JP6880495B2 - Pedestal for fittings - Google Patents

Description

The present invention relates to a pedestal for a joint.

As a pedestal for a joint, a pedestal main body attached to a construction surface and a slider for supporting a joint that is movably held by the pedestal main body and connects two members are known. Such a joint pedestal is used when installing a joint that connects two members such as a water supply pipe and a sprinkler head between a partition plate installed at a predetermined distance from the construction surface and the construction surface.

In this case, the water supply pipe is connected to the first end of the joint, while the sprinkler head is connected to the second end of the joint. Then, after attaching the pedestal body to the construction surface, the position of the sprinkler head connected to the second end of the joint is properly adjusted through the relative movement of the slider with respect to the pedestal body, and the slider is moved to the pedestal body at that position. Fix it. Further, the partition plate is installed at a predetermined distance from the construction surface. The partition plate is formed with a through hole for exposing a part of the sprinkler head connected to the second end of the joint when installed as described above.

Incidentally, examples of the structure for adjusting the position of the sprinkler head connected to the second end of the joint through the relative movement of the slider with respect to the pedestal body include the structures shown in Patent Documents 1 and 2.

When the structure of Patent Document 1 is applied to a joint pedestal, a long moving hole is formed in the pedestal body in the center line direction (vertical direction) of the through hole in the partition plate, and the moving hole is branched from the moving hole to form the above-mentioned transparent hole. A plurality of locking holes extending in the circumferential direction (horizontal direction) of the holes are formed at equal intervals in the center line direction. A locking portion dented downward is formed at the tip of each locking hole in the extending direction. On the other hand, the slider is provided with a shaft portion that penetrates the moving hole, and the shaft portion can be displaced in the moving hole and the locking hole. Further, a locking screw for preventing the shaft portion from coming off from the moving hole is attached to the end portion of the shaft portion.

According to this structure, the slider (shaft portion) is moved to a position corresponding to a predetermined locking hole in the extending direction (vertical direction) of the moving hole. After that, the slider is moved in the circumferential direction (horizontal direction) of the through hole so that the shaft portion is inserted into the locking hole, and the shaft portion is dropped into the locking portion of the locking hole in the vertical direction of the slider. In other words, the position of the sprinkler head in the vertical direction is determined. Therefore, the vertical direction of the sprinkler head depends on whether the slider (shaft portion) is moved along the moving hole and the locking hole and the shaft portion is dropped into the locking portion of any of the locking holes. The position of can be adjusted.

Further, when the structure of Patent Document 2 is applied to a joint pedestal, the pedestal body is provided with a feed screw shaft extending in the center line direction (vertical direction) of the through hole in the partition plate. On the other hand, the slider is connected to the nut screwed to the feed screw shaft, and is prevented from rotating integrally with the rotation of the feed screw shaft.

According to this structure, by rotating the feed screw shaft, the nut is displaced in the axial direction (vertical direction) of the feed screw shaft, and the slider connected to the nut is displaced in the axial direction of the feed screw shaft. To do. Therefore, by rotating the feed screw shaft, the position of the sprinkler head connected to the second end of the joint in the vertical direction is adjusted.

Japanese Unexamined Patent Publication No. 5-123418 Japanese Unexamined Patent Publication No. 11-244408

By the way, the sprinkler head is not in an appropriate relative position with respect to the through hole when the partition plate is installed due to an error in the fixing position of the slider with respect to the pedestal body or an error in the installation position of the partition plate. It may not be possible to properly expose part of the sprinkler head from the through hole. In this case, the position of the slider (joint) must be readjusted so that the position of the sprinkler head becomes an appropriate position.

Assuming that the structure of Patent Document 1 is adopted, in order to readjust the position of the slider, the moving direction of the slider is set to the extending direction of the moving hole (vertical direction) or the extending direction of the locking hole (horizontal direction). It must be moved while switching, and the shaft portion must be moved to the locking portion of the desired locking hole. Therefore, switching the moving direction of the slider becomes complicated, and it takes time and effort to adjust the position of the slider.

On the other hand, when the structure of Patent Document 2 is adopted, the position of the slider can be readjusted only by rotating the feed screw shaft. However, since the amount of movement of the slider cannot be increased so much with respect to the amount of rotation operation of the feed screw shaft, the amount of rotation operation of the feed screw shaft for properly adjusting the position of the slider becomes large, and the above adjustment takes time. ..

An object of the present invention is to provide a joint pedestal capable of easily and quickly adjusting a fixed position of a slider with respect to a pedestal body.

Hereinafter, means for solving the above problems and their actions and effects will be described.
The joint pedestal that solves the above problems includes a pedestal body that is attached to the construction surface and a slider that is movably held by the pedestal body to support the joint. The slider has a shaft portion that penetrates a through hole formed in the pedestal body and can be displaced in the through hole, and a holding portion that is connected to one end of the shaft portion to support the joint. A locking portion that is connected to the other end of the shaft portion to prevent the coaxial portion from coming off from the through hole is provided. Further, the holding portion of the slider is provided with an operating member that is rotated. Further, the joint pedestal is provided with a fixing member that presses the slider in the extending direction of the shaft portion based on the rotation operation of the operating member, thereby pressing the holding portion or the locking portion against the pedestal body to fix the slider.

