JP2018147872A - Control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a control device capable of reducing occurrence of erroneous input of information.SOLUTION: A control device 1 includes a substrate, a first switch, a case 5, a panel 6 and a second switch. The first switch outputs a signal when a part of the same is displaced in a specific direction. The second switch outputs a signal when a user touches a surface 6a of the panel 6. The first switch is arranged so that the above part can be displaced in a specific direction by the user's operation from the front surface 6a side of the panel 6.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a control device.

  Patent Document 1 describes an apparatus used in an illumination system. The device described in Patent Document 1 is installed on a wall or the like. A user inputs information by touching a panel provided on the front surface of the apparatus.

JP 2010-225464 A

  A person using the lighting system inputs various information to the system. Information input by the user includes information with high input frequency and information with low input frequency. For example, information for changing the illuminance is frequently input. On the other hand, information for changing system settings is not frequently input. When both of the above information can be input by touching the panel as in the device described in Patent Document 1, information with low input frequency may be input where the user does not intend. Such a problem may occur in a system other than the lighting system as well.

  The present invention has been made to solve the above-described problems. An object of the present invention is to provide a control device that can reduce the occurrence of erroneous input of information.

  The control device according to the present invention includes a substrate, a first switch provided on the first surface of the substrate, a case facing the first surface of the substrate, and a second surface of the case facing the same direction as the first surface. And a second switch disposed between the case and the panel. The first switch outputs a signal when a part of the first switch is displaced in a specific direction. The second switch outputs a signal when the user touches the third surface of the panel facing the same direction as the first surface. The first switch is disposed so that the part can be displaced in a specific direction by a user operation from the third surface side of the panel.

  The control device according to the present invention is provided on the substrate, the tactile switch provided on the first surface of the substrate, the case facing the first surface of the substrate, and the second surface of the case facing the same direction as the first surface. And a capacitance switch provided between the case and the panel. A first through hole is formed in the case. A second through hole is formed in the panel. A third through hole is formed in the capacitance switch. The tactile switch, the first through hole, the second through hole, and the third through hole are arranged in a straight line.

  The control device according to the present invention includes, for example, a first switch provided on the first surface of the substrate and a second switch disposed between the case and the panel. The first switch outputs a signal when a part of the first switch is displaced in a specific direction. The second switch outputs a signal when the user touches the third surface of the panel facing the same direction as the first surface. The first switch is arranged such that a part of the first switch can be displaced in a specific direction by a user operation from the third surface side of the panel. With the control device according to the present invention, the occurrence of erroneous input of information can be reduced.

It is a perspective view which shows the example of the control apparatus in Embodiment 1 of this invention. It is an exploded view of the control apparatus shown in FIG. FIG. 3 is an enlarged view of a control board and a power supply board shown in FIG. 2. It is the figure which expanded the case shown in FIG. FIG. 3 is an enlarged view of the capacitance switch shown in FIG. 2. It is a figure which shows the AA cross section of FIG. It is a figure which shows the other example of the AA cross section of FIG. It is a figure which shows the other example of the AA cross section of FIG. It is a figure for demonstrating how to push a tactile switch. It is a figure which shows the other example of arrangement | positioning of a tactile switch. It is a figure which shows the other example of the AA cross section of FIG. It is a figure which shows the other example of a control apparatus. It is a figure which shows CC cross section of FIG. It is an exploded view which shows the example of the control apparatus in Embodiment 2 of this invention. It is an exploded view which shows the example of the control apparatus in Embodiment 2 of this invention. It is an exploded view which shows the example of the control apparatus in Embodiment 2 of this invention. It is a perspective view which shows the state which accommodated the control board and the power supply board in the case.

  The present invention will be described with reference to the accompanying drawings. The overlapping description will be simplified or omitted as appropriate. In each figure, the same reference numerals indicate the same or corresponding parts.

