JP6789642B2 - Switches and lighting fixtures - Google Patents

Description

The present invention relates to a switch and a luminaire, and more particularly to a switch structure provided in the switch and the luminaire.

Lighting equipment is installed on the ceiling of a building, for example. Here, it has been proposed that a lighting fixture is provided with a fixture main body and a lamp portion that is detachably provided on the fixture main body and includes a light source portion (see, for example, Patent Document 1).

The lighting fixture of Patent Document 1 includes a light source unit formed in a long length and provided with a lighting device, an emergency light source unit, and a main body having a recessed portion in which a part of the light source unit and the emergency light source unit are housed. ing. The emergency light source unit of this lighting fixture uses the storage battery of the emergency light source unit as a power source when the power supply from the commercial power supply is stopped and the light source unit cannot be turned on (emergency) for some reason. Can be turned on. In addition, the emergency light source unit includes an inspection switch that is operated when inspecting whether or not the storage battery operates normally.

Patent Document 2 describes a luminaire provided with a pull-type switch that controls ON / OFF of the power supply state to the light source unit.

JP-A-2015-88433 Japanese Unexamined Patent Publication No. 2014-170682

Generally, lighting fixtures are installed in high places such as ceilings. Therefore, when pressing the switch arranged on the lighting equipment, it is necessary to take measures such as using a stepladder or a long member. Here, when using a stepladder, the posture of the operator may become unstable, and when using a long member, the tip of the long member is finely moved to operate the switch. There is a need. From these points of view, the switch of the luminaire is easier to handle in the push type or the pull type than in the slide type.

When the operation unit touched by the operator or the like is a push type or a pull type, the push operation or pull operation of the operator is transmitted to the switch unit of the switch board. Here, in order to transmit the movement of the operation unit to the switch unit, if the switch unit is arranged on the extension of the operation direction of the operation unit, the width of the switch in the direction parallel to the operation direction tends to increase. That is, since the operation unit and the switch unit are arranged side by side, the width of the switch in the direction parallel to the arrangement direction tends to increase.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a switch and a lighting fixture capable of realizing thinning.

The switch according to the present invention is a switch in which a switch board is provided inside the main body, and a part of the switch is arranged inside the main body and another part is arranged outside the main body, and the switch is provided on the main body so as to be movable in the first direction. A switch board that is arranged in the main body and includes a switch portion that is pushed in conjunction with the movement of the outer operating portion and is movable in a second direction in which the pushing direction intersects the first direction. The switch terminal mounted on the main body, the inner operation unit that is arranged in the main body and moves in the second direction in conjunction with the movement of the outer operation unit in the first direction, and the inner operation unit that is arranged in the main body and has the inner operation unit. An elastic member urging in two directions is provided , and a convex portion that limits the range of movement of the inner operating portion in the second direction is formed in the main body, and the outer operating portion is arranged in the main body. A second inclined surface that is partially formed and includes a first inclined surface that is inclined with respect to a second direction, and the inner operating portion is in contact with the first inclined surface of the outer operating portion and is parallel to the first inclined surface. A second inclined surface formed on one end side in a direction parallel to the second direction, an end surface formed on the other end side in a direction parallel to the second direction and facing the convex portion, and one end side. It is formed between the switch and the other end side, and includes a switch pushing surface facing the switch portion .

According to the switch according to the present invention, since it has the above configuration, it is possible to realize thinning.

It is a perspective view of the switch which concerns on Embodiment 1 of this invention. It is an exploded perspective view of the switch which concerns on Embodiment 1 of this invention. It is sectional drawing parallel to the longitudinal direction of the switch which concerns on Embodiment 1 of this invention. It is explanatory drawing of the internal structure of the main body of the switch which concerns on Embodiment 1 of this invention. It is explanatory drawing of the switch board of the switch which concerns on Embodiment 1 of this invention. It is explanatory drawing of the state which arranged the switch board in the main body of the switch which concerns on Embodiment 1 of this invention. It is explanatory drawing of the inner operation part of the switch which concerns on Embodiment 1 of this invention. It is explanatory drawing of the ON / OFF operation of the switch which concerns on Embodiment 1 of this invention. It is explanatory drawing which shows the state which the switch board of the switch which concerns on Embodiment 1 of this invention is displaced in the x2 direction. It is explanatory drawing which shows the state which the switch board of the switch which concerns on Embodiment 1 of this invention is displaced in the x1 direction. It is explanatory drawing which shows the state which the switch board of the switch which concerns on Embodiment 1 of this invention is displaced in the z1 direction. It is explanatory drawing which shows the state which the switch board of the switch which concerns on Embodiment 1 of this invention is displaced in the z2 direction. It is explanatory drawing which shows the state which the switch board of the switch which concerns on Embodiment 1 of this invention is rotated in the first rotation direction about a switch terminal. It is explanatory drawing which shows the state which the switch board of the switch which concerns on Embodiment 1 of this invention is rotated around the switch terminal in the 2nd rotation direction opposite to the 1st rotation direction. It is a modification 1 of the outer operation part and the inner operation part of the switch which concerns on Embodiment 1 of this invention. It is a modification 2 of the outer operation part and the inner operation part of the switch which concerns on Embodiment 1 of this invention. It is a modification 3 of the outer operation part of the switch which concerns on Embodiment 1 of this invention. It is a perspective view of the luminaire provided with the switch which concerns on Embodiment 2 of this invention. It is an exploded perspective view of the luminaire provided with the switch which concerns on Embodiment 2 of this invention. It is explanatory drawing of the lighting apparatus and the like of the luminaire provided with the switch which concerns on Embodiment 2 of this invention. It is an exploded perspective view of the lighting unit of the lighting fixture provided with the switch which concerns on Embodiment 2 of this invention. It is a perspective view of the fixture body of the lighting fixture provided with the switch which concerns on Embodiment 2 of this invention. It is a perspective view which showed the emergency light source unit in the disassembled state about the instrument main body shown in FIG. FIG. 15 is a perspective view of the instrument body shown in FIG. 15 as viewed from a direction different from that in FIG. 11 is an explanatory diagram of an emergency light source unit different from the emergency light source unit described with reference to FIGS. 11 to 17.

Hereinafter, the first embodiment of the switch and the luminaire according to the present invention will be described with reference to the drawings. The present invention is not limited to the first embodiment described below.

Embodiment 1.
FIG. 1 is a perspective view of the switch 1 according to the first embodiment. In addition, in the following drawings including FIG. 1, the relationship between the sizes of the constituent members may differ from the actual one.

<Overview of Switch 1>
The switch 1 according to the first embodiment is a switch provided on the lighting equipment, for example, a switch for checking the lighting equipment. The switch 1 is connected to an external device such as a power supply device for a lighting fixture (not shown) to control the state of electricity supply to the external device.

The outer shell of the switch 1 is formed by the main body 10 and the lid portion 20. A knob portion 41 of the outer operation portion 40 for operating the ON / OFF of the switch 1 protrudes from the main body 10. Further, an opening is formed in a part of the side surface of the switch 1, and a connection terminal 34 is arranged inside the opening on the side surface. The connection terminal 34 is electrically connected to an external device via an electric wire or the like.