According to the above configuration, when it becomes necessary to adjust the fixing position of the slider (joint) with respect to the pedestal body after installing the partition plate at a predetermined distance from the construction surface to which the pedestal body is attached, the adjustment is performed. It can be done easily and quickly. That is, when adjusting the fixing position of the slider with respect to the pedestal body, the fixing of the slider is released by rotating the operating member in the holding portion through the through hole of the partition plate. When the slider is released from being fixed in this way, the slider can be freely moved within a range in which the shaft portion can be displaced in the through hole by directly operating the slider through the through hole. be able to. Therefore, the slider can be easily and quickly moved relative to the pedestal body, and the fixed position of the slider can be easily and quickly adjusted through the movement of the slider. The fixing of the slider to the pedestal body after the position adjustment is performed by rotating the operating member in the direction opposite to the above-mentioned rotation operation.

The operating member is a bolt whose head approaches and separates from the holding portion of the slider based on the rotation operation. Further, the fixing member is arranged outside the gap between the pedestal main body and the slider and the first plate arranged in the gap between the pedestal main body and the slider, and is connected to the end portion of the first plate. It is composed of a second plate that is inclined with respect to one plate and has a gap between the bolt head and the holding portion in the approaching and separating direction with respect to the holding portion. The second plate has an insertion portion through which the screw portion of the bolt is inserted, and when the head of the bolt approaches the holding portion based on the rotation operation of the bolt, the first plate in the holding portion. By rotating the edge portion near the end of the plate as a fulcrum, the first plate is configured to press the slider and the pedestal body in the extending direction of the shaft portion.

According to the above configuration, when the head of the bolt is separated from the holding portion by a rotation operation, the second plate is separated from the holding portion with the edge portion of the holding portion near the end of the first plate as a fulcrum. It becomes possible to rotate to. Then, through the rotation of the second plate, the pressing of the slider and the pedestal body in the extending direction of the shaft portion by the first plate is released, so that the slider can be displaced to adjust the position. After adjusting the position of the slider, the head of the bolt is brought closer to the holding portion by a rotation operation, so that the second plate rotates around the edge portion of the holding portion near the end of the first plate as a fulcrum. , The first plate presses the slider and the pedestal body in the extending direction of the shaft portion. Then, with this pressing, the holding portion or the locking portion of the slider is pressed against the pedestal body, and the position of the slider is fixed.

The other end of the first plate, which is opposite to one end, is provided with a relief treatment that separates the tip edge facing the pedestal body from the pedestal body. According to this configuration, when the first plate moves to the other end side when adjusting the position of the slider, it is possible to prevent the tip edge from hitting the pedestal body at an angle, and the movement is smooth. Can be done.

Sectional drawing which shows the whole pedestal for a joint. Bottom view showing a state in which the joint pedestal is viewed from the through-hole side of the partition plate. Side view of the fixing member. A cross-sectional view showing a state in which the slider is lowered to the lowest point. FIG. 5 is a cross-sectional view showing a state in which a bolt is rotated with a hexagon wrench. FIG. 5 is a cross-sectional view showing another example of the fixing member. Side view of the fixing member. Sectional drawing showing another example of a joint. Side view of the fixing member. The bottom view which shows the state which saw the joint and the pedestal for a joint from the through hole side of a partition plate. A cross-sectional view showing a state in which the slider is lowered to the lowest point. FIG. 5 is a cross-sectional view showing a state in which a bolt is rotated with a hexagon wrench. Side view of the fixing member.

Hereinafter, one embodiment of the joint pedestal will be described with reference to FIGS. 1 to 5.
As shown in FIG. 1, the joint pedestal 1 has two joint pedestals, such as a water supply pipe 4 and a sprinkler head 5, between the partition plate 3 installed at a predetermined distance from the construction surface 2 and the construction surface 2. It is used when installing a joint 6 that connects members. A water supply pipe 4 is connected to the first end 6a of the joint 6 via another joint 15, and a sprinkler head 5 is connected to the second end 6b of the joint 6. A cap 25 for protecting the sprinkler head 5 is attached to the sprinkler head 5. On the other hand, the partition plate 3 is formed with a through hole 22 for exposing a part of the sprinkler head 5 connected to the second end 6b of the joint 6.

The joint pedestal 1 includes a pedestal body 8 attached to the construction surface 2 by fixing bolts 7. The pedestal body 8 is provided with a projecting portion 9 extending in a direction projecting from the construction surface 2. The protruding portion 9 is formed with an elongated hole 10 long in the protruding direction of the protruding portion 9, and a slider 11 for supporting the joint 6 is movably held.

The slider 11 includes a holding portion 12 integrally formed with the joint 6, and a shaft portion 13 that protrudes from the holding portion 12 and penetrates the elongated hole 10 and is capable of being displaced in the elongated hole 10. A wing bolt 14 screwed into an end portion of the shaft portion 13 opposite to the holding portion 12 side is provided. The shaft portion 13 and the holding portion 12 are formed with screw holes 23 into which the wing bolt 14 is screwed. The screw hole 23 extends in a direction (left-right direction in FIG. 1) orthogonal to the protruding direction of the protruding portion 9 in the pedestal body 8.

