JP6355044B2 - Dimming switch - Google Patents

Description

  The present invention relates to a dimming switch for dimming a lighting load.

  As a conventional example, a dimmer described in Patent Document 1 is illustrated. This conventional example includes a rotary variable resistor and a dimming control unit that controls the dimming level of the illumination load in accordance with the resistance value of the variable resistor. In addition, this conventional example is attached to the rotary shaft of the variable resistor, and has a rotary handle that changes the resistance value of the variable resistor in accordance with the rotation operation, and a case that houses at least the variable resistor and the dimming control unit. Is provided.

  The dimming control unit can dimm the lighting load by phase-controlling an AC voltage applied to the lighting load from the AC power source. That is, the dimming type lighting fixture is lit brighter as the phase angle (conduction angle) adjusted by the dimmer increases (the energization period becomes longer), and the phase angle becomes smaller (the energization period becomes shorter). ) It is configured to light up so darkly.

  In addition, a changeover switch for switching on / off the lighting load is built in the case. This change-over switch is constituted by a so-called micro switch, and is inserted into a power supply path from the AC power source to the illumination load. Accordingly, when the rotary handle is operated to the off position, the changeover switch is turned off and the power supply path from the AC power source to the lighting load is opened, so that the lighting load is turned off.

  Further, this conventional example is embedded in a wall using a mounting frame standardized for an embedded wiring device. The mounting frame is configured so that three wiring devices having unit module dimensions can be mounted side by side. The case is formed to be twice the unit module size, that is, the size of two module sizes.

JP 2013-145704 A

  As described above, in the conventional example described in Patent Document 1, two switch dimensions for phase control (bidirectional three-terminal thyristor <triac>) and two switches for load on / off (microswitch) have a module size. It is stored in the case. That is, since two types of switches are housed in a case with a narrow module size, there is a concern about the influence of heat on the dimming control unit and the like housed in the case.

  The present invention has been made in view of the above problems, and an object thereof is to reduce the influence of heat generated by circuit components.

The dimming switch of the present invention includes a switch element inserted in a power supply path from a power source to a lighting load, a first operation unit that receives a first operation input for setting a dimming level of the lighting load, and the lighting. A second operation unit that receives a second operation input for switching on and off of the load; and a control unit that controls the switch element, wherein the control unit is configured to control the dimming level corresponding to the first operation input. The switch element is controlled to turn on the lighting load, and the switch element is controlled to turn on and off the lighting load in response to the second operation input . The operation unit includes a first operation member whose operation position continuously changes, and a first conversion element that converts the operation position of the first operation member into an electric quantity, and the second operation unit includes a push button A switch and said A second operation member that operates a button switch, a case that houses the switch element, the control unit, the first conversion element, and the push button switch, a first printed wiring board that is housed in the case, The case includes a second printed wiring board and a heat radiating plate, and the case has a box shape long in one direction, and the first printed wiring board, the second printed wiring board, and the heat radiating plate are in the case, The first conversion element and the push button switch are mounted on the first printed wiring board, and the switch element is arranged in the one direction of the second printed wiring board. Mounted on the one side portion, the heat sink is coupled to the one side portion in the one direction of the second printed wiring board, and is thermally coupled to the switch element. The surface of the one side of the one direction of the case, characterized in that the slit for the plurality of heat radiation are formed.

  The dimmer switch of the present invention has an effect that the influence of heat generated by the circuit components can be reduced.

It is a circuit block diagram which shows embodiment of the light control switch which concerns on this invention. It is an exploded perspective view same as the above. 3A is a front view of the same, and FIG. 3B is a side view of the same.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a dimmer switch according to the present invention will be described in detail with reference to the drawings.

  First, the circuit configuration of the dimming switch 1 of the present embodiment will be described with reference to FIG. As shown in FIG. 1, the dimming switch 1 according to the present embodiment includes a control unit 10, a switch element 11, a first operation unit 12, a second operation unit 13, a power supply unit 14, a display unit 15, and the like.

  The switch element 11 includes a bidirectional three-terminal thyristor (triac), and is connected to a series circuit of the AC power supply 3 and the illumination load 2 via a pair of terminals 16 and 17. However, a plurality of lighting loads 2 may be connected in parallel between the pair of terminals 16 and 17.

  The power supply unit 14 is configured to convert an AC voltage applied between the terminals 16 and 17 into a low-voltage DC voltage (for example, 5 volts or 3.3 volts) and supply the converted voltage to the control unit 10. However, such a power supply unit 14 is realized by combining conventionally known circuits such as a rectifier circuit, a smoothing capacitor, and a three-terminal regulator.

