JP2021042826A - Piping support device - Google Patents

Abstract

To provide a piping support device that can minimize an installation area as much as possible.SOLUTION: A piping support device includes: a saddle for supporting piping; a first plate fixed to the saddle; a second plate fixed to a pedestal; multiple balls installed between the first plate and the second plate and respectively rotating and moving on the second plate; and a ball holding member fixed to the first plate, moving together with the balls and holding the balls so as to be rotatable.SELECTED DRAWING: Figure 1

Description

The present invention relates to a pipe support device that supports a pipe through which a thermal fluid is circulated.

When supporting the pipe, it is preferable to fix the pipe. However, when supporting the pipes through which the thermal fluid flows, fixing all the pipes restrains the thermal elongation of the pipes. When the thermal elongation of the pipe is constrained, stress is generated in the pipe, and this stress may exceed the allowable value of the pipe (stress allowed by the pipe). Therefore, in general, some pipes are supported by a movable pipe support device to relieve stress generated by thermal elongation of the pipes.

As a background technique in this technical field, there is Japanese Patent Application Laid-Open No. 10-110864 (Patent Document 1). Patent Document 1 describes an upper flat plate formed so as to support a pipe and having a lower surface formed in a horizontal plane, a lower flat plate supported by the ground or a supporting structure and having an upper surface formed in a horizontal plane, and a lower flat plate and an upper plate. Described is a pipe support device including a plurality of steel balls freely rolling between a flat plate and a ball holding frame that moves together with the plurality of steel balls and holds a mutual distance between the steel balls. (See summary).

Japanese Unexamined Patent Publication No. 10-110864

Patent Document 1 describes a pipe support device that allows horizontal displacement of a pipe and supports the pipe.

That is, Patent Document 1 describes a pipe support device that allows horizontal displacement of the pipe, that is, relieves stress generated by thermal elongation of the pipe, and Patent Document 1 describes the pipe support device. It has a plurality of steel balls and ball holding frames.

However, Patent Document 1 does not describe reducing the installation area of a pipe support device having a plurality of steel balls or ball holding frames.

Therefore, the present invention provides a pipe support device that minimizes the installation area.

In order to solve the above problems, the pipe support device of the present invention includes a saddle that supports the pipe, a first plate that is fixed to the saddle, a second plate that is fixed to the pedestal, and a first plate and a second plate. A pipe support device that is installed between the two and has a plurality of balls, each of which rotates on the second plate, and is fixed to the first plate, moves with the balls, and holds the balls rotatably. It is characterized by having a ball holding member.

According to the present invention, it is possible to provide a pipe support device that minimizes the installation area.

Issues, configurations, and effects other than those described above will be clarified by the explanation of the examples below.

It is explanatory drawing explaining the pipe support device which has the rolling bearing 4 described in Example 1. FIG. It is explanatory drawing explaining the rolling bearing 4 of the pipe support device described in Example 1 perspectively. It is explanatory drawing which expands and explains the rolling bearing 4 of the pipe support device described in Example 1. FIG. It is explanatory drawing explaining the installation position of the pipe support device described in Example 1. FIG. It is explanatory drawing explaining the pipe support device described in Example 2. FIG.

Hereinafter, examples of the present invention will be described with reference to the drawings. The substantially same or similar configurations are designated by the same reference numerals, and the description may be omitted when the description is duplicated.

First, the pipe support device having the rolling bearing 4 described in the first embodiment will be described.

FIG. 1 is an explanatory diagram illustrating a pipe support device having the rolling bearing 4 described in the first embodiment.

The pipe support device according to the first embodiment includes a saddle 2 that supports (fixes) the pipe 1 through which the thermal fluid flows, a first plate 3 that is fixed to the saddle 2 and is formed in the horizontal direction, a floor, a support steel material, and the like. A plurality of plates 5 fixed to the pedestal 6 and horizontally formed between the first plate 3 and the second plate 5, each of which rotates and moves on the second plate 5. It has a sphere (steel sphere) 7 and a sphere holding member (hereinafter, rolling bearing 4) which is fixed to the first plate 3 and moves together with the sphere 7 to rotatably hold the sphere 7.

That is, the pipe support device described in the first embodiment has a plurality of balls 7 installed between the saddle 2, the first plate 3, the second plate 5, and the first plate 3 and the second plate 5. And a rolling bearing 4 which is fixed to the first plate 3 and holds the sphere 7 rotatably.

As described above, in the pipe support device described in the first embodiment, the saddle 2 fixes the pipe 1, the saddle 2 fixes the first plate 3, the first plate 3 fixes the rolling bearing 4, and the plate 5 It is fixed to the pedestal 6. That is, the pipe 1, the saddle 2, the first plate 3, and the rolling bearing 4 are fixed.

