JP2020173915A - switch - Google Patents

Abstract

To grasp the reference position related to the strength control of a predetermined function and realize finer adjustment.SOLUTION: A switch includes an operation unit having a plurality of linearly adjacent protrusions, and the protrusions are provided so as to be tilted in two directions along a linear axis by a user operation, and on the basis of the tilt of the protrusions, the strength related to the execution of a given function is determined.SELECTED DRAWING: Figure 1

Description

The present invention relates to a switch.

In recent years, switches having various shapes and mechanisms have been developed. Some of the switches as described above control the strength related to the execution of a predetermined function based on, for example, a user operation. For example, Patent Document 1 describes a mechanism for determining the strength related to open / close control of a power window based on a user operation.

JP-A-2016-207497

However, with the mechanism described in Patent Document 1, it is difficult for the user to intuitively and in detail grasp the strength related to the opening / closing control of the power window.

Therefore, the present invention has been made in view of the above problems, and an object of the present invention is that it is possible to grasp a reference position related to strength control of a predetermined function and realize finer adjustment. , To provide new and improved switches.

In order to solve the above problems, according to a certain viewpoint of the present invention, an operation unit having a plurality of protrusions linearly adjacent to each other is provided, and the protrusions are operated by a user along a linear axis. A switch is provided that is provided so that it can be tilted in a direction, and the strength for performing a predetermined function is determined based on the tilt of the protrusion.

Further, the plurality of the protrusions are provided so that the protrusions having the smallest degree of inclination are single, and the strength related to the execution of the predetermined function is determined based on the protrusions having the smallest degree of inclination. May be done.

Further, the plurality of the protrusions may be provided so as to be self-supporting, and the strength for executing the predetermined function may be determined based on the number of the protrusions inclined by the user operation.

Further, the switch may include a control unit that controls the strength related to the execution of a predetermined function based on the inclination of the protrusion.

Further, the switch may include an irradiation unit that irradiates light in a non-tilting direction of the protrusion.

Further, the bottom portion of the protrusion may be colored.

As described above, according to the present invention, it is possible to grasp the reference position related to the strength control of a predetermined function and realize finer adjustment.

It is a figure for demonstrating the structure of the switch 10 which concerns on one Embodiment of this invention. It is a figure which shows an example of the case where the switch 10 which concerns on the same embodiment is used for controlling a headlight of a vehicle. It is a figure which shows an example of the case where the switch 10 which concerns on the same embodiment is used for controlling a power window. It is a block diagram which shows the functional structure example of the switch 10 which concerns on the same embodiment.

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. In the present specification and the drawings, components having substantially the same functional configuration are designated by the same reference numerals, so that duplicate description will be omitted.

<1. Embodiment>
As described above, in recent years, switches having various shapes and mechanisms have been developed. Some of the switches as described above control the strength related to the execution of a predetermined function, for example, as described in Patent Document 1.

For example, a switch that controls a power window as described in Patent Document 1 generally controls the degree of opening or closing of the power window based on the time operated by the user. However, in the case of such a switch, it is difficult for the user to intuitively grasp how long the switch should be operated to open or close the window to a desired position.

For example, when a user wants to open a window about two-thirds from a fully closed state, it is difficult for the user to know how many seconds the switch should be operated. Therefore, the user is required to operate the switch while checking the position of the window, or to check the position of the window after operating the switch appropriately and then make fine adjustments.

The same applies to slide-type and dial-type switches. For example, some switches mounted on a vehicle control volume, temperature, air volume, etc. by sliding a bar or rotating a dial.

In the case of a switch as described above, the user needs to pay close attention to the position of the bar and the position of the dial in order to adjust to the desired strength.

The technical idea of the present invention was conceived by paying attention to the above points, and makes it possible to grasp the reference position related to the strength control of a predetermined function and realize finer adjustment.

FIG. 1 is a diagram for explaining the structure of the switch 10 according to the present embodiment. As shown in FIG. 1, the switch 10 according to the present embodiment includes an operation unit 110 having a plurality of protrusions 115 that are linearly spaced apart from each other at predetermined intervals.

The plurality of protrusions 115 according to the present embodiment are formed in a plate shape or a rod shape using, for example, a hard material such as plastic, and are provided so as to be inclined in two directions along a linear axis by a user operation. ..

For example, in the case of the example shown in FIG. 1, a part of the plurality of protrusions 115 is moved from an independent state as shown on the left side of the figure to a user operation of tracing the upper surface of the protrusions 115 as shown on the right side of the figure. , It is inclined to the left in the figure so as to fall down on the adjacent protrusion 115.

At this time, the control unit 120 (not shown) according to the present embodiment may control the strength related to the execution of the predetermined function based on the inclination of the protrusion 115 due to the user operation.

