JP2021071016A - Fixture - Google Patents

Abstract

To provide a fixture capable of stably supporting a panel-like module.SOLUTION: A fixture 100 has a base 200 fixed to an installation surface 50, and a support member 300 which is mounted to the base 200 and has a loading part 220 capable of loading a panel-like module. The base 200 has a pair of engagement parts 210 positioned at both ends in a second direction crossing a first direction along the installation surface 50. The support member 300 has a pair of engaged parts 310 which are engaged with the pair of engagement parts 210.SELECTED DRAWING: Figure 5

Description

The present invention relates to a fixture, and more particularly to a fixture for fixing a panel module such as a solar cell module.

Installations such as solar cell modules that can be attached to various types of roofs, such as slate roofs, tiled roofs, and flat roofs, are known. In order to install such an installation, appropriate fixtures are used according to the type of roof.

The following Patent Document 1 discloses a mounting bracket for mounting a solar cell module on a slate corrugated plate in which valleys and peaks are alternately formed in the lateral direction. The mounting bracket described in Patent Document 1 includes a plate main body according to the shape of the slate corrugated plate, an angle material fixed on the plate main body, and a vertical rack fixed on the angle material.

In the angle material, a plurality of protrusions of the plate main body and the slate corrugated plate extend along the lateral direction adjacent to each other. On the other hand, the vertical rack extends long along the extending direction of the plate main body and the convex portion itself of the slate corrugated plate, that is, the direction intersecting in the lateral direction. Each vertical rack is longer than the length of the solar cell module and is fixed to the plate main body by two angle members. The solar cell module is mounted on the vertical rack and mounted on the vertical rack by the panel retainer.

Japanese Unexamined Patent Publication No. 2014-11186

Panel-like modules such as solar cell modules may be installed in places where the scaffolding is difficult to stabilize, such as the roof of a building. Therefore, from the viewpoint of construction of the panel-shaped module, it is desirable that the fixture has a size as small as possible and is easy to construct.

From this point of view, the inventor of the present application shortens the length of a vertical rack having a length corresponding to the length of a panel-shaped module such as a solar cell module, or a horizontal rack extending in a direction orthogonal to the vertical rack. I considered doing it. In this case, the inventor of the present application has found a problem that the panel-shaped module on the rack is not stably supported.

Therefore, a fixture capable of stably supporting the panel-shaped module is desired.

The fixture according to one aspect includes a base portion fixed to an installation surface and a support member attached to the base portion and having a loading portion capable of loading a panel-shaped module. The base has a pair of engaging portions located at both ends in a first direction along the installation surface. The support member has a pair of engaged portions that engage the pair of engaging portions.

According to the above aspect, it is possible to provide a fixture capable of stably supporting the panel-shaped module.

It is a schematic diagram which shows the panel-shaped module supported on the installation surface. It is a partial side view of the panel-shaped module near the fixture as seen from the 2A direction of FIG. It is a perspective view of the fixture which concerns on 1st Embodiment. It is a top view of the fixture which concerns on 1st Embodiment seen from the direction substantially orthogonal to the installation surface. It is sectional drawing of the fixture along the line 5A-5A of FIG. It is an exploded perspective view of the fixture which concerns on 1st Embodiment. It is a side view of the fixture which concerns on 2nd Embodiment. It is a top view of the fixture which concerns on 2nd Embodiment viewed from the direction substantially orthogonal to the installation surface. It is sectional drawing of the fixture along line 9A-9A of FIG. It is a side view of the fixture which concerns on 3rd Embodiment. It is a top view of the fixture which concerns on 3rd Embodiment seen from the direction which is substantially orthogonal to the installation surface. It is sectional drawing of the fixture along line 12A-12A of FIG.

Hereinafter, embodiments will be described with reference to the drawings. In the drawings below, the same or similar parts are designated by the same or similar reference numerals. However, it should be noted that the drawings are schematic and the ratio of each dimension may differ from the actual one.

(First Embodiment)
FIG. 1 is a schematic view showing a panel-shaped module supported on an installation surface. FIG. 2 is a partial side view of FIG. 1 as viewed from the 2A direction. More specifically, FIG. 2 is a partial side view of the panel-shaped module in the vicinity of the fixture as viewed from the 2A direction of FIG.

The panel-shaped module 10 may be, for example, a solar cell module. The panel module 10 may be installed on an installation surface 50 such as a roof of a building.