Then, the weights of the pipe 1, the saddle 2, the plate 3, and the rolling bearing 4 are supported by the plate 5 and the pedestal 6 via the balls 7. The pipe 1 moves on the second plate 5 together with the first plate 3 and the rolling bearing 4 via the saddle 2. As a result, the displacement of the pipe 1 in the horizontal direction is allowed, and the stress generated by the thermal elongation of the pipe 1 is relaxed.

As described above, in the pipe support device described in the first embodiment, since the rolling bearing 4 that rotatably holds the ball 7 is fixed to the first plate 3, the installation area of the pipe support device can be reduced. Since the rolling bearing 4 that rotatably holds the sphere 7 is fixed to the first plate 3, it is not necessary to increase the installation area of the second plate 5 more than necessary.

That is, the installation area of the second plate 5 can be set to a size that allows the horizontal displacement of the pipe 1, and the installation area of the second plate 5 is the size that the rolling bearing 4 moves (the pipe 1). It can be set to a size that relieves the stress generated by the thermal elongation of.

Then, the installation area of the rolling bearing 4 and the installation area of the first plate 3 can be reduced corresponding to the installation area of the second plate 5, and the installation area of the pipe support device can be reduced.

As the amount of movement of the pipe support device increases, the installation area of the second plate 5 and the rolling bearing 4 also increases in proportion to the amount of movement of the pipe support device. However, in the pipe support device described in the first embodiment, since the rolling bearing 4 that rotatably holds the ball 7 is fixed to the first plate 3, even if the movement amount of the pipe support device increases, the second plate 5. The installation area of the rolling bearing 4 does not increase. That is, the pipe support device can be configured with the minimum installation area of the rolling bearing 4 according to the installation area of the first plate 3.

Further, in the pipe support device described in the first embodiment, since the ball 7 is rotatably held by the rolling bearing 4, the frictional resistance can be reduced. Even if the ball 7 is used repeatedly for a long period of time, it is possible to suppress an increase in frictional resistance due to aged deterioration.

Next, the rolling bearing 4 of the pipe support device described in the first embodiment will be described perspectively.

FIG. 2 is an explanatory view for perspectively explaining the rolling bearing 4 of the pipe support device according to the first embodiment.

The rolling bearing 4 of the pipe support device according to the first embodiment is fixed to the first plate 3 and moves together with the sphere 7 to rotatably hold the sphere 7.

Further, the saddle 2 for fixing the pipe 1 is a cylinder, and its horizontal cross-sectional shape is circular. The first plate 3 is preferably square in order to evenly support the weight of the saddle 2. Further, the rolling bearing 4 is also preferably square in order to evenly support the weights of the first plate 3 and the saddle 2.

The shape of the second plate 5 is designed in consideration of the moving direction of the rolling bearing 4 and the amount of movement with respect to the moving direction. That is, even if the pipe 1 is moved due to thermal elongation, the rolling bearing 4 must have a size and shape that does not fall off, and the shape of the second plate 5 is square even if it is rectangular. There may be.

Further, the number of spheres 7 rotatably held by the rolling bearing 4 is installed in the same number in the vertical direction and the horizontal direction. In the first embodiment, a total of nine pieces, three in the vertical direction and three in the horizontal direction, are installed. The installation area (bottom area) of the rolling bearing 4 and the number of balls 7 installed are set according to the bottom area of the first plate 3.

In Example 1, it is preferable that the bottom area of the rolling bearing 4 is smaller than the bottom area of the first plate 3. As a result, the installation area of the pipe support device can be reduced.

As a result, the displacement of the pipe 1 in the horizontal direction is allowed, and the stress generated by the thermal elongation of the pipe 1 is relaxed. Then, the weights of the rolling bearing 4, the first plate 3, the saddle 2, and the pipe 1 can be evenly supported, and even if the rolling bearing 4, the first plate 3, the saddle 2, and the pipe 1 are used repeatedly for a long period of time, an increase in frictional resistance due to aged deterioration can be suppressed.

Next, the rolling bearing 4 of the pipe support device described in the first embodiment will be expanded and described.

FIG. 3 is an explanatory view for explaining the rolling bearing 4 of the pipe support device described in the first embodiment in an enlarged manner.

The rolling bearing 4 of the pipe support device according to the first embodiment is fixed to the first plate 3 and moves together with the sphere 7 to rotatably hold the sphere 7.

