JP2019163723A - Pump system comprising corridor for inspection - Google Patents

Abstract

To provide a pump system that allows a worker to get access to a connecting shaft quickly and easily.SOLUTION: A pump system comprises: a vertical shaft pump 20 supported by a pump installation floor 2; a pump driver 12 installed on a driver installation floor 6 arranged above the pump installation floor 2; a connecting shaft 15 connecting the vertical shaft pump 20 and the pump driver 12; a frame 13 fixed to the driver installation floor 6, and to which at least a portion of the pump driver 12 is fixed; and a suspended type corridor 60 arranged below the frame 13.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a pump system equipped with an inspection corridor, and in particular, improves the workability (assembly / disassembly) of a flood control pump that performs emergency drainage and the like, and in an emergency (an unexpected situation such as an earthquake). The present invention relates to a highly reliable pump system that improves the ease of restoration in the factory.

  Large pumps are often used for flood control (river drainage) and public sewer pumps from the standpoint of startability. Further, in order to protect human life and infrastructure, an internal combustion engine (such as a diesel engine) that can operate the pump even when power is lost is generally used for such a pump drive machine.

  Since no pump spare equipment is installed in the pump facility, it is required to be a reliable pump facility that does not cause a failure, and in the event of a failure or disaster (earthquake, etc.), an immediate inspection is performed. It is also important that damaged parts can be replaced. From such a point of view, a pump that can be easily maintained (inspected, replaced, etc.) and a structure that can adjust the inclination of the pump when an uneven subsidence occurs due to an earthquake or the like have been proposed (Patent Document 1). , 2).

JP 2007-285253 A JP 2004-108316 A

  When the uneven settlement due to an earthquake or the like occurs, the connecting shaft connecting the pump and the pump drive may be misaligned. If the pump is operated in the presence of misalignment, the pump may vibrate greatly and the pump may break down. Therefore, when an actual disaster occurs, it is necessary to check not only the state of each device alone but also the misalignment of the connecting shaft that connects the pump and the pump drive machine.

  However, in a large-scale pump facility for infrastructure, the connecting shaft is located higher than the installation floor of the pump, and the connecting shaft is also large (long), so a large scaffold is assembled to check the connecting shaft. It took a lot of effort and time. Since delays in the start of pump operation lead to inundation damage, it is very important for pump equipment to conduct a quick inspection in the event of a disaster.

  Therefore, an object of the present invention is to provide a pump system in which an operator can quickly and easily access a connecting shaft.

  According to one aspect, the vertical shaft pump supported on the pump installation floor, the pump drive device installed on the drive machine installation floor disposed above the pump installation floor, the vertical shaft pump and the pump drive device. Provided is a pump system comprising a connecting shaft to be connected, a base fixed to the drive machine installation floor, at least a part of the pump drive being fixed, and a suspended walkway disposed below the base Is done.

In one mode, the suspension type walkway is suspended from the frame or the drive machine installation floor by a suspension member.
In one aspect, the connecting shaft extends through the suspended walkway.
In one aspect, the pump system further comprises a coupling cover disposed between the gantry and the suspended walkway. The coupling cover is disposed so as to surround the connecting shaft.
In one aspect, the pump system further comprises a climbing assist device that extends from the drive machine installation floor to the suspended gallery.

In one aspect, the pump system further comprises a hook fixed to the lower surface of the gantry.
In one aspect, the pump system further comprises a rail fixed to the lower surface of the gantry.
In one aspect, the suspended walkway has a notch having a width larger than the diameter of the connecting shaft, and the connecting shaft extends vertically through the notch.
In one aspect, a safety fence is detachably attached to a side surface of the hanging type walkway.
In one aspect, the pump system further includes a flexible pump base that tiltably supports the vertical shaft pump. The vertical shaft pump is supported on the pump installation floor by the flexible pump base.

  A suspension walkway is provided in advance under the pedestal, so workers can move from the drive installation floor to the suspension walkway to safely check and center the connection shaft on the suspension walkway. And can be implemented promptly. As a result, in the event of a disaster such as an earthquake, the vertical shaft pump can be started quickly after the inspection and / or centering operation of the connecting shaft is completed.