<Structure explanation of switch 1>
FIG. 2 is an exploded perspective view of the switch 1 according to the first embodiment.
FIG. 3 is a cross-sectional view parallel to the longitudinal direction of the switch 1 according to the first embodiment.
FIG. 4 is an explanatory diagram of the internal structure of the main body 10 of the switch 1 according to the first embodiment.
FIG. 5 is an explanatory diagram of the switch board 30 of the switch 1 according to the first embodiment.
FIG. 6 is an explanatory diagram of a state in which the switch board 30 is arranged on the main body 10 of the switch 1 according to the first embodiment.
FIG. 7 is an explanatory view of the inner operation unit 50 of the switch 1 according to the first embodiment.

The switch 1 is a switch board that controls ON / OFF of a substantially box-shaped main body 10 having an opening, a lid portion 20 that closes the opening of the main body 10, and an external device provided inside the main body 10 and connected to the switch 1. It has 30 and. Further, the switch 1 urges the outer operation unit 40, which partially protrudes from the main body 10, the inner operation unit 50, which moves in conjunction with the outer operation unit 40 and applies force to the switch board 30, and the inner operation unit 50. An elastic member 60 is provided.

(Main body 10)
The main body 10 has a substantially box shape with one side open. The switch board 30, a part of the outer operation unit 40, the inner operation unit 50, and the elastic member 60 are housed in the main body 10.

The main body 10 has side surface portions 12a to 12d and a flat surface portion 11. The main body 10 has a substantially box shape in which the side surface portions 12a to 12d and the flat surface portion 11 are connected to each other. In the following description, the side surface portions 12a to 12d may be collectively referred to as the side surface portions 12. Each side surface portion 12 and the flat surface portion 11 are plate-shaped members.

The side surface portion 12a is connected so as to be orthogonal to the side surface portion 12b. The side surface portion 12a also has a function as a substrate support portion as described later. On the side of the side surface portion 12a, a connection opening 12aa through which wiring or the like conducting with the connection terminal 34 mounted on the switch board 30 passes is formed. The side surface portion 12b is connected so as to be orthogonal to the side surface portion 12d, and is a portion facing the side surface portion 12c and forming a pair. On the outer surface of the side surface portion 12b, two lid protrusions 17 that engage with the lid portion 20 are formed. The side surface portion 12b has a crank shape in cross-sectional view in the longitudinal direction. The side surface portion 12c is connected so as to be orthogonal to the side surface portion 12a and the side surface portion 12d. The side surface portion 12d is connected so as to be orthogonal to the side surface portion 12b and the side surface portion 12c. One of the elastic members 60 is attached to the side surface portion 12d, and receives the elastic force of the elastic member 60. Side surface portions 12a to 12d are connected to the peripheral edge portion of the inner surface of the flat surface portion 11. In the flat surface portion 11, the end portion on the connecting side with the side surface portion 12d is formed in a tapered shape, and the end portion on the connecting side with the side surface portion 12a is also formed in a tapered shape. The flat surface portion 11 is formed with an operation opening 11a into which the outer operation portion 40 is inserted.

A first substrate support portion 13, a second substrate support portion 14, a substrate loading portion 15, and a switch support portion 16 are formed inside the main body 10.

The first substrate support portion 13 is a convex portion formed at a position closer to the inner side surface of the side surface portion 12b and a position closer to the inner side surface of the side surface portion 12c, respectively. The first substrate support portion 13 has a function of restricting the movement of the switch substrate 30 in the main body 10 within a certain range. The first substrate support portion 13 has a configuration that allows the switch substrate 30 to slide in the z1 direction and the z2 direction to a certain extent. Further, the first substrate support portion 13 is configured to allow rotational movement of the switch substrate 30 in the xz plane if the degree is constant.
On the other hand, the first substrate support portion 13 is formed so as to project in the z2 direction from the connection position with the side surface portion 12c. The other first substrate support portion 13 is formed so as to project in the z1 direction from the connection position with the side surface portion 12b. The first substrate support portion 13 is formed so as to extend linearly in parallel with the y1 direction. That is, the first substrate support portion 13 is formed so as to extend from the open one-sided side of the main body 10 to the flat surface portion 11 side in the y2 direction. The first substrate support portion 13 has been described as extending linearly and continuously in the y2 direction, but the present invention is not limited to this, and for example, the first substrate support portion 13 may be interrupted in some places.
The first substrate support portion 13 is arranged in the direction parallel to x1 between the second substrate support portion 14 and the side surface portion 12a. In the arrangement in the direction parallel to x1, the arrangement of the first substrate support portion 13 of the side surface portion 12c and the arrangement of the first substrate support portion 13 of the side surface portion 12b are not the same, but are offset.
Although one first substrate support portion 13 is formed on each of the side surface portion 12b and the side surface portion 12c, a plurality of first substrate support portions 13 may be formed.

The second substrate support portion 14 is formed at a position closer to the inner side surface of the side surface portion 12b and a position closer to the inner side surface of the side surface portion 12c, respectively. The second substrate support portion 14 and the side surface portion 12a have a function of restricting the movement of the switch substrate 30 in the main body 10 within a certain range. However, the second substrate support portion 14 and the side surface portion 12a are configured to allow the switch substrate 30 to slide in the x1 direction and the x2 direction to a certain extent. Further, the second substrate support portion 14 and the side surface portion 12a are configured to allow rotational movement of the switch substrate 30 in the xz plane to a certain extent.
One of the second substrate support portions 14 is connected to the side surface portion 12c in the x-z cross section, and the straight portion 14a protruding in the z2 direction and the straight portion 14a projecting from the connecting portion of the straight portion 14a in the x1 direction come into contact with the switch substrate 30. It is provided with a contact portion 14b as a portion. The other second substrate support portion 14 is connected to the side surface portion 12b in the x-z cross section, and the straight portion 14a projecting in the z1 direction and the straight portion 14a projecting from the connecting portion of the straight portion 14a in the x1 direction come into contact with the switch substrate 30. It is provided with a contact portion 14b as a portion. As described above, the second substrate support portion 14 has an L-shaped cross-sectional view. The second substrate support portion 14 is formed so as to extend from the open one-sided side of the main body 10 to the flat surface portion 11 side in the y2 direction. Although the second substrate support portion 14 has been described as being continuously extending linearly in the y2 direction, the present invention is not limited to this, and for example, the second substrate support portion 14 may be interrupted in some places.
The second substrate support portion 14 is arranged between the first substrate support portion 13 and the side surface portion 12d in the arrangement in the direction parallel to x1.

