JP2009052695A - Pipe support structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To install a secondary side pipe even before laying a primary side pipe. <P>SOLUTION: In fixing the primary side pipe 21 to the secondary side pipe 20, the secondary side pipe 20 is moved in the axial direction and in the vertical direction, and also rotated in a horizontal plane, thereby positioning the secondary side pipe 20. Thus, even before the primary side pipe is laid, the secondary side pipe can be installed. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a pipe support structure that supports a pipe.

Patent Document 1 discloses a configuration in which a header is fixed to a ceiling plate. The header functions as a pipe for branching water supplied from the water supply pipe into a plurality of water supply pipes.
In addition, in the piping used when installing the sprinkler, the inside of the piping becomes high pressure, so that a flange is formed at the connection portion between the primary side piping and the secondary side piping, and the primary side piping and the secondary side piping. Connect the side pipe.
For this reason, it is necessary to accurately position the primary side pipe and the secondary side pipe. Usually, after the primary side pipe is laid, the secondary side pipe is installed, so the construction period is greatly restricted.

JP 2003-294171 A

  In view of the above facts, an object of the present invention is to provide a pipe support structure in which a secondary side pipe can be installed even before the primary side pipe is laid.

  A pipe support structure according to claim 1 of the present invention includes a support member that extends downward from a mounting surface and supports a secondary pipe to which a primary pipe is connected, and is provided on the support member. A vertical movement mechanism capable of moving the secondary pipe supported by the member in the vertical direction, and the secondary pipe provided on the support member and supported by the support member in the axial direction of the secondary pipe. And a movable axial movement mechanism.

According to this configuration, the secondary side pipe supported by the support member can be moved in the vertical direction by the vertical movement mechanism. Further, the secondary side pipe supported by the support member can be moved in the axial direction of the secondary side pipe by the axial direction moving mechanism.
Thus, after the secondary side pipe is supported by the support member, the secondary side pipe can be moved in the vertical direction and the axial direction of the secondary side pipe to adjust the position of the secondary side pipe. Even before the piping is laid, the secondary side piping can be installed.

  According to a second aspect of the present invention, there is provided a pipe support structure according to the first aspect, further comprising a rotation mechanism provided on the support member and capable of rotating the secondary pipe supported by the support member in a horizontal plane. It is characterized by that.

According to this configuration, the secondary side pipe supported by the support member can be rotated in the horizontal plane by the rotation mechanism.
Thus, after the secondary side pipe is supported by the support member, the position of the secondary side pipe can be adjusted by rotating the secondary side pipe in the horizontal plane. Secondary piping can be installed.

  A pipe support structure according to a third aspect of the present invention is the pipe support structure according to the first or second aspect, wherein the support member includes a first support bar extending downward from the mounting surface, and the first support bar. A second support bar connected to the lower end of the second support bar and extending in the horizontal direction, a pair of third support bars connected to both ends of the second support bar and extended in the vertical direction, An attachment member connected to the lower ends of the pair of third support rods and to which the secondary side pipe is attached is provided.

According to this structure, the 2nd support bar extended in the horizontal direction is connected with the lower end part of the 1st support bar extended below from the attachment surface. A pair of third support rods extending in the vertical direction are connected to both ends of the second support rod. An attachment member to which the secondary side pipe is attached is coupled to the lower ends of the pair of third support rods.
Thus, since the secondary side pipe is attached to the two attachment members respectively connected to the pair of third support rods, the first support rod, the second support rod, the third support rod, and the attachment member are provided. The configured support member supports the secondary side pipe at two points.
By extending the first support bar to one place on the mounting surface, the support member is supported at one point with respect to the mounting surface.
As described above, since the support member supports the secondary side pipe at two points, the secondary side pipe is less inclined and can support the secondary side pipe stably compared to the configuration in which the secondary side pipe is supported at one point. . On the other hand, since the support member is supported at one point with respect to the attachment surface, the number of steps for attaching the support member to the attachment surface can be reduced as compared with a configuration where the support member is supported at two or more points with respect to the attachment surface.

  According to a fourth aspect of the present invention, there is provided the piping support structure according to the third aspect, wherein the axial movement mechanism connects the lower end portion of the first support bar and the second support bar and is formed in the horizontal direction. A first connecting portion having a first screw hole formed on an outer periphery of the second support rod, and screwed into the first screw hole to move the second support rod along the first screw hole; And a first screw portion that enables the first screw portion.