It is a mimetic diagram showing one embodiment of a pump system. It is an enlarged view of the suspension type walkway shown in FIG. It is a figure which shows one Embodiment by which the coupling cover was arrange | positioned between the mount frame and the suspension type walkway. It is a figure which shows one Embodiment with which the hook was provided above the suspension type walkway. It is a top view which shows one Embodiment of the suspension type walkway in which the notch was formed. It is a figure explaining the operation | work which moves a connection axis | shaft within a notch and goes out of a hanging type gallery. It is a figure which shows one Embodiment with which the rail was provided above the suspension type walkway. It is a figure which shows the detailed structure of the flexible pump base shown in FIG. It is a figure explaining the operation | work which changes the angle with respect to the pump installation floor of a vertical shaft pump by inserting a shim (a liner or a spacer) in a flexible pump base. It is a figure which shows other embodiment of a hanging type walkway.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic diagram showing an embodiment of a pump system. As shown in FIG. 1, the pump system includes a vertical shaft pump 20 that pumps the liquid in the suction water tank 1 and a pump driver 12 that drives the vertical pump 20. The vertical shaft pump 20 of the present embodiment is a large vertical shaft pump used for flood control (river drainage), public sewerage, and the like, and has a diameter of approximately 1000 mm or more.

  The vertical shaft pump 20 is installed on the pump installation floor 2, and the pump drive machine 12 is installed on the drive machine installation floor 6. The drive machine installation floor 6 is disposed above the pump installation floor 2. The vertical shaft pump 20 and the pump drive machine 12 are connected by a connecting shaft 15. The vertical shaft pump 20 includes a rotary shaft 32 extending in the vertical direction, an impeller 31 fixed to the rotary shaft 32, a pump casing 27 that houses the impeller 31 inside, and a pumping pipe connected to the upper end of the pump casing 27. 28, a discharge curved pipe 30 connected to the upper end of the pumped water pipe 28, and a discharge pipe 34 connected to the discharge-side end of the discharge curved pipe 30.

  The pump casing 27 is suspended in the suction water tank 1 by a pumping pipe 28. The pump casing 27 includes a suction bell mouth 22, an impeller casing 21, and a discharge bowl 24. The upper end of the discharge bowl 24 is connected to the lower end of the pumping pipe 28. The upper end of the impeller casing 21 is connected to the lower end of the discharge bowl 24. The suction bell mouth 22 has a suction port 22 a that opens downward, and the upper end of the suction bell mouth 22 is connected to the lower end of the impeller casing 21. The suction port 22 a is formed at the lower end of the pump casing 27. The impeller 31 is accommodated in the impeller casing 21 and the discharge bowl 24. The discharge pipe 34 is disposed on the downstream side of the pump casing 27.

  The pumping pipe 28 extends downward through the opening 5 formed in the pump installation floor 2 constituting the upper wall of the suction water tank 1. A mounting flange 33 is fixed to the upper end of the pumping pipe 28. The mounting flange 33 is connected to a flexible pump base 35 installed on the pump installation floor 2. The vertical shaft pump 20 is supported on the pump installation floor 2 via a flexible pump base 35. The flexible pump base 35 seals the gap between the vertical pump 20 and the pump installation floor 2 while allowing the vertical pump 20 to tilt to some extent, so that the floor is not flooded even if the water level in the suction water tank 1 rises. This is a watertight pump support device.

  The rotary shaft 32 extends in the vertical direction through the discharge curved pipe 30 and the pumping pipe 28, and the lower end of the rotary shaft 32 is located in the pump casing 27. The rotating shaft 32 is rotatably supported by the outer bearing 45 and the underwater bearing 41. The outer bearing 45 is fixed to the upper part of the discharge curved pipe 30 and supports the upper part of the rotary shaft 32. The underwater bearing 41 is accommodated in the discharge bowl 24 and supports the lower portion of the rotating shaft 32. An inner bowl 25 is disposed inside the discharge bowl 24, and the inner bowl 25 is connected to the discharge bowl 24 by a plurality of guide vanes 37. The underwater bearing 41 is fixed to the inner surface of the inner bowl 25 via a support member 41a. The rotating shaft 32 protrudes upward from the discharge bent tube 30 and extends. An underwater bearing that supports the rotary shaft 32 may be further disposed in the pumping pipe 28.

  The plurality of guide vanes 37 are disposed above (discharge side) the impeller 31. A liquid flow path is formed between the inner surface of the discharge bowl 24 and the outer surface of the inner bowl 25. When the impeller 31 rotates, the liquid in the suction water tank 1 is sucked from the suction port 22 a of the pump casing 27. The liquid is transferred to the discharge pipe 34 through the pump casing 27, the pumping pipe 28, and the discharge bent pipe 30 by the rotation of the impeller 31.