Embodiment 1 FIG.
FIG. 1 is a perspective view showing an example of a control device 1 according to Embodiment 1 of the present invention. FIG. 2 is an exploded view of the control device 1 shown in FIG. The control device 1 is provided in a lighting system, for example. The user operates the control device 1 to turn on the illumination. The user operates the control device 1 to turn off the illumination. The user operates the control device 1 to change the intensity of the illumination light. The user operates the control device 1 to change the system settings. The control device 1 may be provided in a system other than the lighting system. Even when the control device 1 is provided in another system, the user can input information by operating the control device 1.

  The control device 1 includes, for example, a control board 2, a power supply board 3, a case 4, a case 5, a panel 6, a capacitance switch 7, a cover 8, and a cover 9. The control device 1 further includes a tactile switch 10, a power supply terminal block 11, and a power supply line 12. A fixture 13 is provided on the wall surface of the room. The control device 1 is attached to the fixing bracket 13.

  FIG. 2 shows an example in which the control device 1 includes two substrates, a control substrate 2 and a power supply substrate 3. The control device 1 may include one substrate. FIG. 3 is an enlarged view of the control board 2 and the power supply board 3 shown in FIG. For example, a processor, a memory, an LED 14, a tactile switch 10, and the like are provided on the control board 2. 2 and 3 show an example in which a large number of LEDs 14 and three tactile switches 10 are provided on the surface 2 a of the control board 2. The number of LEDs 14 and the number of tactile switches 10 mounted on the control board 2 are not limited to the examples shown in FIGS.

  The case 4 is disposed so as to cover the control board 2 and the power supply board 3 from the surface 2b (not shown in FIGS. 2 and 3) side of the control board 2. The surface 2b is a surface that faces in a direction opposite to the direction in which the surface 2a faces. The case 4 faces the surface 2 b of the control board 2.

  FIG. 4 is an enlarged view of the case 5 shown in FIG. The case 5 is disposed so as to cover the control board 2 and the power supply board 3 from the front surface 2 a side of the control board 2. The case 5 faces the surface 2 a of the control board 2. The case 4 is fixed to the case 5 with screws 15. The control board 2 and the power supply board 3 are fixed by being sandwiched between the case 4 and the case 5.

  A through hole 16, a through hole 17, and a through hole 18 are formed in the case 5. The through hole 16 is arranged according to the position of the LED 14. The through hole 17 is arranged according to the position of the tactile switch 10. 2 and 4 show an example in which three through holes 17 are formed in the case 5 in accordance with the number of tactile switches 10. A recess 19 that is slightly larger than the outer shape of the capacitance switch 7 is formed on the surface 5 a of the case 5. The surface 5 a of the case 5 is a surface facing in the same direction as the surface 2 a of the control board 2. The through-hole 16, the through-hole 17 and the through-hole 18 are opened at a portion corresponding to the bottom surface of the recess 19 in the surface 5a.

  The panel 6 is provided on the surface 5 a of the case 5. The surface 6 a of the panel 6 forms the front surface of the control device 1. The surface 6 a of the panel 6 is a surface facing the same direction as the surface 2 a of the control board 2. The panel 6 is fixed to the case 5 with double-sided tape, for example. The panel 6 is arrange | positioned so that the hollow 19 formed in the surface 5a of the case 5 may be covered. A through hole 20 is formed in the panel 6. The through hole 20 is arranged according to the position of the tactile switch 10. 1 and 2 show an example in which three through holes 20 are formed in the panel 6 in accordance with the number of tactile switches 10.

  FIG. 5 is an enlarged view of the capacitance switch 7 shown in FIG. The capacitance switch 7 is provided on the surface 6b (not shown in FIGS. 1 and 2) of the panel 6. The surface 6b of the panel 6 is a surface facing in the opposite direction to the surface 6a. The electrostatic capacity switch 7 is fixed to the panel 6 by double-sided tape, for example. The capacitance switch 7 is disposed between the case 5 and the panel 6. The capacitance switch 7 is disposed inside a recess 19 formed in the case 5. A through hole 21 is formed in the capacitance switch 7. The through hole 21 is arranged according to the position of the tactile switch 10. 2 and 5 show an example in which three through holes 21 are formed in the capacitance switch 7 in accordance with the number of tactile switches 10.

