JP6157327B2 - Foundation structure of fluid equipment, construction method of foundation structure and installation method of fluid equipment - Google Patents

Description

  The present invention relates to a foundation structure of a fluid device such as a pump device, a construction method of the foundation structure, and a fluid device installation method.

  Conventionally, as this type of foundation structure, for example, there is a foundation structure 100 of a pump device 101 as shown in FIG. The pump device 101 includes a horizontal shaft pump 102 and a driving device 104 that rotationally drives the main shaft 103 of the horizontal shaft pump 102. The horizontal shaft pump 102 and the driving device 104 are supported on a common base plate 105. The base plate 105 is fixed by a plurality of anchor bolts 106. These anchor bolts 106 are erected on a concrete base member 107.

  A self-leveling material 108 is placed on the concrete base member 107. The self-leveling material 108 has a finished self-leveling material 109 on the upper surface and a resin grout material 110 on the lower surface. The base plate 105 is installed on the finished self-leveling material 109. The finishing self-leveling material 109 is a two-component mixed thermosetting resin material in which a main agent mainly composed of an epoxy resin and a curing agent are mixed. The resin grout material 110 is a material in which an aggregate is mixed with a two-component mixed thermosetting resin in which a main component mainly composed of an epoxy resin and a curing agent are mixed.

  According to this, the layer of the solid resin grout material 110 is formed by pouring the liquid resin grout material 110 onto the concrete base member 107 and curing it. Thereafter, a liquid finished self-leveling material 109 is poured onto the resin grout material 110 and cured to form a solid finished self-leveling material 109 layer.

  The basic structure 100 using the self-leveling material 108 having the two-layer structure of the finished self-leveling material 109 and the resin grout material 110 as described above is described in Patent Document 1, for example.

JP 2009-79413 A

  However, in the above-described conventional format, in order to secure the adhesion between the resin grout material 110 and the concrete foundation member 107, the surface of the concrete foundation member 107 is roughened so that the concrete foundation member 107 is not damaged. It is necessary to form the uneven portion 111 on the surface, and there is a problem that such roughing processing requires labor and labor of construction work.

  The present invention relates to a fluid equipment foundation structure, a construction method of the foundation structure, and a fluid equipment installation method, which can reduce the labor and labor of construction work by eliminating the need for roughing the foundation member such as concrete. The purpose is to provide.

In order to achieve the above object, the basic structure of the fluid device in the first invention comprises a base member formed on the floor and a self-leveling material on which the fluid device is installed,
The self-leveling material is provided on the foundation member,
Between the foundation member and the self-leveling material, a plate member is provided in contact with the foundation member,
An adhesive is interposed between the self-leveling material and the plate member.

  According to this, the self-leveling material is not directly provided on a base member such as concrete, but is provided on the plate member via an adhesive. For this reason, the roughening process with respect to a base member becomes unnecessary, and the effort and labor of construction work can be reduced.

In the fluid device foundation structure according to the second aspect of the invention, the anchor bolt for fixing the fluid device is fixed to the foundation member,
The plate member is for positioning the anchor bolt.

  According to this, the plate member for adhering to the self-leveling material via the adhesive can be used as a template for positioning the anchor bolt. For this reason, the man-hour for positioning and attaching the anchor bolt can be reduced.

In the basic structure of the fluid device according to the third aspect of the invention, the self-leveling material contains an epoxy resin.
The basic structure of the fluid device according to the fourth aspect of the invention is such that the self-leveling material is composed of a finished self-leveling material on the upper surface and a ground resin grout material on the lower surface.
An adhesive is interposed between the base resin grout material and the plate member.

The basic structure of the fluid device according to the fifth aspect of the invention is that the finished self-leveling material is an epoxy resin-based thermosetting resin that is liquid at room temperature and is cured using a curing agent,
The base resin grout material is a grout material in which an aggregate is mixed with an epoxy-based resin composed of a liquid main agent and a curing agent at room temperature.

The foundation structure of the fluid device according to the sixth aspect of the present invention is such that the plate member is provided with a positioning member that positions the plate member with respect to the mold provided during the construction of the foundation structure.
According to this, at the time of construction of the foundation structure, when the plate member is provided on the floor and the plate member is installed in the mold frame, the plate member is positioned with respect to the mold frame by the positioning member. It can be installed at a precise position within the frame.