Incidentally, the elongated hole 10 formed in the protruding portion 9 functions as a through hole through which the shaft portion 13 penetrates. The shaft portion 13 can move in the elongated hole 10 in the longitudinal direction of the elongated hole 10. Then, the holding portion 12 for supporting the joint 6 is connected to one end portion (left end portion in FIG. 1) of the shaft portion 13. Further, the head portion of the wing bolt 14 connected to the other end portion (right end portion in FIG. 1) of the shaft portion 13 functions as a locking portion for preventing the shaft portion 13 from coming off from the elongated hole 10.

The holding portion 12 of the slider 11 is formed with a screw hole 24 extending in the protruding direction of the protruding portion 9 of the pedestal body 8 and penetrating the holding portion 12. The screw hole 24 intersects with the screw hole 23. A bolt 16 is screwed toward the construction surface 2 in a portion of the screw hole 24 opposite to the construction surface 2. In the state where the bolt 16 is screwed into the screw hole 24, the tip end portion of the screw portion 16c of the bolt 16 protrudes from the portion of the holding portion 12 on the construction surface 2 side. Further, the tip portion of the screw portion 16c is flattened by a punch or the like, whereby the tip portion is enlarged with respect to the inner diameter of the screw hole 24.

A hexagonal hole 16b is formed in the head portion 16a of the bolt 16. Then, by rotating the bolt 16 around the center line of the bolt 16 with the tool inserted in the hexagonal hole 16b, the bolt 16 is displaced with respect to the holding portion 12 in the center line direction. Along with the displacement, the head portion 16a of the bolt 16 approaches and separates from the holding portion 12. The tip of the screw portion 16c of the bolt 16 whose diameter is larger than the inner diameter of the screw hole 24 functions as a stopper for the bolt 16 to come off from the screw hole 24, and is excessively rotated in the direction of loosening the bolt 16. Prevents the bolt 16 from falling out of the screw hole 24 during a dynamic operation.

The joint pedestal 1 presses the slider 11 in the extending direction of the shaft portion 13 based on the rotation operation of the bolt 16, whereby the slider 11 (holding portion 12 or the head of the wing bolt 14) protrudes from the pedestal body 8. A fixing member 17 is provided which is pressed against and fixed to the portion 9. The fixing member 17 is attached to the first plate 18 arranged in the gap between the protruding portion 9 of the pedestal body 8 and the holding portion 12 of the slider 11, and one end portion (lower end portion in FIG. 1) of the first plate 18. It is provided with a second plate 19 to be connected.

In the first plate 18 of the fixing member 17, the width in the direction orthogonal to the longitudinal direction of the elongated hole 10 and the extending direction of the shaft portion 13 is larger than the width of the elongated hole 10 in that direction. At the other end of the first plate 18 opposite to one end on the second plate 19 side, a recess 21 for accommodating the shaft portion 13 so as to sandwich it in the radial direction is formed. Further, the second plate 19 of the fixing member 17 is arranged outside the gap between the protruding portion 9 and the holding portion 12, and is inclined with respect to the first plate 18 to hold the bolt 16 at the head portion 16a. There is a gap between the holding portion 12 and the holding portion 12 in the approaching / separating direction with respect to the portion 12. Further, the second plate 19 has an insertion portion 20 (a hole in this example) for inserting the screw portion 16c of the bolt 16.

As shown in FIG. 3, the first plate 18 and the second plate 19 are integrally formed by punching a flat metal material into a predetermined shape and bending it according to the above-mentioned inclination. .. At the connecting portion (bent portion) between the first plate 18 and the second plate 19, the outer peripheral side surface 17a facing the surface 9a of the protruding portion 9 has a smooth convex curved surface shape. The first plate 18 is bent at a predetermined angle θ as a relief process in a direction in which the other end side is separated from the surface 9a of the protruding portion 9 at an intermediate position between one end and the other end. ing. Therefore, at the other end of the first plate 18, one tip edge 18a facing the protruding portion 9 is from the surface 9a of the protruding portion 9 as compared with the case where the same bending process is not performed, that is, in the flat state. It is separated.

As shown in FIG. 1, when the head portion 16a of the bolt 16 approaches the holding portion 12 based on the rotation operation of the bolt 16 in the tightening direction, the second plate 19 changes to the first plate 18 in the holding portion 12. The edge portion P1 near the end of the wing bolt is rotated around the fulcrum, and the first plate 18 presses the head portion and the protruding portion 9 of the wing bolt 14 in the extending direction of the shaft portion 13. Specifically, when the first plate 18 is pressed against the surface 9a of the protruding portion 9, the fixing member 17 presses the holding portion 12 in the extending direction of the shaft portion 13 in the direction away from the surface 9a of the protruding portion 9. As the holding portion 12 is pressed away from the surface 9a of the protruding portion 9 in this way, the head of the wing bolt 14 connected to the shaft portion 13 is placed on the back surface 9b of the protruding portion 9 in the extending direction of the shaft portion 13. Pressed, thereby fixing the slider 11 (joint 6) to the pedestal body 8 (protruding portion 9).