The board loading portion 15 is formed at a position closer to the inner side surface of the side surface portion 12b and a position closer to the inner side surface of the side surface portion 12c, respectively, and is a portion on which the switch board 30 is placed. The board loading portion 15 of the side surface portion 12c is connected to the contact portion 14b of the second substrate support portion 14, the side surface portion 12c, and the flat surface portion 11. The substrate loading portion 15 may not be connected to the contact portion 14b of the second substrate support portion 14, and a gap may be formed between the substrate loading portion 15 and the contact portion 14b. Further, the substrate loading portion 15 does not have to be connected to both the side surface portion 12c and the flat surface portion 11, and may be connected to one of them. The height of the board loading portion 15 from the flat surface portion 11 is lower than that of the second substrate supporting portion 14. That is, the width in the height direction (width in the y2 direction) of the substrate loading portion 15 is smaller than that of the second substrate support portion 14, and a step portion is formed at the connection position with the second substrate support portion 14. There is.
One of the board loading portions 15 is connected to a first loading portion 15a extending in the x1 direction so that one end is orthogonal to the first loading portion 15a and the other end is connected to the side surface portion 12c. It has 15b. The first substrate support portion 13 is arranged between the plurality of second loading portions 15b. The other substrate loading unit 15 also includes a first loading unit 15a and a second loading unit 15b, but the number of the second loading units 15b is singular. The first substrate support portion 13 is arranged between the other second loading portion 15b and the surface of the side surface portion 12b parallel to the second loading portion 15b. Further, a space surrounded by the other substrate loading portion 15 and the other second substrate supporting portion 14 is formed. That is, the other substrate loading portion 15 and the other second substrate supporting portion 14 are formed with a light source arranging portion B in which the light source 33 described later is arranged.
A convex portion 15a1 is formed on the first loading portion 15a on one substrate loading portion 15 and the other substrate loading portion 15. One convex portion 15a1 protrudes in the z2 direction, and the other convex portion 15a1 protrudes in the z1 direction, and is formed so as to approach each other. The convex portion 15a1 comes into contact with the inner operating portion 50 urged by the elastic member 60, and regulates the inner operating portion 50 so as not to move too much in the x1 direction.

One end of the switch support portion 16 is connected to the flat surface portion 11, and the other end is arranged so as to face the switch substrate 30. The switch support portion 16 is formed so as to extend parallel to the z2 direction. The switch support portion 16 is in contact with the switch terminal 32, and an arrangement surface 16a on which the switch terminal 32 is arranged is formed. The switch support portion 16 is arranged in the direction parallel to x1 between the contact portion 14b and the first substrate support portion 13, and between the operation opening 11a and the convex portion 15a1.

(Cover 20)
As shown in FIGS. 2 and 3, the lid portion 20 includes a lid main body portion 21 that closes the opening of the main body 10, and a lid-side engaging portion 22 that engages with the lid convex portion 17. The lid main body 21 is formed with a first surface forming a part of the outer surface of the switch 1 and a second surface formed on the opposite side of the first surface. On the second surface, a lid-side substrate holding portion 21a for holding the switch substrate 30 arranged in the main body 10 is formed. The lid-side substrate holding portion 21a, together with the substrate loading portion 15, has a function of restricting the movement of the switch substrate 30 in the y1 direction and the y2 direction within a certain range. The lid side engaging portion 22 is formed on the peripheral edge portion of the lid main body portion 21.

(Switch board 30)
As shown in FIG. 5, the switch board 30 includes a board 31, a push-type switch terminal 32, a light source 33 as a monitor lamp, and a connection terminal 34 connected to an external device via an electric wire (not shown). It has. The switch board 30 is arranged on the main body 10 so that the surface on which the switch terminal 32, the light source 33, and the connection terminal 34 are mounted is inside the main body 10. The switch board 30 is sandwiched between the board loading portion 15 of the main body 10 and the lid-side substrate holding portion 21a of the lid portion 20, and the movements in the y1 direction and the y2 direction are regulated within a certain range. The facing distance between the substrate loading portion 15 of the main body 10 and the lid-side substrate holding portion 21a of the lid portion 20 is set to be the same as that of the substrate 31, and the substrate loading portion 15 of the main body 10 and the lid-side substrate holding portion of the lid portion 20 are set. The substrate 31 may be held by 21a.

The substrate 31 is a plate-shaped member, and has a plurality of notches in which peripheral portions 31a1 to 31a4 facing the second substrate support portion 14, one first substrate support portion 13 and the other first substrate support portion 13 are arranged. It has 31b.
The switch terminal 32 includes a switch portion 32a in which the x2 direction is the pushing direction, and a switch terminal 32 formed on the side opposite to the arrangement side of the switch portion 32a. The switch portion 32a is mounted on the board 31 so that the pushing direction is parallel to the board 31, and is mounted on the board 31 so that the connection terminal 34 is on the extension in the x1 direction. The switch terminal 32 comes into contact with the arrangement surface 16a of the switch support portion 16. The switch terminal 32 is arranged between the first loading portion 15a of one board loading portion 15 and the first loading portion 15a of the other board loading portion 15 in a state where the switch board 30 is attached to the main body 10. There is.
The light source 33 displays the state of the external device. The external device is, for example, a storage battery of an emergency light source unit, and displays whether or not the storage battery is normally charged, an inspection result, and the like. The light source 33 is arranged in the light source arrangement portion B. Here, the main body 10 has light transmission. Therefore, when the light source 33 emits light, mainly the flat surface portion 11 of the main body 10 is irradiated with light, and the flat surface portion 11 of the switch 1 emits light.
The connection terminal 34 is arranged at the position of the connection opening 12aa of the main body 10 in a state where the switch board 30 is attached to the main body 10.

(Outer operation unit 40)
A part of the outer operating portion 40 is arranged inside the main body 10, the other portion is arranged outside the main body 10, and is provided on the main body 10 so as to be movable in the first direction. The first direction is the y1 direction and the y2 direction. Specifically, as shown in FIG. 2, the outer operating portion 40 includes a knob portion 41 arranged outside the main body 10 and a sliding portion 42 arranged inside the main body 10. The outer operation unit 40 is provided on the main body 10 so that it can be pulled in the y2 direction. A hook opening 41a is formed at one end of the knob portion 41, and a hook-shaped protrusion or the like can be hooked. A sliding portion 42 is provided at the other end of the knob portion 41.
The sliding portion 42 is formed with an inclined surface 42a that descends in the y2 direction toward the x1 direction. The inclined surface 42a is arranged so as to contact and face the sliding receiving portion 52a of the inner operating portion 50, which will be described later. The inclined surface 42a is referred to as a first inclined surface.

(Inner operation unit 50)
As shown in FIG. 7, the inner operating portion 50 has a shape in which two square tubular portions are arranged side by side. That is, the inner operation unit 50 has a switch accommodating portion 51 as one cylinder portion and an operation unit accommodating portion 52 as the other cylinder portion. The inner operation unit 50 is provided so as to be movable in the second direction. The second direction is the x1 direction and the x2 direction. The inner operation unit 50 moves in the main body 10 in conjunction with the movement of the outer operation unit 40.

A switch terminal 32 and a switch support portion 16 are arranged inside the switch accommodating portion 51. Further, a switch pushing surface 51a is formed at a position facing the switch portion 32a of the switch terminal 32 of the switch accommodating portion 51. The switch pushing surface 51a forms a part of the inner surface of the switch accommodating portion 51. The switch pushing surface 51a is formed between one end side and the other end side of the inner operation portion 50.

