertion hole 34 through which the operation element 6 and the operation portion 5 of the rotary switch 4 are inserted. In addition, a plurality of light emitting elements 10 such as LEDs that irradiate the light guide 7 around the insertion hole 34 are mounted on the main surface portion 31. Each light emitting element 10 is connected to a conductive pattern 32 formed in the connection portion 33 and supplied with power.
[0035]
Further, the connecting portion 33 extends from the main surface portion 31, hangs down along the side surface portion 27 of the mounting plate 25, and is attached to the connector 23 disposed at the main printed circuit board 15 at the tip. The connection portion 33 is formed with a conductive pattern 32 that establishes electrical connection between the light emitting element mounted on the main surface portion 31 and the main printed circuit board 15. Accordingly, power can be supplied to the light emitting element 10 mounted on the main surface portion 31.
[0036]
Such a sub printed circuit board 12 is adhered on the mounting plate 25 so that the insertion holes 28 and 34 are aligned, and the operation element 6 and the operation portion 5 of the rotary switch 4 are inserted therethrough. At this time, since a gap is formed between the lower portion of the operation unit 5 and the sub printed circuit board 12, the light emitting element 10 is disposed near the lower portion of the light guide 7 with a certain clearance. Further, as shown in FIGS. 1A and 1B, the light emitting element 10 is disposed in a range smaller than the outer diameter of the operation unit 5 with the operation element 6 of the rotary switch 4 as the center. That is, the light emitting element 10 is disposed to face the lower surface side of the operation unit 5 through the light guide 7. Accordingly, the light emitted from the light emitting element 10 is not directly emitted outward from the light guide 7 and the bright spot is not recognized, so that uneven light can be prevented.
[0037]
Further, since the sub printed circuit board 12 is formed of a flexible flexible substrate, it can be formed in accordance with the shape of the operation unit 5 of the rotary switch 4 and the degree of freedom of the shape of the rotary switch 4 is increased. be able to.
[0038]
The case main body 11, the lead terminal 16, and the connector 23 described above are soldered to a conductive pattern (not shown) formed on the lower surface of the main printed circuit board 15.
[0039]
As shown in FIG. 3, such an operating device 1 is used for a control panel 2 of an electronic device that is also used in a dark place such as a car stereo, and is used for volume adjustment, car radio tuning, and the like.
[0040]
In such an operation device 1, when the user turns on the power of the electronic device, the light from the light emitting element 10 is irradiated outward through the light guide 7, and the operation unit 5 and its surroundings are illuminated. Therefore, the operability of the control panel 2 in a dark place can be improved. Then, when the user grips and rotates the operation unit 5 protruding from the opening 3 of the control panel 2, the operation element 6 with which the operation unit 5 is engaged is rotated. As a result, the contact terminals disposed in the case body 11 are sequentially conducted, and the volume adjustment and tuning of the audio apparatus can be performed.
[0041]
At this time, since the light emitting element 10 of the operating device 1 is mounted on the sub printed circuit board 12 disposed above the case main body 11 of the rotary switch 4, the light emission is blocked by the case main body 11 of the rotary switch 4. Therefore, it is possible to prevent the occurrence of light unevenness and improve the appearance of the rotary switch 3 and its surroundings. Further, since the light emitting element 10 is mounted on the sub printed circuit board 12 disposed on the case body 11 of the rotary switch 4, other mounting parts can be easily mounted around the rotary switch 4 of the main printed circuit board 15. can do.
[0042]
The light emitting element 10 mounted on the sub printed circuit board 12 is engaged with the light guide 7 by engaging the engagement step 21 of the operation unit 5 and the engagement 20 of the light guide 7. Is opposed to the operation unit 5. Therefore, since the light emitted from the light emitting element 10 is not directly emitted outward through the light guide 7, it is possible to prevent the bright spot from being clearly recognized and to prevent the light unevenness due to the bright spot. Can be prevented.
[0043]
The operating device to which the present invention is applied may use not only the rotary switch 4 but also a variable electrical element such as a variable volume, a rotary encoder, a variable variable condenser, and a changeover switch. In addition to the rotary type, a push type may be used.
