JP7345124B2 - Attachment for dimming table - Google Patents

Description

The present invention relates to a light control console attachment.

Conventionally, in lighting devices, the light emitted by a light source has been controlled by controlling a light control console or the like.

Such a lighting device is disclosed in Patent Document 1, for example. The lighting device disclosed in Patent Document 1 includes a light source section in which a solid-state light emitting element is arranged. Such solid-state light emitting devices are controlled by a control section consisting of a dimming console (dimmer console).

Japanese Patent Application Publication No. 2014-38790

When the above-mentioned lighting device is used, for example, the operator of the lighting device can control the direction of illumination by changing the direction of the lighting device, and control the light emitted by the lighting device by controlling the dimmer console. Perform the operation to dim the light.

By the way, it is generally assumed that both operations are performed by one operator. Having one operator perform both operations places a heavy burden on the operator. In other words, such a lighting device has low operability for an operator, and it has been necessary to improve the operability of the lighting device. One means for improving the operability of a lighting device is a device related to a light control console. For example, there has been a demand for a device that can control a light control console using a part of the operator's body other than his or her hands, such as his or her feet. However, it is generally difficult to control the light control console with the feet because it is difficult to make precise movements with the feet compared to the hands.

Therefore, the present invention provides an attachment for a light control console that allows the user to easily control the light control console with his or her feet.

A light control console attachment according to one aspect of the present invention is a light control console attachment that is attached to a light control console that includes a light control slide lever that slides in a first direction, the light control console attachment holding the light control slide lever in place. a clamping part, a sliding member having a first plane part parallel to the first direction and slidable in the first direction with respect to the light control console, and the clamping part and the sliding member. a damping mechanism connected thereto, and the damping mechanism slides the holding part such that when the sliding member slides, the sliding width of the holding part becomes smaller than the sliding width of the sliding member.

According to the present invention, an attachment for a light control console is realized that allows the user to easily control the light control console with his or her feet.

FIG. 1 is a perspective view showing an example of use of a light control console attachment according to an embodiment. FIG. 2 is a perspective view showing the light control console according to the embodiment. FIG. 3 is a cross-sectional view taken along line III--III in FIG. FIG. 4 is a perspective view showing an example of a sliding state of the sliding member according to the embodiment. FIG. 5 is a perspective view showing another example of the sliding state of the sliding member according to the embodiment.

Hereinafter, embodiments will be specifically described with reference to the drawings.

Note that the embodiments described below are all inclusive or specific examples. The numerical values, shapes, materials, components, arrangement positions and connection forms of the components, steps, order of steps, etc. shown in the following embodiments are merely examples, and do not limit the present invention.

In addition, in this specification, terms indicating relationships between elements such as parallel or perpendicular, terms indicating the shape of elements such as square or rectangle, and numerical ranges are not expressions that express only strict meanings, but are This is an expression that means that it includes a range of equivalent values, for example, a difference of several percentage points.

Furthermore, in this specification and the drawings, the x-axis, y-axis, and z-axis indicate three axes of a three-dimensional orthogonal coordinate system. In each figure, a plane parallel to the first plane portion 11 of the first slide member is an xy plane, and the x-axis direction and the y-axis direction are directions perpendicular to each other. Further, the z-axis direction is a direction perpendicular to the x-axis and the y-axis. Furthermore, in this specification, "planar view" means "when the constituent elements of the light control console attachment are viewed in the negative direction of the z-axis."

(Embodiment)
[composition]
First, a usage example of the light control console attachment 100 according to the embodiment will be described using the drawings.

FIG. 1 is a perspective view showing an example of use of a light control console attachment 100 according to the present embodiment. As shown in FIG. 1, the light control console 1 is accommodated in the inner space of the light control console attachment 100. Further, the light control console 1 is connected to a lighting device, and the light control console 1 dims the light emitted by the lighting device. The light control console attachment 100 according to the present embodiment is a light control console attachment that is attached to the light control console 1.

For example, the light control console 1 is controlled by an operator controlling the light control console attachment 100 with his/her foot. Furthermore, by controlling the light control console 1, the light emitted by the lighting device is dimmed.