  The first operation unit 12 includes a rotary variable resistor (first conversion element) 120. A constant voltage output from the power supply unit 14 is applied to the variable resistor 120. That is, the first operation unit 12 is configured to accept the resistance value of the variable resistor 120 as the first operation input.

  Further, the second operation unit 13 includes a push button switch 130. A constant voltage output from the power supply unit 14 is also applied to the push button switch 130. That is, the second operation unit 13 is configured to receive a second operation input when the pushbutton switch 130 is turned on.

  The display unit 15 includes a light emitting diode that emits green light.

  The control unit 10 is composed of a microcontroller, and implements various functions to be described later by executing a program with the microcontroller. However, the control unit 10 may be configured by a logic circuit instead of the microcontroller.

  The control unit 10 turns on and off the lighting load 2 by turning on and off the switch element 11 in response to the second operation input received by the second operation unit 13. In addition, while the lighting load 2 is lit, the control unit 10 performs dimming lighting of the lighting load 2 by performing phase control of the switch element 11 in response to the first operation input received by the first operation unit 12. Further, the control unit 10 turns on the green light emitting diode of the display unit 15 while the lighting load 2 is turned off, and turns off the green light emitting diode while the lighting load 2 is turned on.

  Next, the structure of the dimming switch 1 of the present embodiment will be described with reference to FIGS. In the following description, unless otherwise specified, the vertical, horizontal, and front-rear directions are defined in FIG.

  The dimming switch 1 of the present embodiment includes a case 20, a panel 23, and an operation handle 24.

  The case 20 is formed in a rectangular box shape by combining the body 21 and the cover 22. The body 21 is composed of a rectangular box-shaped synthetic resin molded body having an open front surface. Moreover, the cover 22 is comprised with the synthetic resin molding of the rectangular box shape which a rear surface opens. A pair of projecting pieces 220 projecting rearward are provided on the left and right ends of the upper and lower side walls of the cover 22, respectively. Each protruding piece 220 is provided with a rectangular hole 2200. On the other hand, a pair of protrusions 210 protruding in the vertical direction are provided on the surfaces of the left and right ends of the upper and lower side walls of the body 21. That is, the body 21 and the cover 22 are abutted in the front-rear direction, and the protrusions 210 of the body 21 are fitted into the holes 2200 of the protrusions 220 of the cover 22, so that the body 21 and the cover 22 are joined to form the case 20. Assembled.

  The case 20 is embedded in a construction material (for example, a wall) while being attached to the attachment frame 40.

  The mounting frame 40 is, for example, a dedicated mounting frame for a wide handle type switch that is standardized by Japanese Industrial Standards. A rectangular window hole 41 is opened at the center of the mounting frame 40, and the case 20 is fitted into the window hole 41. Two sets of fitting holes 42 are provided on the side walls on both the left and right sides of the window hole 41, respectively, along the longitudinal direction. In addition, attachment pieces 43 are provided on both upper and lower sides of the window hole 41, respectively. Each attachment piece 43 is provided with a long hole 44 through which a box screw is inserted, and a circular screw insertion hole 45 is provided obliquely above the long hole 44. Such a mounting frame 40 is well known in the art, and is fixed to a switch box embedded in a wall with a box screw, or is fixed to a wall plate (such as a plaster board) using a clamp (not shown). Is done.

  On the other hand, claws 221 that fit into the fitting holes 42 of the mounting frame 40 are provided on the surfaces of the left and right side walls of the cover 22 so as to be arranged at intervals in the vertical direction. Note that the mounting frame 40 is configured such that a maximum of three wiring devices can be mounted in the window hole 41 in the vertical direction. And the size of the wiring apparatus which can be attached to a maximum of three is called one module dimension. That is, the case 20 in the present embodiment is formed in a three-module size that is three times the size of one module.

  In the case 20, a first printed wiring board 25, a second printed wiring board 26, an insulating sheet 27, a terminal portion 28, and the like are accommodated. The switch element 11 and the power supply unit 14 are mounted on the second printed wiring board 26. Further, the control unit 10, the variable resistor 120, the push button switch 130, the display unit 15 and the like are mounted on the first printed wiring board 25. The variable resistor 120 is mounted at a position slightly above the center of the front surface of the first printed wiring board 25. The push button switch 130 is mounted at a position near the lower end on the front surface of the first printed wiring board 25.