The basic structure of the fluid device according to the seventh aspect of the present invention is that the fluid device has a device body, and a protective plate interposed between the device body and the self-leveling material,
The protective plate is fixed with anchor bolts,
The device main body is detachably connected to the protective plate.

  According to this, since the device body of the fluid device can be detached from the protection plate while the protection plate is fixed to the self-leveling material, the lower end portion of the device body is Contact with the self-leveling material can be prevented, and the upper surface of the self-leveling material can be prevented from being damaged.

The basic structure of the fluid device according to the eighth aspect of the present invention is such that the level of the upper surface of the self-leveling material is 0.05 mm or less per meter.
According to this, since the level of the upper surface of the self-leveling material is 0.05 mm or less per meter, it is not necessary to adjust the level (levelness) when installing the fluid device on the upper surface of the self-leveling material. Generation of noise can be suppressed.

The basic structure of the fluid device according to the ninth aspect of the present invention is such that the fluid device has a horizontal axis pump and a drive device that rotationally drives the horizontal axis pump.
The horizontal axis pump and the driving device are installed on the self-leveling material without using a common base plate.

According to this, since a common base plate is not required, it is not necessary to manufacture the base plate, and the load applied to the self-leveling material is reduced, thereby reducing the cost.
In the basic structure of the fluid device according to the tenth invention, the fluid device is a vertical shaft pump,
The vertical pump is installed on a self-leveling material.

This eliminates the need for a base plate (sole plate) on which the vertical shaft pump is placed, making it unnecessary to manufacture the base plate and reducing the number of steps for installing the base plate.
In the basic structure of the fluid device according to the eleventh aspect of the invention, the adhesive is an epoxy adhesive composed of a liquid main agent and a curing agent at room temperature.

The twelfth aspect of the present invention is a construction method of a foundation structure for installing a fluid device,
In the formwork, a plate member and an anchor bolt positioned by the plate member are installed,
In the mold, the foundation member is driven according to the height of the plate member, and the upper surface of the plate member is exposed on the surface of the foundation member.
Adhesive is attached to the upper surface of the plate member,
Pour a liquid base resin grout material into the mold and cure it, and form a solid base resin grout material layer on the plate member to which the adhesive has adhered,
A liquid finished self-leveling material is poured onto the layer of the base resin grout material in the mold and cured to form a finished self-leveling material layer, and then the mold is removed.

The thirteenth invention is an installation method for installing a fluid device on the foundation structure described in the seventh invention,
Install the protective plate on the self-leveling material and fix it with anchor bolts.
The device body of the fluid device is installed on the protective plate.

  As described above, according to the present invention, the self-leveling material is not provided on a base member such as concrete, but is provided on the plate member via an adhesive. For this reason, the roughening process with respect to a base member becomes unnecessary, and the effort and labor of installation work can be reduced.

It is a longitudinal cross-sectional view of the foundation structure in the 1st Embodiment of this invention. It is a longitudinal cross-sectional view which shows the construction method of a foundation structure, and shows a mode that the plate member and the anchor bolt were installed in the formwork. FIG. 3 is an XX arrow view in FIG. 2. It is a longitudinal cross-sectional view which shows the construction method of a foundation structure, and shows a mode that foundation concrete was laid in a formwork. It is a longitudinal cross-sectional view which shows the construction method of a foundation structure, and shows a mode that the layer of the self-leveling material was formed in the formwork. It is a longitudinal cross-sectional view of the foundation structure in the 2nd Embodiment of this invention. It is a longitudinal cross-sectional view which shows the construction method of a foundation structure, and shows a mode that the plate member and the anchor bolt were installed in the formwork. It is a XX arrow line view in FIG. It is a longitudinal cross-sectional view which shows the construction method of a foundation structure, and shows a mode that foundation concrete was laid in a formwork. It is a longitudinal cross-sectional view which shows the construction method of a foundation structure, and shows a mode that the layer of the self-leveling material was formed in the formwork. It is an expanded longitudinal cross-sectional view of the installation part of the foundation structure and pump in the 3rd Embodiment of this invention. It is a longitudinal cross-sectional view which shows the construction method of the foundation structure in the 4th Embodiment of this invention, and shows a mode that the plate member and the anchor bolt were installed in the formwork. It is a longitudinal cross-sectional view which shows the construction method of the foundation structure in the 5th Embodiment of this invention, and shows a mode that the plate member and the anchor bolt were installed in the formwork. It is a longitudinal cross-sectional view which shows the construction method of the foundation structure in the 6th Embodiment of this invention, and shows a mode that the plate member and the anchor bolt were installed in the formwork. It is a top view of the board member of the foundation structure in a 7th embodiment of the present invention. It is a longitudinal cross-sectional view of the conventional foundation structure.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
In the first embodiment, as shown in FIG. 1, reference numeral 1 denotes a horizontal axis pump device which is an example of a fluid device. The horizontal shaft pump device 1 includes a double suction centrifugal pump 2 (an example of a horizontal shaft pump) and a rotary drive device 4 that rotationally drives a main shaft 3 of the double suction centrifugal pump 2. The rotational drive device 4 includes a drive unit 5 such as an electric motor and a spacer unit 6 provided at the lower part of the drive unit 5. Further, a shim 7 for adjusting the height of the drive unit 5 is provided between the drive unit 5 and the spacer unit 6.