A sliding portion 42, which is a part of the outer operating portion 40, is arranged in the operating portion accommodating portion 52. As shown in FIG. 7, the operation unit accommodating unit 52 is formed with a sliding receiving unit 52a that inclines in the y2 direction toward the x1 direction. That is, the sliding receiving portion 52a is a part of the inner side surface of the operating portion accommodating portion 52, and an inclined surface is formed. The sliding receiving portion 52a is formed on one end side of the inner operating portion 50. The sliding receiving portion 52a has a function of sliding the sliding portion 42 of the outer operating portion 40 and holding the sliding portion 42 of the outer operating portion 40. The inclined surface of the sliding receiving portion 52a is parallel to the inclined surface 42a of the outer operating portion 40. The inclined surface of the sliding receiving portion 52a is not limited to being parallel to the inclined surface 42a of the outer operating portion 40. For example, at least one of the inclined surface of the sliding receiving portion 52a and the inclined surface 42a of the outer operating portion 40 may be a curved surface. The inclined surface of the sliding receiving portion 52a is referred to as a second inclined surface.

An elastic member holding portion 52b for holding the elastic member 60 is formed at one end of the operating portion accommodating portion 52. The elastic member holding portion 52b is arranged at the central portion having a width parallel to the z1 direction. The sliding receiving portions 52a are formed on both sides of the elastic member holding portion 52b. That is, a pair of sliding receiving portions 52a are formed on the inner operating portion 50. The sliding receiving portions 52a do not have to be formed in pairs, and may be one.

The inner operation unit 50 is arranged between one substrate loading unit 15 and the other substrate loading unit 15. As a result, the board loading portion 15 serves as a guide when the inner operating portion 50 moves.
The inner operating portion 50 has an end surface 51b formed on the opposite side of the formed surface of the switch pushing surface 51a. The end face 51b faces the convex portion 15a1 in the x1 direction. The end face 51b is formed at the other end of the inner operating portion 50. In the end face 51b, when the outer operating portion 40 is not operated, the elastic member 60 urges the inner operating portion 50 in the x1 direction and is in contact with the convex portion 15a1. This limits the range of movement of the inner operating unit 50 parallel to the x1 direction.

(Elastic member 60)
As shown in FIGS. 2 and 3, the elastic member 60 can be composed of, for example, a coil spring. The elastic member 60 is arranged between the side surface portion 12d and one end side of the inner operation portion 50. The elastic member 60 has a function of urging the inner operating portion 50 in the x1 direction. Further, the elastic member 60 has a function of giving an appropriate operation feeling to the operator of the outer operation unit 40. One end of the elastic member 60 is attached to the side surface portion 12d, and the other end is attached to the elastic member holding portion 52b of the inner operating portion 50. The elastic member 60 is not limited to the coil spring, and may be made of rubber or the like.

[Operation description]
The ON / OFF mechanism of the switch 1 will be described with reference to FIG. FIG. 8 is an explanatory diagram of the ON / OFF operation of the switch 1 according to the first embodiment. In FIG. 8A, the inner operation unit 50 is in the first position, and the switch 1 is in the OFF state. In FIG. 8B, the inner operation unit 50 is in the second position, and the switch 1 is in the ON state.

First, the OFF state of the switch 1 will be described. Switch 1 is in the state shown in FIG. 8A. The OFF state of the switch 1 is the normal state. The features of each part when the switch 1 is in the OFF state are as follows.

(1) The elastic member 60 is in a state of being elastically deformable to the side surface portion 12d side, and is in a state of suppressing the movement of the inner operating portion 50 to the side surface portion 12d side. The elastically deformable state of the elastic member 60 may be a state in which no force is applied and elastically deformed, or a state in which the inner operating portion 50 is pushed toward the side surface portion 12a.
(2) The inner operating portion 50 is restrained from moving by the elastic member 60 and is held by the convex portion 15a1.
(3) In the outer operating portion 40, the sliding portion 42 is in contact with the sliding receiving portion 52a of the inner operating portion 50. Further, the knob portion 41 is arranged so as to project outward from the operation opening 11a of the main body 10.
(4) The substrate 31 of the switch substrate 30 is sandwiched between the substrate loading portion 15 of the main body 10 and the lid-side substrate holding portion 21a of the lid portion 20.
(5) In the switch terminal 32, the switch terminal 32 is in contact with the switch support portion 16 of the main body 10.
(6) The peripheral edge of the substrate 31 and the first substrate support portion 13 and the second substrate support portion 14 of the main body 10 are not in contact with each other over the entire length, but are provided with a gap A (interval). Although the details will be described later, the provision of the gap A has the effects of reducing the load on the switch terminal 32 and preventing the switch terminal 32 from malfunctioning.

Next, the switch 1 is changed from the OFF state to the ON state. By pulling the knob portion 41 in the Y2 direction from the state shown in FIG. 8A, the state shown in FIG. 8B is reached, and the switch 1 is turned ON. The features of each part when the switch 1 is ON are as follows.

(1) When the knob portion 41 is pulled in the Y2 direction, the sliding portion 42 of the outer operating portion 40 moves in the Y2 direction while sliding the sliding receiving portion 52a of the inner operating portion 50. At this time, the inner operating portion 50 is pushed and moved in the X2 (side surface portion 12d) direction.
(2) The inner operating portion 50 is pushed and moved in the X2 direction by moving the sliding portion 42 in the Y2 direction while sliding the sliding receiving portion 52a. At this time, the switch portion 32a of the switch terminal 32 is pushed into the switch pushing surface 51a, and the elastic member 60 is elastically deformed so as to be compressed so that the facing distance between the elastic member holding portion 52b and the side surface portion 12d is narrowed.
(3) An inclined surface is formed between the sliding portion 42 of the outer operating portion 40 and the sliding receiving portion 52a of the inner operating portion 50. Therefore, the force that pulls the outer operating portion 40 in the Y2 direction can be the force that pushes the inner operating portion 50 in the X2 direction.
(4) When the tension state of the knob portion 41 of the outer operation portion 40 is released, the elastic deformation state of the elastic member 60 is also released, and the inner operation portion 50 is pushed to the x1 (side surface portion 12a) side in the direction opposite to the x2 direction. The outer operation unit 40 is pushed and moved in the direction opposite to the y2 direction, and the switch 1 is in the OFF state shown in FIG. 8A.

[About the gap between the main body 10 and the switch board 30]
The substrate 31 has a peripheral edge portion 31a1, a peripheral edge portion 31a2, a peripheral edge portion 31a3, and a peripheral edge portion 31a4. The peripheral edge portion 31a1 and the peripheral edge portion 31a2 face each other, and the peripheral edge portion 31a3 and the peripheral edge portion 31a4 face each other. Further, the peripheral edge portion 31a1 and the peripheral edge portion 31a2 are orthogonal to the peripheral edge portion 31a3 and the peripheral edge portion 31a4. Notches 31b are formed in the peripheral edge portion 31a1 and the peripheral edge portion 31a2, respectively.