  The capacitance switch 7 includes, for example, a sheet member 22 and an electrode 23 disposed on the sheet member 22. FIG. 5 shows an example in which the through hole 21 is formed in the sheet member 22. The electrode 23 is arranged in accordance with the position of a symbol or character attached to the panel 6. The connection part 7 a of the capacitance switch 7 passes through the through hole 18 formed in the case 5 and is connected to the control board 2.

  FIG. 6 is a view showing a cross section taken along the line AA of FIG. The tactile switch 10, the through hole 17 formed in the case 5, the through hole 21 formed in the capacitance switch 7, and the through hole 20 formed in the panel 6 are arranged in a straight line. The tactile switch 10 includes a button unit 10a. The tactile switch 10 outputs a signal when the button unit 10a is displaced in the B direction shown in FIG. The tactile switch 10 is disposed so that the button portion 10 a faces the through hole 17 formed in the case 5. When the control device 1 is viewed from the surface 6 a side of the panel 6, the button portion 10 a of the tactile switch 10 can be visually recognized through the through hole 20, the through hole 21, and the through hole 17.

  FIG. 7 is a diagram illustrating another example of the AA cross section of FIG. 1. In the example shown in FIG. 7, the tip of the button portion 10 a of the tactile switch 10 is disposed inside the through hole 17. Note that the tactile switch 10 may be configured so that the button portion 10 a does not protrude from the surface 6 a of the panel 6. For this reason, the button part 10 a may penetrate the through hole 17, and the tip part may be disposed between the capacitance switch 7 and the case 5. The distal end portion of the button portion 10a may be disposed inside the through hole 21. The button part 10 a may penetrate the through hole 17 and the through hole 21, and the tip part may be disposed inside the through hole 20.

  FIG. 8 is a diagram illustrating another example of the AA cross section of FIG. 1. In the example shown in FIG. 8, the case 5 is provided with a dustproof portion 24 protruding from the surface 5b. The surface 5b of the case 5 is a surface facing in the opposite direction to the surface 5a. The dustproof part 24 is arranged so as to surround the button part 10 a of the tactile switch 10. In the example shown in FIG. 8, dust entering the inside of the control device 1 through the through hole 17 can be reduced.

  The power supply terminal block 11 is provided on the surface 2 b of the control board 2. The power supply terminal block 11 passes through a through hole formed in the case 4. A power line 12 is connected to the power terminal block 11. The cover 8 is attached to the case 4 so as to cover a part of the power line 12. In addition, some electronic components provided on the surface 2 b of the control board 2 penetrate through the through holes formed in the case 4. The cover 9 is attached to the case 4 so as to cover these electronic components.

  Next, a method for using the control device 1 will be described. For example, a mark indicating that the illumination is turned on is attached to the surface 6 a of the panel 6. The user who wants to turn on the illumination touches the surface 6a of the panel 6 at the position of the mark. Thereby, a signal for turning on the illumination is output from the capacitance switch 7. Similarly, a mark indicating that the illumination light is strengthened is attached to the surface 6 a of the panel 6. A user who feels that the room is dark touches the surface 6a of the panel 6 at the position of the mark. As a result, a signal for increasing the intensity of illumination light is output from the capacitance switch 7. The user can input information with high input frequency by touching the surface 6 a of the panel 6.

  On the other hand, the user cannot input specific information simply by touching the surface 6 a of the panel 6. For example, the user cannot change the system settings simply by touching the surface 6 a of the panel 6. A user who wants to change the system settings presses the tactile switch 10. The operation for pressing the tactile switch 10 is performed from the surface 6a side of the panel 6.