According to this configuration, the second support rod moves in the axial direction along the first screw hole into which the first screw portion is screwed by rotating the second support rod on which the first screw portion is formed. To do. Thereby, the secondary side piping attached to the attachment member can be moved in the axial direction of the secondary side piping.
Thus, after the secondary side pipe is attached to the mounting member, the position can be adjusted by moving the secondary side pipe in the axial direction of the secondary side pipe. Side piping can be installed.

  According to a fifth aspect of the present invention, in the pipe support structure according to the third aspect, the axial movement mechanism connects the lower end portion of the first support bar and the second support bar and the second support. A first connecting portion in which a through hole through which a rod is movably inserted is formed in a horizontal direction, and a fixture for fastening and fixing the second support rod inserted through the through hole. It is characterized by being.

According to this configuration, the second support bar can be moved in the horizontal direction along the through hole, and the moved second support bar can be fastened and fixed by the fixing tool. Thereby, the secondary side piping attached to the attachment member can be moved in the axial direction of the secondary side piping.
Thus, after the secondary side pipe is attached to the mounting member, the position can be adjusted by moving the secondary side pipe in the axial direction of the secondary side pipe. Side piping can be installed.

  The pipe support structure according to a sixth aspect of the present invention is the configuration according to any one of the third to fifth aspects, wherein the vertical movement mechanism includes both ends of the second support bar and the third support bar. A second connecting portion that is connected to each other and has a second screw hole formed in the vertical direction, and is formed on an outer periphery of the third support rod, and is screwed into the second screw hole so that the third support rod is And a second screw portion that is movable along the second screw hole.

According to this configuration, the third support rod moves in the axial direction along the second screw hole into which the second screw portion is screwed by rotating the third support rod on which the second screw portion is formed. To do. Thereby, the secondary side piping attached to the attachment member can be moved in the vertical direction of the secondary side piping.
In this way, after the secondary side pipe is attached to the mounting member, the secondary side pipe can be moved up and down to adjust the position, so the secondary side pipe is installed even before the primary side pipe is laid. be able to.

  A pipe support structure according to a seventh aspect of the present invention is the configuration according to any one of the third to fifth aspects, wherein the up-and-down moving mechanism includes both ends of the second support bar and the third support bar. A second connecting part in which a through-hole is formed in a vertical direction through which the third support bar is inserted and movably inserted, and the third support bar inserted through the through-hole are fastened and fixed. And a fixture.

According to this configuration, the third support bar can be moved in the vertical direction along the through hole, and the moved third support bar can be fastened and fixed by the fixing tool. Thereby, the secondary side piping attached to the attachment member can be moved in the vertical direction of the secondary side piping.
As described above, after the secondary side pipe is attached to the mounting member, the secondary side pipe can be moved in the vertical direction of the secondary side pipe so that the position can be adjusted. Side piping can be installed.

  According to an eighth aspect of the present invention, in the pipe support structure according to any one of the third to seventh aspects, the vertical movement mechanism connects the lower end portion of the third support rod and the mounting member. And a third connecting portion having a long hole formed along the vertical direction, and a fixing member for fixing the mounting member by a screw inserted into the long hole and a female screw screwed into the screw. It is configured.

According to this configuration, the fixing position of the mounting member can be changed by loosening the screw inserted into the long hole, moving the mounting member up and down, and tightening the screw again.
Thereby, the secondary side piping attached to the attachment member can be moved in the vertical direction of the secondary side piping.
In this way, after the secondary side pipe is attached to the mounting member, the secondary side pipe can be moved up and down to adjust the position, so the secondary side pipe is installed even before the primary side pipe is laid. be able to.

  A pipe support structure according to a ninth aspect of the present invention is the structure according to any one of the third to eighth aspects, which is dependent on the second aspect, wherein the rotating mechanism is formed in the first connecting portion in the vertical direction. And a third screw portion formed on the outer periphery of the lower portion of the first support rod and screwed into the third screw hole.

According to this structure, the secondary side pipe attached to the attachment member can be rotated in the horizontal plane by rotating the first connecting portion in which the third screw hole is formed.
Thus, after the secondary side pipe is attached to the mounting member, the secondary side pipe can be rotated in the horizontal plane to adjust the position, so the secondary side pipe is installed even before the primary side pipe is laid. be able to.