FIG. 9A is an explanatory diagram showing a state in which the switch board 30 of the switch 1 according to the first embodiment is displaced in the x2 direction.
FIG. 9B is an explanatory diagram showing a state in which the switch board 30 of the switch 1 according to the first embodiment is displaced in the x1 direction.
The peripheral edge portion 31a3 faces the plurality of second substrate support portions 14, and comes into contact with the second substrate support portion 14 or a gap A3 is formed depending on the position of the substrate 31. Further, the peripheral edge portion 31a4 faces the side surface portion 12a as a support portion, and contacts the side surface portion 12a or a gap A4 is formed depending on the position of the substrate 31. The sum of the sizes of the gap A3 and the gap A4 in the x1 direction is constant.
Here, in FIG. 9A, the second substrate support portion 14 and the peripheral edge portion 31a3 are in contact with each other. In FIG. 9B, the side surface portion 12a as the support portion and the peripheral edge portion 31a4 are in contact with each other. 9A and 9B assume a state in which the mounting position of the switch terminal 32 of the switch board 30 is deviated in the x1 direction or the x2 direction. That is, even if the mounting position is displaced, the substrate 31 can move in the x1 direction or the x2 direction until it comes into contact with the second substrate support portion 14 or the side surface portion 12a at the maximum.

FIG. 9C is an explanatory diagram showing a state in which the switch board 30 of the switch 1 according to the first embodiment is displaced in the z1 direction.
FIG. 9D is an explanatory diagram showing a state in which the switch board 30 of the switch 1 according to the first embodiment is displaced in the z2 direction.
The peripheral edge portion 31a1 and the peripheral edge portion 31a2 face each other of the first substrate support portion 13, and come into contact with the first substrate support portion 13 or form a gap A1 and a gap A2 depending on the position of the substrate 31. The sum of the sizes of the gap A1 and the gap A2 in the z1 direction is constant.
Here, in FIG. 9C, one of the first substrate support portions 13 and the formed portion of the notch portion 31b of the peripheral edge portions 31a1 are in contact with each other. In FIG. 9D, the other first substrate support portion 13 and the notched portion 31b of the peripheral edge portion 31ab are in contact with each other. 9C and 9D assume a state in which the mounting position of the switch terminal 32 of the switch board 30 is deviated in the z1 direction or the z2 direction. Even if there is a deviation in the mounting position, the substrate 31 can move in the z1 direction or the z2 direction until it comes into contact with the first substrate support portion 13 at the maximum.

FIG. 9E is an explanatory diagram showing a state in which the switch board 30 of the switch 1 according to the first embodiment is rotated in the first rotation direction about the switch terminal 32.
FIG. 9F is an explanatory diagram showing a state in which the switch board 30 of the switch 1 according to the first embodiment is rotated around the switch terminal 32 in a second rotation direction opposite to the first rotation direction.
In FIGS. 9E and 9F, it is assumed that the mounting position of the switch terminal 32 of the switch board 30 is deviated in the rotation direction about the y1 direction. Even if there is a deviation in the mounting position, the substrate 31 can rotate until it comes into contact with the second substrate support portion 14 or the like at the maximum.

In the following description, the gaps A1 to A4 are collectively referred to as the gap A.
The switch board 30 is fixed in the main body 10 in a state where the switch terminal 32 is in contact with the switch support portion 16 of the main body 10 and is positioned. That is, in the switch 1, the reference of the arrangement position of the switch board 30 is set by using the switch terminal 32, not by using the peripheral edge portion of the board 31. Here, by using the switch terminal 32 to determine the reference of the arrangement position of the switch board 30, when the inner operation unit 50 moves, the switch 1 is prevented from being damaged, and the switch unit 32a is more reliably performed. Can be pushed in.

On the contrary, when the reference of the arrangement position of the switch board 30 is set by the board 31, there are the following problems. That is, the switch unit 32a is arranged closer to the connection terminal 34 than the specified position, and when the inner operation unit 50 moves, a force is applied to the switch terminal 32 more than necessary, and the switch terminal 32 or the switch terminal on the board 31 The mounting portion of 32 is damaged. Further, the switch unit 32a is arranged on a side away from the connection terminal 34 from the specified position, and when the inner operation unit 50 moves, the amount of pushing into the switch terminal 32 is small, and the switch 1 cannot perform its function.

Further, if a gap A having a certain size is not secured between the peripheral edges 31a1 to 31a4 of the substrate 31 and the main body 10 (first substrate support portion 13, second substrate support portion 14 and side surface portion 12a), The switch board 30 gets stuck. Therefore, if the gap A is not formed, the reference of the arrangement position of the switch board 30 cannot be obtained by using the switch terminal 32. Therefore, in the switch 1, a gap A is formed between the peripheral edges 31a1 to 31a4 of the substrate 31 and the main body 10 (first substrate support portion 13, second substrate support portion 14 and side surface portion 12a). Therefore, since the switch board 30 can be moved in the x-z plane, the switch portion 32a can be easily positioned by the switch support portion 16, and defects due to variations in the switch board 30 can be suppressed, and the switch 1 can be moved. Operation certainty can be improved.

[Effect of Switch 1 According to the First Embodiment]
In the switch 1 according to the first embodiment, the switch portions 32a are arranged at intervals in the x1 direction from a part (sliding portion 42) of the outer operation portion 40. That is, since the switch unit 32a is not arranged on the extension in the y1 direction, which is the movement direction of the outer operation unit 40, the switch 1 can be made thinner. Here, the moving directions of the outer operating unit 40 are the y1 direction and the y2 direction, and intersect with the x2 direction which is the pushing direction of the switch unit 32a. However, in the switch 1, the inner operation unit 50 is arranged in the main body 10, and the movement of the outer operation unit 40 in the y1 direction and the y2 direction can be converted into the x1 direction and the x2 direction. Therefore, even if the switch portions 32a are arranged at intervals in the x1 direction from a part of the outer operation portion 40 (sliding portion 42), the switch 1 can be turned ON and OFF.

The switch board 30 of the switch 1 according to the first embodiment is fixed in the main body 10 in a state where the switch terminal 32 is in contact with the switch support portion 16 of the main body 10 and is positioned. Further, the switch 1 is configured so that a gap A is secured between the switch board 30 and the main body 10. Therefore, it is possible to suppress defects due to mounting variations of the switch board 30 (damage to the switch 1 and the switch 1 not functioning), and improve the operational certainty of the switch 1.

In the switch 1 according to the first embodiment, since the outer operation unit 40 and the inner operation unit 50 are formed with inclined surfaces, the inner operation unit 50 smoothly moves in conjunction with the movement of the outer operation unit 40 in the y2 direction. It moves in the x1 direction, and it is easy to switch ON and OFF of switch 1.