  FIG. 9 is a diagram for explaining how to press the tactile switch 10. The user inserts the thin rod-like member 25 into the control device 1 from the through hole 20. The user can push the tactile switch 10 by moving the rod-like member 25 further in the B direction after the tip of the rod-like member 25 contacts the button portion 10a of the tactile switch 10.

  The content of control performed based on the signal output from the capacitance switch 7 is arbitrarily set. The content of control performed based on the signal output from the tactile switch 10 is arbitrarily set. The control content performed based on the signal output from the capacitance switch 7 and the control content performed based on the signal output from the tactile switch 10 may be the same. When a problem occurs in the capacitance switch 7, the tactile switch 10 may be used for operation. The control device 1 may perform special control when signals are simultaneously output from the capacitance switch 7 and the tactile switch 10.

  In the example shown in the present embodiment, the tactile switch 10 is not pressed in a normal input operation using the capacitance switch 7. For this reason, the occurrence of erroneous input of information can be reduced. In the example shown in the present embodiment, the user can press the tactile switch 10 by an operation from the surface 6a side of the panel 6. Since the operation direction when inputting information using the capacitance switch 7 and the operation direction when inputting information using the tactile switch 10 are the same, the operability is excellent.

  In the present embodiment, the example in which the control device 1 includes the capacitance switch 7 has been described. The capacitance switch 7 is an example of a switch that outputs a signal when the user touches the surface 6 a of the panel 6. Another switch may be disposed between the case 5 and the panel 6. For example, the control device 1 may include a resistive film type switch.

  In the present embodiment, the example in which the control device 1 includes the tactile switch 10 has been described. The tactile switch 10 is an example of a switch that outputs a signal when a part thereof is displaced in a specific direction. Another switch may be provided on the surface 2 a of the control board 2. For example, the control device 1 may include a switch that outputs a signal when the knob rotates. The control device 1 may include a switch that outputs a signal when the lever is tilted. When a switch having a lever is provided on the surface 2 a of the control board 2, a slit may be formed in the case 5, the capacitance switch 7 and the panel 6 in accordance with the position of the lever.

  In the present embodiment, an example in which the through hole 21 is formed in the sheet member 22 of the capacitance switch 7 and the tactile switch 10 is arranged on the central axis of the through hole 21 has been described. This is an example. The tactile switch 10 may be disposed at a position where the capacitance switch 7 is not disposed when viewed from the front surface 6 a side of the panel 6. In such a case, the tactile switch 10 is arranged in a straight line with the through hole 17 and the through hole 20.

  FIG. 10 is a diagram illustrating another arrangement example of the tactile switch 10. FIG. 10 shows the positional relationship between the capacitance switch 7 and the tactile switch 10. FIG. 10 shows a state in which the capacitance switch 7 and the tactile switch 10 are viewed from the front surface 6 a side of the panel 6. FIG. 10 shows an example in which the through hole 21 is surrounded by the electrode 23. The tactile switch 10 is disposed so as to overlap the electrode 23 when viewed from the front surface 6a side of the panel 6. In the example shown in FIG. 10, both the input using the capacitance switch 7 and the input using the tactile switch 10 can be performed within the range where the electrode 23 is formed.

  The switch provided on the surface 2a of the control board 2 only needs to be arranged so that the part can be displaced in a specific direction by the user's operation from the surface 6a side of the panel 6. Further, the switch provided on the surface 2a of the control board 2 may not be displaced in a specific direction only by the user touching the surface 6a of the panel 6. Hereinafter, another example for realizing such a function will be described.

  FIG. 11 is a diagram illustrating another example of the AA cross section of FIG. 1. In the example shown in FIG. 11, the through hole 21 is not formed in the capacitance switch 7. The through hole 20 formed in the panel 6 is closed by the sheet member 22 of the capacitance switch 7. The button portion 10 a of the tactile switch 10 passes through the through hole 17, and the tip contacts the sheet member 22 of the capacitance switch 7 from the case 5 side. A gap may be formed between the button portion 10a and the capacitance switch 7.