  The terminal portion 28 includes a terminal plate 280, a lock spring 281 and a release button 282. That is, the terminal portion 28 forms a pair of terminals 16 and 17 as conventionally known quick connection terminals (screwless terminals). However, a wire insertion hole (not shown) is provided in the rear wall of the case 20 (the bottom wall of the body 21). An electric wire inserted through these power supply insertion holes is connected to the terminal portion 28.

  A T-shaped operation piece 222 is flexibly provided on a portion of the front wall of the case 20 (front wall of the cover 22) facing the push button switch 130. That is, when the operation piece 222 is bent rearward, the push button switch 130 mounted on the front surface of the first printed wiring board 25 is turned on by the operation piece 222.

  Further, a pair of shaft portions 223 are arranged in the vertical direction at the left end of the front wall of the case 20. These shaft portions 223 have a front end portion formed in a columnar shape, and a bearing portion (not shown) of the operation handle 24 is rotatably attached thereto.

  In addition, a cylindrical protrusion 224 is provided at a position facing the variable resistor 120 on the front wall of the case 20. A circular opening 2240 is provided on the front surface of the protrusion 224. The rotating shaft 1200 of the variable resistor 120 is exposed to the front surface of the case 20 through the opening 2240.

  An operation knob 29 is attached to the rotating shaft 1200. The operation knob 29 is formed of a flat bottomed cylindrical synthetic resin molded body. A mark 290 whose radial direction is the longitudinal direction is provided at the end of the operation knob 29 on the front surface.

  Further, a rectangular window hole 225 passes through a portion of the front wall of the case 20 that faces the display unit 15. That is, the green light emitted from the display unit 15 is irradiated to the front of the case 20 through the window hole 225.

  The panel 23 is a rectangular flat synthetic resin molded body. A circular hole 230 is opened in the center of the panel 23. The panel 23 is detachably attached to the front surface of the case 20 with the operation knob 29 inserted through the hole 230. An arc-shaped line 231 is drawn around the hole 230 on the front surface of the panel 23. One end of the line 231 is at the 6 o'clock position on the clock face and the other end of the line 231 is at the 4 o'clock position on the clock face. That is, the line 231 is drawn from 6 o'clock on the clock face to 4 o'clock in the clockwise direction. When the mark 290 of the operation knob 29 overlaps one end (the 6 o'clock position) of the line 231 in the radial direction, the resistance value of the variable resistor 120 becomes the first resistance value. Further, when the mark 290 of the operation knob 29 overlaps the other end (the 4 o'clock position) of the line 231 in the radial direction, the resistance value of the variable resistor 120 becomes the second resistance value. However, the first resistance value may be higher than the second resistance value, or the first resistance value may be lower than the second resistance value.

  The operation handle 24 is formed in a horizontally long rectangular plate shape from a synthetic resin material. The bearing portion is provided at the center of the left end on the rear surface of the operation handle 24. When the bearing portion is attached to the shaft portion 223, the operation handle 24 can rotate with respect to the case 20 with the shaft portion 223 as a fulcrum. That is, when the operation handle 24 is pushed from the front, the operation handle 24 rotates rearward with the shaft portion 223 as a fulcrum, and the operation piece 222 of the case 20 is bent rearward to turn on the push button switch 130.

  A rectangular window hole 240 is provided in the center of the left end of the operation handle 24. Further, a cover 241 formed of a light-transmitting synthetic resin material (for example, acrylic resin) is fitted into the window hole 240. That is, the light emitted from the display unit 15 passes through the window hole 225 of the case 20 and then is irradiated forward through the window hole 240 and the cover 241 of the operation handle 24.

  Next, the operation of the dimming switch 1 of this embodiment will be described. First, when the operation handle 24 is pressed while the illumination load 2 is turned off, the second operation unit 13 receives the second operation input by turning on the push button switch 130, and receives the second operation input. It passes to the control unit 10. When receiving the second operation input, the control unit 10 receives the first operation input (the resistance value of the variable resistor 120) from the first operation unit 12. When the first operation input is equal to the second resistance value, the control unit 10 always turns on the switch element 11 without performing phase control. As a result, the illumination load 2 is lit at rated power.

  On the other hand, when the first operation input is a resistance value other than the second resistance value, the control unit 10 controls the phase of the switch element 11 at a phase angle corresponding to the first operation input (resistance value of the variable resistor 120). To do. As a result, the lighting load 2 is dimmed at a dimming level corresponding to the operation position of the operation knob 29.

  When the operation handle 24 is pushed and a second operation input is received from the second operation unit 13 in a state where the illumination load 2 is lit (rated lighting or dimming lighting), the control unit 10 causes the switch element 11 to be switched. The illumination load 2 is turned off by turning it off.