In the following, the X direction in the figure may be referred to as a horizontal direction, and the Y direction in the figure may be referred to as a vertical direction. In this embodiment, as an example, the panel-shaped module 10 is installed on an uneven installation surface 50. Specifically, the installation surface 50 has a plurality of convex portions 52 extending in the vertical direction, and the plurality of convex portions 52 are arranged side by side at a predetermined pitch P1 in the horizontal direction. As such an installation surface 50, for example, there is a roof having a seaming. In this case, the convex portion 52 corresponds to the standing seaming.

In FIG. 1, a plurality of panel-shaped modules 10 are arranged side by side in the vertical direction and the horizontal direction. Not limited to the example shown in FIG. 1, the panel-shaped modules 10 may be arranged along only one of the vertical direction and the horizontal direction, and only one panel-shaped module 10 may be installed.

The panel-shaped module 10 is fixed to the installation surface 50 by the fixture 100. In the embodiment shown in FIG. 1, one panel-shaped module 10 is fixed by four fixtures 100. Not limited to this, one panel-shaped module 10 may be fixed by four or more fixtures 100.

The panel-shaped module 10 may have a panel portion 12 and a frame portion 14. The panel portion 12 is a flat plate-shaped portion. The frame portion 14 is provided along the edge of the panel portion 12. When the panel-shaped module 10 is a solar cell module, the panel unit 12 corresponds to a photoelectric conversion panel that converts solar energy into electrical energy.

The panel module 10 may have a cable 18 for power supply and / or power extraction (see FIG. 2). When the panel-shaped module 10 is a solar cell module, the cable 18 is electrically connected to the panel portion 12 and constitutes an electric cable for extracting electric power from the solar cell module.

FIG. 3 is a perspective view of the fixture according to the first embodiment. FIG. 4 is a top view of the fixture according to the first embodiment as viewed from a direction substantially orthogonal to the installation surface. FIG. 5 is a cross-sectional view of the fixture along line 5A-5A of FIG. FIG. 6 is an exploded perspective view of the fixture according to the first embodiment. In FIGS. 3 to 5, for convenience, the cable 18 of the panel-shaped module 10 is also shown.

The fixture 100 may have a base 200, a support member 300, and a pressing member 400. The base 200 is fixed to the installation surface 50 by the third fastening member 700. The base 200 may extend laterally. However, the base 200 may be sufficiently shorter than the length of the panel-shaped module 10 in the lateral direction.

When the installation surface 50 has the convex portion 52 as described above, the base portion 200 may have a length of twice or more the pitch P1 between the convex portions 52 of the installation surface 50 in the lateral direction. preferable. More preferably, the base 200 has a length of three times or more the pitch between the convex portions 52. In this case, the base 200 can be arranged so as to be located on at least two, preferably three or more convex portions 52. As a result, the base portion 200 is fixed to the installation surface 50, specifically, the convex portion 52 by at least two, preferably three or more third fastening members 700. By fixing the fixture 100 to the plurality of convex portions 52, the load applied to each convex portion 52 is reduced. In FIG. 2, the base portion 200 is fixed to the installation surface 50 by four third fastening members 700.

The base 200 may have a substantially U-shape when viewed from the side (particularly see FIG. 5). The substantially U-shaped bottom 220 constitutes a portion to which the above-mentioned third fastening member 700 is attached. The substantially U-shaped bottom 220 may be placed directly on the installation surface 50, or may be placed on the installation surface 50 via another member such as an elastic member.

The base 200 has a pair of engaging portions 210 located at both ends in the longitudinal direction along the installation surface 50. The engaging portion 210 may be composed of, for example, a protruding portion 212 protruding outward in the vertical direction from the upper portion having a substantially U-shape.

The protruding portion 212 as the engaging portion 210 may extend continuously along the lateral direction. In the first embodiment, two projecting portions 212 extending in the horizontal direction are provided at each end of the upper portion of the base portion 200 in the vertical direction.

The support member 300 is attached to the base portion 200 and has a loading portion 320 on which the panel-shaped module 10 can be loaded (see FIGS. 2 to 4 and the like). The support member 300 does not have to be supported by a plurality of bases 200, and may be attached to one base 200.