  Reference numeral 11 denotes a foundation structure on which the horizontal axis pump device 1 is installed. The foundation structure 11 includes a foundation concrete 13 (an example of a foundation member) formed on an existing concrete floor 12 and a horizontal axis pump device 1. Has a self-leveling material 14, a plurality of anchor bolts 15 for fixing the horizontal shaft pump device 1, and a plate member 16 provided between the foundation concrete 13 and the self-leveling material 14.

  Cinder concrete 19 (lightweight concrete) is provided on the upper surface of the floor 12. Further, the self-leveling material 14 is provided on the foundation concrete 13. The plate member 16 is provided between the foundation concrete 13 and the self-leveling material 14 and is on the upper surface of the foundation concrete 13. The upper surface of the plate member 16 may be flush with the upper surface of the foundation concrete 13, or may be slightly lower than the upper surface of the foundation concrete 13 and have a step. Providing such a step makes it possible to prevent the foundation concrete 13 from being applied to the upper surface of the plate member 16 and to prevent air from being generated on the lower surface of the plate member 16. is there.

The anchor bolt 15 is positioned by the plate member 16 and fixed to the foundation concrete 13.
2 and 3, the plate member 16 is a metal square plate such as a steel plate, and a plurality of bolt insertion holes 21 are formed therein. Moreover, the opening part 22 is formed in the center part of the board member 16, and the foundation concrete 13 can be poured from the opening part 22. FIG. A nut 24 is fixed to the same position as the bolt insertion hole 21 on the lower surface side of the plate member 16. The anchor bolt 15 is inserted into the bolt insertion hole 21 while being screwed into the nut 24, and the length of the embedding and the exit surface is adjusted and supported by the plate member 16.

In addition, a plurality of flat plate-like positioning members 17 for positioning the plate member 16 with respect to the mold 35 provided when the foundation structure 11 is constructed are provided at the edge of the plate member 16.
As shown in FIG. 1, the foundation concrete 13 is placed from the floor 12 to the same height as the plate member 16. In detail, the foundation concrete 13 is placed up to a height at which the upper surface thereof is located between the upper surface and the lower surface of the plate member 16. As shown in FIGS. 1 to 3, a plurality of foundation reinforcing bars 26 and differential reinforcement anchors 27 are provided in the foundation concrete 13. These basic reinforcing bars 26 are arranged below the plate member 16 in a lattice pattern that intersects the front, rear, left and right, and are fixed to the floor 12. Note that the lower end portion of the anchor bolt 15 may be engaged with the basic reinforcing bar 26 or may be separated from the basic reinforcing bar 26.

  Further, the differential anchor 27 is fixed to the floor 12 below the plate member 16 and welded to the lower part of the anchor bolt 15. The differential bar anchor 27 may be fastened to the anchor bolt 15 not by welding but by a wire or the like.

As shown in FIG. 1, the self-leveling material 14 has an upper and lower two-layer structure in which the upper surface side is a finished self-leveling material 28 and the lower surface side is a base resin grout material 29.
An adhesive 30 is interposed between the base resin grout material 29 of the self-leveling material 14 and the plate member 16, and the base resin grout material 29 is fixed to the plate member 16 via the adhesive 30.