Next, the configuration of the light control console 1 and the light control console attachment 100 according to the present embodiment will be explained using FIGS. 1 to 3.

FIG. 2 is a perspective view showing the light control console 1 according to the present embodiment. FIG. 3 is a cross-sectional view taken along line III--III in FIG.

As shown in FIG. 2, the light control console 1 includes a light control slide lever 2 that slides in a first direction. In this embodiment, the light control console 1 includes a plurality of light control slide levers 2. Here, the first direction is the direction in which the dimming slide lever 2 slides, and is the x-axis direction. Hereinafter, the first direction may be referred to as the x-axis direction. The light control slide lever 2 is provided so as to be slidable in the x-axis direction. The light control console 1 communicates with the lighting device shown in FIG. 1 and dims the light emitted by the lighting device. Specifically, the light control console 1 outputs a light control signal according to the slide position of the light control slide lever 2 to the lighting device, and the light emitted by the lighting device is controlled by the light control signal. be done.

At this time, a communication protocol based on DMX512 may be used for communication, but is not limited to this. For example, a communication protocol according to the RDM (Remote Device Management) standard, the ACN (Architecture for Control Networks) standard, or the sACN (streaming ACN) standard may be used.

Further, the light control console 1 according to the present embodiment may be, for example, a device such as CX-2 or CX-804 manufactured by Lite-Puter, but is not limited thereto. The light control console 1 may be any light control device as long as it includes a light control slide lever 2 that slides in the first direction (x-axis direction).

Next, the configuration of the light control console attachment 100 will be explained. As shown in FIG. 1, the light control console attachment 100 includes a slide member (hereinafter referred to as the first slide member 10), a clamping portion 40, a damping mechanism 50, a housing 60, and a non-slip member 70. . Note that in this embodiment, the holding portion 40 is configured by a part of the second slide member 20 and a part of the third slide member 30.

The first slide member 10 is a member having a first plane part 11, a hook part 12, and a first protrusion part 13.

The first plane part 11 is a plane part parallel to the first direction (x-axis direction). In this embodiment, the first plane part 11 may be parallel to the xy plane as shown in FIG. The first plane part 11 may have a plate shape, as shown in FIG.

As shown in FIGS. 1 and 3, when the direction perpendicular to the first plane part 11 is the second direction, the hook part 12 protrudes along the second direction. In this embodiment, the second direction is the z-axis direction. Hereinafter, the second direction may be referred to as the z-axis direction. For example, as shown in FIG. 1, the hook portion 12 is provided from the first plane portion 11 along the z-axis direction in a direction away from the damping mechanism 50 (positive z-axis direction). Further, as shown in FIG. 1, the hook portion 12 may be a wall portion provided at the end of the first plane portion 11. As shown in FIG. 3, the hook portion 12 may have a configuration in which the end portion of the first slide member 10 is bent into an L-shape in cross-sectional view.

The first slide member 10 is a member that is slidable in the first direction (x-axis direction) with respect to the light control console 1. FIG. 1 shows a sliding direction S, which is the direction in which the first sliding member 10 slides. In this embodiment, the sliding direction S coincides with the x-axis direction. The first slide member 10 may be slidable by the first protrusion 13 that the first slide member 10 has and the first guide hole 62 provided in the housing 60. Specifically, it is as follows.

The first protruding portion 13 is a region that protrudes from the first plane portion 11 in the y-axis direction. The first protrusion 13 is inserted into a first guide hole 62 provided in the casing 60 (more specifically, the casing side surface 61). The first guide hole 62 is a through hole that penetrates the housing side surface 61 in the y-axis direction, and is a hole that extends in the x-axis direction. The first protrusion 13 of the first slide member 10 is guided through the first guide hole 62 in the x-axis direction (that is, the first direction), so that the first slide member 10 is It can be slid in one direction.

For example, when the operator controls the first slide member 10 with his/her foot, the first slide member 10 slides with respect to the light control console 1 in the x-axis direction.