On the other hand, when the head portion 16a of the bolt 16 is separated from the holding portion 12 based on the rotation operation of the bolt 16 in the loosening direction, the second plate 19 is moved to the edge portion P1 of the holding portion 12 near the end of the first plate 18. Is allowed to rotate in the direction opposite to the above-mentioned rotation with the above as a fulcrum. As a result, the pressing of the wing bolt 14 by the first plate 18 in the extending direction of the shaft portion 13 between the head portion and the protruding portion 9 is released. Specifically, by releasing the pressing of the first plate 18 against the surface 9a of the protruding portion 9, the fixing member 17 also releases pressing of the holding portion 12 in the direction away from the protruding portion 9 in the extending direction of the shaft portion 13. Will be done. Then, when the pressing is released, the head of the wing bolt 14 connected to the shaft portion 13 is also released from being pressed against the back surface 9b of the protruding portion 9 in the extending direction of the shaft portion 13. As a result, the fixing of the slider 11 (joint 6) to the pedestal body 8 (protruding portion 9) is also released, and the slider 11 slides in the longitudinal direction of the elongated hole 10 or rotates around the center line of the shaft portion 13. It becomes possible to do.

Note that FIG. 2 shows a state in which the joint pedestal 1 is viewed from the through hole 22 side of the partition plate 3. As can be seen from the figure, the bolt 16 of the joint pedestal 1 is arranged so as to overlap the through hole 22 in the direction of the center line of the through hole 22.

Next, a procedure for installing the joint 6 using the joint pedestal 1 will be described.
In FIG. 1, the pedestal body 8 of the joint pedestal 1 is attached to the construction surface 2 by the fixing bolt 7 before the partition plate 3 is installed. After that, the shaft portion 13 of the slider 11 is passed through the elongated hole 10 of the pedestal body 8 (protruding portion 9), the wing bolt 14 is screwed into the screw hole 23 of the shaft portion 13 to some extent, and the slider 11 is the protruding portion 9 of the pedestal body 8. It should be possible to move relative to.

FIG. 4 shows a state in which the slider 11 is lowered to the lowest point with respect to the protruding portion 9 of the pedestal body 8 due to its own weight. At this time, the first plate 18 is rotated and tilted so as to have a gap between the holding portion 12 and the holding portion 12 with the edge portion P1 near one end of the first plate 18 as a fulcrum. That is, the screw portion 16c of the bolt 16 is screwed into the screw hole 24 so that the first plate 18 is in such a state.

After that, the position of the joint 6 is adjusted to an appropriate position (the position shown in FIG. 1) through the relative movement of the slider 11 with respect to the protruding portion 9 of the pedestal body 8, and the wing bolt 14 is tightened at that position. When the wing bolt 14 is tightened in this way, the head portion and the protruding portion 9 of the wing bolt 14 are pressed in the extending direction of the shaft portion 13 with the first plate 18 having a gap between the holding portion 12 and the holding portion 12. Then, the slider 11 is fixed to the protruding portion 9 through the pressing.

When the slider 11 (joint 6) is fixed to the protruding portion 9 as described above, if the bolt 16 in the holding portion 12 of the slider 11 is rotated in the loosening direction, the head portion 16a of the bolt 16 can be removed. Separated from the holding portion 12, the slider 11 is released from being fixed to the protruding portion 9 by pressing the first plate 18. As a result, the slider 11 can be moved relative to the protrusion 9.

By the way, as described above, after the slider 11 is fixed to the protruding portion 9 of the pedestal body 8 by tightening the wing bolt 14, the partition plate 3 is installed at a predetermined distance from the construction surface 2. When the partition plate 3 is installed in this way, a part of the sprinkler head 5 connected to the second end 6b of the joint 6 is exposed from the through hole 22 of the partition plate 3. That is, by adjusting the position of the joint 6 to an appropriate position through the relative movement of the slider 11 with respect to the protrusion 9 as described above, a part of the sprinkler head 5 is removed from the through hole 22 when the partition plate 3 is installed. Be exposed.

However, the sprinkler head 5 is attached to the through hole 22 when the partition plate 3 is installed due to an erroneous fixing position of the slider 11 with respect to the protrusion 9 or an error in the installation position of the partition plate 3. It may not be possible to properly expose a part of the sprinkler head 5 from the through hole 22 because it is not in an appropriate relative position. In this case, the position of the slider 11 (joint 6) is properly readjusted so that the sprinkler head 5 is in an appropriate position as follows.

That is, as shown in FIG. 5, a hexagon wrench 31 is inserted into the hexagonal hole 16b of the head 16a of the bolt 16 in the slider 11 (holding portion 12) through the through hole 22 of the partition plate 3, and the hexagonal wrench 31 is inserted in that state. A wrench 31 is used to rotate the bolt 16 in the loosening direction. As a result, the bolt 16 is displaced in the direction of its center line, and the head portion 16a of the bolt 16 is separated from the holding portion 12 accordingly. Then, when the head portion 16a of the bolt 16 is separated from the holding portion 12, the second plate 19 is separated from the holding portion 12 with the edge portion P1 of the holding portion 12 near the end of the first plate 18 as a fulcrum. It becomes possible to rotate. As a result, the pressure between the slider 11 (the head of the wing bolt 14) and the protruding portion 9 of the pedestal body 8 in the extending direction of the shaft portion 13 by the first plate 18 is released, and the slider 11 is fixed to the protruding portion 9. Is released.