  The finished self-leveling material 28 is a two-component mixed thermosetting resin in which a main component mainly composed of an epoxy resin and a curing agent mainly composed of an aliphatic polyamine are mixed. To cure.

  The base resin grout material 29 is a material in which an aggregate is blended with a two-component mixed thermosetting resin in which a main component mainly composed of an epoxy resin and a curing agent mainly composed of an aliphatic polyamine are mixed. Yes, it is liquid at room temperature and hardens when mixed with a curing agent.

  The adhesive 30 is a two-component mixed thermosetting resin that is a mixture of a main component mainly composed of an epoxy resin and a curing agent mainly composed of an aliphatic polyamine. The adhesive 30 is liquid at room temperature and is cured by the curing agent. To do.

  The horizontal axis pump device 1 is installed on the finished self-leveling material 28 and is fixed by anchor bolts 15 and nuts 32. That is, both the suction vortex pump 2 and the rotary drive device 4 are installed directly on the common self-leveling material 14 without using a common base plate.

Hereinafter, the construction method of the foundation structure 11 will be described.
First, as shown in FIGS. 2 and 3, the cinder concrete 19 at the installation location where the horizontal shaft pump device 1 is installed is peeled off, and a square frame-shaped mold 35 is installed on the cinder concrete 19. The basic reinforcing bar 26 and the differential bar anchor 27 are arranged on the floor 12, and the plate member 16 and the anchor bolt 15 positioned by the plate member 16 are installed in the mold 35. At this time, the anchor bolt 15 is inserted into the bolt insertion hole 21 of the plate member 16, held by the plate member 16 with a pair of upper and lower nuts 23, 24, and angle-shaped provided at the four corners in the mold 35. The plate member 16 is supported by the support member 36.

  Instead of holding the anchor bolt 15 with a pair of upper and lower nuts 23, 24, the upper nut 23 may not be used, and the lower nut 24 may be welded to the plate member 16 to hold the anchor bolt 15. .

  The plate member 16 is not displaced in the front-rear and left-right directions by the tip of each positioning member 17 abutting on the inner surface of the mold 35, and is positioned at a predetermined installation position in the mold 35 by the positioning member 17. Is done. Each anchor bolt 15 is positioned at a predetermined installation position in the mold 35 by the plate member 16. Thereby, the plate member 16 and the anchor bolt 15 can be installed at an accurate position in the mold 35 in the horizontal direction and the height direction. Note that the positioning member 17 and the support member 36 can also be used together.

Thereafter, the anchor bolt 15 and the differential anchor 27 are welded.
Next, as shown in FIG. 4, the basic concrete 13 is poured into the mold 35 from the opening 22 (see FIG. 3) of the plate member 16, and the basic concrete 13 is placed to the same height as the plate member 16. At this time, the plate member 16 has its upper surface exposed so that the foundation concrete 13 is not covered. Thereafter, the upper nut 23 is removed from the anchor bolt 15.

  A curing agent is mixed with the main agent of the adhesive 30, and the mixed liquid adhesive 30 is applied to the upper surface of the plate member 16 from which the dirt is removed, and the adhesive 30 is cured. After the adhesive 30 is cured, the curing agent is mixed with the main component of the base resin grout material 29, the mixed liquid base resin grout material 29 is poured into the mold 35, and the base resin grout material 29 is cured. As shown in FIG. 5, a layer of a solid base resin grout material 29 is formed on the plate member 16.

  Next, a curing agent is mixed with the main agent of the finished self-leveling material 28, the mixed liquid finished self-leveling material 28 is poured into the mold 35, the finished self-leveling material 28 is cured, and the base resin grout material 29 is mixed. A layer of solid finished self-leveling material 28 is formed on this layer.

  Then, the foundation structure 11 is formed by removing the formwork 35. Thereafter, as shown in FIG. 1, the suction pump 2 and the rotary drive device 4 are installed on the layer of the finished self-leveling material 28 and fixed with the anchor bolts 15, so that the horizontal shaft pump device 1 is the basis. Installed on the structure 11.