Further, by providing the hook portion 12 as described above, the operator's foot (for example, the arch of the sole of the foot) is easily caught on the hook portion 12, so that the first slide member 10 is moved in the x-axis direction. Slides easily.

The first slide member 10 may be made of a material containing metal or resin. The first slide member 10 may be made of aluminum or stainless steel, for example. When the material constituting the first slide member 10 is aluminum, processing becomes easier. Further, when the material constituting the first slide member 10 is stainless steel, it is less likely to rust, and thus reliability during long-term use is increased. Further, when the first slide member 10 is made of resin, the operator's foot is less likely to slip on it than when made of metal, and operability is improved.

In this embodiment, the holding part 40 (second slide member 20 and third slide member 30), damping mechanism 50, and housing 60 are made of the same material as the first slide member 10. It's okay. Furthermore, all the components do not need to be made of the same material.

Here, the holding part 40 will be explained. First, the second slide member 20 and the third slide member 30 that constitute the holding part 40 will be explained.

The second slide member 20 is a member having a second flat section 21 , a first upright section 22 , and a second protruding section 23 .

The second plane part 21 is a plane part parallel to the first direction (x-axis direction). In this embodiment, the second plane part 21 may be parallel to the xy plane, that is, parallel to the first plane part 11, as shown in FIG. The second plane part 21 may have a plate shape, as shown in FIG.

As shown in FIGS. 1 and 3, the first upright portion 22 is a wall portion provided at the end of the second flat portion 21 along the z-axis direction. In the present embodiment, the first upright portion 22 is a region of the second slide member 20 that is bent toward the dimming console 1 in the negative direction of the z-axis.

Like the first slide member 10, the second slide member 20 is slidable in the first direction (x-axis direction) with respect to the light control console 1. Specifically, it is as follows.

The second protruding portion 23 is a region that protrudes from the second plane portion 21 in the y-axis direction. The second protrusion 23 is inserted into a second guide hole 63 provided in the side surface 61 of the housing. Like the first guide hole 62, the second guide hole 63 is a through hole that penetrates the housing side surface 61 in the y-axis direction, and is a hole that extends in the x-axis direction. The second protrusion 23 of the second slide member 20 is guided through the second guide hole 63 in the x-axis direction (that is, the first direction), so that the second slide member 20 is It can be slid in one direction.

The third slide member 30 is a member having a third plane portion 31 and a second upright portion 32.

The third plane part 31 is a plane part parallel to the first direction (x-axis direction). In this embodiment, the third plane part 31 may be parallel to the xy plane, that is, parallel to the first plane part 11 and the second plane part 21, as shown in FIG. The third plane part 31 may have a plate shape, as shown in FIG.

The third plane part 31 is connected to the second plane part 21. Therefore, the third slide member 30 having the third plane part 31 and the second slide member 20 having the second plane part 21 are connected.

The third plane part 31 and the second plane part 21 may be connected by any method. For example, each of the third plane part 31 and the second plane part 21 is provided with a screw hole, and by providing a screw in the screw hole, the third plane part 31 and the second plane part 21 are connected. may be connected by being screwed together with a screw. Further, the third plane part 31 and the second plane part 21 may be bonded and connected using an adhesive or the like. Further, the third slide member 30 having the third plane portion 31 and the second slide member 20 having the second plane portion 21 may be manufactured as one member.

Thereby, when the second slide member 20 slides in the x-axis direction with respect to the light control console 1, the third slide member 30 also slides in the x-axis direction with respect to the light control console 1.

As shown in FIGS. 1 and 3, the second upright portion 32 is a wall portion provided at the end of the third flat portion 31 along the z-axis direction. In the present embodiment, the second upright portion 32 is a region of the third slide member 30 that is bent toward the dimming console 1 in the negative direction of the z-axis.

Next, the holding part 40 will be explained using FIG. 3.

The clamping part 40 is a component that clamps the dimming slide lever 2. As an example, the holding part 40 holds all of the plurality of light control slide levers 2. In this embodiment, the holding portion 40 is configured by the first upright portion 22 of the second slide member 20 and the second upright portion 32 of the third slide member 30.