  The drive machine installation floor 6 is located above the pump installation floor 2. The drive shaft 12 a of the pump drive machine 12 extends downward through the insertion hole 8 and the mount 13 formed in the drive machine installation floor 6. The gantry 13 is fixed to the drive machine installation floor 6 so as to close the insertion hole 8. The drive shaft 12 a of the pump drive machine 12 is connected to the rotary shaft 32 via the connection shaft 15. More specifically, one end of the connecting shaft 15 is connected to the drive shaft 12 a of the pump drive machine 12 by the shaft joint 51, and the other end of the connecting shaft 15 is connected to the rotating shaft 32 by the shaft joint 52. The shaft coupling 51 is composed of a universal joint or a flexible joint. The shaft coupling 52 may also be composed of a universal joint or a flexible joint. The rotating shaft 32 and the impeller 31 are configured to be rotated by the pump driver 12.

  The pump drive machine 12 includes a prime mover 11 and a speed reducer 10. The speed reducer 10 is installed on the gantry 13. The speed reducer 10 is connected to the prime mover 11, and the rotating shaft 32 is connected to the speed reducer 10 via the connecting shaft 15. As the prime mover 11, a diesel engine, a gas turbine engine, an electric motor, or the like can be used. In the present embodiment, the drive shaft 12 a of the pump drive machine 12 is an output shaft of the speed reducer 10. One end of the connecting shaft 15 is connected to the output shaft of the speed reducer 10 that is the drive shaft 12 a of the pump drive machine 12 by a shaft coupling 51. The rotating shaft 32 and the impeller 31 are rotated by the prime mover 11 via the speed reducer 10.

  The pump drive machine 12 is installed on the drive machine installation floor 6. Specifically, the prime mover 11 is fixed on the drive machine installation floor 6, and the speed reducer 10 is fixed on the drive machine installation floor 6 via the gantry 13. The pump driver 12 may not have the speed reducer 10. In such a case, the prime mover 11 is fixed to the gantry 13, and the output shaft of the prime mover 11 constituting the drive shaft 12a of the pump drive device 12 is connected to the rotary shaft 32 by the connecting shaft 15 and the shaft couplings 51 and 52. .

  The pump system further includes a suspended walkway 60 disposed below the gantry 13. In the present embodiment, the suspended walkway 60 is suspended from the gantry 13 by a plurality of suspension members 62. The upper end of the suspension member 62 is fixed to the lower surface of the gantry 13, and the lower end of the suspension member 62 is fixed to the suspension type walkway 60. The suspended walkway 60 is horizontally disposed as a whole, and is a quadrangular plate-like member in one example. The suspended walkway 60 is made of steel and has mechanical rigidity that does not deform even when a person gets on it. A part or all of the suspended walkway 60 may have a grating structure. The grating structure can ensure the visibility from the lower side to the upper side or from the upper side to the lower side of the hanging type walkway 60, can improve the workability by lighting, and further reduces the weight of the hanging type walkway 60. Can be

  The gantry 13 is formed with a through hole 65 large enough to allow an operator to pass through. Further, a ladder 70 as a climbing assist device is inserted into the through hole 65. The ladder 70 is fixed to the gantry 13 or the drive machine installation floor 6. The ladder 70 extends from the drive machine installation floor 6 through the through hole 65 to the suspended walkway 60. An operator can easily get down from the drive machine installation floor 6 to the suspended walkway 60 by using the ladder 70 and can easily climb from the suspension walkway 60 to the drive machine installation floor 6. The ladder 70 may be detachably fixed to the gantry 13 or the drive machine installation floor 6 so that the gantry 13 can be easily detached from the drive machine installation floor 6 in the case of an overhaul of the vertical pump 20 or the like. The ladder 70 may be a telescopic ladder. In one embodiment, a staircase may be provided instead of the ladder 70 as the climbing assistance device.

  The connecting shaft 15 extends in the vertical direction through the suspension type walkway 60. A shaft joint 51 (universal joint, flexible joint, etc.) that connects the drive shaft 12a of the pump drive machine 12 and the connection shaft 15 is located between the suspended walkway 60 and the drive machine installation floor 6. Therefore, the worker on the suspension type walkway 60 can inspect the connecting shaft 15 and the shaft coupling 51 and, if necessary, perform operations such as centering work on the suspension type walkway 60.