  According to this, the layer of the ground resin grout material 29 that has been hardened and solidified is not fixed to the basic concrete 13, but via the adhesive 30 that has an adhesive strength to the concrete or metal. It is fixed to the member 16. Thereby, the roughening process with respect to the foundation concrete 13 becomes unnecessary, and the effort and labor of construction work can be reduced. That is, the plate member 16 and the adhesive 30 produce the effect of improving the adhesiveness as in the roughening process for the basic concrete 13.

  Further, since the plate member 16 can be used as a template for determining the installation position of the anchor bolt 15, the number of steps for positioning and mounting the anchor bolt 15 can be reduced, and the number of parts can be reduced. is there.

  Moreover, since both the suction vortex pump 2 and the rotation drive device 4 are installed directly on the common self-leveling material 14, a common base plate for both the suction vortex pump 2 and the rotation drive device 4 is not necessary. Further, it becomes unnecessary to manufacture a base plate, and the load applied to the self-leveling material 14 is reduced in weight, so that the cost can be reduced.

  Further, the level of the upper surface of the finished self-leveling material 28 of the foundation structure 11 formed by the above construction method is 0.05 mm or less per meter (that is, the inclination of 0.05 mm or less in the vertical direction with respect to 1 m in the horizontal direction). ) Can be kept. Thereby, when the horizontal axis pump device 1 is installed on the upper surface of the finished self-leveling material 28 of the self-leveling material 14, it is not necessary to adjust the level (levelness). In addition, since the levelness is 0.05 mm or less per meter, vibration of the horizontal shaft pump device 1 and generation of noise can be suppressed.

In the first embodiment, the two-suction centrifugal pump 2 is described as an example of the horizontal-axis pump, but other types of horizontal-axis pumps such as a single-suction centrifugal pump and a vacuum pump may be used.
In the first embodiment, as shown in FIG. 1, the horizontal shaft pump device 1 having both the suction centrifugal pump 2 and the rotary drive device 4 is described. However, a device such as a flywheel device or a clutch is used for both suction. It may be installed on the self-leveling material 14 so as to be interposed between the centrifugal pump 2 and the rotary drive device 4.
(Second Embodiment)
In the first embodiment, as shown in FIG. 1, the horizontal axis pump device 1 is described as an example of the fluid device. However, in the following second embodiment, as shown in FIG. 6, A vertical shaft pump device 51 will be described as another example of the fluid device.

  Reference numeral 52 denotes a foundation structure on which the vertical shaft pump device 51 is installed. The foundation structure 52 is provided with the basic concrete 13 (an example of a foundation member) formed on the existing concrete floor 12 and the vertical shaft pump device 51. The self-leveling material 14, the plurality of anchor bolts 15 that fix the vertical shaft pump device 51, and the plate member 16 that determines the installation position of the anchor bolts 15 are provided. The anchor bolt 15 is positioned by the plate member 16 and fixed to the foundation concrete 13 (an example of the foundation member).

  7 and 8, the plate member 16 is a metal annular plate such as a steel plate, and a plurality of bolt insertion holes 21 are formed therein. A nut 24 is attached to the lower surface of the plate member 16 at the same position as the bolt insertion hole 21. The anchor bolt 15 is inserted into the bolt insertion hole 21 while being screwed into the nut 24.

  As shown in FIG. 6, the foundation concrete 13 is placed from the existing concrete floor 12 to the same height as the plate member 16. In detail, the foundation concrete 13 is placed up to a height at which the upper surface thereof is located between the upper surface and the lower surface of the plate member 16. An opening 53 is formed in the floor 12, the foundation concrete 13, and the self-leveling material 14, and the vertical shaft pump device 51 is installed through the opening 53. The suction port (not shown) of the vertical shaft pump device 51 is located below the floor 12, and the discharge part 54 is located above the floor 12. A cinder concrete 19 (lightweight concrete) is provided on the upper surface of the floor 12. In the foundation concrete 13, a plurality of foundation reinforcing bars 26 and differential reinforcement anchors 27 are provided.

  The self-leveling material 14 has an upper and lower two-layer structure composed of a finished self-leveling material 28 and a base resin grout material 29. An adhesive 30 is interposed between the base resin grout material 29 and the plate member 16, and the base resin grout material 29 is fixed to the plate member 16 via the adhesive 30.

The vertical pump device 51 is installed directly on the finished self-leveling material 28 and is fixed by the anchor bolt 15 and the nut 32.
Hereinafter, the construction method of the foundation structure 52 will be described.