  According to a tenth aspect of the present invention, in the pipe support structure according to the first or second aspect, the support member includes a first support rod extending downward from the mounting surface and the secondary side pipe. And a connecting member connected to the mounting member, and the axial movement mechanism includes a universal joint that connects the first support rod and the connecting member. It is characterized by being.

According to this configuration, the connecting member is connected to the attachment member to which the secondary side pipe is attached.
Since the connecting member and the first support bar extending downward from the mounting surface are connected by a universal joint, the direction of the connecting member can be freely changed with respect to the first support bar. Thereby, the secondary side piping attached to the attachment member can be moved in the axial direction of at least the secondary side piping.
Thus, after the secondary side pipe is attached to the mounting member, the position can be adjusted by moving the secondary side pipe in the axial direction of the secondary side pipe. Side piping can be installed.

  According to an eleventh aspect of the present invention, in the pipe support structure according to the tenth aspect, the vertical movement mechanism includes a long hole formed in a lower end portion of the connecting member along the vertical direction, and the long hole. And a fixing member that fixes the mounting member by a screw to be inserted and a female screw that is screwed to the screw.

According to this configuration, the fixing position of the mounting member can be changed by loosening the screw inserted into the long hole, moving the mounting member up and down, and tightening the screw again.
Thereby, the secondary side piping attached to the attachment member can be moved in the vertical direction of the secondary side piping.
In this way, after the secondary side pipe is attached to the mounting member, the secondary side pipe can be moved up and down to adjust the position, so the secondary side pipe is installed even before the primary side pipe is laid. be able to.

  Since this invention set it as the said structure, even before laying primary side piping, secondary side piping can be installed.

Below, an example of an embodiment concerning the present invention is described based on a drawing.
(Configuration of piping support structure according to the first embodiment)
First, the configuration of the pipe support structure according to the first embodiment will be described. FIG. 1 is a schematic diagram illustrating a configuration of a pipe support structure according to the first embodiment.

As shown in FIG. 1, the pipe support structure 10 according to the present embodiment includes a support member 12 that is attached to a housing 100 as an example of an attachment surface. The support member 12 extends downward from the housing 100 and supports the secondary side pipe 20.
As the secondary side pipe 20 supported by the support member 12, for example, a header as a branch pipe for branching to the downstream side pipe while being connected to the upstream side primary pipe is used.
Note that flange portions 42 are respectively formed at connecting ends of the primary side pipe 21 and the secondary side pipe 20, and the primary side pipe 21 and the secondary side pipe 20 are pressed against the flange portion 42. Is fixed.

  The support member 12 includes a first support bar 14 extending downward from the housing 100, a second support bar 16 connected to the lower end of the first support bar 14 and extending in the horizontal direction, and a second A pair of third support rods 18 connected to both ends of the support rod 16 and extending in the vertical direction, and a secondary side pipe 20 are attached to the lower ends of the pair of third support rods 18. Mounting member 22 to be provided.

As shown in FIGS. 1 and 2, the lower end portion of the first support rod 14 and the second support rod 16 are formed by a first block 24 as a first connecting portion disposed at the lower end portion of the first support rod 14. It is connected.
As shown in FIGS. 1 and 4, both ends of the second support rod 16 and the third support rod 18 are separated by a second block 26 as a second connecting portion disposed at both ends of the second support rod 16. It is connected.

The lower end portion of the third support rod 18 and the attachment member 22 are connected by a connection member 19 as a third connection portion provided at the lower end portion of the third support rod 18.
The upper end portion of the first support rod 14 is fixed to the housing 100 and is supported at one point with respect to the housing 100. The first support rod 14 is formed in a columnar shape, and a screw portion 15 is formed on the outer periphery of the lower portion of the first support rod 14.

The threaded portion 15 formed in the lower portion of the first support rod 14 is screwed into the screw hole 23 formed in the first block 24, whereby the first support rod 14 and the first block 24 are connected and the first support rod 14 is connected to the first support rod 14. One block 24 is rotatable with respect to the first support rod 14 in a horizontal plane.
When the first block 24 rotates in the horizontal plane with respect to the first support rod 14, the secondary side pipe 20 attached to the attachment member 22 rotates in the horizontal plane.