  FIG. 2 is an enlarged view of the suspended walkway 60 shown in FIG. A plurality of safety fences 75 are fixed to the side surface of the suspended walkway 60. In FIG. 2, only one safety fence 75 is illustrated, but a plurality of safety fences 75 are fixed to the respective side surfaces of the suspension type walkway 60 so as to surround the entire suspension type walkway 60. The safety fence 75 extends upward from each side surface of the suspended walkway 60 and extends from one side of each side surface to the opposite side. The lower end of the safety fence 75 is detachably fixed to the side surface of the suspended walkway 60 with a bolt 76.

  FIG. 3 is a view showing an embodiment in which a coupling cover 80 is disposed between the gantry 13 and the suspended walkway 60. The configuration of the present embodiment that is not specifically described is the same as the configuration described with reference to FIGS. 1 and 2, and thus redundant description thereof is omitted. In the present embodiment, the coupling cover 80 is detachably fixed to the upper surface of the suspended walkway 60 with a bolt (not shown). In one embodiment, the coupling cover 80 may be detachably fixed to the lower surface of the gantry 13 with a bolt (not shown).

  The coupling cover 80 is a hollow member having a vertically divided structure. The coupling cover 80 is disposed so as to surround the connecting shaft 15. More specifically, the coupling cover 80 is disposed so as to surround at least the shaft coupling 51 that connects the drive shaft 12 a of the pump drive machine 12 and the connection shaft 15. In the present embodiment, the coupling cover 80 has a cylindrical shape, but may have other shapes as long as the shaft coupling 51 can be surrounded.

  The coupling cover 80 has a plurality of openings 81 so that a worker on the suspension type walkway 60 can observe the inside of the coupling cover 80. The coupling cover 80 may be configured from a mesh member. The coupling cover 80 can prevent an operator from coming into contact with the rotating connecting shaft 15 and the shaft coupling 51, and contributes to an improvement in work safety. Since the coupling cover 80 has a plurality of openings 81, an operator can safely perform an inspection operation. When carrying out the centering operation, the worker can access the shaft coupling 51 and the connecting shaft 15 by removing the coupling cover 80 from the suspension type walkway 60. In particular, since the coupling cover 80 has a vertically divided structure, the coupling cover 80 can be easily separated from the connecting shaft 15.

  FIG. 4 is a view showing an embodiment in which a hook 85 is provided above the suspended walkway 60. The configuration of the present embodiment that is not specifically described is the same as the configuration described with reference to FIGS. 1 and 2, and thus redundant description thereof is omitted. In the present embodiment, a hook 85 is fixed to the lower surface of the gantry 13. In the present embodiment, a plurality of hooks 85 are provided, but one hook 85 may be used. The hook 85 is used to attach a chain block (not shown) and hold and suspend the connecting shaft 15 when the core of the connecting shaft 15 is adjusted or removed.

  When it is confirmed by inspection that the misalignment between the drive shaft 12a of the pump drive machine 12 and the connecting shaft 15 exceeds the allowable value, it is necessary to remove the connecting shaft 15 and perform the centering operation. . Since the connecting shaft 15 has a considerable weight, in the conventional work, the reduction gear 10 must be removed and the connecting shaft 15 must be lifted by a crane. According to this embodiment, a simple lifting device such as a chain block can be attached to the hook 85, and the connecting shaft 15 can be supported by this lifting device. Therefore, it is not necessary to remove the speed reducer 10, and the centering operation can be completed promptly.

  FIG. 5 is a top view showing an embodiment of a suspended walkway 60 in which a notch 90 is formed. The configuration of the present embodiment that is not particularly described is the same as the configuration described with reference to FIG. The notch 90 is a slit that extends from the side surface of the suspension-type gallery 60 to the center, and the inner end of the notch 90 is located at the center of the suspension-type gallery 60. The notch 90 has a width larger than the diameter of the connecting shaft 15. The connecting shaft 15 extends vertically through the notch 90. A safety lid 91 is disposed outside the connecting shaft 15, and the safety lid 91 covers the outer region of the notch 90. The safety lid 91 is detachably attached to the suspended walkway 60 with a bolt 93.