  First, as shown in FIGS. 7 and 8, the cinder concrete 19 at the installation location where the vertical shaft pump device 51 is installed is peeled off, and the base rebar 26 is disposed on the floor 12 and the annular mold 35 is installed. The mold frame 35 includes an inner peripheral frame 35a inserted into the opening 53 and an outer peripheral frame 35b disposed opposite to the radially outer side than the inner peripheral frame 35a. The difference bar anchor 27 is disposed on the floor 12, and the plate member 16 and the anchor bolt 15 positioned in the plane direction by the plate member 16 are installed in the mold 35. At this time, the anchor bolt 15 is inserted into the bolt insertion hole 21 of the plate member 16, the height of the anchor bolt 15 is adjusted, and the anchor bolt 15 is held on the plate member 16 by a pair of upper and lower nuts 23, 24. Further, the plate member 16 is supported by a projecting support member 36 provided on the inner peripheral frame 35a.

Thereby, each anchor bolt 15 is positioned at a predetermined installation position in the mold 35 by the plate member 16. Thereafter, the anchor bolt 15 and the differential anchor 27 are welded.
Next, as shown in FIG. 9, the foundation concrete 13 is poured into the mold 35, and the foundation concrete 13 is placed to the same height as the plate member 16. At this time, the plate member 16 exposes the upper surface so that the foundation concrete 13 is not covered. Thereafter, the upper nut 23 is removed from the anchor bolt 15.

  A curing agent is mixed with the main agent of the adhesive 30, and the mixed liquid adhesive 30 is applied to the upper surface of the plate member 16 from which the dirt is removed, and the adhesive 30 is cured. After the adhesive 30 is cured, the curing agent is mixed with the main component of the base resin grout material 29, the mixed liquid base resin grout material 29 is poured into the mold 35, and the base resin grout material 29 is cured. As shown in FIG. 10, a layer of a solid base resin grout material 29 is formed on the plate member 16.

  Next, a curing agent is mixed with the main agent of the finished self-leveling material 28, the mixed liquid finished self-leveling material 28 is poured into the mold 35, the finished self-leveling material 28 is cured, and the base resin grout material 29 is mixed. A layer of solid finished self-leveling material 28 is formed on this layer. After that, as shown in FIG. 6, the formwork 35 is removed, and the vertical shaft pump device 51 is installed on the layer of the finished self-leveling material 28 and fixed with the anchor bolt 15.

  According to this, the layer of the ground resin grout material 29 that has been hardened and solidified is not fixed to the basic concrete 13, but via the adhesive 30 that has an adhesive strength to the concrete or metal. It is fixed to the member 16. Thereby, the roughening process with respect to the foundation concrete 13 becomes unnecessary, and the effort and labor of construction work can be reduced. That is, the plate member 16 and the adhesive 30 produce the effect of improving the adhesiveness as in the roughening process for the basic concrete 13.

  Further, since the plate member 16 can be used as a template for determining the installation position of the anchor bolt 15, the number of steps for positioning and mounting the anchor bolt 15 can be reduced, and the number of parts can be reduced. is there.

  Further, since the vertical shaft pump device 51 can be installed and installed directly on the finished self-leveling material 28, the base plate (sole plate) usually disposed on the upper surface of the foundation concrete 13 for mounting the vertical shaft pump device 51 is provided. ) Is not required, and it is not necessary to manufacture the base plate, and the number of steps for installing the base plate can be reduced.

(Third embodiment)
In the third embodiment, as shown in FIG. 11, both suction centrifugal pumps 2 include a plurality of pump bodies 60 (an example of an apparatus body), and a plurality of intervening pump bodies 60 and a finished self-leveling material 28. And a protective plate 61. The leg 63 of the pump casing 62 of the pump body 60 is installed on the protection plate 61.

Note that the device main body includes not only the pump main body 60 but also all of the devices (for example, a drive device) necessary as a fluid device.
The protection plate 61 is installed on the finished self-leveling material 28 of the self-leveling material 14 and is fixed by the anchor bolt 15 and the nut 32. Moreover, the leg part 63 of the pump main body 60 is detachably connected to the protection plate 61 by a bolt 65.