[Modification 1]
FIG. 10A is a modification 1 of the outer operation unit 40 and the inner operation unit 50 of the switch 1 according to the first embodiment. Further, the sliding portion 42t of the outer operating portion 40 according to the first modification is formed in a round bar shape instead of an inclined surface. That is, the cross section of the sliding portion 42t parallel to the y1 direction is circular. The sliding portions 42 are formed on both sides of the knob portion 41 as a boundary. The sliding receiving portion 52at of the inner operating portion 50 according to the first modification has an inclined surface formed similarly to the sliding receiving portion 52a, but the width in the z1 direction is smaller than that of the sliding receiving portion 52a. , It is a rail-shaped slope. In this way, the sliding portion 42t is formed in a round bar shape, and the sliding receiving portion 52at is a rail-shaped slope, so that the sliding resistance between the sliding portion 42t and the sliding receiving portion 52at is suppressed. It's easier to do. Therefore, in the modified example 1, in addition to being able to obtain the same effect as that of the switch 1 according to the eleventh embodiment, it is possible to obtain the effect that the knob portion 41 is more easily pulled.

[Modification 2]
FIG. 10B is a modification 2 of the outer operation unit 40 and the inner operation unit 50 of the switch 1 according to the first embodiment. In the first embodiment, the switch 1 has a structure for switching ON and OFF by pulling. When the switch 1 is provided in the lighting equipment installed in a high place, it is considered that the pull type switch 1 is better in operation as described in the first embodiment. However, there are cases where the switch 1 is to be a push type. In that case, the directions of the inclined surfaces of the outer operating portion 40 and the inner operating portion 50 described in the eleventh embodiment may be symmetrical with respect to the yz plane. FIG. 10B shows an example of the push type switch 1.

In the second modification, the sliding portion 42s is formed with an inclined surface that descends in the y2 direction toward the x2 direction. Further, the sliding receiving portion 52as is also formed with an inclined surface that descends in the y2 direction toward the x2 direction. Also in the second modification, the same effect as that of the switch 1 according to the eleventh embodiment can be obtained.

[Modification 3]
FIG. 10C is a modification 3 of the outer operation unit 40 of the switch 1 according to the first embodiment. In the first embodiment, the inner operation unit 50 is indispensable, but the present invention is not limited thereto. In the third modification, the inner operation unit 50 is not provided. Further, in the modification 3, the push type is used instead of the pull type.

A guide portion 42u1 on which the sliding portion 42u slides is formed on the main body 10. The guide portion 42u1 is formed so as to extend in the y1 direction. The guide unit 42u1 has a function of guiding the outer operation unit 40 so that it can easily move in the y1 direction and the y2 direction.

In the third modification, the orientation of the switch portion 32a is opposite to that in the first embodiment. That is, the push direction of the switch portion 32a is the x1 direction. Further, in the switch portion 32a, the position of the sliding portion 42u is closer to the sliding portion 42u than in the first embodiment. Further, the position of the elastic member 60 is not the side surface portion 12d but the lid main body portion 21. One end of the elastic member 60 is connected to the lid main body 21, and the other end is connected to the end face of the sliding portion 42u facing the lid main body 21. Further, a protruding portion 42u2 is formed on the sliding portion 42u. When the outer operating portion 40 is moved in the y1 direction from the state shown in FIG. 10C, the protruding portion 42u2 and the switch portion 32a come into contact with each other, and the switch portion 32a is pushed in.

The switch 1 according to the first embodiment includes a switch board 30 in which a switch terminal 32 having a switch part 32a is mounted on a plate-shaped board 31, an operation part for pressing the switch part 32a, an operation part, and a switch board 30. It is a box shape having a space for arranging the switches, and the main body 10 is provided with side surfaces so as to provide a space (gap A) between the switch board 30 and the plate-shaped side, and the main body 10 is provided with a switch. A switch support portion 16 that comes into contact with the opposite surface of the switch portion 32a of the terminal 32 is provided. In the first embodiment, the operation unit corresponds to the outer operation unit 40 and the inner operation unit 50, and the side of the switch board 30 corresponds to the peripheral portions 31a1 to 31a4 of the switch board 30. Since the above configuration is provided, it is possible to suppress defects due to mounting variations of the switch board 30 (damage to the switch 1 and the switch 1 not functioning), and to suppress a decrease in the operability reliability of the switch 1. it can.

The main body 10 has a mounting portion on which the switch board 30 is mounted on a surface of the switch board 30 facing the mounting surface on which the switch terminal 32 is mounted, and the mounting portion is a mounting portion of the mounting surface of the switch board 30. The switch board 30 is sandwiched between the bottom surface (lid portion 20) of the main body 10 facing the back surface on the opposite side.
In the first embodiment, the mounting portion corresponds to the substrate loading portion 15. By providing a configuration that sandwiches the mounting portion and the switch board 30, it is possible to prevent the switch board 30 from moving inside the main body 10.

A support portion for supporting the substrate 31 is formed on the side surface of the main body 10. In the first embodiment, the support portions are the first substrate support portion 13, the second substrate support portion 14, and the side surface portion 12a. As a result, the switch board 30 can be arranged in a specified range in the x-z plane.

In the first embodiment, the case where the pushing direction of the switch unit 32a and the operating direction of the outer operating unit 40 intersect so as to be orthogonal to each other has been described, but the present invention is not limited thereto. For example, by changing the angles of the first inclined surface and the second inclined surface and the forming direction of the knob portion 41, the operating direction of the outer operating portion 40 is formed at an angle other than orthogonal to the pushing direction of the switch portion 32a. However, the outer operation unit 40 can be pulled, and the switch 1 can be turned ON and OFF.

Further, in the first embodiment, the embodiment including the first substrate support portion 13 and the second substrate support portion 14 has been described, but the present invention is not limited thereto. Instead of providing the first substrate support portion 13 and the second substrate support portion 14, the side surface portions 12a to 12d may function as the first substrate support portion 13 and the second substrate support portion 14. For example, the shape of the substrate 31 may be formed larger than that described in the first embodiment, and a gap A may be provided between the peripheral edge portion and the side surface portions 12a to 12d of the substrate 31. The substrate 31 does not need to have a gap A formed in all of the side surface portions 12a to 12d.

Embodiment 2.
In the second embodiment, the lighting fixture provided with the switch 1 described in the first embodiment and the first to third modifications will be described. In the second embodiment, the same reference numerals are given to the configurations common to the first embodiment and the first to third embodiments, and the description thereof will be omitted, and different parts will be mainly described.

FIG. 11 is a perspective view of the lighting fixture 100 provided with the switch according to the second embodiment.
FIG. 12 is an exploded perspective view of the luminaire 100 provided with the switch according to the second embodiment.

The lighting fixture 100 is a trough-type lighting fixture that includes a fixture main body 101 and a lighting unit 102 and is attached to a ceiling or the like.
The instrument body 101 includes a body 110 and an emergency light source unit 120.