  Thus, the first block 24 having the screw hole 23 and the screw portion 15 formed at the lower portion of the first support rod 14 can rotate the secondary side pipe 20 supported by the support member 12 in a horizontal plane. Functions as a rotating mechanism. The screw portion 15 corresponds to the third screw portion described in claim 9, and the screw hole 23 corresponds to the third screw hole described in claim 9.

A screw hole 25 is formed in the first block 24 in the horizontal direction. The second support bar 16 is formed in a columnar shape. On the outer periphery of the central portion of the second support rod 16, a screw portion 27 that is screwed into the screw hole 25 of the first block 24 is formed.
The threaded portion 27 of the second support rod 16 is screwed into the screw hole 25 of the first block 24, and the second support rod 16 rotates so that the second support rod 16 moves horizontally along the screw hole 25. Move the slide. That is, the second support bar 16 moves in the axial direction.

As the second support rod 16 moves in the axial direction, the secondary side pipe 20 attached to the attachment member 22 slides in the horizontal direction.
As described above, the first block 24 having the screw hole 25 and the screw portion 27 formed on the second support rod 16 connect the secondary pipe 20 supported by the support member 12 in the axial direction of the secondary pipe 20. It functions as an axial movement mechanism that makes it possible to move to. The screw hole 25 corresponds to the first screw hole described in claim 4, and the screw portion 27 corresponds to the first screw portion described in claim 4.

As a configuration for moving the second support rod 16 in the axial direction, the following configuration may be used as shown in FIG.
A through-hole 125 is formed in the first block 24 in the horizontal direction. The second support rod 16 is inserted into the through hole 125 of the first block 24 and supported by the first block 24 so as to be movable along the through hole 125. Note that the second support rod 16 is not formed with a threaded portion 27.
A screw hole 126 is formed in the first block 24. The screw hole 126 is formed from the bottom surface of the first block 24 to the through hole 125 and communicates with the through hole 125.
A screw 128 as a fixture for fixing the second support rod 16 is screwed into the screw hole 126. The screw 128 is screwed into the screw hole 126 of the first block 24, and the second support bar 16 is fixed by tightening the second support bar 16 inserted through the through hole 125.
Further, the fixing position of the second support bar 16 can be changed by loosening the screw 128 and moving the second support bar 16 along the through hole 125 and fixing the screw 128 again.

  The second block 26 is rotatably supported at both ends of the second support bar 16. Thus, when the second support bar 16 is rotated and slid in the horizontal direction, the second support bar 16 idles with respect to the second block 26, and the second block 26 does not rotate and the second support Only the bar 16 rotates.

A screw hole 29 is formed in the second block 26 in the vertical direction. The third support rod 18 is formed in a cylindrical shape. A threaded portion 33 is formed on the outer periphery of the third support rod 18.
When the threaded portion 33 of the third support rod 18 is screwed into the screw hole 29 of the second block 26 and the third support rod 18 rotates, the third support rod 18 moves vertically with respect to the second block 26. Move to slide. That is, the third support bar 18 moves in the axial direction.
As the third support rod 18 moves in the axial direction, the secondary side pipe 20 attached to the attachment member 22 slides in the vertical direction.

  As described above, the second block 26 having the screw hole 29 and the screw portion 33 formed in the third support rod 18 connect the secondary side pipe 20 supported by the support member 12 in the vertical direction of the secondary side pipe 20. It functions as a vertical movement mechanism that makes it possible to move to. The screw hole 29 corresponds to the second screw hole described in claim 6, and the screw portion 33 corresponds to the second screw portion described in claim 6.

As a configuration for moving the third support rod 18 in the axial direction, the following configuration may be used as shown in FIG.
A through hole 129 is formed in the second block 26 in the vertical direction. The third support rod 18 is inserted into the through hole 129 of the second block 26 and supported by the second block 26 so as to be movable along the through hole 129. The third support rod 18 is not formed with the threaded portion 33.
A screw hole 132 is formed in the second block 26. The screw hole 132 is formed from the side surface of the second block 26 to the through hole 129 and communicates with the through hole 129.
A screw 134 as a fixture for fixing the third support rod 18 is screwed into the screw hole 132. The screw 134 is screwed into the screw hole 132 of the second block 26, and the third support bar 18 is fixed by tightening the third support bar 18 inserted through the through hole 129.
In addition, the fixing position of the third support bar 18 can be changed by loosening the screw 134 and moving the third support bar 18 along the through hole 129 and fixing the screw 134 again.