  The sheet member 22 of the capacitance switch 7 has elasticity. For this reason, also in the example shown in FIG. 11, the user can push the tactile switch 10 by inserting the rod-shaped member 25 from the through hole 20. In the example shown in FIG. 11, dust can be prevented from entering the inside of the control device 1 from the through hole 20.

  FIG. 12 is a diagram illustrating another example of the control device 1. FIG. 12 shows an example in which a hole for passing the rod-like member 25 and the like is not formed in the panel 6. FIG. 12 is a front view showing a portion of the panel 6 where the through hole 20 is formed in FIG. FIG. 13 is a view showing a CC cross section of FIG. The cross section shown in FIG. 13 corresponds to the AA cross section of FIG.

  In the example shown in FIGS. 12 and 13, the panel 6 is provided with an elastic portion 26. The elastic portion 26 is formed in the panel 6 by forming a U-shaped slit 27 when viewed from the surface 6a side. When the elastic portion 26 is pushed from the surface 6a side of the panel 6, the elastic portion 26 is deformed as shown by a broken line in FIG. If the button part 10a of the tactile switch 10 is arranged so as to contact the sheet member 22 of the capacitance switch 7 from the case 5 side, the tactile switch 10 can be pushed by pushing the elastic part 26 from the surface 6a side. it can.

  In the example shown in FIGS. 12 and 13, it is preferable that the tactile switch 10 cannot be pushed unless the rod-like member 25 or the like is used. For example, if the width W of the slit 27 is 2 mm, the elastic portion 26 cannot be deformed to the position where the tactile switch 10 is pressed even if the user presses the elastic portion 26 with a finger. This can prevent erroneous input of information.

Embodiment 2. FIG.
In the present embodiment, the internal structure of the control device 1 will be described in more detail. Features not specifically described in the present embodiment are the same as any of the features disclosed in the first embodiment.

  14 to 16 are exploded views showing an example of the control device 1 according to the second embodiment of the present invention. 2 is a view seen from the panel 6 side, while FIGS. 14 to 16 are views seen from the fixing bracket 13 side. FIG. 15 shows a state in which the control device 1 is removed from the fixing bracket 13 and the cover 8 and the cover 9 are further removed from the control device 1. FIG. 14 is a diagram viewed from the diagonally left rear, while FIG. 16 is a diagram viewed from the diagonally rear right. FIG. 17 is a perspective view showing a state in which the control board 2 and the power supply board 3 are housed in the case 5.

  A recess 28 and a recess 29 are formed on the surface 4 a of the case 4. The surface 4a of the case 4 is a surface that faces in a direction opposite to the direction in which the surface 2a of the control board 2 faces. The surface 2 a faces the fixing metal 13.

  A power supply terminal block 11 is provided on the surface 2 b of the control board 2. The power terminal block 11 passes through the case 4 and a part thereof is disposed in the recess 28. For example, as shown in FIG. 15, the power supply terminal block 11 passes through a portion of the case 4 that forms the side wall of the recess 28. The power line 12 is connected to the power terminal block 11. The power supply line 12 passes through the recess 28 and is drawn from the lower side of the case 4. That is, the recessed part 28 forms the space for arrange | positioning an electric wire. At least a part of the power supply line 12 is disposed in the recess 28. An insertion plug is provided at the end of the power line 12. The cover 8 is provided on the case 4 so as to cover the recess 28. As a result, the portion of the power supply line 12 that is disposed in the recess 28 is covered by the cover 8. The cover 8 faces the fixing bracket 13. The outer shape of the cover 8 is L-shaped as a whole.

