JP4624271B2 - Antistatic structure of pushbutton switch device in electronic equipment - Google Patents

Description

  The present invention relates to a static electricity prevention structure of a pushbutton switch device in an electronic device, and in particular, an electronic device in which a ground portion having a shape that is susceptible to discharge is provided on an extension line of a gap between a key top of a circuit board and a key top holding portion. The present invention relates to a static electricity countermeasure structure of a push button switch device in an apparatus.

  2. Description of the Related Art Conventionally, a push button switch device of an electronic device is composed of a switch and a key top that operates the switch, the switch is disposed on a circuit board in the electronic device casing, and the key top is formed by a key top holding portion of the casing. In many cases, the switch is held in a state where the switch can be turned on and off. In this case, non-conductive members are often used for the key top and the key top holding portion.

  On the other hand, the operator's body may be charged to about several thousand volts due to friction with clothes and the like. When the key top is pressed and the space between the key top and the circuit board is short when the key top is pressed, external static electricity is held by the key top and the key top. In some cases, it flows into the inside through a gap with the part and directly discharges to the circuit board. In such a case, if static electricity is discharged to a pattern other than GND on the circuit board, a VIA hole, a component, or the like, the component on the circuit may be destroyed, and the device may break down.

  As a countermeasure, there is a method to protect the pattern or electronic component on the circuit board that may be discharged by covering it with an insulator such as a sheet or tape for discharge protection. In the case where the number is several, there is a problem that many protective parts are required. The metal shield plate is also mounted on the circuit board by surrounding the switch around the switch, but it requires time and effort to mount parts different from the circuit board. Since the distance between the gap and the metal shield plate is close, discharging is performed even when charging is performed at a low voltage, which causes a problem due to discharge noise.

In Patent Document 1, a key switch is disclosed in which a side wall surrounding the key top is provided in the key top holding part to the vicinity of the circuit board, and a ground pattern is formed on the entire surface of the circuit board between the switch and the side wall of the key top holding part. ing.
JP-A-6-150777

  In the key switch described in Patent Document 1, since the ground is provided on the circuit board, no special effort is required for installation. However, most of the parts other than the switch on the circuit board are covered with the ground for preventing discharge, so that There is a problem that there is no space for the target pattern, VIA hole, and parts.

  It is an object of the present invention to effectively guide electrostatic discharge from the gap between the key top and the key top holding part toward the circuit board to the ground of the board, and to arrange the arrangement space for patterns, VIA holes, components, etc. other than GND. It is an object of the present invention to provide a static electricity countermeasure structure for a pushbutton switch device in an electronic device that can be secured on a substrate.

The antistatic structure of the pushbutton switch device in the electronic apparatus of the present invention is
A push button switch device having a switch provided on a circuit board inside an electronic device and a key top for performing ON / OFF operation of the switch, and enclosing the key top at an upper portion thereof, and ON / OFF operation of the switch for the key top A key top holding portion provided in a casing of an electronic device that holds the key top in a state where the key top can be held, and the key top and the key top holding portion have a gap between them when the key top is pressed. It is the static electricity countermeasure structure of the pushbutton switch apparatus in the electronic device arrange | positioned in.

  In the first aspect, when the key top is pressed, the circuit board in the vicinity of the intersection of the circuit board and the straight line connecting the upper outer edge of the key top and the lower outer edge of the key top holding part immediately adjacent to the upper outer edge of the key top A plurality of spot-like GND lands for discharge are provided continuously around the switch.

  In the second aspect, when the key top is pressed, the circuit board in the vicinity of the intersection of the circuit board and the straight line connecting the upper outer edge of the key top and the lower outer edge of the key top holding part immediately adjacent to the upper outer edge of the key top A plurality of discharging GND chip resistors are provided continuously around the switch.

  A pattern other than GND on the circuit board and the VIA hole may be provided at a position corresponding to a position directly below the inside of the side wall surface of the key top.

  A plurality of spot-like GND lands for discharge and a GND chip resistor for discharging, which are easy to be discharged, hold the top of the key top when the key top is pressed and the key top holding near the top outer edge of the key top. Since it is continuously provided on the circuit board in the vicinity of the intersection between the straight line connecting the lower outer edge of the part and the circuit board, the discharge from the gap between the side wall part of the key top and the key top holding part is reliably made to GND. The flow does not disturb other devices and circuits. Further, since the pattern other than GND on the circuit board and the VIA hole are provided at a position corresponding to a position directly below the inside of the side wall of the key top, there is no damage from the discharge.

  The present invention provides a plurality of spots near the intersection of a circuit board and a straight line connecting the upper outer edge of the key top and the lower outer edge of the key top holding part immediately adjacent to the upper outer edge of the key top when the key top is pressed. Since the discharge GND land or the discharge GND chip resistor is continuously provided, the discharge due to static electricity entering from the gap between the side wall portion of the key top and the key top holding portion can be reliably captured. . Therefore, there is an effect of eliminating the failure of parts due to electrostatic discharge and improving the reliability of the electronic device.

