JP6289307B2 - Button flooding countermeasure structure and electronic equipment - Google Patents

Description

  The present invention relates to a button wet countermeasure structure for a button whose button surface is exposed to the outside from an opening of an electronic device.

Some buttons of an electronic device are assembled so that a button surface portion is exposed to the outside through an opening formed on a design surface, for example. In such a button, if the countermeasure against water is not taken, when the design surface is wet, water droplets may enter the inside of the device from the gap between the inner wall of the opening and the outer periphery of the button surface. Since there is a switch boss that extends toward the tact switch on the back of the button surface, water drops that have entered the device can reach the tact switch and the board on which it is mounted via the switch boss, causing the electrical system to short-circuit. There is sex.
For this reason, various button flooding countermeasure structures have been proposed.

For example, in the button disclosed in Patent Document 1, a flange is integrally formed over the entire circumference of the base of the button surface portion and horizontally extended outward, and the switch boss on the back surface side of the button surface portion is slidable. A waterproof wall is disposed around the shaft support portion that is supported.
By comprising in this way, the flow path of the water droplet which permeated the apparatus inside is changed in the direction away from the switch boss by the flange, and the water droplet is drained through the waterproof wall so as to avoid the switch.

  Further, in Patent Document 2, a pressing portion (switch boss) for pressing the switch is provided on the back side of the operation button, and a rib protruding downward is provided at a position shifted from the switch outside the pressing portion. An operation input device is disclosed. By comprising in this way, the water droplet which generate | occur | produced by dew condensation etc. is dripped at the position which shifted | deviated from the switch along the said rib. As a result, water droplets do not enter the switch, and a short circuit in the electrical system can be prevented.

JP 2007-188761 A JP-A-11-162282

In order to reduce the distance between adjacent buttons, a so-called straight structure button is used in which the switch boss connected to the button surface part is moved directly to depress the tact switch in order to reduce the space occupied in the horizontal direction. There are many cases.
However, in the case of a straight structure button, when water countermeasures are not taken, there is a high possibility that water droplets that have entered inside the device travel along the switch boss to wet the tact switch and the substrate on which the tact switch is mounted.

  In Patent Document 1, since it is necessary to provide a waterproof wall around the flange and the shaft support portion that protrudes outward from the outer shape of the button, it is necessary to leave a distance corresponding to the space occupied by the flange and the waterproof wall between adjacent buttons. . For this reason, when it is necessary to reduce the distance between adjacent buttons due to restrictions on the design of the electronic device, the space for providing the flange and the waterproof wall cannot be secured, and the invention of Patent Document 1 cannot be applied.

In Patent Document 2, since the rib is provided outside the pressing portion and at a position shifted from the switch, the outer size of one button is always increased by the space occupied by the rib.
Therefore, the button structure of Patent Document 2 limits the downsizing of the electronic device. For example, it cannot be used in an electronic device having a design in which the distance between adjacent buttons is narrow.

  This invention is for solving the above problems, and it is an object of the present invention to provide a button water countermeasure structure capable of taking water countermeasures without increasing the outer size of the button.

The button water exposure countermeasure structure according to the present invention includes a button surface portion exposed to the outside from the opening of the electronic device, a switch disposed inside the electronic device, and a switch boss protruding from the back surface side of the button surface portion toward the switch. The switch boss moves toward the switch when the button face is pressed, and the contact portion at the tip of the switch boss is a button water-proof structure that turns on or off by pressing the switch. The switch boss is inserted into the inside until the portion protrudes from the end , and the inner wall is provided so as to contact the switch boss, and includes a cylindrical member smaller than the outer size of the button.

  According to the present invention, there is an effect that it is possible to take measures against water exposure without increasing the outer size of the button.

It is a front view which shows the electronic device used as the application object of this invention. It is a figure which shows the back surface side of the B section of FIG. FIG. 2 is a side sectional view of the electronic device of FIG. 1. It is a perspective view which shows the button which concerns on Embodiment 1 of this invention. It is a figure which shows the outline | summary of the button flooding countermeasure structure which concerns on Embodiment 1. FIG. It is a perspective view which shows the structural example (the 1) of a cover. It is a perspective view which shows the structural example (the 2) of a cover. It is a figure which shows the switch boss | hub which provided the reinforcement rib of the cover. It is a perspective view which shows the button which concerns on Embodiment 2 of this invention.