Hereinafter, the operation of the above configuration will be described.
The protective plate 61 is installed on the finished self-leveling material 28 and fastened to the anchor bolt 15 with the nut 32. Thereafter, the pump body 60 is installed on the protection plate 61, and the pump body 60 is fastened to the protection plate 61 with bolts 65. As a result, both suction centrifugal pumps 2 are installed on the finished self-leveling material 28.

  Moreover, the leg part 63 of the pump main body 60 can be detached from the protective plate 61 by removing the bolt 65 while the protective plate 61 is fixed on the finished self-leveling material 28 with the anchor bolt 15 and the nut 32. Can do. Thereby, when removing or installing the pump main body 60, it is possible to prevent the legs 63 and the like of the pump main body 60 from coming into contact with the upper surface of the finished self-leveling material 28, and the upper surface of the finished self-leveling material 28 is damaged. Can be prevented.

  When the upper surface of the finished self-leveling material 28 is scratched, the levelness is deteriorated. If the necessary levelness is not satisfied, the upper surface of the finished self-leveling material 28 needs to be repaired. That is, by using the protective plate 61, even when the pump body 60 is installed or removed, the top surface of the finished self-leveling material 28 is not damaged, and the levelness can be maintained. The top surface need not be repaired.

  The protective plate 61 as described above may be interposed between the rotary drive device 4 and the finished self-leveling material 28 in the first embodiment, or the vertical shaft pump device in the second embodiment. 51 and the finished self-leveling material 28 may be interposed.

  Further, the number of protection plates 61 may be provided as many as the number of legs 63 of the pump body 60, or a common protection plate 61 may be provided for the plurality of legs 63, and the number of protection plates 61 may be set to the number of pump bodies. The number may be less than the number of 60 leg portions 63.

(Fourth embodiment)
In the construction method of the foundation structure 11 described in the first embodiment, as shown in FIG. 2, support members 36 are provided at four corners in the mold 35, and the plate members 16 are supported by these support members 36. However, as a fourth embodiment, as shown in FIG. 12, downward support plates 71 are provided at a plurality of positions on the edge of the plate member 16, and these support plates 71 are attached to the mold frame 35 with bolts 72. You may connect so that attachment or detachment is possible.

  In the configuration shown in FIG. 12, the support plate 71 contacts the inner surface of the mold 35 and there is no gap between the support plate 71 and the inner surface of the mold 35, but the support plate 71 and the mold It is also possible to move the position of the plate member 16 in the horizontal direction by forming an adjustment gap between the inner surface of the plate 35 and adjusting the screwing amount of the bolt 72. Thereby, the position of the plate member 16 can be easily adjusted in the horizontal direction.

(Fifth embodiment)
In the first embodiment, as shown in FIG. 2, the edge portion of the plate member 16 is supported by the angle-shaped support member 36, but as a fifth embodiment, as shown in FIG. 13. In addition, a plurality of channel-shaped support members 74 may be provided on the floor 12 and the plate member 16 may be supported by the support members 74 from below. In this case, although the angle-shaped support member 36 is provided in FIG. 13, it may be omitted.

(Sixth embodiment)
In the second embodiment, as shown in FIG. 7, the inner peripheral portion of the plate member 16 is supported by the support member 36, but as the sixth embodiment, as shown in FIG. 12, a plurality of channel-shaped support members 74 may be provided, and the outer peripheral portion of the plate member 16 may be supported by the support members 74 from below. In this case, although the protrusion-like support member 36 is provided in FIG. 14, it may be omitted.

(Seventh embodiment)
In the second embodiment, as shown in FIG. 8, the plate member 16 has a plurality of projecting portions 16a projecting radially outward on the outer peripheral portion, and bolt insertion holes are formed in these projecting portions 16a. 21, but as a seventh embodiment, as shown in FIG. 15, the protrusion 16 a is not formed on the plate member 16, and the outer periphery of the plate member 16 is formed in a circular shape. Good.

  In each of the above embodiments, the horizontal shaft pump device 1 or the vertical shaft pump device 51 is given as an example of the fluid device. However, a pump device other than these types may be used, or a fluid device other than the pump device ( For example, an air blower or the like may be used.

  In the above-described embodiment, as shown in FIG. 1, the two suction vortex pump 2 and the rotary drive device 4 that are fluid devices are installed on a common self-leveling material 14. The driving device 4 may be installed on an individual self-leveling material 14. However, when installing on individual self-leveling material 14, there is a possibility that the height of each self-leveling material 14 may be shifted, so that the configuration on the common self-leveling material 14 is preferable. I can say that.