The holding portion 40 (that is, the first standing portion 22 and the second standing portion 32) holds the dimming slide lever 2 from both sides in the x-axis direction. More specifically, the first standing portion 22 is located on the x-axis positive side of the dimming slide lever 2, and the second standing portion 32 is located on the x-axis negative side of the dimming slide lever 2. By doing so, the clamping part 40 clamps the dimming slide lever 2.

As a result, the second slide member 20 and the third slide member 30 slide in the x-axis direction, so that the holding part 40 constituted by the first upright part 22 and the second upright part 32 slides in the x-axis direction. do. As a result, the holding part 40 slides the dimming slide lever 2 in the x-axis direction. More specifically, when the holding part 40 slides in the positive direction of the x-axis, the first standing part 22 pushes the dimming slide lever 2, and when the holding part 40 slides in the negative direction of the x-axis, it pushes the second standing part 22. The installation part 32 pushes the dimming slide lever 2.

The clamping part 40 is configured such that a sliding width W1 (details of the sliding width W1 will be described later), which is a width by which the clamping part 40 slides in the first direction (x-axis direction), matches the sliding width of the dimming slide lever 2. It is provided.

In addition, in this embodiment, the clamping part 40 (that is, the 1st standing part 22 and the 2nd standing part 32) is in contact with the light control slide lever 2, and is clamped, but it is not restricted to this. For example, a gap may be provided between the holding part 40 and the dimming slide lever 2. Even in this case, the size of the gap needs to be designed so that the light control slide lever 2 can be slid in the x-axis direction by the holding part 40.

Note that the clamping part 40 may have any configuration as long as it can clamp the dimming slide lever 2.

The housing 60 is a container that accommodates the holding part 40, the slide member (first slide member 10), and the damping mechanism 50. Furthermore, the housing 60 may accommodate the light control console 1, as shown in FIG.

In this embodiment, as shown in FIG. 1, the housing 60 has two housing side surfaces 61 and a damping mechanism mounting portion 65. The two housing side surfaces 61 are members facing each other with the first slide member 10, the second slide member 20, the third slide member 30, the damping mechanism 50, and the light control console 1 in between. As described above, the first guide hole 62 and the second guide hole 63 are provided in the two housing side surfaces 61. Note that the structure of the damping mechanism attachment portion 65 will be described later.

The anti-slip member 70 is a member provided in the casing 60 at a location that contacts the installation surface on which the casing 60 is installed.

In this embodiment, the light control console attachment 100 includes four anti-slip members 70. For example, as shown in FIG. 1, the four anti-slip members 70 are provided at locations where the two housing side surfaces 61 contact the installation surface, that is, at locations on the negative side of the z-axis of the two housing side surfaces 61. Note that the installation surface is, for example, a floor surface or the ground, but is not limited thereto, and is a surface on which the housing 60 (that is, the attachment 100 for a light control console) is installed.

For example, the frictional resistance between the four anti-slip members 70 and the installation surface is greater than the sliding resistance that is the resistance when the dimming slide lever 2 slides. Furthermore, the four anti-slip members 70 are made of resin, for example, and specifically may be made of silicone resin or the like.

Thereby, when the operator controls the first slide member 10 of the light control console attachment 100 with his/her foot, the light control console attachment 100 does not easily slide on the installation surface. Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

The damping mechanism 50 is a member that connects the holding portion 40 and the slide member (first slide member 10). Moreover, the damping mechanism 50 slides the holding part 40 when the slide member (first slide member 10) slides. More specifically, in this case, the damping mechanism 50 slides the holding part 40 such that the sliding width W1 of the holding part 40 is smaller than the sliding width W2 of the first sliding member 10.

Here, the detailed structure of the damping mechanism 50 and the sliding state exhibited by the first slide member 10 will be explained using FIGS. 4 and 5.

FIG. 4 is a perspective view showing an example of a sliding state of the sliding member (first sliding member 10) according to the present embodiment. FIG. 5 is a perspective view showing another example of the sliding state of the sliding member (first sliding member 10) according to the present embodiment.