In the state where the slider 11 is released from the fixing in this way, the slider 11 is directly operated through the through hole 22 of the partition plate 3, and more specifically, the slider 11 is raised and lowered with the hexagon wrench 31. The slider 11 can be freely moved within a range in which the shaft portion 13 can be displaced in the elongated hole 10. Then, after adjusting the position of the slider 11 (joint 6) so that a part of the sprinkler head 5 connected to the second end 6b of the joint 6 is exposed from the through hole 22, the bolt in the tightening direction with the hexagon wrench 31 is used. Through the rotation operation of 16, the head portion 16a of the bolt 16 is brought close to the holding portion 12. As a result, the second plate 19 rotates around the edge portion P1 of the holding portion 12 near the end of the first plate 18, and the first plate 18 extends the slider 11 and the protruding portion 9 of the shaft portion 13. Press in the direction. Then, with this pressing, the head of the wing bolt 14 on the slider 11 is pressed against the protruding portion 9 of the pedestal body 8.

After the position of the slider 11 is fixed in this way, the cap 25 is removed from the sprinkler head 5 connected to the second end 6b of the joint 6, and the sealing plate 26 is attached to the sprinkler head 5 as shown by the alternate long and short dash line in FIG. Is attached. The sealing plate 26 protects the sprinkler head 5 and prevents the water from entering between the partition plate 3 and the construction surface 2 through the through hole 22 when water is discharged from the head 5. Is for.

Next, the action / effect of the joint pedestal 1 will be described.
After installing the partition plate 3 at a predetermined distance from the construction surface 2 to which the pedestal body 8 is attached, a part of the sprinkler head 5 connected to the second end 6b of the joint 6 is formed through the through hole 22 of the partition plate 3. When it becomes necessary to adjust the fixed position of the slider 11 (joint 6) with respect to the protruding portion 9 of the pedestal body 8 so as to be exposed from the pedestal body 8, the adjustment can be easily and quickly performed.

That is, when adjusting the fixing position of the slider 11, the fixing of the slider 11 is released by rotating the bolt 16 in the holding portion 12 with the hexagon wrench 31 through the through hole 22 of the partition plate 3. Will be done. By releasing the fixing of the slider 11 in this way, the slider 11 can be directly operated through the through hole 22 to displace the shaft portion 13 in the elongated hole 10. Can be moved freely with. Therefore, the slider 11 can be easily and quickly moved relative to the protruding portion 9 of the pedestal body 8, and the fixed position of the slider 11 can be easily and quickly adjusted through the movement of the slider 11. Become.

Further, when adjusting the fixing position of the slider 11, the first plate 18 of the fixing member 17 and the surface 9a of the protruding portion 9 of the pedestal body 8 slide. However, the other end of the first plate 18 opposite to the second plate 19 is bent so that the tip edge 18a is separated from the surface 9a of the protruding portion 9, so that the first plate 18 is particularly different. When moving to the end side (upper side in FIG. 1), it is possible to prevent the tip edge 18a from hitting the surface 9a at an angle, and the movement can be smoothly performed. Further, at the connecting portion between the first plate 18 and the second plate 19, the outer peripheral side surface 17a facing the surface 9a of the protruding portion 9 has a smooth convex curved surface shape. Therefore, especially when the first plate 18 moves to one end side (lower side in FIG. 1), the contact between the same surface 17a and the surface 9a becomes smooth, and the same movement can be performed smoothly.

The above embodiment can be changed as follows, for example.
As shown in FIG. 6, the first plate 18 of the fixing member 17 may be arranged in the gap between the protruding portion 9 of the pedestal body 8 and the head of the wing bolt 14 in the slider 11. In this case, the second plate 19 of the fixing member is connected to one end of the first plate 18 in a state of penetrating the elongated hole 10 of the protruding portion 9. In the second plate 19 of this example, the width is narrowed so that the elongated hole 10 can be penetrated, while the insertion portion 20 is formed through the insertion portion 20 so that the insertion portion 20 can be formed even if the width is narrowed. Not a notch instead.

According to this configuration, when the head portion 16a of the rotated bolt 16 approaches the holding portion 12, the second plate 19 rotates around the edge portion P1 of the holding portion 12 near one end of the first plate 18. As it moves, the first plate 18 is pressed against the head of the wing bolt 14. As a result, the fixing member 17 presses the wing bolt 14 in the extending direction of the shaft portion 13 in the direction away from the protruding portion 9, and the holding portion 12 connected to the wing bolt 14 via the shaft portion 13 is the surface 9a of the protruding portion 9. Is pressed against. As a result, the slider 11 (joint 6) is fixed to the pedestal body 8 (protruding portion 9).