FIG. 13 is an explanatory diagram of a lighting device and the like of the lighting fixture 100 provided with the switch 1 according to the second embodiment.
FIG. 14 is an exploded perspective view of the lighting unit 102 of the lighting fixture 100 provided with the switch 1 according to the second embodiment.
FIG. 15 is a perspective view of the fixture main body 101 of the lighting fixture 100 provided with the switch 1 according to the second embodiment.
FIG. 16 is a perspective view showing the instrument main body 101 shown in FIG. 15 in a disassembled state of the emergency light source unit 120.
FIG. 17 is a perspective view of the instrument main body 101 shown in FIG. 15 as viewed from a direction different from that in FIG.
Note that the locking portion 140 is omitted in FIGS. 15 and 16.

(Main body 110)
The main body 110 includes a base portion 111, a side plate portion 112, a main body recess 113, an end plate portion 114, and a locking portion 140.

A side plate portion 112 and an end plate portion 114 are provided on the peripheral edge of the base portion 111. Then, a concave main body recess 113 is formed by the base portion 111, the side plate portion 112, and the end plate portion 114. The lighting unit 102 is arranged in the recess 113 of the main body.
The side plate portion 112 is formed with a notch portion 112a and a notch portion 112b. Wiring is passed through the notch 112a and the notch 112b. Further, the notch 112b is formed so that the storage battery 126 can be easily attached to the emergency light source unit 120.
The locking portion 140 is used to lock the lighting unit 102 and attach the lighting unit 102 to the main body 110.

(Lighting unit 102)
The lighting unit 102 includes a cover 103 and the like, a lighting device 106, and a connecting portion 107.

The cover 103 and the like include the cover 103, the substrate 104, and the frame 105.
The cover 103 includes a light source lid portion 103A, a lower surface portion 103B, and a detachable portion 103C. The cover 103 has an arc shape and can diffuse light. The light source lid portions 103A are attached to both ends of the lower surface portion 103B in the longitudinal direction. The detachable portion 103C is attached to the attachment portion 105B described later.
For example, a light emitting element or the like is mounted on the substrate 104. The substrate 104 has a rectangular shape having a short side 104A and a long side 104B.
The substrate 104 is fixed to the frame 105. The frame 105 includes a lower surface 105A, a mounting portion 105B, and an upper surface 105C. The substrate 104 is fixed to the lower surface 105A. The attachment / detachment portion 103C of the cover 103 is attached to the attachment portion 105B. A lighting device 106 is arranged on the upper surface 105C.

The lighting device 106 includes a lighting device main body 106a and a connecting portion 106b. The connection portion 106b includes a wiring 106ba and a connector 106bb.

The connecting portion 107 is arranged on the upper surface 105C of the frame 105. As shown in FIG. 13 (c), the connecting portion 107 has a base portion 107a fixed to the upper surface 105C, a rising portion 107b arranged so as to rise from the base portion 107a, and an opening 107ba formed in the rising portion 107b. doing. A locking portion 140 is inserted into the opening 107ba to fix the lighting unit 102 to the main body 110.

(Emergency light source unit 120)
The emergency light source unit 120 includes a switch 1, a unit outer portion 121U, an emergency light source portion 123, a fixed portion 124, a light source installation base portion 125, a storage battery 126, a storage battery side connection portion 127, and an emergency lighting. It is equipped with a device 128. The emergency light source unit 120 is attached to the main body 110.

The switch 1 is mounted in the light source installation base 125. By operating the switch 1, the lighting state of the emergency light source unit 123 can be controlled.

The unit outer shell portion 121U has a box shape including a bottom surface portion 122A and an outer shell portion 121, and has a storage battery opening 122C on the side surface on the main body 110 side on which the storage battery 126 can be taken in and out.
The bottom surface portion 122A includes a storage battery accommodating portion 122B which corresponds to the bottom surface of the box shape and accommodates the storage battery 126. The storage battery accommodating portion 122B communicates with the storage battery opening 122C.
The outer shell portion 121 includes a pair of side surface portions 121A facing each other, a lower surface portion 121B, an inner side surface portion 121D, and a side surface portion 121C on which a tapered surface is formed. The lower surface portion 121B is formed with an opening 121Ba facing the emergency light source unit 123, an operation portion opening 121Bb into which the knob portion 41 of the outer operation portion 40 is inserted, and a monitor opening 121Bc. The outer shell portion 121 is made of, for example, a non-combustible material such as metal.

The monitor opening 121Bc is formed below the light source 33 arranged in the switch 1. The lighting operation of the light source 33 can be confirmed through the monitor opening 121Bc. The light source 33 is, for example, turned on when the storage battery 126 is properly charged, turned off when the storage battery 126 is not charged, and blinks when the storage battery 126 is about to be replaced.

A notch 121Da is formed in the inner side surface portion 121D so that the storage battery 126 can be accommodated in the emergency light source unit 120. The inner side surface portion 121D is provided on the side plate portion 112 side of the main body 110, and the notch portion 121Da forms the storage battery opening 122C together with the notch formed in the side plate portion 112.

The emergency light source unit 123 includes a substrate 123A on which a light emitting element or the like is mounted, a ring-shaped socket portion 123B arranged under the substrate 123A, and a cover portion 123C.
The fixing portion 124 is used to fix the emergency light source portion 123 to the lower surface of the light source installation base portion 125.

When the storage battery 126 is normally supplied, it is charged by the emergency lighting device 128, and when the power supply from the commercial power is stopped due to a power failure or the like, the emergency light source unit 123 is charged by the power of the emergency lighting device 128. Turn on. The storage battery 126 has a storage battery main body 126A having a substantially rectangular parallelepiped shape and a storage battery side connection portion 127. The storage battery side connection portion 127 has a storage battery side electric wire 127a and a storage battery side connector 127b.

The emergency lighting device 128 charges the storage battery 126 with electric power from the commercial power source in a state where an external power source such as a commercial power source is normally supplied by an electric wire (not shown). When the power supply from the commercial power is stopped due to a power failure or the like, the emergency light source unit 123 is turned on by the power from the storage battery 126. The emergency lighting device 128 includes a power supply side main body 128A and a power supply side connection portion 128B. The power supply side connection portion 128B includes a power supply side wiring 128Ba and a power supply side connector 128Bb. In the power supply side connection portion 128B, the power supply side connector 128Bb is connected to the storage battery side connector 127b of the storage battery side connection portion 127.

When the outer operation unit 40 is pulled, the luminaire 100 supplies electric power from the emergency lighting device 128 to the storage battery 126 to store electric power, and from the first state, the light source 33 from the storage battery 126 (see FIGS. 5 and 6). It is switched to the second state of supplying electric power to the light source 33 to light the light source 33.
If the lighting of the light source 33 can be confirmed, it can be confirmed that the storage battery 126 is charged. As a condition for returning from the second state to the first state again, the operation of pulling the outer operation unit 40 may be adopted again, or a predetermined time may be adopted. ..
The emergency lighting device 128 charges the storage battery 126 with electric power from the commercial power source in a state where an external power source such as a commercial power source is normally supplied. When the power supply from the commercial power to the emergency lighting device 128 is stopped due to a power failure or the like, the emergency light source unit 123 is turned on by the power from the storage battery 126.