The loading portion 320 may be composed of an upper portion of the support member 300. The loading portion 320 may be configured to support the end portion of the panel-shaped module 10, for example, the frame portion 14 from below (see also FIG. 2). In the first embodiment, the support member 300 has a pair of loading portions 320 for loading the ends of the panel-shaped modules 10 adjacent to each other. In this case, the pair of loading portions 320 may be composed of the upper portion of the support member 300 that covers the upper portion of the base portion 200.

In the first embodiment, the loading unit 320 provided on each fixture 100 is configured to be able to support the panel-shaped modules 10 adjacent to each other, specifically, the panel-shaped modules 10 adjacent to each other in the lateral direction. Thereby, when fixing the plurality of panel-shaped modules 10 to the installation surface 50, the number of fixtures 100 can be reduced.

The support member 300 may have a side portion 340 extending downward from the loading portion 320 and a pair of engaged portions 310 that engage the pair of engaging portions 210 of the base portion 200. The engaged portion 310 may be formed below the loading portion 320 and inside the side portion 340 (particularly see FIG. 5).

The pair of engaged portions 310 may be configured to fit the protruding portion of the base 200 as the engaging portion 210. In the first embodiment, the engaged portion 310 sandwiches the protruding portion 212 as the engaging portion 210 between the upper portion 312 and the lower portion 314 when viewed from the lateral direction. Further, the inner end 313 of the upper portion 312 of the engaged portion 310 may be bent downward so that the protruding portion 212 as the engaging portion 210 does not come off.

As described above, the base portion 200 and the support member 300 are engaged with each other by a pair of engaging portions 210 and engaged portions 310 provided at both ends in the vertical direction. That is, since the support member 300 is fixed to the base 200 at two ends in the vertical direction, the vertical end of the support member 300 is upward or higher than when it is fixed at one place in the vertical direction. It is possible to suppress downward tilt. Thereby, even when the support member 300 is fixed to one base portion 200, the stability of the support member 300 can be improved.

The pair of engaged portions 310 may extend along the lateral direction. More specifically, it is preferable that the pair of engaging portions 210 and the pair of engaged portions 310 extend along the lateral direction so as to make the support member 300 slidable along the lateral direction. As a result, even if the installation position of the base portion 200 is restricted, the position of the support member 300 with respect to the base portion 200 in the lateral direction can be adjusted according to the installation position of the panel-shaped module 10.

The side portion 340 of the support member 300 may extend further downward beyond the engaging portion 210 of the base portion 200. In the first embodiment, a part of the side portion 340 of the support member 300 constitutes a covering portion 342 that covers at least a part of the side surface of the U-shaped base portion 200 (see FIG. 5).

The base portion 200 and the support member 300 are preferably fastened to each other by the first fastening member 500 at the covering portion 342. In the first embodiment, the support member 300, particularly the upper portion of the support member 300, covers the upper part of the base 200. It is preferable that the base portion 200 and the support member 300 are fastened to each other by the first fastening member 500 at the laterally facing side surface, that is, the covering portion 342.

The first fastening member 500 may be any as long as the base portion 200 and the support member 300 can be fastened to each other. The first fastening member 500 may be, for example, a screw, a nail, a combination of a bolt and a nut, or the like. In addition, holes for passing the first fastening member 500 may or may not be formed in advance on the side surfaces of the base portion 200 and the support member 300.

In a state where the first fastening member 500 is not attached or loosened, the support member 300 may be slidable laterally with respect to the base 200 as described above. In a state where the support member 300 is fastened to the base 200 by the first fastening member 500, the support member 300 is fixed to the base 200 so as not to slide laterally. After the panel module 10 is installed, the support member 300 may be fixed to the base 200 so as not to slide laterally.

The support member 300 preferably has a cable holding portion 350 for holding the cable 18 and a awning portion 360 (see FIG. 5). The cable holding portion 350 may be provided on the outside of the side portion 340 of the support member 300.

Specifically, the support member 300 may have a substantially L-shaped protrusion 352 when viewed from the lateral direction on the outside of the side portion 340 of the support member 300. A space capable of holding the cable 18 is formed between the substantially L-shaped protrusion 352 and the side portion 340. Since the cable holding portion 350 is provided on the fixture 100, the cable 18 can be neatly organized.