The rolling bearing 4 has a plurality of small spheres 8 having a diameter smaller than that of the sphere 7 between the sphere 7 and the portion where the sphere 7 of the rolling bearing 4 is installed. That is, the sphere 7 is rotatably held at a portion of the rolling bearing 4 where the sphere 7 is installed by a plurality of small spheres 8 having a diameter smaller than that of the sphere 7. That is, the sphere 7 makes point contact with the plurality of small spheres 8 and is held rotatably. The small sphere 8 is also rotatably held at the portion where the sphere 7 of the rolling bearing 4 is installed.

As a result, the weights of the rolling bearing 4, the first plate 3, the saddle 2, and the pipe 1 can be dispersed and supported by the spheres 7 and the plurality of small spheres 8, and even if they are used repeatedly for a long period of time, they will aged. It is possible to suppress an increase in frictional resistance due to deterioration.

Further, as a result, regardless of which direction the pipe 1, the saddle 2, and the first plate 3 move in the horizontal direction, the function of the rolling bearing 4 (allowing the horizontal displacement of the pipe 1 and the thermal expansion of the pipe 1). It has a function to relieve the stress generated by the above.

In this way, the installation area of the pipe support device can be reduced by using the rolling bearing 4 in which the rolling bearing 4 is fixed to the first plate 3 and the balls 7 are rotatably held by the plurality of small balls 8. it can.

The load on the sphere 7 may be generated not only in the vertical direction but also in the horizontal direction or in the diagonal direction in which the horizontal direction and the vertical direction are combined. Therefore, by using a rolling bearing 4 that rotatably holds the sphere 7 by a plurality of small spheres 8, the load generated on the sphere 7 in multiple directions can be supported, and even if it is used repeatedly for a long period of time, it will be aged. It is possible to suppress an increase in frictional resistance due to deterioration.

In the first embodiment, the rolling bearing 4 that rotatably holds the sphere 7 by the plurality of globules 8 is used, but the sphere holding member that rotatably holds the sphere 7 without using the globules 8 is used. You may use it.

Next, the installation position of the pipe support device described in the first embodiment will be described.

FIG. 4 is an explanatory diagram illustrating an installation position of the pipe support device described in the first embodiment.

The pipe support device is installed in the pipe 1 through which the thermal fluid is circulated. The pipe 1 is connected to the connection point 11 of the device 10 through which the thermal fluid flows in and out. Then, the pipe support device is installed at the first support point 12 located in the middle of the pipe 1 connected to the connection point 11.

In particular, since the pipe 1 mainly heats up in the installation direction of the pipe 1, the pipe support device moves in the installation direction of the pipe 1, and is in the horizontal direction of the pipe 1 and is displaced in the installation direction of the pipe 1. It is necessary to allow the above and relax the stress generated by the thermal elongation in the installation direction of the pipe 1.

The pipe support device according to the first embodiment uses a rolling bearing 4 in which a rolling bearing 4 is fixed to a first plate 3 and balls 7 are rotatably held by a plurality of small balls 8, so that the pipe support device can be used. It can have the function of the rolling bearing 4 regardless of which direction it moves in the horizontal direction.

As a result, the stress at the first support point 12 due to heat elongation in the installation direction of the pipe 1 is reduced, and the reaction force at the connection point 11 is also reduced.

As described above, according to the first embodiment, the installation area is made as small as possible, the displacement of the pipe 1 in the horizontal direction is allowed, the stress generated by the thermal elongation of the pipe 1 is relaxed, and the pipe 1 is used repeatedly for a long period of time. Even so, it is possible to provide a pipe support device that suppresses an increase in frictional resistance due to aged deterioration.

Next, the pipe support device described in the second embodiment will be described.

FIG. 5 is an explanatory diagram illustrating the pipe support device described in the second embodiment.

The pipe support device described in the second embodiment further has a lifting prevention function as compared with the pipe support device described in the first embodiment.

The pipe 1 moves due to heat elongation due to a thermal fluid or vibration due to an earthquake or the like. The moving direction of the pipe 1 (the direction of the load on the pipe 1) is not necessarily the horizontal direction, but the force may be generated not only in the horizontal direction but also in the vertical direction or the diagonal direction in which the horizontal direction and the vertical direction are combined. ..

Therefore, the pipe support device described in the second embodiment has a floating prevention function.

The pipe support device according to the second embodiment, that is, the pipe support device having a lift prevention function, further includes a lift prevention steel material 20 for preventing the first plate 3 and the rolling bearing 4 from lifting, and the first plate 3 and the lift prevention device. A ball (steel ball) 70 that is installed between the steel material 20 and rotates under the floating prevention steel material 20, and a ball (steel ball) 70 that is fixed to the first plate 3 and moves together with the ball 70 to hold the ball 70 rotatably. It has two rolling bearings 40 (hereinafter referred to as rolling bearings 40).