In the second embodiment, the emergency light source unit 120 can suppress the increase in size of the emergency light source unit 120 by using the thinned switch 1.

Further, in the switch 1, the light source 33 emits light inside the main body 10, and the flat surface portion 11 of the main body 10 mainly emits surface light. If the light source is a point light source when the switch is placed inside the unit outer shell 121U, it can be confirmed from an oblique direction, or if the switch installation position deviates slightly from the specified position, it can be seen from the monitor opening 121Bc. Although it is difficult and the visibility is deteriorated, the switch 1 emits surface light from the light source 33, so that the visibility can be ensured even when confirmation / deviation occurs from an oblique direction.

FIG. 18 is an explanatory view of an emergency light source unit 120t different from the emergency light source unit 120 described with reference to FIGS. 11 to 17, and is independently attached to an embedded hole formed in a ceiling or the like.
The emergency light source unit 120t has a cylindrical shape, and the emergency light source unit 123t faces from the lower opening. Further, an opening 213t is formed in the lower part of the emergency light source unit 120t so that the outer operating portion 40 protrudes.

[Effect of Lighting Fixture 100 with Switch 1 According to Embodiment 2]
Also in the second embodiment, the same effect as that described in the first embodiment can be obtained. Since the switch 1 that can be made thinner is provided, it is possible to suppress the increase in size of the lighting fixture 100.

1 switch, 10 main body, 11 flat surface, 11a operation opening, 12 side surface, 12a side surface, 12aa connection opening, 12b side surface, 12c side surface, 12d side surface, 13 first board support, 14 second Board support, 14a straight part, 14b contact part, 15 board loading part, 15a first loading part, 15a1 convex part, 15b second loading part, 16 switch support part, 16a arrangement surface, 17 lid convex part, 20 lid Part, 21 lid body part, 21a lid side board holding part, 22 lid side engaging part, 30 switch board, 31 board, 31a1 peripheral part, 31a2 peripheral part, 31a3 peripheral part, 31a4 peripheral part, 31b notch part, 32 switch Terminal, 32a switch part, 32b end face, 33 light source, 34 connection terminal, 40 outer operation part, 41 part, 41a hook opening, 42 sliding part, 42a inclined surface, 42s sliding part, 42t sliding part, 42u sliding Part, 42u1 guide part, 42u2 protruding part, 50 inner operation part, 51 switch accommodating part, 51a switch pushing surface, 51b end surface, 52 operation part accommodating part, 52a sliding receiving part, 52as sliding receiving part, 52at sliding receiving part Part, 52b Elastic member holding part, 60 Elastic member, 100 Lighting equipment, 101 Equipment body, 102 Lighting unit, 103 cover, 103A light source lid, 103B lower surface, 103C detachable part, 104 board, 104A short side, 104B long side , 105 frame, 105A bottom surface, 105B mounting part, 105C top surface, 106 lighting device, 106a lighting device body, 106b connection part, 106ba wiring, 106bb connector, 107 connection part, 107a base, 107b rising part, 107ba opening, 110 body , 111 base, 112 side plate, 112a notch, 112b notch, 113 main body recess, 114 end plate, 120 emergency light source unit, 120t emergency light source unit, 121 outer shell, 121A side surface, 121B lower surface, 121Ba Opening, 121Bb operation part opening, 121Bc monitor opening, 121C side surface part, 121D inner side surface part, 121Da notch, 121U unit outer part, 121t Opening, 122A bottom part, 122B storage battery housing part, 122C storage battery opening, 123 emergency light source part, 123A board, 123B socket part, 123C cover part, 123t emergency light source part, 124 fixed part, 125 light source installation base part, 126 Storage battery, 126A storage battery body, 127 storage battery side connection, 127a storage battery side wire, 127b storage battery side connector, 128 emergency lighting device, 128A power supply side body, 128B power supply side connection, 128Ba power supply side wiring, 128Bb power supply side connector, 140 Locking part, A gap, A1 gap, A2 gap, A3 gap, A4 gap, B light source arrangement part.

Claims (6)

A switch with a switch board inside the main body
A part is arranged inside the main body, another part is arranged outside the main body, and an outer operation unit provided on the main body so as to be movable in the first direction, and
A switch unit that is pushed in conjunction with the movement of the outer operation unit and moves in a second direction in which the pushing direction intersects the first direction is included, is arranged in the main body, and is mounted on the switch board. Switch terminal and
An inner operation unit arranged in the main body and moving in the second direction in conjunction with the movement of the outer operation unit in the first direction,
An elastic member arranged in the main body and urging the inner operating portion in the second direction,
Equipped with a,
In the main body
A convex portion that limits the range of movement of the inner operating portion in the second direction is formed.
The outer operation unit is
A first inclined surface formed in the part arranged in the main body and inclined with respect to the second direction is included.
The inner operation unit is
A second inclined surface that is in contact with the first inclined surface of the outer operating portion and is parallel to the first inclined surface is included.
With the second inclined surface formed on one end side in a direction parallel to the second direction,
An end face formed on the other end side in a direction parallel to the second direction and facing the convex portion,
A switch formed between the one end side and the other end side and including a switch pushing surface facing the switch portion . A switch with a switch board inside the main body
A part is arranged inside the main body, another part is arranged outside the main body, and an outer operation unit provided on the main body so as to be movable in the first direction, and
A switch unit that is pushed in conjunction with the movement of the outer operation unit and moves in a second direction in which the pushing direction intersects the first direction is included, is arranged in the main body, and is mounted on the switch board. Switch terminal and
An inner operation unit arranged in the main body and moving in the second direction in conjunction with the movement of the outer operation unit in the first direction,
An elastic member arranged in the main body and urging the inner operating portion in the second direction,
Equipped with a,
In the main body
A convex portion that limits the range of movement of the inner operating portion in the second direction is formed.
The inner operation unit is
An inclined surface formed on one end side in a direction parallel to the second direction and inclined with respect to the second direction,
An end face formed on the other end side in a direction parallel to the second direction and facing the convex portion,
A switch pushing surface formed between the one end side and the other end side and facing the switch portion is included.
The outer operation unit is
A switch characterized by including a sliding portion formed in the partial portion arranged in the main body and sliding along the inclined surface . The inner operation unit is
When the outer operating portion is in the initial position, it is urged by the elastic member so that the end face is in contact with the convex portion and the switch pushing surface is located in the first position where the switch portion is not pushed.
When the outer operating portion moves from the initial position in the first direction, it moves in the second direction, the end surface is separated from the convex portion, and the switch pushing surface pushes the switch portion. The switch according to claim 1 or 2 , wherein the switch is located at the position of. The elastic member is
The switch according to any one of claims 1 to 3, wherein the switch is arranged between the main body and one end side of the inner operation unit. The switch unit
The switch according to any one of claims 1 to 4 , wherein the switch is mounted on the switch board so that the pushing direction is parallel to the switch board. The switch according to any one of claims 1 to 5 .
An emergency light source unit whose lighting is controlled by the switch,
The main body to which the emergency light source unit is attached and
Lighting equipment that is characterized by being equipped with.

Images