As shown in FIGS. 4 and 5, in this embodiment, the damping mechanism 50 includes a link mechanism 50a.

The link mechanism 50a includes a plurality of link parts and a plurality of joint parts. Specifically, the plurality of link sections include a first link section 51, a second link section 52, and a third link section 53. The plurality of joint parts include a first joint part 551 , a second joint part 552 , a third joint part 553 , a fourth joint part 554 , and a fifth joint part 555 .

All of the plurality of link parts are rectangular flat plate members. The plurality of joint parts may connect a plurality of link parts to each other, or may connect a component of the light control console attachment 100 to one link part among the plurality of link parts.

In this embodiment, the connection by the plurality of joint parts is a connection in which the plurality of link parts are rotated in the xy plane with the second direction (z-axis direction) as the rotation axis. Note that the rotation angle of the connection using the plurality of joint parts may be limited.

One end of the first link part 51 is connected to the first slide member 10 by a first joint part 551. Further, the other end of the first link section 51 is connected to the third link section 53 by a third joint section 553.

One end of the second link portion 52 is connected to the second slide member 20 by a second joint portion 552. Further, the other end of the second link portion 52 is connected to the third link portion 53 by a fourth joint portion 554.

Furthermore, the lengths of the first joint part 551 and the third joint part 553 in the first link part 51 may be shorter than the lengths of the second joint part 552 and the fourth joint part 554 in the second link part 52. good.

One end of the third link portion 53 is connected to a damping mechanism attachment portion 65 of the housing 60 through a fifth joint portion 555. The damping mechanism mounting portion 65 is a flat plate-shaped member provided between the two housing side surfaces 61. The damping mechanism attachment portion 65 may be parallel to the xy plane, that is, parallel to the first plane portion 11, the second plane portion 21, and the third plane portion 31.

Further, the other end of the third link section 53 is connected to the first link section 51 by a second joint section 552. A region between both ends of the third link section 53 is connected to the second link section 52 by a fourth joint section 554.

Therefore, in this embodiment, the link mechanism 50a connects the first slide member 10 and the second slide member 20. Furthermore, the holding portion 40 is configured by the first upright portion 22 that the second slide member 20 has and the second upright portion 32 that the third slide member 30 has. Therefore, the damping mechanism 50 (link mechanism 50a) connects the slide member (first slide member 10) and the holding portion 40.

Here, a change from the sliding state shown in FIG. 4 to the sliding state shown in FIG. 5 will be described.

In the sliding state shown in FIG. 4, when the first slide member 10 is slid in the first direction (for example, the negative direction of the x-axis), the first link portion 51 also slides in the negative direction of the z-axis. At this time, the third link part 53 rotates counterclockwise in plan view about the fifth joint part 555. Accordingly, since the second link part 52 connected to the third link part 53 slides in the negative direction of the x-axis, the second slide member 20 connected to the second link part 52 also slides in the negative direction of the x-axis. As a result, the holding part 40 composed of the first upright part 22 and the second upright part 32 also slides in the negative direction of the x-axis, and enters the sliding state shown in FIG. 5 .

That is, the damping mechanism 50 (link mechanism 50a) slides the holding part 40 when the slide member (first slide member 10) slides.

For example, as shown in FIG. 1, when the operator slides the first slide member 10 with his or her foot, the holding portion 40 also slides along with the first slide member 10. As a result, the clamping part 40 slides the light control slide lever 2, so that the light control console 1 is controlled. That is, when the operator slides the first slide member 10 with his or her foot, the light control console 1 is controlled. Furthermore, by controlling the light control console 1, the light emitted by the lighting device is dimmed.

Furthermore, the sliding width W1 of the holding portion 40 and the sliding width W2 of the first sliding member 10 will be explained.

As described above, the second slide member 20 is connected to the second link part 52, and the first slide member 10 is connected to the first link part 51. Since the holding part 40 is constituted by the first standing part 22 of the second slide member 20 and the second standing part 32 of the third sliding member 30, the holding part 40 is made up of the second link part 52 and the second standing part 32 of the third sliding member 30. It can be said that they are connected.