In the said embodiment, although the spacer part 6 is steel, you may manufacture with a self-leveling material.
In the above embodiment, as shown in FIGS. 2 and 7, the cinder concrete 19 is peeled from the floor 12 to construct the foundation structures 11 and 52, but the cinder concrete 19 is not peeled off and the foundation structure is removed. 11, 52 may be constructed, or the foundation structures 11, 52 may be constructed on the floor 12 where the cinder concrete 19 is not formed.

1 Horizontal axis pump device (fluid equipment)
2 Double suction centrifugal pump (horizontal shaft pump)
4 Rotation drive device (drive device)
11,52 foundation structure 12 floor 13 foundation concrete (foundation member)
14 Self-leveling material 15 Anchor bolt 16 Plate member 17 Positioning member 28 Finishing self-leveling material 29 Base resin grout material 30 Adhesive 35 Mold 51 Vertical shaft pump device (fluid equipment)
60 Pump body (equipment body)
61 Protection plate

Claims (13)

It consists of a base member formed on the floor and a self-leveling material on which fluid equipment is installed,
The self-leveling material is provided on the foundation member,
Between the foundation member and the self-leveling material, a plate member is provided in contact with the foundation member,
A fluidic device basic structure, wherein an adhesive is interposed between a self-leveling material and a plate member. The anchor bolt that fixes the fluid device is fixed to the foundation member,
The base member of the fluid device according to claim 1, wherein the plate member positions an anchor bolt. The basic structure of the fluid device according to claim 1, wherein the self-leveling material contains an epoxy-based resin. The self-leveling material is composed of a finished self-leveling material on the upper surface and a ground resin grout material on the lower surface.
The fluid device foundation structure according to any one of claims 1 to 3, wherein an adhesive is interposed between the base resin grout material and the plate member. Finishing self-leveling material is an epoxy resin-based thermosetting resin that is liquid at room temperature and hardens using a curing agent.
5. The basic structure of a fluid device according to claim 4, wherein the ground resin grout material is a grout material in which an aggregate is mixed with an epoxy resin composed of a liquid main agent and a curing agent at room temperature. 6. The fluid device foundation according to claim 1, wherein the plate member is provided with a positioning member for positioning the plate member with respect to the mold provided at the time of construction of the foundation structure. Structure. The fluid device has a device main body, and a protective plate interposed between the device main body and the self-leveling material,
The protective plate is fixed with anchor bolts,
The fluid device foundation structure according to any one of claims 1 to 6, wherein the device main body is detachably connected to the protective plate. The foundation structure of the fluid device according to any one of claims 1 to 7, wherein the levelness of the upper surface of the self-leveling material is 0.05 mm or less per meter. The fluid device includes a horizontal axis pump and a drive device that rotationally drives the horizontal axis pump.
The fluid apparatus according to any one of claims 1 to 8, wherein the horizontal shaft pump and the drive device are installed on a self-leveling material without using a common base plate. Foundation structure. The fluid equipment is a vertical shaft pump,
The vertical structure pump according to any one of claims 1 to 6 and 8, wherein the vertical shaft pump is installed on a self-leveling material. The fluidic device basic structure according to any one of claims 1 to 10, wherein the adhesive is an epoxy adhesive composed of a liquid main agent and a curing agent at room temperature. A construction method of a foundation structure for installing fluid equipment,
In the formwork, a plate member and an anchor bolt positioned by the plate member are installed,
In the mold, the foundation member is driven according to the height of the plate member, and the upper surface of the plate member is exposed on the surface of the foundation member.
Adhesive is attached to the upper surface of the plate member,
Pour a liquid base resin grout material into the mold and cure it, and form a solid base resin grout material layer on the plate member to which the adhesive has adhered,
A foundation structure characterized by pouring a liquid finish self-leveling material on the base resin grout material layer in the mold to cure it, forming a finish self-leveling material layer, and then removing the mold Body construction method. An installation method for installing a fluid device on the foundation structure according to claim 7,
Install the protective plate on the self-leveling material and fix it with anchor bolts.
An installation method for a fluid device, wherein the device body of the fluid device is installed on a protective plate.

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