On the other hand, when the head portion 16a of the bolt 16 to be rotated is separated from the holding portion 12, the second plate 19 rotates with the edge portion P1 near one end of the first plate 18 in the holding portion 12 as a fulcrum. Is allowed to rotate in the opposite direction. As a result, the pressing of the wing bolt 14 of the first plate 18 against the head is released, and the pressing of the holding portion 12 against the back surface 9b of the protruding portion 9 in the extending direction of the shaft portion 13 is also released. .. As a result, the slider 11 (joint 6) is released from being fixed to the pedestal body 8 (protruding portion 9), and the slider 11 can be freely moved within the displacement range of the shaft portion 13 in the elongated hole 10. Become.

As shown in FIG. 7, the first plate 18 is separated from the back surface 9b of the protruding portion 9 at an intermediate position between one end on the second plate 19 side and the other end on the opposite side. In the direction of relief, bending processing is performed at a predetermined angle θ as a relief process. Therefore, at the other end of the first plate 18, the other tip edge 18b facing the protrusion 9 is separated from the back surface 9b of the protrusion 9 as compared with the case where the bending process is not performed. Therefore, also in this embodiment, it is possible to suppress the corner contact of the tip edge 18a with respect to the protruding portion 9, and the fixed position of the slider 11 can be smoothly adjusted.

As shown in FIG. 8, the portion of the joint 6 near the first end 6a may be inclined with respect to the construction surface 2 so as to approach the construction surface 2 as it approaches the first end 6a. In this case, even if the water supply pipe 4 is arranged on the construction surface 2 and the joint 6 is fixed at a position away from the construction surface 2, the joint 6 is not bent with a large curvature. It can be connected to the first end 6a of.

As shown in FIG. 9, the portion of the first plate 18 from the intermediate position between one end on the second plate 19 side and the other end on the opposite side to the tip of the other end is closer to the tip side. Tapering is applied as a relief process so that it becomes thinner. As a result, the surface of the first plate 18 facing the surface 9a of the protrusion 9 is inclined by a predetermined angle θ with respect to the surface 9a. Therefore, at the other end of the first plate 18, one tip edge 18a facing the protrusion 9 is separated from the surface 9a of the protrusion 9 as compared with the case where the taper processing is not performed. Therefore, also in this embodiment, it is possible to suppress the corner contact of the tip edge 18a with respect to the protruding portion 9, and the fixed position of the slider 11 can be smoothly adjusted.

As shown in FIGS. 10 to 12, the joint 6 may be provided with a guide portion 27 for guiding the position of the bolt 16 (operating member). The joint 6 at this time serves as a joint main body supported by the slider and provided with a guide portion. As shown in FIG. 10, the guide portion 27 is provided so as to project from the surface of the second end 6b of the joint 6 on the bolt 16 side. Further, the guide portion 27 has a concave curved surface 28 formed at a position visible through the through hole 22. The concave curved surface 28 is formed at the tip of the guide portion 27 in the protruding direction, and is curved in the circumferential direction of the screw portion 16c (FIGS. 11 and 12) of the bolt 16. Further, the concave curved surface 28 is formed so as to surround the left half of the hexagonal hole 16b of the bolt 16 in FIG. Further, as shown in FIG. 11, the concave curved surface 28 extends in the axial direction of the bolt 16 (vertical direction in FIG. 11).

FIG. 11 shows a state in which the slider 11 is lowered to the lowest point with respect to the protruding portion 9 of the pedestal body 8 due to its own weight. Under this state, the position of the joint 6 is adjusted to an appropriate position through the relative movement of the slider 11 with respect to the protrusion 9 of the pedestal body 8, and the wing bolt 14 is tightened at that position to cause the slider 11 to move to the protrusion 9. Is fixed to. After that, as shown in FIG. 12, the partition plate 3 is installed at a predetermined distance from the construction surface 2.

When the position of the slider 11 (joint 6) is properly readjusted after the partition plate 3 is installed, the slider 11 (holding portion 12) is formed through the through hole 22 of the partition plate 3 as shown in FIG. A hexagon wrench 31 is inserted into the hexagonal hole 16b of the head portion 16a of the bolt 16, and in that state, the bolt 16 is rotated by using the hexagon wrench 31. When the hexagon wrench 31 is inserted into the hexagonal hole 16b in order to rotate the bolt 16 in this way, the guide portion 27 guides the position of the hexagonal hole 16b in the bolt 16 as follows.

That is, the concave curved surface 28 of the guide portion 27 serves as a mark, and the position of the hexagonal hole 16b can be easily confirmed by visual inspection of the concave curved surface 28, so that the hexagon wrench 31 can be easily inserted into the hexagonal hole 16b. Further, by inserting the hexagon wrench 31 inside the concave curved surface 28 and moving the hexagon wrench 31 along the concave curved surface 28 in the extending direction of the concave curved surface 28 (the axial direction of the bolt 16), the hexagon is formed. The wrench 31 can be easily inserted into the hexagon socket 16b.