For example, when a plurality of protrusions 115 according to the present embodiment are provided so as to be self-supporting as shown in the drawing, the control unit 120 according to the present embodiment is the number (or self-supporting) of the protrusions 115 inclined by the user operation. The strength for performing a predetermined function may be determined based on the number of protrusions 115).

For example, in the case of the example shown in FIG. 1, 7 of the 16 protrusions 115 are inclined by the user operation. Here, when there are 16 levels of strength related to the execution of the predetermined function, the control unit 120 can set the seventh strength from the bottom.

On the other hand, the plurality of protrusions 115 according to the present embodiment may be provided so as not to be self-supporting. In this case, since the plurality of protrusions 115 according to the present embodiment support each other and take a mountain-shaped posture having a single peak, the protrusion 115 having the smallest degree of inclination becomes a single protrusion 115.

At this time, the control unit 120 according to the present embodiment may determine the strength related to the execution of the predetermined function based on the protrusion 115 having the smallest degree of inclination. For example, when the degree of inclination of the eighth protrusion 115 counting from the front of the user among the 16 protrusions 115 is the smallest (that is, when it reaches a peak), the control unit 120 has 16 levels of strength. It is possible to set the eighth intensity from the bottom.

As described above, in the switch 10 according to the present embodiment, the strength related to the execution of the predetermined function can be determined based on the inclination of the protrusion 115. According to the mechanism as described above, when tracing the upper surfaces of the plurality of protrusions 115, the user can feel the touch of the adjacent protrusions 115 in order with the fingertips, and the reference position related to the strength control is intuitive. It is possible to grasp the target and details.

The reference position may be the last contacted protrusion 115 by a tracing operation when the protrusion 115 can stand on its own. When the protrusion 115 cannot stand on its own, the protrusion 115 may have the smallest inclination due to the seven tracing operation.

Further, the switch 10 according to the present embodiment may be able to visually grasp the reference position related to the execution of the predetermined function. For this purpose, the switch 10 according to the present embodiment includes an irradiation unit 130 (not shown) that irradiates light in a non-tilting direction of the protrusion 115. Further, the protrusion 115 according to the present embodiment may have a transparency sufficient to transmit the light irradiated by the irradiation unit 130.

Here, the non-tilted direction refers to a direction when the protrusion 115 is not tilted. For example, as in the example shown in FIG. 1, when the protrusion 115 can stand upright with respect to the horizontal plane, the non-tilting direction may be the vertical direction.

In the above configuration, when the irradiation unit 130 irradiates the colored light in the inclined direction, the protrusion 115 whose inclination angle is closer to the non-inclination direction reduces the number of reflections of the colored light inside, and the irradiation unit 130 The color corresponding to the colored light to be irradiated will appear strongly.

On the other hand, as the inclination angle of the protrusion 115 is farther from the non-inclination direction, the number of reflections of the colored color inside increases, so that the degree of divergence becomes stronger, and the color is reflected lightly as shown on the right side of FIG.

According to the mechanism as described above, since the color scheme of the operation unit 110 changes according to the change of the reference position related to the execution of the predetermined function, it is possible to visually grasp the reference position more intuitively. It becomes.

The light emitted by the irradiation unit 130 according to the present embodiment is not limited to colored light. The irradiation unit 130 according to the present embodiment may irradiate white light. In this case, the bottom of the protrusion 115 may be colored. According to such processing, the color scheme of the operation unit 110 can be made to follow the change of the reference position, as in the case where the irradiation unit 130 irradiates the colored light.

Further, when the bottom portion of the protrusion 115 is colored and the irradiation unit 130 irradiates colored light different from the color used for coloring, a gradation of two colors is expressed according to the inclination angle of the protrusion 115. It is also possible.

The mechanism of the switch 10 according to the present embodiment has been described above. According to the switch 10 according to the present embodiment, it is possible to grasp the reference position related to the strength control of the predetermined function and realize finer adjustment.

Subsequently, an application example of the switch 10 according to the present embodiment will be described. FIG. 2 is a diagram showing an example of a case where the switch 10 according to the present embodiment is used for controlling a headlight of a vehicle. In this case, the user may be able to change the mode of the headlight and the irradiation intensity in each mode by tracing the operation unit 110 with a thumb or the like.

As described above, the switch 10 according to the present embodiment can be used not only for the strength of the predetermined function but also for the mode of the predetermined function, the switching of the predetermined function, and the like.

Further, FIG. 3 is a diagram showing an example of a case where the switch 10 according to the present embodiment is used for controlling a power window. In this case, the user can intuitively and in detail determine the opening / closing position of the power window by tracing the operation unit 110 with an index finger or the like.

Further, as shown in the figure, the switch 10 according to the present embodiment may include a plurality of operation units 110. In the case of the example shown in FIG. 3, the switch 10 includes four operation units 110a to 110d. The operation units 110a to 110d may be mechanisms for controlling the power windows of the vehicle front left side, the vehicle front right side, the vehicle rear left side, and the vehicle rear right side, respectively.