Further, since it is possible to protect against static electricity without using parts such as circuit protection parts and insulators, the number of parts and cost can be reduced.
Further, since the plurality of spot-like discharge GND lands or the discharge GND chip resistors that receive electrostatic discharge occupy a small area, the discharge GND lands or the discharge GND chip resistors and the side walls of the switch There is an effect that a space for arranging a pattern other than GND and a VIA hole can be secured on the circuit board.

  According to the static electricity prevention structure of the pushbutton switch device in the electronic apparatus of the present invention, external static electricity directly discharges from the gap between the side of the keytop portion of the pushbutton switch device and the keytop holding portion of the housing to the circuit board. In this case, the GND portion of the circuit board has a shape that is easy to be discharged so that the discharge to the GND portion is ensured. In addition, since the area occupied by the GND portion is small, a space for providing a pattern other than GND, a VIA hole, and an electronic component can be secured in a portion corresponding to the back side of the key top around the switch so that external static electricity is not directly discharged. You can do protection.

  Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic side cross-sectional view showing a static electricity countermeasure structure of a pushbutton switch device in an electronic apparatus according to a first embodiment of the present invention, and FIG. 2 is a diagram of the electronic apparatus according to the first embodiment of the present invention. It is a typical top view which shows the static electricity countermeasure structure of a pushbutton switch apparatus. In FIG. 1 and FIG. 2, two push button switch devices 20 are illustrated as an example for ease of explanation, but a plurality of push button switch devices 20 are usually arranged in a predetermined arrangement in the actual electronic device 1. Is arranged in. FIG. 1 shows a state in which the left key top 22 is pressed by the finger 70 and the switch 21 is turned on, and the right key top 22 is pushed up by the switch 21 and the switch 21 is turned off.

  The electronic device according to the first embodiment includes a casing, a circuit board 30 provided inside the casing, a push button switch device 20 including a switch 21 and a key top 22, and the switch 21 is fixed at a predetermined position on the circuit board 30. The key top 22 is located at the center of the top portion 22a, the side wall portion 22b, and the concave portion of the side wall portion 22b that are pressed by a finger to perform the ON / OFF operation of the switch 21. And a switch pressing portion 22c for pressing. In this embodiment, the top portion 22a of the key top 22 is held so as to be movable up and down in the opening of the key top holding portion 10 connected to the housing, and the upper surface of the side wall portion 22b is the key top holding portion 10. The key top 22 is engaged with the periphery of the opening so that the switch 21 is in an OFF state.

  When the top portion 22a is pressed with the finger 70 as shown on the left side of FIG. 1, the key top 22 is guided and lowered by the key top holding portion 10, and the switch pressing portion 22c presses the button of the switch 21 so that the switch 21 It changes from OFF to ON. At this time, the static electricity charged on the finger 70 is discharged toward the circuit board 30 through the gap between the key top holding part 10 and the top part 22a of the key top 22 along the electrostatic discharge path 60 shown in the figure. Since non-conductive members are normally used for the key top holding part 10 and the key top 22, discharge is generated with respect to the conductive part of the circuit board 30.

  Here, when the key top 22 is pressed on the circuit board 30, the straight line connecting the upper outer edge of the key top 22 and the lower outer edge of the key top holding part 10 in the immediate vicinity of the upper outer edge of the key top 22 and the circuit board. Since the plurality of spot-like discharge GND lands 40 are continuously provided surrounding the switch 21 on the circuit board 30 in the vicinity of the intersection with the electric discharge circuit 30, static electricity is discharged toward the discharge GND lands 40. . The arrangement position of the discharge ground land 40 is not limited to this, and a position where discharge is most likely to occur may be selected corresponding to the shape of the key top 22.

  Next, the operation of the antistatic structure of the pushbutton switch device in the electronic apparatus according to the first embodiment of the present invention will be described. When the spatial distance between the key top holding unit 10 and the circuit board 30 is short, static electricity accumulated in the human body or the like during the push button operation of the electronic device is generated from the gap between the key top holding unit 10 and the top part 22a of the key top. The substrate 30 may be directly discharged.

  In the present invention, by providing the discharge GND land 40 on the circuit board 30, it is easy to discharge static electricity to the GND, and prevents damage to components on the circuit by preventing discharge to patterns, VIA holes, components, etc. other than GND. In addition, the reliability of electronic equipment is improved. Further, by disposing the pattern 51 other than GND, the VIA hole 52, etc. on the back side of the button shape surrounded by the side wall portion 22b of the key top 22 of the circuit board 30, the discharge of static electricity to components other than GND is prevented. Is possible. Accordingly, it is possible to prevent discharge without using an insulating sheet, an insulating tape, or a protective component that has been conventionally required.