Further, the third link portion 53 rotates around one end of the third link portion 53 connected to the fifth joint portion 555. Therefore, in rotation about the one end, the radius of rotation of the fourth joint part 554 is smaller than the radius of rotation of the third joint part 553. Therefore, the sliding width in the x-axis direction of the second link part 52 connected to the fourth joint part 554 is greater than the sliding width in the x-axis direction of the first link part 51 connected to the third joint part 553. small. That is, the sliding width W1 of the holding part 40 connected to the second link part 52 is smaller than the sliding width W2 of the first sliding member 10 connected to the first link part 51.

This behavior is realized by the damping mechanism 50 (link mechanism 50a). That is, the damping mechanism 50 slides the clamping part 40 such that the sliding width W1 of the clamping part 40 is smaller than the sliding width W2 of the first sliding member 10. In other words, the slide width W2 is larger than the slide width W1.

In general, it is difficult for the feet to perform precise movements compared to the hands. However, in the present embodiment, since the slide width W2 of the first slide member 10 is larger than the slide width W1 of the clamping part 40 (that is, the slide width of the dimming slide lever 2), the operator can However, the light control console attachment 100 can be easily controlled.

Moreover, by providing such a link mechanism 50a, the first slide member 10 and the second slide member 20 can be slid smoothly. Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

In addition, in this embodiment, the damping mechanism 50 is configured by the link mechanism 50a including 3 link parts and 5 joint parts, but is not limited to this. The link mechanism 50a may include 1, 2, or 4 or more link parts, and may include 1 to 4 or 6 or more joint parts. The damping mechanism 50 connects the holding part 40 and the first sliding member 10, and when the first sliding member 10 slides, the sliding width W1 of the holding part 40 is larger than the sliding width W2 of the first sliding member 10. It is sufficient if the holding portion 40 can be slid so as to become smaller. Therefore, the damping mechanism 50 is not limited to the link mechanism 50a.

Further, when the third direction is a direction perpendicular to the first direction (x-axis direction) and the second direction (z-axis direction), the length of the slide member (first slide member 10) in the third direction is the length of the slide member (first slide member 10). The member width W3 may be 15 cm or more and 30 cm or less. Further, the distance between the two housing side surfaces 61 may be 15 cm or more and 30 cm or less. In this embodiment, the third direction is the y-axis direction.

When the slide member width W3 is within the above range, the slide member (first slide member 10) has a sufficient size on which the operator's foot can be placed. In other words, the operator can easily place his or her feet on the first slide member 10. Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

[Effects etc.]
As described above, the light control console attachment 100 according to the present embodiment is a light control console attachment that is attached to the light control console 1 that includes the light control slide lever 2 that slides in the first direction (x-axis direction). It is. The attachment 100 for a light control console has a holding part 40 that holds the light control slide lever 2 and a first plane part 11 that is parallel to the first direction (x-axis direction), and is A slide member (first slide member 10) that is slidable in a first direction (x-axis direction) is provided. Further, the light control console attachment 100 includes a damping mechanism 50 that connects the holding portion 40 and the slide member (first slide member 10). The damping mechanism 50 adjusts the width of the clamping part 40 so that when the sliding member (first sliding member 10) slides, the sliding width W1 of the clamping part 40 becomes smaller than the sliding width W2 of the sliding member (first sliding member 10). Slide.

Thereby, when the operator slides the first slide member 10 with his/her foot, the holding portion 40 also slides along with the first slide member 10 . As a result, the clamping part 40 slides the light control slide lever 2, so that the light control console 1 is controlled. That is, when the operator slides the first slide member 10 with his or her foot, the light control console 1 is controlled. Furthermore, by controlling the light control console 1, the light emitted by the lighting device is dimmed. Further, in the present embodiment, the sliding width W2 of the first sliding member 10 is larger than the sliding width W1 of the holding portion 40 (that is, the sliding width of the dimming slide lever 2). Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

In other words, the attachment 100 for a light control console that allows the light control console 1 to be easily controlled with the foot is realized.