[0044]
Also, Reference example of the present invention The operating device may not use the mounting plate 25. That is, as shown in FIG. 4, the operation element 6 of the rotary switch 4 is inserted into the insertion hole 34 of the sub printed circuit board 12, and the sub printed circuit board 12 is directly bonded to the upper surface portion of the case body 11. It may be arranged on the case body 11. This can also prevent the light emitted from the light emitting element 10 from being blocked by the case body 11. In addition, the degree of freedom for mounting other mounting parts around the rotary switch 4 can be increased.
[0045]
The operation device to which the present invention is applied does not attach the connector 23 in the vicinity of the switch mounting portion 18 on the main printed circuit board 15 and solders one end portion of the conductive wire to the main surface portion 31 of the sub printed circuit board 12. The other end of the conductive wire may be directly connected to the conductive pattern of the main printed circuit board 15 by soldering.
[0046]
Hereinafter, an operating device to which the present invention is applied will be described. Note that the same members as those of the operation device 1 are denoted by the same reference numerals and the details thereof are omitted.
[0047]
As shown in FIG. 5, the operating device 40 includes a main printed circuit board 15 to which a variable electrical element such as the rotary switch 4 is attached, an operating unit 5 attached to the operation element 6 of the rotary switch 4, and light emission. A light guide 7 that emits light emitted from the element 10 outward, a sub printed circuit board 12 on which the light emitting element 10 is mounted, and a storage that stores and holds the sub printed circuit board 12 on the light guide 7. The main printed circuit board 15 and the sub printed circuit board 12 are electrically connected, and the light emitting element 10 is attached between the light guide 7 and the sub printed circuit board 12.
[0048]
The storage portion 42 that stores and holds the sub printed circuit board 12 is mounted with the storage wall 43 projecting inward from the peripheral edge of the opening 3 formed in the control panel 2 and the sub printed circuit board 12. The bottom portion 44 is formed in a substantially U-shaped cross section. And the accommodating part 42 is continuously attached from the peripheral part of the opening part 3. As shown in FIG.
[0049]
The storage wall 43 of the storage part 42 is formed with a slit 45 having a width into which the sub printed circuit board 12 on which the light emitting element 10 is mounted can be inserted near the lower end part. Further, an insertion hole 46 through which the operator 6 of the rotary switch 4 is inserted is formed in the bottom 44 of the storage unit 42.
[0050]
In such a storage portion 42, the sub printed circuit board 12 on which the light emitting element 10 is mounted is inserted from the slit 45, and the side surface side of the sub printed circuit board 12 is supported by the opening end of the slit 45. The storage portion 42 in which the sub printed circuit board 12 is stored aligns the insertion hole 46 formed in the bottom portion 44 with the insertion hole 28 of the sub printed circuit board 12, and then the operator of the rotary switch 4. 6 is inserted through the insertion hole 45 of the bottom 44.
[0051]
At this time, the light emitting element 10 mounted on the sub printed circuit board 12 is opposed to the light guide 7 bonded to the inner peripheral surface side of the opening 3. Thereafter, the operation unit 5 is attached to the operator 6 of the rotary switch 4. Accordingly, the light emitting element 10 mounted on the sub printed circuit board 12 is opposed to the lower surface side of the operation unit 5 of the rotary switch 4 through the light guide 7.
[0052]
In such an operation device 40, when the user turns on the electronic device, the light from the light emitting element 10 is irradiated outward through the light guide 7, and the operation unit 5 and its periphery are illuminated. Therefore, the operability of the control panel 2 in a dark place can be improved. Then, when the user grips and rotates the operation unit 5 protruding from the opening 3 of the control panel 2, the operation element 6 with which the operation unit 5 is engaged is rotated. As a result, the contact terminals disposed in the case body 11 are sequentially conducted, and the volume adjustment and tuning of the audio apparatus can be performed.
[0053]
At this time, in the operating device 40, since the light emitting element 10 is opposed to the lower surface portion of the operation unit 5 through the light guide 7, the light emitted from the light emitting element 10 is directly emitted outward. And unevenness in light due to clear recognition of the bright spot can be prevented.