  The power supply line 12 includes a flange portion 12 a at a portion disposed in the recess 28. The flange portion 12a is provided so as to protrude from the periphery of the electric wire portion. The case 4 is provided with a receiving portion 30 into which the flange portion 12a is inserted. The receiving portion 30 protrudes from the bottom surface that forms the recess 28. When the collar portion 12 a is inserted into the receiving portion 30, the movement of the power supply line 12 in the longitudinal direction is restricted by the receiving portion 30.

  As shown in FIG. 15, the receiving part 30 is arrange | positioned so that the collar part 12a may be inserted | pinched from the both sides of the collar part 12a. The cover 8 is attached to the case 4 so as to cover the concave portion 28 in a state in which the flange portion 12 a is inserted into the receiving portion 30. When the cover 8 is attached to the case 4, the flange portion 12 a is disposed between the bottom surface that forms the recess 28 and the back surface of the cover 8. Due to the case 4 and the cover 8 attached to the case 4, the power supply line 12 is restricted from moving in the direction perpendicular to the longitudinal direction.

  The collar portion 12 a is detachable from the receiving portion 30. If the cover 8 is removed from the case 4, the collar portion 12 a can be pulled out from the receiving portion 30. For example, when connecting the power supply line 12 to the power supply wire drawn out from the wall, it is not necessary to insert the collar portion 12a into the receiving portion 30.

  The control device 1 may further include a communication terminal block 31. The communication terminal block 31 is provided on the surface 2 b of the control board 2. The communication terminal block 31 penetrates the case 4 and a part thereof is disposed in the recess 28. FIG. 15 shows an example in which the communication terminal block 31 penetrates a portion of the case 4 that forms the bottom surface of the recess 28. A communication line (not shown) is connected to the communication terminal block 31. Similar to the power supply line 12, the communication line passes through the recess 28 and is drawn from the lower side of the case 4. At least a part of the communication line is disposed in the recess 28.

  In the example shown in the present embodiment, in addition to the power supply terminal block 11 and the communication terminal block 31, for example, a reset switch 32, a write terminal 33, an address setting unit 34, and a wireless unit 35 are further provided on the surface 2b of the control board 2. Provided. An antenna 36 is provided on the control board 2.

  A through hole 37a, a through hole 37b, and a through hole 37c are formed in a portion of the case 4 where the recess 29 is formed. The through hole 37 a is formed in accordance with the position of the reset switch 32. The reset switch 32 passes through the through hole 37 a and a part thereof is disposed in the recess 29. The through hole 37 b is formed in accordance with the position of the write terminal 33. The write terminal 33 passes through the through hole 37 b and a part thereof is disposed in the recess 29. The through hole 37 c is formed in accordance with the position of the address setting unit 34. The address setting device 34 passes through the through hole 37 c and a part thereof is disposed in the recess 29. The cover 9 is provided on the case 4 so as to cover the recess 29. As a result, the reset switch 32, the write terminal 33, and the address setting unit 34 are covered by the cover 9. The cover 9 faces the fixing bracket 13.

  In the present embodiment, as shown in FIG. 17, an example is shown in which two reset switches 32 a and 32 b are provided on the surface 2 b of the control board 2. For example, a first microcomputer (not shown) is provided on the surface 2a of the control board 2 in accordance with the position of the reset switch 32a. The first microcomputer is a microcomputer for performing user interface setting control. The reset switch 32a is connected to the first microcomputer. When the reset switch 32a is pressed, the first microcomputer is reset.

  A second microcomputer (not shown) is provided on the surface 2a of the control board 2 in accordance with the position of the reset switch 32b. The second microcomputer is a microcomputer for performing setting control of the operation of the control device 1. The reset switch 32b is connected to the second microcomputer. When the reset switch 32b is pressed, the second microcomputer is reset.

  In the example shown in this embodiment, the first microcomputer and the second microcomputer can be individually reset. For example, only the first microcomputer can be reset without resetting the second microcomputer. For example, even when a malfunction occurs in the electrostatic switch when the control device 1 is provided in the lighting system, only the settings related to the user interface can be reset while the dimming control is continued.