As can be seen from the above, the guide for the position of the bolt 16 by the guide portion 27 is a display of a mark that facilitates visual confirmation of the position of the bolt 16 (hexagonal hole 16b) and the head 16a of the bolt 16. It means that the shape of the concave curved surface 28 located in the periphery makes it easier for the hexagon wrench 31 to face the operating position of the bolt 16 (the position of the hexagonal hole 16b). Even if it is necessary to insert the hexagon wrench 31 into the hexagonal hole 16b by inserting the hexagon wrench 31 into a narrow place between the inner wall of the through hole 22 and the outer wall of the second end 6b by the guide about the position of the bolt 16 by the guide portion 27. , The insertion can be facilitated, and the bolt 16 can be easily rotated by using the hexagon wrench 31.

The guide for the position of the bolt 16 by the guide portion 27 may be only the display of a mark that facilitates visual confirmation of the position of the bolt 16 (hexagonal hole 16b). In this case, for example, it is conceivable to provide a recess with a punch or the like in the portion of the second end 6b of the joint 6 shown in FIG. 2 on the bolt 16 side corresponding to the hexagonal hole 16b, and use the recess as a guide portion. Be done. Further, in order to make the recessed portion conspicuous, a paint or a light-storing paint may be put in the recessed portion. Further, the portion of the second end 6b on the bolt 16 side corresponding to the hexagonal hole 16b is marked with paint or light-harvesting paint without providing the recess as described above, and the portion is marked with the guide portion. May function as.

In FIGS. 10 to 12, the bolt 16 is further lengthened so that the bolt 16 extends from the holding portion 12, whereby the head portion 16a of the bolt 16 reaches the concave curved surface 28 of the guide portion 27. You may do so. In this case, it is preferable to provide a cylindrical spacer between the head portion 16a of the bolt 16 and the second plate 19 of the fixing member 17, and to have a structure in which the threaded portion 16c of the bolt 16 penetrates the spacer.

As described above, if the head portion 16a of the bolt 16 reaches the concave curved surface 28 of the guide portion 27, the head portion which is the operating position of the bolt 16 can be inserted by inserting the hexagon wrench 31 inside the concave curved surface 28. The hexagon wrench 31 can be easily brought into the 16a (hexagonal hole 16b). Further, by providing the spacer, when the head portion 16a of the bolt 16 is brought close to the holding portion 12 through the rotation operation, the second plate 19 is pushed by the spacer. Therefore, even if the bolt 16 extends from the holding portion 12 so that the head 16a of the bolt 16 reaches the concave curved surface 28 of the guide portion 27, the head 16a of the bolt 16 approaches the holding portion 12. The second plate 19 can be pressed by allowing the second plate 19 to be pressed.

Instead of providing the spacer, the head 16a is provided with a protrusion that protrudes toward the second plate 19 and hits the second plate 19, or the second plate 19 projects toward the head 16a and hits the head 16a. A protrusion may be provided. By the way, if the spacers are provided, it is not necessary to provide the protrusions thereof. Therefore, the head 16a of the bolt 16 with respect to the holding portion 12 is provided without complicating the shapes of the head 16a and the second plate 19. The second plate 19 can be pressed by approaching.

In FIGS. 10 to 12, the guide portion 27 and the concave curved surface 28 are extended toward the holding portion 12 so that the head portion 16a of the bolt 16 reaches the concave curved surface 28, and the guide portion 27 and the concave curved surface 28 in the joint 6 are provided. The second end 6b may be further provided at a position closer to the holding portion 12 so that the head portion 16a of the bolt 16 reaches the concave curved surface 28.

-Instead of flattening the tip of the screw portion 16c of the bolt 16, a split pin may be provided at the tip to prevent the bolt 16 from coming off from the screw hole 24.

-As the joint 6, a joint 6 connecting two members of the water supply pipe 4 and the sprinkler head 5 has been illustrated, but two members other than the water supply pipe 4 and the sprinkler head 5 may be connected. In this case, the construction surface 2 to which the pedestal body 8 of the joint pedestal 1 is attached does not necessarily have to be a horizontal surface, and may be a surface other than a horizontal surface such as a vertical surface.

As shown in FIG. 13, the tip edge 18a is formed on the surface of the protruding portion 9 by applying a convex curved surface processing as a relief treatment to the tip of the other end of the first plate 18 on the side opposite to the second plate 19 side. Keep away from 9a. Also in this embodiment, it is possible to suppress the corner contact of the tip edge 18a with respect to the protruding portion 9, and the fixed position of the slider 11 can be smoothly adjusted.

Next, the technical idea that can be grasped from the above embodiment will be described.
(B) In a joint provided with a pedestal attached to a construction surface, a slider movably held on the pedestal, and a joint body supported by the slider, the slider penetrates the pedestal. A shaft portion that can penetrate the hole and can be displaced within the through hole, a holding portion that is connected to one end portion of the shaft portion to support the joint body, and the other end portion of the shaft portion. The holding portion of the slider is provided with an operating member to be rotated, and the operating member is provided with a locking portion for preventing the shaft portion from coming off from the through hole. The joint body is provided with a fixing member that presses the slider in the extending direction of the shaft portion based on the rotation operation of the above, thereby pressing the holding portion or the locking portion against the pedestal to fix the slider. A joint characterized in that a guide portion for guiding the position of the operating member is provided.