The application of the switch according to the present embodiment has been described above with specific examples. The application of the switch according to the present embodiment is not limited to the switch mounted on the vehicle as described above, and the switch 10 according to the present embodiment has various kinds of switches for adjusting the strength related to the execution of a predetermined function. It can be used for various purposes.

Next, the functional configuration of the switch 10 according to the present embodiment will be described. FIG. 4 is a block diagram showing a functional configuration example of the switch 10 according to the present embodiment. As shown in FIG. 4, the switch 10 according to the present embodiment includes an operation unit 110 having a protrusion 115, a control unit 120, and an irradiation unit 130. Here, the description of the control unit 120 and the irradiation unit 130 will be supplemented.

(Control unit 120)
As described above, the control unit 120 according to the present embodiment has a function of controlling the strength related to the execution of a predetermined function based on the inclination of the protrusion 115. The control unit 120 according to the present embodiment determines a reference position for executing a predetermined function based on the inclination angle of the protrusion 115 detected by, for example, a rotation sensor, and determines a predetermined function with an intensity corresponding to the reference position. To execute.

For example, when the protrusions 115 are provided so as to be self-supporting, the control unit 120 has the number of protrusions 115 showing an inclination angle different from the non-tilt direction (or the number of protrusions 115 showing the same inclination angle as the non-tilt direction). ) May be used to determine the strength.

Further, when the protrusion 115 is provided so as not to be self-supporting, the control unit 120 may determine the strength based on the protrusion 115 in which the smallest inclination angle is detected. When the protrusion 115 is provided so as not to be self-supporting, if the inclination angle of a certain protrusion 115 can be detected, the inclination angle of the other protrusion 115 can be calculated based on the characteristics of the shape and arrangement of the protrusion 115. It is possible. Therefore, the reference position can be determined by using a single angle sensor, and the cost of the switch 10 can be reduced.

The control unit 120 according to the present embodiment is realized by, for example, one or more processors. Examples of the processor include a CPU (Central Processing Unit) and an MCU (Micro Controller Unit).

(Irradiation unit 130)
As described above, the irradiation unit 130 according to the present embodiment is configured to irradiate light in the non-tilting direction of the protrusion 115. For this purpose, the irradiation unit 130 according to the present embodiment includes illumination such as an LED capable of irradiating colored light. Further, as described above, when the bottom portion of the protrusion 115 is colored, the irradiation unit 130 may be provided with illumination capable of irradiating white light.

Further, when coloring the bottom of the protrusion 115, when using illumination that irradiates colored light different from the color used for coloring, gradation can be expressed by using a single illumination, and the cost of illumination can be reduced. Can be reduced.

<2. Summary>
As described above, the switch 10 according to the embodiment of the present invention includes an operation unit 110 having a plurality of linearly adjacent protrusions 115. The protrusion 115 is provided so as to be tilted in two directions along a linear axis by a user operation, and the strength for performing a predetermined function is determined based on the tilt of the protrusion 115. According to such a configuration, it is possible to grasp the reference position related to the strength control of the predetermined function and realize finer adjustment.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to such examples. It is clear that anyone with ordinary knowledge in the field of technology to which the present invention belongs can come up with various modifications or modifications within the scope of the technical ideas described in the claims. , These are also naturally understood to belong to the technical scope of the present invention.

In addition, the effects described herein are merely explanatory or exemplary and are not limited. That is, the techniques according to the present disclosure may exhibit other effects apparent to those skilled in the art from the description herein, in addition to or in place of the above effects.

In addition, it is possible to create a program for causing the hardware such as the CPU, ROM, and RAM built in the computer to exhibit the same function as the configuration of the control unit 120, and the program can be read by the computer in which the program is recorded. Non-transient recording media may also be provided.

10 switches, 110 operation unit, 115 protrusions, 120 control unit, 130 irradiation unit

Claims (6)

An operating unit having a plurality of linearly adjacent protrusions,
With
The protrusion is provided so as to be inclined in two directions along a linear axis by a user operation.
Based on the inclination of the protrusion, the strength for performing a predetermined function is determined.
switch. The plurality of protrusions are provided so that the protrusion having the smallest degree of inclination becomes a single protrusion.
The strength for performing a predetermined function is determined based on the protrusion having the smallest degree of inclination.
The switch according to claim 1. The plurality of the protrusions are provided so as to be self-supporting.
The strength for performing a predetermined function is determined based on the number of the protrusions inclined by the user operation.
The switch according to claim 1. A control unit that controls the strength related to the execution of a predetermined function based on the inclination of the protrusion.
Further prepare
The switch according to any one of claims 1 to 3. An irradiation unit that irradiates light in a non-tilting direction of the protrusion,
Further prepare
The switch according to any one of claims 1 to 4. The bottom of the protrusion is colored.
The switch according to claim 5.

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