  As described above, the cover 9 is provided on the case 4 so as to cover the recess 29. In the example shown in the present embodiment, when the cover 9 is attached to the case 4, the reset switch 32, the write terminal 33, and the address setting unit 34 are covered with the cover 9. For this reason, when holding the control apparatus 1, it can prevent that a hand touches the reset switch 32, the write-in terminal 33, and the address setting device 34. FIG. If the cover 9 is removed, the reset switch 32, the write terminal 33, and the address setting unit 34 can be easily operated. It is not necessary to disassemble the main body case of the control device 1 for these operations, and the workability is excellent.

  In the example shown in the present embodiment, the fire spread prevention unit 38 is provided in the main body case including the case 4 and the case 5. The fire spread prevention portion 38 is a portion excellent in fire resistance in the main body case. For example, a part of the thickest part of the main body case is the fire spread prevention part 38. You may improve the fire resistance of the fire spread prevention part 38 by arrange | positioning a metal plate inside resin. However, the main body case can be made cheaper and lighter if the fire spread prevention portion 38 is formed of only resin. The fire spread prevention portion 38 includes, for example, a facing portion 38a, a fire spread preventing wall 38b, and a facing portion 38c. The facing portion 38 a and the fire spread prevention wall 38 b are provided in the case 5. The facing portion 38 c is provided in the case 4.

  As described above, the control device 1 includes the control board 2 and the power supply board 3. The control board 2 constitutes a control circuit that performs a control operation together with the mounted electronic components. For example, various functions of the illumination system are realized by the control circuit including the control board 2. The power supply board 3 constitutes a power supply circuit together with the mounted electronic components. The power supply circuit supplies power necessary for the operation of the control circuit to the control circuit. The power supply circuit is supplied with AC power having a high voltage value from the power supply line 12. The power supply circuit supplies power to the control circuit after reducing the voltage to a voltage value required for the control circuit. The fire spread prevention unit 38 forms a space for arranging the power supply circuit. That is, the fire spread prevention unit 38 is disposed so as to surround the power supply circuit.

  The facing portion 38 a faces the power supply substrate 3. The fire spread prevention wall 38 b protrudes from the surface 5 b of the case 5 to the case 4 side. The fire spread prevention wall 38b is disposed so as to protrude from the edge of the facing portion 38a to the case 4 side. For example, the thickness of the facing portion 38 a is larger than the thickness of the portion of the case 5 that faces the control board 2. The thickness of the fire spread prevention wall 38 b is larger than the thickness of the portion of the case 5 that faces the control board 2.

  The fire spread prevention wall 38b is arranged so as to surround the power supply board 3 and the electronic components mounted on the power supply board 3. For example, the end surface of the power supply substrate 3 faces the fire spread prevention wall 38b. In the present embodiment, an example is shown in which the control board 2 and the power supply board 3 are arranged in the main body case so as to be adjacent to each other with the fire spread prevention wall 38b interposed therebetween. With this arrangement, the control device 1 can be thinned. An electric wire 39a is connected between the power supply terminal block 11 and the power supply circuit. A notch for passing the electric wire 39a is formed in the fire spread prevention wall 38b. An electric wire 39b is connected between the power supply circuit and the control circuit. A notch for passing the electric wire 39b is formed in the fire spread prevention wall 38b.

  The facing portion 38 c faces the electronic component mounted on the power supply substrate 3. For example, a portion of the case 4 that forms the bottom surface of the recess 28 faces the control board 2. A portion of the case 4 that forms the bottom surface of the recess 29 faces the control board 2. The thickness of the facing portion 38 c is larger than the thickness of the portion that forms the bottom surface of the recess 28. The thickness of the facing portion 38 c is larger than the thickness of the portion that forms the bottom surface of the recess 29.