[0054]
Further, since the light emitting element 10 of the operation device 40 is mounted on the sub printed circuit board 12 disposed above the case body 11 of the rotary switch 4, the emitted light is blocked by the case body 11 of the rotary switch 4. It is possible to prevent the occurrence of light unevenness. Further, since the light emitting element 10 is mounted on the sub printed circuit board 12 accommodated in the accommodating portion 42 formed on the case body 11 of the rotary switch 4, the light emitting element 10 is disposed around the rotary switch 4 of the main printed circuit board 15. The degree of freedom for mounting other mounting parts can be expanded.
[0055]
As described above, the case where the operation device to which the present invention is applied is used for a car stereo has been described as an example. However, the present invention is not limited to this, and is used for all electric products using a variable electric element such as a rotary switch. it can.
[0056]
【The invention's effect】
As described above, according to the operating device according to the present invention, the engaging stepped portion of the operating portion and the engaging portion of the light guide are engaged with each other on the sub printed circuit board. Over the entire circumference of the operation unit Implemented plural The light emitting element is operated through the light guide. Underside of It is opposed to. Accordingly, since the light emitted from the light emitting element is not directly emitted outward through the light guide, it is possible to prevent the bright spot from being clearly recognized and to prevent light unevenness due to the bright spot. be able to.
[0057]
In addition, since the light emitting element is mounted on the sub printed circuit board that is spaced apart from the main printed circuit board and disposed above the case body of the rotary switch, the emitted light may be blocked by the case body of the rotary switch. Therefore, the occurrence of light unevenness can be prevented.
[0058]
Further, since the light emitting element is mounted on the sub printed circuit board disposed on the case body of the rotary switch, the degree of freedom for mounting other components around the switch mounting portion of the main printed circuit board can be increased. .
[0059]
Moreover, since the light emitting element is mounted on the sub printed circuit board which is a flexible substrate, it is possible to easily cope with rotary switches of various shapes by changing the mounting position on the sub printed circuit board. For this reason, the freedom degree of the operation part of a rotary switch, the shape of a light guide, etc. can be expanded.
[Brief description of the drawings]
FIG. 1 shows the present invention. To be helpful It is a figure which shows an operating device.
FIG. 2 shows the present invention. To be helpful It is a perspective view which shows an operating device.
FIG. 3 is a perspective view showing an electronic apparatus using an operating device to which the present invention is applied.
FIG. 4 shows the present invention. To be helpful It is sectional drawing which shows an operating device.
FIG. 5 shows the present invention. Applied It is sectional drawing which shows an operating device.
FIG. 6 is a diagram showing a rotary switch used in a conventional electronic device.
FIG. 7 is a diagram showing another rotary switch used in a conventional electronic device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Operation apparatus, 2 Control panel, 3 Opening part, 4 Rotary switch, 5 Operation part, 6 Operating element, 7 Light guide, 8 Display part, 10 Light emitting element, 11 Case main body, 12 Sub printed circuit board, 14 Engagement part 15 Main printed circuit board, 16 Lead terminal, 18 Switch mounting part, 22 Conductive pattern, 23 Connector, 40 Operation device, 42 Storage part, 43 Storage wall, 44 Bottom part, 45 Slit, 46 Insertion hole

Claims (1)

A main printed circuit board disposed in the housing;
A variable electrical element having a main body and an operator provided on the main body, and attached to the main printed circuit board;
An operation portion that protrudes to the outside from the opening formed in the housing and engages with an engagement portion formed on the operation element of the variable electrical element;
A light guide that is exposed to the outside from the opening formed in the housing and is provided near the operation unit;
A sub printed circuit board disposed between the variable electrical element and the light guide body apart from the main printed circuit board;
A plurality of light emitting elements mounted on the entire circumference of the operation unit so as to face the lower surface of the operation unit via the light guide on the sub printed circuit board;
The light emitting element attached to the sub printed circuit board is disposed in a range smaller than the outer diameter of the operation portion with the operation element as a center,
The auxiliary printed board is housed in a housing portion provided continuously to the opening of Rutotomoni the housing is electrically connected to the main printed circuit board, the light emitting element mounted on the auxiliary printed board, the electrically An operation device that illuminates the operation unit or the periphery of the operation unit via a light body.

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