According to the above configuration, when adjusting the fixing position of the slider with respect to the pedestal, the operating member in the holding portion is rotated through the through hole of the partition plate in order to release the fixing of the slider. When the operating member is rotated in this way, the guide portion guides the position of the operating member, so that it is easy to grasp the position of the operating member and perform the rotating operation of the operating member. Become. As a guide for the position of the operation member by the guide portion, a mark is displayed to facilitate visual confirmation of the position of the operation member, and a tool for rotation operation is operated by the operation member depending on the peripheral shape of the operation member. Make it easier to face the position, and so on.

(B) The operating member is a bolt whose head is approached and separated from the holding portion of the slider based on the rotation operation, and the guide portion projects from the surface of the joint body on the bolt side. The bolt has a concave curved surface that is curved in the circumferential direction of the threaded portion of the bolt at the tip end portion in the protruding direction, so that the head portion of the bolt reaches the concave curved surface of the guide portion. The joint according to (a) above, which is in a state of extending from the holding portion.

According to the above configuration, if a tool for rotating a bolt is inserted inside the concave curved surface of the guide portion of the joint body, the tool can be easily brought to face the head, which is the operation position of the bolt. become able to.

(C) The fixing member is arranged at the end of the first plate arranged in the gap between the pedestal and the slider and outside the gap between the pedestal and the slider. The second plate comprises a second plate that is connected and inclined with respect to the first plate and has a gap between the bolt and the holding portion in the approaching and separating direction of the head of the bolt with respect to the holding portion. An insertion portion for inserting the threaded portion of the bolt is provided, and a spacer is provided between the second plate and the head of the bolt. When the head of the bolt approaches the holding portion based on the rotation operation of the bolt, the first plate is rotated around the edge portion of the holding portion near the end of the first plate as a fulcrum. The joint according to (b) above, wherein the plate is configured to press the slider and the pedestal in a direction in which the shaft portion extends.

According to the above configuration, when the head of the bolt is brought close to the holding portion by the rotation operation, the second plate is held by pushing the second plate by the spacer between the head and the second plate. The portion is rotated around the edge portion of the first plate near the end as a fulcrum, and the first plate presses the slider and the pedestal in the extending direction of the shaft portion. Then, with this pressing, the holding portion or the locking portion of the slider is pressed against the pedestal, and the position of the slider is fixed. Therefore, even if the bolt extends from the holding portion so that the head of the bolt reaches the concave curved surface of the guide portion, the head of the bolt is brought closer to the holding portion to press the second plate. It can be carried out. Further, by providing the spacer, the second plate can be pressed by approaching the head of the bolt with respect to the holding portion without complicating the shape of the head of the bolt or the second plate of the fixing member. it can.

1 ... Fitting pedestal, 2 ... Construction surface, 3 ... Partition plate, 4 ... Water supply pipe, 5 ... Sprinkler head, 6 ... Fitting, 6a ... 1st end, 6b ... 2nd end, 7 ... Fixing bolt, 8 ... Pedestal Main body, 9 ... projecting part, 10 ... long hole, 11 ... slider, 12 ... holding part, 13 ... shaft part, 14 ... wing bolt, 15 ... joint, 16 ... bolt, 16a ... head, 16b ... hexagonal hole, 16c ... Screw part, 17 ... Fixing member, 18 ... First plate, 18a ... Tip edge, 19 ... Second plate, 20 ... Insertion part, 22 ... Through hole, 23 ... Screw hole, 24 ... Screw hole, 25 ... Cap, 26 ... Sealing plate, 27 ... Guide part, 28 ... Concave curved surface, 31 ... Hexagon wrench.

Claims (1)

In a joint pedestal provided with a pedestal body attached to the construction surface and a slider that is movably held by the pedestal body to support the joint.
The slider is held by connecting to a shaft portion capable of penetrating a through hole formed in the pedestal body and being displaced in the through hole and one end of the shaft portion to support the joint. It is provided with a portion and a locking portion that is connected to the other end of the shaft portion to prevent the shaft portion from coming off from the through hole.
An operating member that is rotated is provided on the holding portion of the slider.
The presses the slider in the direction of extension of the shaft portion based on the rotational operation of the control member, and a pre-Symbol locking portion fixing member is provided to secure against the said base body by it,
The operating member is a bolt whose head approaches and separates from the holding portion of the slider based on the rotation operation.
The fixing member is arranged outside the gap between the pedestal body and the holding portion of the slider, and the first plate arranged outside the gap between the pedestal body and the holding portion. It is composed of a second plate which is connected to one end of the first plate and is inclined with respect to the first plate and has a gap between the bolt and the holding portion in the approaching and separating direction of the head of the bolt.
The second plate has an insertion portion for inserting the screw portion of the bolt, and when the head of the bolt approaches the holding portion based on the rotation operation of the bolt, the holding portion The first plate is configured to press the holding portion and the pedestal body in the extending direction of the shaft portion by rotating the edge portion of the first plate near the one end portion as a fulcrum. ,
At the other end of the first plate opposite to the one end , the second plate is provided with a relief process for separating the tip edges facing the pedestal body and the holding portion from the pedestal body. A pedestal for a joint, which is formed by bending at a predetermined angle smaller than the angle of inclination with respect to the above.

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