Further, the damping mechanism 50 according to the present embodiment includes a link mechanism 50a including a plurality of link parts and a plurality of joint parts.

Thereby, the first slide member 10 and the second slide member 20 can be slid smoothly. Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

Further, in the present embodiment, when the direction perpendicular to the first plane portion 11 is the second direction (z-axis direction), the slide member (first slide member 10) is moved in the second direction (z-axis direction). It has a hook portion 12 that protrudes along the line.

As a result, the operator's foot is easily caught on the hook portion 12, so that the first slide member 10 easily slides in the x-axis direction. Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

Furthermore, in this embodiment, a direction perpendicular to the first direction (x-axis direction) and the second direction (z-axis direction) is defined as a third direction (y-axis direction). At this time, the slide member width W3, which is the length of the slide member (first slide member 10) in the third direction (z-axis direction), is 15 cm or more and 30 cm or less.

As a result, the first slide member 10 becomes large enough for the operator's feet to be placed on it. In other words, the operator can easily place his or her feet on the first slide member 10. Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

Further, the light control console attachment 100 according to the present embodiment includes a housing 60 and a non-slip member 70 provided at a portion of the housing 60 that contacts the installation surface on which the housing 60 is installed.

Thereby, when the operator controls the first slide member 10 of the light control console attachment 100 with his/her foot, the light control console attachment 100 does not easily slide on the installation surface. Therefore, the operator can easily control the light control console attachment 100 with his or her feet.

(Other embodiments)
Although the light control console attachment 100 according to one aspect has been described above based on the embodiment, the present invention is not limited to this embodiment. Unless it deviates from the spirit of the present invention, various modifications that can be thought of by those skilled in the art to this embodiment, and embodiments constructed by combining components of different embodiments are also included within the scope of one embodiment. You may be

In the present embodiment, the first erected portion 22 and the second erected portion 32 are regions that are bent in the second slide member 20 and the third slide member 30, but are not limited thereto. For example, the first erected portion 22 and the second erected portion 32 may be areas connected to the second slide member 20 and the third slide member 30 by welding.

In addition, in the said drawing, the 1st protrusion part 13 and the 2nd protrusion part 23 are illustrated only on the y-axis positive side of the 1st slide member 10 and the 2nd slide member 20, but it is not restricted to this. The first protrusion 13 and the second protrusion 23 may also be provided on the negative side of the y-axis of the first slide member 10 and the second slide member 20.

Furthermore, the above embodiments can be modified, replaced, added, omitted, etc. in various ways within the scope of the claims or their equivalents.

1 Light control console 2 Light control slide lever 10 First slide member 11 First plane part 12 Hook part 40 Clamping part 50 Damping mechanism 50a Link mechanism 60 Housing 70 Anti-slip member 100 Light control console attachment W1 Slide width W2 Slide Width W3 Slide member width

Claims (5)

A dimming console attachment that is attached to a dimming console that includes a dimming slide lever that slides in a first direction,
a clamping part that clamps the dimming slide lever;
a slide member having a first plane portion parallel to the first direction and slidable in the first direction with respect to the light control console;
a damping mechanism connecting the holding part and the slide member;
Equipped with
The attenuation mechanism slides the holding part so that when the sliding member slides, the sliding width of the holding part becomes smaller than the sliding width of the sliding member. The attachment for a light control console according to claim 1, wherein the attenuation mechanism has a link mechanism including a plurality of link parts and a plurality of joint parts. When a direction perpendicular to the first plane portion is defined as a second direction,
The attachment for a light control console according to claim 1 or 2, wherein the slide member has a hook portion that protrudes along the second direction. When a direction perpendicular to the first direction and the second direction is a third direction,
The attachment for a light control console according to claim 3, wherein the slide member width, which is the length of the slide member in the third direction, is 15 cm or more and 30 cm or less. Furthermore, a casing that accommodates the holding part, the slide member, and the damping mechanism;
The attachment for a light control console according to any one of claims 1 to 4, further comprising a non-slip member provided in the housing at a location in contact with an installation surface on which the housing is installed.

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