Embodiment 1 FIG.
FIG. 1 is a front view showing an electronic apparatus to which the present invention is applied. FIG. 2 is a view showing the back side of the portion B in FIG. FIG. 1 and FIG. 2 show the case where the button wet countermeasure structure according to the present invention is not provided. In FIG. 1, an electronic device 1 is an in-vehicle information processing device such as a navigation device or an audio device with a display. A display surface 3 and buttons 4 are arranged on the front surface of the monitor panel 2 of the electronic device 1.
Note that the electronic device 1 has a narrow distance a between adjacent buttons 4 on the monitor panel 2 due to design restrictions, and each button 4 has a straight structure with a small occupied space as shown in FIG. is there. That is, when the switch boss 5 connected to the back surface of the button surface portion 4a is linearly moved and the contact portion 6 at the tip thereof depresses the tact switch, the tact switch is turned on or off.

  FIG. 3 is a side sectional view of the electronic apparatus of FIG. 3 is a side sectional view taken along line AA in FIG. 1, and the right diagram in FIG. 3 is an enlarged view of a main part of the button. As shown in the left diagram of FIG. 3, the cover case 7 is assembled to the back side of the monitor panel 2 and covers the internal configuration of the electronic device 1. The electronic device 1 is attached by being inclined by a predetermined inclination angle θ (for example, 30 °) in accordance with the outer shape of the attachment location (for example, dashboard).

As shown in the right diagram of FIG. 3, a substrate 8 on which a tact switch 9 is mounted is disposed inside the electronic device 1, and the switch boss 5 is directly moved by pressing the button surface portion 4 a, and the switch boss 5 When the contact portion 6 at the tip of the switch presses the tact switch 9, the tact switch 9 is turned on or off.
When the pressing operation of the button surface portion 4a is released, the button 4 returns to the original position by the reaction force from the tact switch 9.

  In the case where the button flooding countermeasure structure is not adopted, when the monitor panel 2 is flooded, water droplets enter the electronic device 1 through the gap between the inner wall of the monitor panel 2 and the outer periphery of the button surface portion 4a. The water droplets flow toward the substrate 8 and the tact switch 9 through the switch boss 5 and the contact portion 6 as shown by paths b1 and b2 in FIG. This may cause a short circuit in the electrical system.

Therefore, in the present invention, a water countermeasure structure is adopted in which the water droplet paths b1 and b2 toward the tact switch 9 are changed and led to the drain side.
FIG. 4 is a perspective view showing the button according to Embodiment 1 of the present invention, and shows a case in which a button wet countermeasure structure according to the present invention is provided. FIG. 5 is a diagram showing an outline of the button water exposure countermeasure structure according to the first embodiment. In order to clearly indicate the flow of water droplets on the outer peripheral surface of the cover 10, the cover 10 and the abutting portion 6 are cross-sectional views. Not listed.

The cover 10 shown in FIG. 4 is a cylindrical tubular member having an outer diameter smaller than the outer size of the button 4 and larger than the switch boss 5.
As shown in FIG. 5, the switch boss 5 is inserted into the cover 10 until the contact portion 6 protrudes from one end of the cover 10.

Further, the water droplets that have traveled along the outer periphery of the button 4 need to be reliably transmitted onto the outer peripheral surface of the cover 10. Therefore, the size of the cover 10 in the longitudinal direction is the same position as the portion where the other end of the cover 10 protrudes most toward the tact switch 9 side of the outer periphery of the button 4 when inserted through the switch boss 5, or It is assumed that the size is the position inside the button 4 from this position (the back side of the button surface portion 4a).
Further, in FIG. 5, the lower side of the button 4 and the cover 10 are connected without a step, but the outer diameter of the cover 10 may be reduced so as to be inside the button 4.

As shown in the left diagram of FIG. 3, the electronic device 1 according to the present invention is attached to an installation location by being inclined by a predetermined inclination angle θ (for example, 30 °). 1 is provided with a drain hole 7a in a portion located in the lower part of the vertical direction.
As shown by the arrows in FIG. 5, the water droplets that have entered the inside of the electronic device 1 and reached the cover 10 travel on the outer peripheral surface of the cover 10 and on the curved outer peripheral surface before reaching the contact portion 6. The path is changed to the lower part in the vertical direction and drained from the drain hole 7a.
By providing the cover 10 in this way, water droplets do not flow to the substrate 8 and the tact switch 9, and a short circuit in the electrical system can be prevented.

The cover 10 is a cylindrical member having an outer diameter larger than that of the switch boss 5, but is smaller than the outer size of the button 4, so that the outer size of the button 4 does not increase even if the cover 10 is provided. Therefore, the present invention can be employed even in the electronic device 1 having a design in which the distance a between the adjacent buttons 4 shown in FIG.
Note that the cover 10 may be fixed to the portion of the switch boss 5 that contacts the inner wall of the cover 10 with an adhesive, for example.