As shown in FIG. 4, a flange portion 34 that protrudes in the radial direction of the third support rod 18 is formed at the lower end of the third support rod 18.
The connecting member 19 is formed with an insertion hole 35 into which the third support rod 18 is inserted. The third support rod 18 is inserted into the insertion hole 35, and the flange portion 34 abuts on the edge of the insertion hole 35. Thereby, the connecting member 19 is rotatably supported by the lower end portion of the third support rod 18.

The connecting member 19 is formed by folding back a flat plate, and the lower part is bonded.
A long hole 36 is formed along the vertical direction in the bonded lower portion.
As shown in FIG. 6, the attachment member 22 includes a pair of clamping portions 22 </ b> A that sandwich the secondary pipe 20, a pair of fixing portions 22 </ b> B that are integrally formed with the clamping portion 22 </ b> A and are fixed to the connecting member 19, And a hinge portion 22C for connecting the holding portion 22A.

The pair of sandwiching portions 22A is formed in an arc shape along the outer shape of the secondary side pipe 20 to be sandwiched. The pair of fixing portions 22B extend upward from the pair of sandwiching portions 22A, respectively, so that the sandwiching portions 22A face each other in the sandwiched state in which the secondary side pipe 20 is sandwiched.
Each of the pair of fixing portions 22B is formed with a through hole 38 penetrating the fixing portion 22B. When the pair of fixing portions 22B face each other, the through holes 38 also face each other, and the bolts 40 can be inserted into both the through holes 38.

The lower part (the opposite side to the fixed part 22B) of the sandwiching part 22A is connected by a hinge part 22C, and the other sandwiching part 22A is rotatable with respect to the one sandwiching part 22A.
The sandwiching portion 22A rotates in a direction in which the upper portions (fixed portions 22B) are separated from each other, thereby opening the pair of sandwiching portions 22A so that the secondary side pipe 20 can be received. The secondary side pipe 20 is inserted between the holding parts 22A in an acceptable state and rotated in a direction in which the upper parts (fixed parts 22B) approach each other. 22A. In this manner, the secondary side pipe 20 is sandwiched by the attachment member 22 and attached to the attachment member 22.

A portion where the long hole 36 of the connecting member 19 is formed is inserted between the fixing portions 22 </ b> B of the attachment member 22, and this portion is sandwiched between the fixing portions 22 </ b> B of the attachment member 22.
A bolt 40 as a screw constituting a fixing member for fixing the attachment member 22 is passed through the through hole 38 and the long hole 36 of the fixing portion 22B and screwed into a nut 39 having a female screw 39A screwed into the bolt 40. Screwed.

The bolt 40 is screwed into the nut 39, and the fixing portion 22 </ b> B of the mounting member 22 and the connecting member 19 are pressed against the head 40 </ b> A and the nut 39 of the bolt 40, so that the mounting member 22 has a predetermined hole 36. It is fixed to the connecting member 19 in position.

The fixing position of the mounting member 22 can be changed by loosening the bolt 40, moving the mounting member 22 up and down, and fixing the bolt 40 again.
By changing the fixing position of the attachment member 22, the secondary side pipe 20 attached to the attachment member 22 can be moved in the vertical direction.

  In this way, the connecting member 19 having the long hole 36 and the bolt 40 and the nut 39 constituting the fixing member can move the secondary side pipe 20 supported by the support member 12 in the vertical direction of the secondary side pipe 20. It functions as a vertical movement mechanism.

(Operation of the first embodiment)
Next, an effect | action is demonstrated about said 1st Embodiment.
In the present embodiment, first, the upper end portion of the first support rod 14 constituting a part of the support member 12 is fixed to the housing 100.

Next, the secondary side pipe 20 is clamped by the clamping part 22 </ b> A of the mounting member 22, and the secondary side pipe 20 is mounted on the mounting member 22.
The bolt 40 passed through the through hole 38 of the mounting member 22 and the long hole 36 of the connecting member 19 is screwed into the nut 39 to fix the mounting member 22 to the connecting member 19.