  When discharging from the gap between the key top holding part 10 and the top part 22a of the key top 22 to the circuit board 30, the upper outer edge of the key top 22 on the circuit board 30 when the key top 22 is pressed On the circuit board 30 in the vicinity of the intersection of the circuit board 30 and the straight line connecting the lower outer edge of the key top holding part 10 in the immediate vicinity of the upper outer edge of the key top 22 is an outer point in the case of direct discharge. In some cases, the inner side of the key top 22 may not be directly discharged due to the shape of the side wall portion 22b of the key top 22. Therefore, in the present embodiment, the upper outer edge of the key top 22 and its key top when the key top 22 is pressed. 22, the vicinity of the intersection of the circuit board 30 and the straight line connecting the lower outer edge of the key top holding portion 10 immediately adjacent to the upper outer edge of the circuit 22 is set as the arrangement position of the discharge GND land 40. You may arrange in. Here, since a plurality of spot-like discharge GND lands 40 are continuously provided surrounding the switch 21, static electricity is discharged toward the discharge GND lands 40, and patterns other than GND, VIA holes, parts It is possible to prevent discharge to the like.

  Next, the antistatic structure of the pushbutton switch device in the electronic apparatus according to the second embodiment of the present invention will be described. FIG. 3 is a schematic side cross-sectional view showing a static electricity countermeasure structure of a pushbutton switch device in an electronic apparatus according to a second embodiment of the present invention. In FIG. 3, two push button switch devices 20 are illustrated as an example for ease of explanation, but a plurality of push button switch devices 20 are usually arranged in a predetermined arrangement in the actual electronic device 1. ing. FIG. 3 shows a state in which the left key top 22 is pressed by the finger 70 and the switch 21 is turned on, and the right key top 22 is pushed up by the switch 21 and the switch 21 is turned off.

  In the static electricity countermeasure structure of the pushbutton switch device in the electronic device according to the second embodiment of the present invention, the discharge GND land 40 is discharged in the static electricity countermeasure structure of the pushbutton switch device in the electronic device according to the first embodiment. Since the configuration is the same except that the discharge GND chip resistor 45 is used, the same reference numerals are used for the same configuration, and detailed description is omitted. By using the chip resistor 45 connected to GND for discharging instead of the GND land 40 for discharging, since the chip resistor 45 is larger than the GND land 40, the spatial distance between the discharge power source and the discharge destination becomes close, and the chip end Since the point is sharp, an effect that the discharge to the portion easily occurs can be obtained.

It is typical side surface sectional drawing which shows the static electricity countermeasure structure of the pushbutton switch apparatus in the electronic device of the 1st Embodiment of this invention. It is a typical top view which shows the static electricity countermeasure structure of the pushbutton switch apparatus in the electronic device of the 1st Embodiment of this invention. It is typical side surface sectional drawing which shows the static electricity countermeasure structure of the pushbutton switch apparatus in the electronic device of the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Key top holding part 20 Push button switch apparatus 21 Switch 22 Key top 22a Top part 22b Side wall part 22c Switch press part 30 Circuit board 40 Discharging GND land 45 Discharging GND chip resistor 51 Pattern 52 VIA hole 60 Electrostatic discharge path 70 finger

Claims (3)

A push button switch device provided with a switch provided on a circuit board inside the electronic device and a key top for performing ON-OFF operation of the switch, and enclosing the key top at an upper portion thereof, and turning the switch on- A key top holding portion provided in a casing of the electronic device that is held in a state where an OFF operation is possible, and the key top and the key top holding portion are those that are used when the key top is pressed. In the static electricity countermeasure structure of the pushbutton switch device in the electronic equipment arranged so that a gap is generated between them,
On the circuit board in the vicinity of the intersection of the circuit board and a straight line connecting the upper outer edge of the key top and the lower outer edge of the key top holding part immediately adjacent to the upper outer edge of the key top when the key top is pressed And a plurality of spot-like GND lands for discharge provided continuously around the switch. A push button switch device provided with a switch provided on a circuit board inside the electronic device and a key top for performing ON-OFF operation of the switch, and enclosing the key top at an upper portion thereof, and turning the switch on- A key top holding portion provided in a casing of the electronic device that is held in a state where an OFF operation is possible, and the key top and the key top holding portion are those that are used when the key top is pressed. In the static electricity countermeasure structure of the pushbutton switch device in the electronic equipment arranged so that a gap is generated between them,
On the circuit board in the vicinity of the intersection of the circuit board and a straight line connecting the upper outer edge of the key top and the lower outer edge of the key top holding part immediately adjacent to the upper outer edge of the key top when the key top is pressed And a plurality of discharging GND chip resistors provided continuously surrounding the switch.   3. The electronic device according to claim 1, wherein a pattern other than GND on the circuit board and a VIA hole are provided at a position corresponding to a position directly below the inner side of the side wall surface of the key top. Static electricity prevention structure of pushbutton switch device in Japan.

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