The cover attached to the switch boss 5 may have the following structure.
FIG. 6 is a perspective view illustrating a configuration example of the cover. The cover 10A shown in FIG. 6 is a cylindrical member having a triangular outer peripheral shape, and is provided with the switch boss 5 inserted therethrough. Furthermore, as shown in FIG. 6, the cover 10 </ b> A is provided so that the side 10 </ b> A- 1 serving as a boundary between the adjacent outer peripheral surfaces 10 </ b> A- 2 and 10 </ b> A- 3 is positioned at the upper part in the vertical direction.
Even with this configuration, the water droplets that have entered the interior of the electronic device 1 are inclined to the lower side in the vertical direction before reaching the contact portion 6 along the side 10A-1 as indicated by the arrows in FIG. The path is changed on the adjacent outer peripheral surfaces 10A-2 and 10A-3, and the water is drained from the drain holes 7a.
Thereby, a water droplet does not flow to the board | substrate 8 and the tact switch 9, and it can prevent a short circuit of an electric system.

  However, as described above, the cover 10 </ b> A needs to be provided so that the side 10 </ b> A- 1 is positioned at the upper part in the vertical direction. This is because when one of the outer peripheral surfaces of the cover 10A is provided so as to be positioned in the upper part in the vertical direction, water droplets may flow from the upper part in the vertical direction to the substrate 8 and the tact switch 9 through the outer peripheral surface. Because.

FIG. 7 is a perspective view illustrating a configuration example of the cover. The cover 10 </ b> B shown in FIG. 7 is a cylindrical member having an outer peripheral shape that is provided with the switch boss 5 inserted therethrough. Further, as shown in FIG. 7, the cover 10 </ b> B is provided such that the side 10 </ b> B- 1 serving as a boundary between the adjacent outer peripheral surfaces 10 </ b> B- 2 and 10 </ b> B- 3 is positioned at the upper part in the vertical direction.
Even with this configuration, the water droplets that have entered the inside of the electronic apparatus 1 travel along the side 10B-1 as indicated by the arrows in FIG. 7 and are adjacent to the outer peripheral surface 10B-2 before reaching the contact portion 6. , 10B-3, the path is changed to the lower side in the vertical direction and drained from the drain hole 7a. Thereby, a water droplet does not flow to the board | substrate 8 and the tact switch 9, and it can prevent a short circuit of an electric system.

  However, for the same reason as the cover 10A, the cover 10B needs to be provided so that the side 10B-1 is located in the upper part in the vertical direction. That is, when any one of the outer peripheral surfaces of the cover 10B is provided at the upper portion in the vertical direction, water droplets may flow from the upper portion in the vertical direction to the substrate 8 and the tact switch 9 through the outer peripheral surface. It is.

  6 and 7 show cases where the outer peripheral shape of the cover is a triangle and a quadrangle, the present invention is not limited to this. For example, a cover whose outer peripheral shape is a pentagon or more may be used. However, also in this case, it is necessary to provide the cover so that the side that is the boundary between the adjacent outer peripheral surfaces is positioned in the upper part in the vertical direction.

  Further, as shown in FIGS. 6 and 7, the case where the cover is a polygonal cylindrical member having the same outer peripheral shape and inner peripheral shape has been shown. However, in the present invention, at least the outer peripheral shape is a polygonal cylindrical member. Any member may be used. Therefore, the cover in the present invention may be a polygonal cylindrical member whose outer peripheral shape is a polygon, but the inner peripheral shape may be a circular cylindrical member, or the inner peripheral shape may be a polygonal cylindrical member different from the outer peripheral shape. . For example, the outer peripheral shape is a triangle, but the inner peripheral shape may be a rectangular tubular member.

  FIG. 8 is a view showing a switch boss provided with a reinforcing rib of the cover. Here, FIG. 8A shows a configuration in which the reinforcing ribs 11-1 to 11-4 are provided on the cylindrical cover 10, and FIG. 8B shows the reinforcing rib 11A on the cover 10A having a triangular outer peripheral shape. The structure which provided -1-11A-3 is shown.