Further, the awning portion 360 may cover the upper part of the cable holding portion 350, more specifically, the upper part of the space where the cable 18 can be held. In the first embodiment, the awning portion 360 may be composed of the upper part of the support member 300. That is, the upper portion of the support member 300 projects so as to cover the upper side of the cable holding portion 350 in the direction along the installation surface 50. The awning section 360 may also serve as the above-mentioned loading section 320.

A gap G larger than the diameter of the cable is provided between the substantially L-shaped protrusion 352 as the cable holding portion 350 and the awning portion 360. The cable 18 is arranged in the cable holding portion 350 through the gap G.

The pressing member 400 is configured to press the end portion of the panel-shaped module 10 placed on the loading portion 320, for example, the frame portion 14 against the loading portion 320. In the first embodiment, the pressing member 400 has a substantially U-shape when viewed from the vertical direction (see FIGS. 2, 3 and 6).

The bottom 410 of the substantially U-shaped pressing member 400 abuts on the top of the support member 300. The bottom portion 410 of the pressing member 400 may have a hole portion 430 through which the second fastening member 600, which will be described later, is passed. The second fastening member 600 is attached to the support member 300 and extends through the hole 430 to above the bottom 410 of the pressing member 400. As a result, the pressing member 400 is fixed to the supporting member 300 by the second fastening member 600.

The upper portion of the substantially U-shaped pressing member 400 may have a flange portion 420 projecting outward in the lateral direction. The flange portion 420 is configured to face the loading portion 320 of the support member 300. Therefore, the flange portion 420 presses the end portion of the panel-shaped module 10 placed on the loading portion 320 against the loading portion 320.

The upper portion of the support member 300 may have a groove 330 that slidably supports the second fastening member 600 in the lateral direction (see FIGS. 4, 5, 6 and the like). The groove 330 may extend laterally. Preferably, the groove 330 extends laterally from one end to the other end of the top of the support member 300. If the second fastening member 600 is slidable in the lateral direction, the lateral position of the pressing member 400 with respect to the support member 300 can be finely adjusted. As a result, when the panel-shaped module 10 is installed, the end portion of the panel-shaped module 10 can be easily sandwiched between the loading portion 320 and the flange portion 420. Further, the position of the panel-shaped module 10 in the lateral direction can be finely adjusted.

The second fastening member 600 may be composed of members such as bolts and nuts. In this case, the second fastening member 600 may have a bolt including a core portion 610 and a head portion 620, and a nut 630. The diameter of the head 620 is larger than the diameter of the core 610. In this case, it is preferable that the size of the bottom of the groove 330 in the vertical direction is larger than the size of the bottom of the groove 330 in the vertical direction when viewed from the horizontal direction. As a result, the groove 330 is configured to accommodate the head 620 and prevent the head 620 from coming out upward. According to this configuration, the second fastening member 600 is configured to be slidable in the lateral direction along the groove 330 in a state where the nut 630 attached to the core portion 610 is loosened.

(Second Embodiment)
Next, the fixture according to the second embodiment will be described with reference to FIGS. 7, 8 and 9. FIG. 7 is a side view of the fixture according to the second embodiment. FIG. 8 is a top view of the fixture according to the second embodiment as viewed from a direction substantially orthogonal to the installation surface. FIG. 9 is a cross-sectional view of the fixture along line 9A-9A of FIG. Note that, in FIGS. 7 to 9, for convenience, the cable 18 of the panel-shaped module 10 is also shown.

It should be noted that in the second embodiment, the same or similar components as in the first embodiment are designated by the same reference numerals. Further, it should be noted that the description of the components similar to or similar to those of the first embodiment may be omitted.

In the second embodiment, the structures of the engaging portion 210 of the base portion 200 and the engaged portion 310 of the support member 300 are different from those of the first embodiment. In the second embodiment, the engaging portion 210 is composed of a substantially C-shaped portion provided on the upper portion of the base portion 200 when viewed from the lateral direction. More specifically, the engaging portion 210 has a portion confined inward from the side surface of the base portion 200 and a protruding portion extending outward at the uppermost portion of the base portion 200 when viewed from the lateral direction.

The engaged portion 310 of the support member 300 is configured to fit into a substantially C-shaped portion of the base portion 200 as the engaging portion 210. In the second embodiment, the engaged portion 310 sandwiches a substantially C-shaped portion as the engaging portion 210 between the upper portion 312 and the lower portion 314 when viewed from the lateral direction. Further, the engaged portion 310 of the support member 300 is provided outside the engaging portion 210 of the base portion 200.