The rolling bearing 40 may be a ball holding member.

The lift-preventing steel material 20 has an L-shaped cross section, one end of which is fixed to the second plate 5, and a part of the other side is installed so as to cover a part of the first plate 3. Then, a gap (space) is formed between a part of the other side of the lift prevention steel material 20 and a part of the first plate 3 covered with a part of the other side of the lift prevention steel material 20, and the gap is filled with the gap. , The ball 70 and the rolling bearing 40 are installed. As a result, it is possible to prevent the first plate 3 and the rolling bearing 4 from rising.

The lift-preventing steel material 20 is preferably installed on both sides of the pipe 1 in the installation direction. As a result, the displacement of the pipe 1 in the installation direction can be allowed, and the stress generated by the thermal elongation in the installation direction of the pipe 1 can be relaxed. The length of the floating prevention steel material 20 installed on both sides of the pipe 1 in the installation direction is designed according to the amount of movement of the rolling bearing 40.

The rolling bearing 40 is fixed to the first plate 3 and moves together with the sphere 70 to rotatably hold the sphere 70. Further, when the first plate 3 and the rolling bearing 4 are lifted, the sphere 70 comes into contact with the bottom of the lift prevention steel material 20 and rotates. The same number of balls 70, which are rotatably held by the rolling bearing 40, are installed on both sides of the pipe 1 in the installation direction. For example, one is installed on each side of the pipe 1 in the installation direction.

Further, between the sphere 70 and the portion where the sphere 70 of the rolling bearing 40 is installed, there are a plurality of small spheres (not shown) having a diameter smaller than that of the sphere 70. That is, the sphere 70 is rotatably held at a portion of the rolling bearing 40 where the sphere 70 is installed by a plurality of small spheres (not shown) having a diameter smaller than that of the sphere 70. That is, the sphere 70 makes point contact with a plurality of small spheres (not shown) and is held rotatably. The small sphere (not shown) is also rotatably held at the portion where the sphere 70 of the rolling bearing 40 is installed.

The shape of the second plate 5 is designed in consideration of the moving direction of the rolling bearing 4 and the amount of movement with respect to the moving direction, as in the first embodiment.

As described above, according to the second embodiment, the installation area is made as small as possible, the displacement of the pipe 1 in the horizontal direction is allowed, the stress generated by the thermal elongation of the pipe 1 is relaxed, and the pipe 1 is used repeatedly for a long period of time. Even so, it is possible to provide a pipe support device that suppresses an increase in frictional resistance due to aged deterioration and prevents the first plate 3 and the rolling bearing 4 from floating.

The present invention is not limited to the above-mentioned examples, and includes various modifications. For example, the above-described embodiment has been described in detail in order to explain the present invention in an easy-to-understand manner, and is not necessarily limited to those having all the described configurations. Further, a part of the configuration of one embodiment can be replaced with a part of the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment. It is also possible to add a part of the configuration of another embodiment to a part of the configuration of each embodiment, replace a part of the configuration of another embodiment, and delete a part of the configuration of the example. it can.

1 ... Piping, 2 ... Saddle, 3 ... 1st plate, 4 ... Rolling bearing, 5 ... 2nd plate, 6 ... Pedestal, 7 ... Sphere, 8 ... Small sphere, 10 ... Equipment, 11 ... Connection point, 12 ... No. One support point, 20 ... anti-lifting steel material, 40 ... rolling bearing, 70 ... sphere.

Claims (5)

It is installed between the saddle that supports the pipe, the first plate that is fixed to the saddle, the second plate that is fixed to the pedestal, and the first plate and the second plate, and each of them is the second plate. A pipe support device having a plurality of spheres that rotate and move on the top.
A pipe support device having a ball holding member fixed to the first plate, moving together with the ball, and rotatably holding the ball. The piping support device according to claim 1.
A pipe support device, wherein the ball holding member is a rolling bearing having a plurality of small balls having a diameter smaller than that of the ball between the ball and a portion where the ball is installed. The piping support device according to claim 2.
A pipe support device characterized in that the saddle has a circular cross-sectional shape in the horizontal direction, the first plate is square, and the rolling bearing is square. The piping support device according to claim 2.
The sphere is a pipe support device characterized in that the same number of balls are installed in the vertical direction and the horizontal direction. The piping support device according to claim 2.
A ball that is installed between the first plate and the anti-floating steel material and rotationally moves under the anti-floating steel material, the first plate and the anti-floating steel material that prevents the rolling bearing from floating, and the first A pipe support device comprising a second rolling bearing that is fixed to a plate, moves with the ball, and holds the ball rotatably.

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