  In the example shown in the present embodiment, since the control device 1 includes the control board 2 and the power supply board 3, only the power supply circuit can be disposed in the space surrounded by the fire spread prevention unit 38. Since the power supply circuit is surrounded by the fire spread prevention portion 38, the power supply substrate 3 may be formed of a material different from the material of the control substrate 2. For example, in order to make the control device 1 inexpensive, a material that is inferior in fire resistance to the material of the control board 2 may be adopted as the material of the power supply board 3. The control board 2 may be formed of a glass epoxy material, and the power supply board 3 may be formed of a paper phenol material.

  In Embodiments 1 and 2, case 4 and case 5 are examples of a main body case. The substrate is disposed inside the main body case and supported by the main body case. The main body case may be formed of three or more members.

  DESCRIPTION OF SYMBOLS 1 Control apparatus, 2 Control board, 3 Power supply board, 4 Case, 5 Case, 6 Panel, 7 Capacitance switch, 7a Connection part, 8 Cover, 9 Cover, 10 Tactile switch, 10a Button part, 11 Power terminal block, 12 power line, 12a collar, 13 fixing bracket, 14 LED (Light Emitting Diode), 15 screw, 16 through hole, 17 through hole, 18 through hole, 19 depression, 20 through hole, 21 through hole, 22 sheet member, 23 electrode, 24 dustproof part, 25 rod-shaped member, 26 elastic part, 27 slit, 28 recessed part, 29 recessed part, 30 receiving part, 31 communication terminal block, 32 reset switch, 33 writing terminal, 34 address setting unit, 35 wireless unit, 36 Antenna 37a~37c holes, 38 fire prevention unit, 38a opposing portion, 38b fire prevention wall, 38c facing portion, 39A～39b wire

Claims (10)

A substrate,
A first switch provided on a first surface of the substrate;
A case facing the first surface of the substrate;
A panel provided on the second surface of the case facing the same direction as the first surface;
A second switch disposed between the case and the panel;
With
The first switch outputs a signal when a part thereof is displaced in a specific direction,
The second switch outputs a signal when the user touches the third surface of the panel facing the same direction as the first surface,
The first switch is a control device arranged such that the part is displaceable in the specific direction by a user operation from the third surface side of the panel. The first switch is a tactile switch;
A first through hole is formed in the case;
A second through hole is formed in the panel;
The control device according to claim 1, wherein the first switch, the first through hole, and the second through hole are arranged in a straight line.   The control device according to claim 1, wherein the second switch is a capacitance switch. A third through hole is formed in the second switch;
The control device according to claim 2, wherein the first switch, the first through hole, the second through hole, and the third through hole are arranged in a straight line. The second switch is a capacitance switch including a sheet member and an electrode disposed on the sheet member,
The control device according to claim 4, wherein the third through hole is formed in the sheet member.   The control device according to claim 5, wherein the third through hole is surrounded by the electrode.   The said case is a control apparatus as described in any one of Claims 1-6 provided with the dustproof part surrounding the circumference | surroundings of the said 2nd switch. A substrate,
A tactile switch provided on the first surface of the substrate;
A case facing the first surface of the substrate;
A panel provided on the second surface of the case facing the same direction as the first surface;
A capacitance switch provided between the case and the panel;
With
A first through hole is formed in the case;
A second through hole is formed in the panel;
A third through hole is formed in the capacitance switch;
The control device in which the tactile switch, the first through hole, the second through hole, and the third through hole are arranged in a straight line. The case further includes a main body case including the case and the substrate disposed therein,
The substrate is
A first substrate constituting a control circuit;
A second substrate constituting a power supply circuit for supplying power to the control circuit;
With
The control device according to any one of claims 1 to 8, wherein the main body case further includes a fire spread prevention unit that surrounds the power supply circuit. The fire spread prevention unit includes a fire spread prevention wall surrounding the periphery of the second substrate,
The control device according to claim 9, wherein the first substrate and the second substrate are disposed adjacent to each other with the fire spread prevention wall interposed therebetween.

Images