  That is, the dimming switch 1 of the present embodiment performs on / off switching (lighting / extinguishing) of the lighting load 2 and dimming with only the switch element 11. Therefore, the dimming switch 1 of the present embodiment suppresses the overall amount of heat generation as compared to the case where the phase control switch element and the load on / off switch are provided as in the conventional example described in Patent Document 1. can do. As a result, the dimming switch 1 of the present embodiment can reduce the influence of heat generated by the circuit components.

  As described above, the dimming switch 1 of the present embodiment is the first for setting the dimming level of the switching element 11 and the lighting load 2 inserted into the power supply path from the power source (AC power source 3) to the lighting load 2. And a first operation unit 12 that receives an operation input. The dimming switch 1 of the present embodiment includes a second operation unit 13 that receives a second operation input for switching the lighting load 2 between turning on and off, and a control unit 10 that controls the switch element 11. The control unit 10 controls the switch element 11 to turn on the lighting load 2 at the dimming level corresponding to the first operation input, and turns on and off the lighting load 2 corresponding to the second operation input. Thus, the switch element 11 is configured to be controlled.

  Since the light control switch 1 of this embodiment is comprised as mentioned above, compared with the prior art example provided with the switch element for light control, and the switch for switching on / off, it can suppress the whole emitted-heat amount. it can. As a result, the dimming switch 1 of the present embodiment can reduce the influence of heat generated by the circuit components.

  Furthermore, in the dimming switch 1 of the present embodiment, the first operation unit 12 converts the operation position of the first operation member (operation knob 29) whose operation position continuously changes and the operation position of the first operation member into an electric quantity. It is preferable to have a first conversion element (variable resistor 120). The second operation unit 13 preferably includes a push button switch 130 and a second operation member (operation handle 24) for operating the push button switch 130. Furthermore, the dimming switch 1 of the present embodiment preferably includes a case 20 that houses the switch element 11, the control unit 10, the first conversion element (variable resistor 120), and the push button switch 130. The case 20 is preferably configured to be embedded in the construction material with the first operation member (operation knob 29) and the second operation member (operation handle 24) exposed to the front side.

  If the light control switch 1 of this embodiment is comprised as mentioned above, there exists an advantage that the temperature rise in the case 20 is suppressed compared with a prior art example.

1 Dimming switch 2 Lighting load 3 AC power supply
DESCRIPTION OF SYMBOLS 10 Control part 11 Switch element 12 1st operation part 13 2nd operation part

Claims (3)

A switch element inserted in a power supply path from a power source to a lighting load, a first operation unit for receiving a first operation input for setting a dimming level of the lighting load, and switching between lighting and extinguishing of the lighting load A second operation unit that receives the second operation input, a control unit that controls the switch element, a switch element that is formed in a box shape that is long in one direction, the first operation unit, the second operation unit, and a control A case for storing the part, and a first printed wiring board, a second printed wiring board, and a heat sink stored in the case ,
The control unit controls the switch element to light the lighting load at the dimming level corresponding to the first operation input, and turns on and off the lighting load corresponding to the second operation input. is configured to control the switching element so as to,
The first operation unit includes a first operation member whose operation position continuously changes, and a first conversion element that converts the operation position of the first operation member into an electric quantity,
The second operation unit includes a push button switch and a second operation member that operates the push button switch.
The first printed wiring board, the second printed wiring board, and the heat radiating plate are arranged side by side in a direction orthogonal to the one direction in the case,
The first conversion element and the push button switch are mounted on the first printed wiring board,
The switch element is mounted on a portion of one side of the one direction of the second printed wiring board,
The heat sink is coupled to the one side portion of the one direction of the second printed wiring board, and is thermally coupled to the switch element,
A dimming switch , wherein a plurality of heat-dissipating slits are formed on a surface of the case in the one direction . Before SL case is adjusted according to claim 1, characterized in that it is configured to be embedded disposed building material the first operating member and the second operating member being exposed to the front side Light switch. The case is formed in a box shape that is long in the up-down direction, which is the one direction, in a state where the case is embedded in the wall that is the building material,
The first printed wiring board, the second printed wiring board, and the heat radiating plate are arranged in the front-rear direction orthogonal to the one direction in the case,
  The heat sink is coupled to the upper portion of the second printed wiring board in the vertical direction,
  The dimming switch according to claim 2, wherein the plurality of heat radiation slits are formed on an upper surface of the case.

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