In the second embodiment, the side portion 340 of the support member 300 extends further downward than the engaging portion 210 of the base portion 200 inside the base portion 200. At least a part of the side surface of the base portion 200 constitutes a covering portion 242 that covers a part of the side portion 340 of the support member 300 (see FIG. 9). The base portion 200 and the support member 300 are fastened to each other by the first fastening member 500 at the covering portion 242.

In the second embodiment, as shown in FIG. 7, the side surface of the base portion 200, specifically, the covering portion 242 described above may have a hole portion 280 through which the first fastening member 500 is passed. Further, the portion of the side portion 340 of the support member 300 that overlaps with the covering portion 242 may have a hole portion 380 through which the first fastening member 500 is passed. The first fastening member 500 passes through the hole 280 of the base 200 and the hole 380 of the support member 300, whereby the base 200 and the support member 300 are fastened to each other. In FIG. 7, the first fastening member 500 is not drawn for convenience in order to make the positions of the hole 280 and the hole 380 easy to understand.

The hole portion 380 of the support member 300 is preferably longer than the diameter of the first fastening member 500 in the lateral direction. As a result, the support member 300 is configured to be slidable in the lateral direction with respect to the base portion 200. Therefore, the lateral position of the support member 300 with respect to the base 200 can be finely adjusted.

In the second embodiment, the hole portion 380 of the support member 300 is configured to be longer than the diameter of the first fastening member 500 in the lateral direction. Instead, the hole 280 of the base 200 may be configured to be laterally longer than the diameter of the first fastening member 500. That is, the holes 280, 380 provided in at least one of the base portion 200 and the support member 300 may be configured to be longer than the diameter of the first fastening member 500 in the lateral direction.

In the second embodiment, the loading portion 320 of the support member 300 may have a notch portion 324 cut out in an arc shape when viewed from above (see FIG. 8). The cutout portion 324 is provided at a position substantially overlapping with the third fastening member 700 attached to the base portion 200 when viewed from above. In other words, the notch portion 324 is formed so that the third fastening member 700 is not covered by the loading portion 320 when viewed from above. This makes it easier to access the third fastening member 700 attached to the base 200 from above.

(Third Embodiment)
Next, the fixture according to the third embodiment will be described with reference to FIGS. 10, 11 and 12. FIG. 10 is a side view of the fixture according to the third embodiment. FIG. 11 is a top view of the fixture according to the third embodiment as viewed from a direction substantially orthogonal to the installation surface. FIG. 12 is a cross-sectional view of the fixture along line 12A-12A of FIG. In FIG. 12, the panel-shaped module 10 is drawn as a thick rectangular shape. Instead, the panel-shaped module 10 may have a shape as shown in FIG.

It should be noted that in the third embodiment, the same or similar components as those in the first embodiment and / or the second embodiment are designated by the same reference numerals. Further, it should be noted that the description of the components similar to or similar to those of the first embodiment and / or the second embodiment may be omitted.

In the third embodiment, the fixture 100 is configured to support the ends of a pair of panel-shaped modules 10 that are vertically adjacent to each other. In the third embodiment, the support member 300 has substantially the same structure as the support member according to the second embodiment. However, in the third embodiment, the upper portion of the support member 300 extends longer in the vertical direction. The vertically extending portion of the upper portion of the support member 300 constitutes the loading portion 320.

In this case, the flange portion 420 of the pressing member 400 also protrudes in the vertical direction in accordance with the loading portion 320. That is, the pressing member 400 has a pair of flange portions 420 arranged along the vertical direction. As a result, the ends of the pair of panel-shaped modules 10 adjacent to each other in the vertical direction can be sandwiched between the loading portion 320 and the flange portion 420.

In the third embodiment, the hole portion 430 provided in the flange portion 420 is longer than the diameter of the second fastening member 600, more specifically, the diameter of the core portion 610 in the vertical direction. As a result, the pressing member 400 is configured to be slidable in the vertical direction with respect to the supporting member 300. Therefore, when the panel-shaped module 10 is installed, the end portion of the panel-shaped module 10 can be easily sandwiched between the loading portion 320 and the flange portion 420.