In the button 4, the switch boss 5 is moved in the pressing direction by the pressing operation of the button surface portion 4 a, and the contact portion 6 at the tip of the switch boss 5 presses the tact switch 9. When the pressing operation is released, the button 4 returns to the original position by the reaction force of the tact switch 9. The switch boss 5 has an elongated shape extending from the button body toward the tact switch 9.
In this way, the elongate switch boss 5 receives the pressing force by the pressing operation of the button surface portion 4a and the reaction force from the tact switch 9.
Therefore, also in the conventional switch boss 5, as shown in FIG. 2, reinforcing ribs are provided so that the cross section perpendicular to the axial direction of the switch boss 5 is T-shaped.
On the other hand, the reinforcing ribs 11-1 to 11-4 reinforce the cover 10 into which the switch boss 5 is inserted and integrated from the switch boss 5 side.

  8A and 8B, the reinforcing ribs 11-1 to 11-4 and 11A-1 to 11A-3 are provided on the switch boss 5 along the longitudinal direction of the covers 10 and 10A. An example is shown. The reinforcing ribs 11-1 to 11-4 and 11A-1 to 11A-3 are fixed to the inner walls of the covers 10 and 10A. By comprising in this way, the switch boss | hub 5 to which the pressing force of pressing operation and the reaction force from the tact switch 9 can be reinforced, and the button 4 with high reliability can be provided.

  8A shows a cylindrical cover 10 and FIG. 8B shows a cylindrical member cover 10A whose outer peripheral shape is a triangle. However, the cylindrical member cover whose outer peripheral shape is a quadrangle or more is shown. A reinforcing rib may be provided between the inner wall and the switch boss 5. Even in this case, the switch boss 5 can be reinforced in the same manner as described above.

As described above, according to the first embodiment, the switch boss 5 is inserted and provided until the abutment portion 6 protrudes from the end, and the cylindrical member (cover 10) smaller than the outer size of the button 4 is provided. , 10A, 10B). With this configuration, water droplets that have entered the interior of the electronic device 1 and have reached the cylindrical member have a path to the lower portion in the vertical direction on the outer peripheral surface of the cylindrical member before reaching the contact portion 6. Changed and drained. As a result, water droplets do not flow to the substrate 8 and the tact switch 9, and a short circuit of the electrical system can be prevented.
Since the cylindrical member is smaller than the outer size of the button 4, it is possible to take the above-mentioned countermeasure against water exposure without increasing the outer size of the button 4.

  According to the first embodiment, since the reinforcing ribs 11-1 to 11-4 are provided between the inner wall of the cover 10 and the switch boss 5, the cover 10 into which the switch boss 5 is inserted is reinforced. Can do.

Embodiment 2. FIG.
FIG. 9 is a perspective view showing a button according to Embodiment 2 of the present invention. The button 4A shown in FIG. 9 is similar to the structure shown in FIG. 3 of the first embodiment. The button surface 4a is exposed to the outside from the opening of the electronic device 1, the tact switch 9 is disposed inside the electronic device 1, And a switch boss 5A protruding from the back surface of the button surface 4a toward the tact switch 9.
Then, by pressing the button surface portion 4a, the switch boss 5A moves directly toward the tact switch 9, and the contact portion 6 presses the tact switch 9 to turn it on or off.

As shown in FIG. 9, the switch boss 5 </ b> A is a columnar columnar portion that is smaller than the outer size of the button 4 </ b> A and larger than the outer size of the contact portion 6 that contacts the tact switch 9.
Note that the electronic device 1 is attached to the installation location by being inclined by a predetermined inclination angle θ (for example, 30 °) in the same manner as in the first embodiment, and the electronic device 1 in the attached state is attached in the vertical direction. The drain hole 7a is provided in the part located in the lower part (refer the left figure of FIG. 3).
Accordingly, the water droplets that have entered the inside of the electronic device 1 and have reached the switch boss 5A travel on the outer peripheral surface of the switch boss 5A, and before reaching the contact portion 6, as shown by the arrows in FIG. The path is changed to the lower part in the vertical direction on the surface, and the water is drained from the drain hole 7a. Thereby, a water droplet does not flow to the board | substrate 8 and the tact switch 9, and it can prevent a short circuit of an electric system.

The switch boss 5A has a structure in which the outer diameter of the conventional switch boss 5 is increased and is reinforced.
Further, since the switch boss 5A can be formed integrally with the button 4A, the work of attaching to the switch boss 5 as in the cover 10 of the first embodiment is unnecessary.