Next, the primary side pipe 21 is fixed to the secondary side pipe 20. Flange portions 42 are respectively formed at the connection ends of the primary side pipe 21 and the secondary side pipe 20, and the primary side pipe 21 and the secondary side pipe 20 are connected and fixed by pressing the flange portion 42. Is done.
When the primary side pipe 21 is connected and fixed to the secondary side pipe 20, if the position of the secondary side pipe 20 needs to be adjusted, the secondary side pipe 20 can be moved as follows. it can.

  That is, when the secondary pipe 20 is moved in the vertical direction, the third support bar 18 is moved in the vertical direction with respect to the second block 26 by rotating the third support bar 18, so that the secondary side is moved. The pipe 20 moves up and down.

Further, the fixing position of the mounting member 22 can be changed by loosening the bolt 40 and moving the mounting member 22 up and down to fix the bolt 40 again.
Further, by rotating the second support bar 16, the second support bar 16 slides in the horizontal direction with respect to the first block 24. Thereby, the secondary side piping 20 moves to a horizontal direction.

Further, the secondary side pipe 20 can be rotated in the horizontal plane by rotating the first block 24 with respect to the first support rod 14 in the horizontal plane.
In this way, when the primary side pipe 21 is fixed to the secondary side pipe 20, the secondary side pipe 20 is moved in the axial direction and the vertical direction and rotated in the horizontal plane, thereby allowing the secondary side pipe 20 to move. Can be adjusted. For this reason, like this embodiment, even before laying primary side piping, secondary side piping can be installed.

(Configuration of piping support structure according to the second embodiment)
Next, the configuration of the pipe support structure according to the second embodiment will be described.
In addition, the same code | symbol is attached | subjected to the part same as 1st Embodiment, and description is abbreviate | omitted. FIG. 7 is a schematic diagram illustrating a configuration of a pipe support structure according to the second embodiment.

The pipe support structure 50 according to the present embodiment includes a pair of support members 52 that extend downward from the housing 100 and support the secondary pipe 20.
The support member 52 includes a first support bar 54 extending downward from the housing 100, a connection member 56 connected to the lower end of the first support bar 54, and a lower end of the connection member 56 and 2 And an attachment member 22 to which the secondary pipe 20 is attached.

The first support rod 54 is formed in a columnar shape, and its upper end is fixed to the housing 100. Moreover, as shown in FIG.7 and FIG.8, the spherical part 60 made into the spherical shape is formed in the lower end part of the 1st support rod 54. FIG.
The upper end portion of the connecting member 56 is formed with a block portion 62 that is shaped like a block. The block portion 62 is formed with a spherical recess 64 into which the sphere portion 60 can be fitted.

A universal joint 59 as an example of an axial movement mechanism capable of moving the secondary side pipe 20 supported by the support member 12 in the axial direction of the secondary side pipe 20 by fitting the ball part 60 into the concave part 64 is configured. Is done. Thereby, the connection member 56 inclines with respect to the 1st support rod 54, and the secondary side piping attached to the attachment member 22 can be freely translated in the horizontal direction.
A long hole 66 is formed in the lower part of the connecting member 56 along the vertical direction.

The secondary side pipe 20 is sandwiched between the sandwiching portions 22 </ b> A of the mounting member 22 and attached to the mounting member 22.
A portion where the long hole 66 of the connecting member 56 is formed is inserted between the fixing portions 22 </ b> B of the attachment member 22, and this portion is sandwiched between the fixing portions 22 </ b> B of the attachment member 22.

A bolt 40 as a screw constituting a fixing member for fixing the attachment member 22 is passed through the through hole 38 and the long hole 66 of the fixing portion 22B and screwed into a nut 39 having a female screw 39A screwed into the bolt 40. Screwed.
The bolt 40 is screwed into the nut 39, and the fixing portion 22 </ b> B and the connecting member 56 of the mounting member 22 are pressed against the head 40 </ b> A and the nut 39 of the bolt 40. It is fixed to the connecting member 56 in position.

The fixing position of the mounting member 22 can be changed by loosening the bolt 40, moving the mounting member 22 up and down, and fixing the bolt 40 again.
By changing the fixing position of the attachment member 22, the secondary side pipe 20 attached to the attachment member 22 can be moved in the vertical direction.