Further, also in the third embodiment, the pressing member 400 may be configured to be slidable in the lateral direction with respect to the support member 300 as described in the first embodiment. That is, the upper portion of the support member 300 may have a groove 330 that slidably supports the second fastening member 600 in the lateral direction. In this case, the groove 330 extends in a direction intersecting the extending direction of the hole 430. As a result, the pressing member 400 is configured to be slidable in both the vertical direction and the horizontal direction with respect to the support member 300.

In the third embodiment, a conductive member 460 for grounding is provided inside the flange portion 420 of the pressing member 400. The conductive member 460 is attached to the pressing member 400 by a fastening member such as a screw. The conductive member 460 may have a protrusion 462 on the lower side of the flange portion 420.

The protrusion 462 of the conductive member 460 is in contact with the panel-shaped module 10, and the panel-shaped module 10 may be grounded. Preferably, the protrusion 462 of the conductive member 460 may be in contact with the frame portion 14 of the panel-shaped module 10 described in the first embodiment. Even when the frame portion 14 has a non-conductive coating, the protrusion 462 of the conductive member 460 scrapes off the non-conductive coating, so that the frame portion 14 is grounded via the conductive member 460.

Further, the pressing member 400 may have a protruding portion 470 protruding toward the panel-shaped module 10 between the flange portion 420 and the loading portion 320. The protruding portion 470 may be in contact with the panel-shaped module 10, specifically, the frame portion 14 of the panel-shaped module 10. As a result, the panel-shaped module 10, specifically the frame portion 14 of the panel-shaped module 10, may be arranged apart from the conductive member 460 in the vertical direction.

As mentioned above, although the content of the invention has been disclosed through embodiments, the statements and drawings that form part of this disclosure should not be understood to limit the invention. This disclosure reveals to those skilled in the art various alternative embodiments, examples and operational techniques. Therefore, the technical scope of the present invention is defined only by the matters specifying the invention relating to the reasonable claims from the above description.

For example, it should be noted that the configurations described in the first, second, and third embodiments are interchangeable or interchangeable, wherever possible.

10 Panel-shaped module 50 Installation surface 100 Fixture 200 Base 210 Engaging part 242 Covering part 300 Supporting member 310 Engaged part 320 Loading part 342 Covering part 350 Cable holding part 360 Sunshade part 400 Pressing member 500 First fastening member (side surface) Conclusion)
600 2nd fastening member 700 3rd fastening member (fixed on the installation surface)
P1 pitch

Claims (10)

The base fixed to the installation surface and
It has a support member that is attached to the base and has a loading portion on which a panel-shaped module can be loaded.
The base has a pair of engaging portions located at both ends in a first direction along the installation surface.
The support member is a fixture having a pair of engaged portions that engage the pair of engaging portions. The pair of engaging portions includes an outwardly projecting portion in the first direction.
The fixture according to claim 1, wherein the pair of engaged portions are configured to sandwich the protruding portion. The pair of engaging portions and the pair of engaged portions extend along the second direction so as to make the support member slidable along the second direction intersecting the first direction. , The fixture according to claim 1 or 2. One of the base portion and the support member has a covering portion that covers at least a part of the other side surface of the base portion and the support member.
The fixture according to any one of claims 1 to 3, wherein the base portion and the support member are fastened to each other by a first fastening member at the covering portion. At least one of the base portion and the support member has a hole portion through which the first fastening member is passed.
The fixture according to claim 4, wherein the hole is longer than the diameter of the first fastening member in the second direction. The installation surface has a plurality of convex portions arranged in the first direction at a predetermined pitch and extending in the first direction.
The fixture according to any one of claims 1 to 5, wherein the base has a length of at least twice the predetermined pitch and is fixed to the installation surface by at least three third fastening members. .. The fixture according to any one of claims 1 to 6, wherein the support member has a cable holding portion that holds the cable and a awning portion that covers the upper part of the cable holding portion. The support member has a pair of the loading portions for loading the ends of the panel-shaped modules adjacent to each other.
The fixture according to any one of claims 1 to 7, wherein the pair of loading portions is composed of an upper portion of the support member that covers the upper portion of the base portion. It has a pressing member having a flange portion facing the loading portion, and has a pressing member.
The fixture according to any one of claims 1 to 8, wherein the pressing member is configured to be slidable with respect to the support member along a second direction intersecting the first direction. The pressing member has a pair of flange portions arranged along a second direction intersecting the first direction.
The fixture according to any one of claims 1 to 9, wherein the pressing member is configured to be slidable with respect to the support member along the second direction.

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