  When unloading the connecting shaft 15 for repair or the like, the connecting shaft 15 can be detached from the suspended walkway 60 as follows. First, the bolt 93 is removed, and the safety lid 91 is removed from the suspended walkway 60. Further, the safety fence 75 fixed to the side surface where the notch 90 is formed is removed from the hanging type walkway 60. The safety fence 75 can be removed from the suspended walkway 60 by removing the bolt 76 shown in FIG. Then, after attaching a lifting device such as a chain block to the hook 85 and supporting the connecting shaft 15 with the lifting device, the shaft couplings 51 and 52 are removed, and the connecting shaft 15 is cut into the notch 90 as shown in FIG. And move it out of the hanging corridor 60. Thereafter, the connecting shaft 15 is lowered to the pump installation floor 2 by a lifting device. According to this embodiment, it is possible to carry out the connecting shaft 15 without removing the reduction gear 10. Therefore, repair can be performed quickly and the reliability of the pump system is improved.

  In FIG. 4, the device for attaching the lifting device is the hook 85. However, in order to make the movement (detachment) of the connecting shaft 15 within the notch 90 easier as described above, as shown in FIG. Instead of 85, a rail 86 on which the lifting equipment can be movably attached may be provided on the gantry 13. FIG. 7 shows a cross section of the rail 86. The shape of the rail 86 is not particularly limited as long as a lifting device can be attached. The rail 86 is fixed to the lower surface of the gantry 13 and extends parallel to the longitudinal direction of the notch 90 shown in FIGS. 5 and 6. According to the embodiment shown in FIG. 7, a lifting device such as a chain block is movably attached to the rail 86, and the lifting device with the connecting shaft 15 suspended is moved along the rail 86. Can be moved within the notch 90 and easily taken out of the suspended walkway 60. In the present embodiment, a plurality of rails 86 are provided, but one rail 86 may be used.

  FIG. 8 is a diagram showing a detailed structure of the flexible pump base 35 shown in FIG. The flexible pump base 35 includes an annular movable base 101 fixed to the mounting flange 33 of the vertical shaft pump 20, an annular fixed base 102 fixed to the pump installation floor 2, and the movable base 101 and the fixed base 102. And an elastic ring 105 sandwiched therebetween. The movable base 101 is in contact with the mounting flange 33 without any gap. The fixed base 102 is disposed so as to surround the movable base 101.

  In the present embodiment, two elastic rings 105 are arranged in parallel, but the number of elastic rings 105 is not limited to this embodiment. The elastic ring 105 is in contact with both the outer peripheral surface of the movable base 101 and the inner peripheral surface of the fixed base 102, and functions as a seal that seals the gap between the movable base 101 and the fixed base 102. The movable base 101 has a movable side cylindrical part 101a and a movable side flange 101b projecting outward from the movable side cylindrical part 101a. The fixed base 102 includes a fixed-side cylindrical portion 102a and a fixed-side flange 102b that projects outward from the fixed-side cylindrical portion 102a. The lower surface of the movable flange 101b faces the upper surface of the fixed flange 102b. The two elastic rings 105 are sandwiched between the outer peripheral surface of the movable cylindrical portion 101a and the inner peripheral surface of the fixed cylindrical portion 102a.

  An elastic ring 105 is arranged between the movable base 101 and the fixed base 102 in the vertical direction, thereby sealing the gap and maintaining the watertight function. The movable side flange 101b of the movable base 101 is in contact with the fixed side flange 102b of the fixed base 102 directly or via a shim such as a liner, and transmits and supports the weight of the vertical shaft pump 20 to the fixed base 102. The movable base 101 and the fixed base 102 are positioned by bolts (not shown) on the movable side flange 101b and the fixed side flange 102b. Since two elastic rings 105 are arranged apart from each other in the vertical direction, even if the movable base 101 is inclined relative to the fixed base 102, one of the two elastic rings 105 is separated from the movable base 101. Contact with both of the fixed bases 102 can be maintained, and the movable base 101 tilts to some extent relative to the fixed base 102 while maintaining watertightness between the movable base 101 and the fixed base 102. Is allowed.

  Such a flexible pump base 35 allows the vertical shaft pump 20 to be inclined to some extent with respect to the pump installation floor 2. As shown in FIG. 9, a shim (such as a liner or a spacer) 110 is inserted into a gap between the movable side flange 101b of the movable base 101 and the fixed side flange 102b of the fixed base 102. The angle with respect to the installation floor 2 can be changed. In other words, when the pump installation floor 2 is inclined due to uneven settlement or the like, the vertical pump 20 can be brought into a vertical posture by inserting the shim 110 between the movable flange 101b and the fixed flange 102b. .