  Thus, the long hole 66 formed in the connecting member 56 and the bolt 40 and the nut 39 constituting the fixing member cause the secondary side pipe 20 supported by the support member 12 to move in the vertical direction of the secondary side pipe 20. It functions as a vertical movement mechanism that enables movement.

Instead of the universal joint, as shown in FIG. 9, the first support rod 54 and the connecting member 56 may be connected via a chain 72. In this configuration, the chain 72 is free, and the inclination (direction) of the connecting member 56 with respect to the first support rod 54 can be changed.
Thereby, the secondary side piping attached to the attachment member 22 can be freely moved in the horizontal direction. Further, by twisting the chain 72, the secondary side pipe attached to the attachment member 22 can be rotated by a predetermined angle.

Moreover, it may replace with a universal joint and the structure which connects the 1st support bar 54 and the connection member 56 via the wire 74 may be sufficient as shown in FIG.
In this configuration, the wire 74 is free, and the inclination (direction) of the connecting member 56 with respect to the first support rod 54 can be changed.
Thereby, the secondary side piping attached to the attachment member 22 can be freely moved in the horizontal direction. Further, by twisting the wire 74, the secondary side pipe attached to the attachment member 22 can be rotated.

(Operation of Second Embodiment)
Next, the operation of the second embodiment will be described.
In the second embodiment, first, the upper ends of the pair of first support bars 54 that constitute a part of the support member 52 are fixed to the housing 100.

Next, the secondary side pipe 20 is clamped by the clamping part 22 </ b> A of the mounting member 22, and the secondary side pipe 20 is mounted on the mounting member 22.
The bolt 40 passed through the through hole 38 of the mounting member 22 and the long hole 66 of the connecting member 56 is screwed into the nut 39 to fix the mounting member 22 to the connecting member 56.

Next, the primary side pipe 21 is fixed to the secondary side pipe 20. Flange portions 42 are respectively formed at the connection ends of the primary side pipe 21 and the secondary side pipe 20, and the primary side pipe 21 and the secondary side pipe 20 are connected and fixed by pressing the flange portion 42. Is done.
When the primary side pipe 21 is connected and fixed to the secondary side pipe 20, if the position of the secondary side pipe 20 needs to be adjusted, the secondary side pipe 20 can be moved as follows. it can.

That is, when the secondary pipe 20 is moved in the vertical direction, the bolt 40 is loosened, the mounting member 22 is moved up and down to fix the bolt 40 again, thereby changing the fixing position of the mounting member 22. be able to.
Furthermore, the connecting member 56 is inclined with respect to the first support rod 54, and the secondary pipe 20 attached to the attachment member 22 can be freely translated in the horizontal direction.

As described above, when the primary side pipe 21 is fixed to the secondary side pipe 20, the position of the secondary side pipe 20 can be adjusted by moving the secondary side pipe 20 in the horizontal direction and the vertical direction. For this reason, like this embodiment, even before laying primary side piping, secondary side piping can be installed.
The present invention is not limited to the above-described embodiment, and various modifications, changes, and improvements can be made.

FIG. 1 is a schematic view showing a configuration of a pipe support structure according to the first embodiment of the present invention. FIG. 2 is a perspective view showing a first block constituting the axial movement mechanism according to the first embodiment. FIG. 3 is a perspective view showing a first block constituting a modification of the axial movement mechanism according to the first embodiment. FIG. 4 is a perspective view showing a second block and a connecting member constituting the vertical movement mechanism according to the first embodiment. FIG. 5 is a perspective view showing a second block and a connecting member that constitute a modification of the vertical movement mechanism according to the first embodiment. FIG. 6 is a perspective view showing the configuration of the attachment member according to the first embodiment. FIG. 7 is a schematic diagram illustrating a configuration of a pipe support structure according to the second embodiment. FIG. 8 is a perspective view showing a connecting member constituting the axial movement mechanism and the vertical movement mechanism according to the second embodiment. FIG. 9 is a perspective view showing a modification in which the universal joint according to the second embodiment is changed to a chain. FIG. 10 is a perspective view showing a modification in which the universal joint according to the second embodiment is replaced with a wire.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Piping support structure 12 Support member 14 1st support rod 15 Thread part (3rd thread part, rotation mechanism)
16 2nd support bar 18 3rd support bar 19 Connection member (3rd connection part, up-down direction moving mechanism)
20 Secondary piping 21 Primary piping 22 Mounting member 23 Screw hole (third screw hole, rotation mechanism)
24 1st block (1st connection part, axial direction moving mechanism)
25 Screw hole (first screw hole)
26 2nd block (2nd connection part, up-down direction moving mechanism)
27 Screw part (first screw part, axial movement mechanism)
29 Screw hole (second screw hole)
33 Screw part (second screw part, vertical movement mechanism)
36 long hole 39 nut (fixing member, vertical movement mechanism)
40 bolt (fixing member, vertical movement mechanism)
50 Piping support structure 52 Support member 54 First support rod 56 Connection member 59 Universal joint (axial movement mechanism)
66 Long hole (vertical movement mechanism)
100 Housing (Mounting surface)
128 screws (fixtures)
134 Screw (fixture)