Although FIG. 9 shows the case where the switch boss 5A is a columnar columnar portion, the present invention is not limited to this, and may be a polygonal columnar columnar portion equal to or greater than a triangular prism.
However, in this case, if the switch boss is formed so that the outer peripheral surface is located at the upper part in the vertical direction, water droplets may flow from the upper part in the vertical direction to the substrate 8 and the tact switch 9 through the outer peripheral surface.
Therefore, when the switch boss has a polygonal column shape, the switch boss is formed so that the side that is the boundary between the adjacent outer peripheral surfaces is located at the upper part in the vertical direction. As a result, before the water droplets reach the contact portion 6, the path is changed to the lower portion in the vertical direction on the adjacent outer peripheral surface and discharged from the drain hole 7 a.

As described above, according to the second embodiment, the switch boss 5A is a columnar portion that is smaller than the outer size of the button 4A and larger than the outer size of the contact portion 6.
By configuring in this way, the water droplets that have entered the interior of the electronic device 1 and have reached the columnar part change the path to the lower part in the vertical direction on the outer peripheral surface of the columnar part before reaching the contact part 6. And drained. Thereby, a water droplet does not flow to the board | substrate 8 and the tact switch 9, and it can prevent a short circuit of an electric system.
Since the switch boss 5A is smaller than the outer size of the button 4A, it is possible to take the above-described countermeasure against water exposure without increasing the outer size of the button 4A.

  In the present invention, within the scope of the invention, any combination of each embodiment, any component of each embodiment can be modified, or any component can be omitted in each embodiment. .

  DESCRIPTION OF SYMBOLS 1 Electronic device, 2 Monitor panel, 3 Display surface, 4,4A button, 4a Button surface part, 5,5A Switch boss, 6 Contact part, 7 Cover case, 7a Drain hole, 8 Board | substrate, 9 Tact switch 10, 10A , 10B cover, 10A-1, 10B-1 side, 10A-2, 10A-3, 10B-2, 10B-3 outer peripheral surface, 11-1 to 11-4, 11A-1 to 11A-3 reinforcing ribs.

Claims (8)

A button surface portion exposed to the outside from the opening of the electronic device; a switch disposed inside the electronic device; and a switch boss protruding toward the switch from the back side of the button surface portion; The switch boss is moved toward the switch by an operation, and a contact portion at a tip of the switch boss is a structure for preventing water from being pressed on the button to turn on or off the switch,
The switch boss is inserted into the inside until the abutting portion protrudes from the end , and an inner wall of the button boss is provided so as to contact the switch boss, and includes a tubular member smaller than the outer size of the button. Countermeasure structure.   The button water-resistant structure according to claim 1, wherein the cylindrical member has a cylindrical shape. A button surface portion exposed to the outside from the opening of the electronic device; a switch disposed inside the electronic device; and a switch boss protruding toward the switch from the back side of the button surface portion; The switch boss is moved toward the switch by an operation, and a contact portion at a tip of the switch boss is a structure for preventing water from being pressed on the button to turn on or off the switch,
The switch boss is inserted into the inside until the abutting portion protrudes from the end, and includes a cylindrical member smaller than the outer size of the button,
It said tubular member is at least the outer peripheral shape polygonal, features and be Rubo Tan the water measures structure that boundary to become the sides of the outer peripheral surface is provided so as to be positioned in the vertical direction of the upper adjacent. A button surface portion exposed to the outside from the opening of the electronic device; a switch disposed inside the electronic device; and a switch boss protruding toward the switch from the back side of the button surface portion; The switch boss is moved toward the switch by an operation, and a contact portion at a tip of the switch boss is a structure for preventing water from being pressed on the button to turn on or off the switch,
The switch boss is inserted into the inside until the abutting portion protrudes from the end, and includes a cylindrical member smaller than the outer size of the button,
Features and to Rubo Tan the water measures structure in that a reinforcing rib between the inner wall and the switch boss of the tubular member. A button surface portion exposed to the outside from the opening of the electronic device; a switch disposed inside the electronic device; and a switch boss protruding toward the switch from the back side of the button surface portion; The switch boss is moved toward the switch by an operation, and a contact portion at a tip of the switch boss is a structure for preventing water from being pressed on the button to turn on or off the switch,
The button water proof structure, wherein the switch boss is a columnar portion that is smaller than the outer size of the button and larger than the outer size of the contact portion.   6. The button wet countermeasure structure according to claim 5, wherein the columnar portion is cylindrical.   6. The button wetness countermeasure structure according to claim 5, wherein the columnar part is formed in a polygonal column shape, and a side which is a boundary between adjacent outer peripheral surfaces is located at an upper part in a vertical direction. The electronic device provided with the button flooding countermeasure structure of any one of Claims 1-7.

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