  An actual operation for adjusting the inclination of the vertical pump 20 will be described. First, the level of the flexible pump base 35 is confirmed. If the level (tilt) is out of the allowable value of the vertical pump 20, the shaft coupling 52 is removed and the tilt of the vertical pump 20 is adjusted using the shim 110. . Thereafter, the cores of the connecting shaft 15, the vertical shaft pump 20, and the pump drive machine 12 are confirmed, and if the misalignment is out of the allowable value, adjustment of the shaft joints 51 and 52 formed of a universal joint or a flexible joint is performed. Align the core. As described above, the combination of the suspension type walkway 60 and the flexible pump base 35 can quickly adjust the inclination of the entire rotation system including the vertical pump 20, and as a result, the vertical pump 20 can be started quickly. be able to.

  FIG. 10 is a view showing another embodiment of the suspended walkway 60. The configuration of the present embodiment that is not specifically described is the same as that of the embodiment shown in FIG. In the present embodiment, the suspended walkway 60 is suspended from the drive machine installation floor 6. More specifically, the upper end of the suspension member 62 is fixed to the drive machine installation floor 6 with a bolt (not shown), and the suspension type walkway 60 is suspended from the drive machine installation floor 6 by the suspension member 62. . Also in this embodiment, the suspension type walkway 60 is disposed below the gantry 13, and an operator can easily move from the drive machine installation floor 6 to the suspension type walkway 60.

  The embodiment described above is described for the purpose of enabling the person having ordinary knowledge in the technical field to which the present invention belongs to implement the present invention. Various modifications of the above embodiment can be naturally made by those skilled in the art, and the technical idea of the present invention can be applied to other embodiments. Accordingly, the present invention is not limited to the described embodiments, but is to be construed in the widest scope according to the technical idea defined by the claims.

DESCRIPTION OF SYMBOLS 1 Suction water tank 2 Pump installation floor 5 Opening 6 Drive machine installation floor 8 Insertion hole 10 Reduction gear 11 Motor 12 Pump drive machine 12a Drive shaft 13 Base 15 Connection shaft 20 Vertical shaft pump 21 Impeller casing 22 Suction bell mouth 22a Suction port 24 Discharge bowl 25 Inner bowl 27 Pump casing 28 Pumped pipe 30 Discharged curved pipe 31 Impeller 32 Main shaft 33 Mounting flange 34 Discharge piping 35 Flexible pump base 37 Guide vane 41 Underwater bearing 41a Support member 45 Outer bearing 51 Shaft joint 52 Shaft joint 60 Hanging type Walkway 62 Suspension member 65 Through hole 70 Ladder 75 Safety fence 76 Bolt 80 Coupling cover 81 Opening 85 Hook 86 Rail 90 Notch 91 Safety lid 93 Bolt 101 Movable base 101a Movable side cylindrical portion 101b Movable side flange 102 Fixed base 102a Fixed side cylindrical portion 102b Fixed side flange 105 Elastic ring 110 Shim

Claims (10)

A vertical pump supported by a pump installation floor;
A pump drive installed on a drive installation floor disposed above the pump installation floor; and
A connecting shaft that connects the vertical shaft pump and the pump driver;
A pedestal fixed to the drive machine installation floor and fixed at least a part of the pump drive;
A pump system comprising a suspended walkway disposed below the gantry.   The pump system according to claim 1, wherein the suspended walkway is suspended from the gantry or the drive machine installation floor by a suspension member.   The pump system according to claim 1 or 2, wherein the connecting shaft extends through the suspension-type gallery. Further comprising a coupling cover disposed between the gantry and the suspended walkway,
The pump system according to claim 1, wherein the coupling cover is disposed so as to surround the connecting shaft.   The pump system according to any one of claims 1 to 4, further comprising an ascending / descending device that extends from the drive machine installation floor to the hanging gallery.   The pump system according to any one of claims 1 to 5, further comprising a hook fixed to a lower surface of the gantry.   The pump system according to any one of claims 1 to 5, further comprising a rail fixed to a lower surface of the gantry.   The said suspension type walkway has a notch with a width | variety larger than the diameter of the said connection axis | shaft, and the said connection axis | shaft extends up and down through the said notch. The pump system described in.   The pump system according to any one of claims 1 to 8, wherein a safety fence is detachably attached to a side surface of the suspension type walkway. A flexible pump base for tiltably supporting the vertical shaft pump;
The pump system according to any one of claims 1 to 9, wherein the vertical shaft pump is supported on the pump installation floor by the flexible pump base.

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