Claims (11)

A support member that extends downward from the mounting surface and supports the secondary pipe to which the primary pipe is connected;
A vertical movement mechanism provided on the support member and capable of moving the secondary pipe supported by the support member in the vertical direction;
An axial movement mechanism provided on the support member and capable of moving the secondary pipe supported by the support member in an axial direction of the secondary pipe;
A piping support structure characterized by comprising:   The pipe support structure according to claim 1, further comprising a rotation mechanism provided on the support member and capable of rotating the secondary side pipe supported by the support member within a horizontal plane. The support member is
A first support bar extending downward from the mounting surface;
A second support bar connected to the lower end of the first support bar and extending in the horizontal direction;
A pair of third support bars connected to both ends of the second support bar and extending in the vertical direction;
An attachment member connected to the lower ends of the pair of third support rods and to which the secondary pipe is attached;
The pipe support structure according to claim 1, wherein the pipe support structure is provided. The axial movement mechanism is
A first connecting portion for connecting the lower end portion of the first support rod and the second support rod and having a first screw hole formed in a horizontal direction;
A first screw portion formed on an outer periphery of the second support rod, and screwed into the first screw hole to move the second support rod along the first screw hole;
The pipe support structure according to claim 3, wherein the pipe support structure is provided. The axial movement mechanism is
A first connecting portion that connects a lower end portion of the first support rod and the second support rod and has a through-hole formed in a horizontal direction through which the second support rod is movably inserted;
A fixture for fastening and fixing the second support rod inserted through the through hole;
The pipe support structure according to claim 3, wherein the pipe support structure is provided. The vertical movement mechanism is
A second connecting portion that connects the both ends of the second support rod and the third support rod, and has a second screw hole formed in the vertical direction;
A second screw portion formed on an outer periphery of the third support rod, and screwed into the second screw hole to move the third support rod along the second screw hole;
The pipe support structure according to any one of claims 3 to 5, wherein the pipe support structure is provided. The vertical movement mechanism is
A second connecting part that connects both ends of the second support bar and the third support bar, and has a through-hole formed in a vertical direction through which the third support bar is movably inserted;
A fixture for fastening and fixing the third support rod inserted through the through hole;
The pipe support structure according to any one of claims 3 to 5, wherein the pipe support structure is provided. The vertical movement mechanism is
A third connecting portion for connecting the lower end portion of the third support rod and the mounting member and having a long hole formed in the vertical direction;
A fixing member for fixing the mounting member by a screw inserted into the elongated hole and a female screw screwed into the screw;
The pipe support structure according to any one of claims 3 to 7, wherein the pipe support structure is provided. The rotation mechanism is
A third screw hole formed in the first connecting portion in the vertical direction;
A third screw portion formed on the outer periphery of the lower portion of the first support rod and screwed into the third screw hole;
The pipe support structure according to any one of claims 3 to 8, which is dependent on claim 2. The support member includes a first support rod extending downward from the attachment surface, an attachment member to which the secondary pipe is attached, and a connection member connected to the attachment member,
The pipe support structure according to claim 1, wherein the axial movement mechanism includes a universal joint that connects the first support rod and the connecting member. The vertical movement mechanism is
A long hole formed along the vertical direction at the lower end of the connecting member;
A fixing member for fixing the mounting member by a screw inserted into the elongated hole and a female screw screwed into the screw;
The piping support structure according to claim 10, comprising:

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