JP2022167283A - drainage system - Google Patents

Abstract

To provide a drainage system which can be space-saved by effectively utilizing a space for horizontal shaft pump equipment and enables the many horizontal shaft pump equipment to be arranged in a limited space such as a drainage pump station.SOLUTION: A suction pipe 110 and a delivery pipe 130 of first horizontal shaft pump equipment 100 are arranged offsetting each other in a planar view, whereby a space S1 is formed on the lateral side of the first horizontal shaft pump equipment 100, and a suction pipe 210 and a delivery pipe 230 of second horizontal shaft pump equipment 200 are arranged offsetting each other in a planar view, whereby a space S2 is formed on the lateral side of the second horizontal shaft pump equipment 200. A part of the second horizontal shaft pump equipment 200 is arranged in the space S1 of the first horizontal shaft pump equipment 100, and a part of the first horizontal shaft pump equipment 100 is arranged in the space S2 of the second horizontal shaft pump equipment 200.SELECTED DRAWING: Figure 1

Description

The present invention relates to a drainage system installed in a drainage pump station or the like.

In recent years, due to climate change, the amount of rainfall has increased compared to before, exceeding the drainage capacity of drainage pumping stations installed for the purpose of draining rainwater, resulting in flooding of rivers and flooding of cities. is increasing. In order to increase the drainage capacity, it is necessary to install a drainage pump facility that is larger than the existing facility. It is necessary. In addition, when a large pump is installed, the drainage capacity drops significantly when the pump equipment is maintained or breaks down, so there is also a problem from the viewpoint of risk dispersion. To solve these problems, it is conceivable to use small pump equipment that can be designed and manufactured in a standard manner from the existing pump equipment, increase the number of pump equipment, increase the drainage capacity, and disperse the danger. However, when arranging a lot of drainage pump equipment in the installation space of the existing drainage pump station, there is a problem of the arrangement method in the limited space.

2. Description of the Related Art Conventionally, a suction-type horizontal shaft pump facility has been used in a drainage system installed in a drainage pump station or the like (see, for example, Patent Document 1). It is conceivable to use a reduction gear (parallel shaft gear reduction gear) in combination with the horizontal shaft pump equipment, but in that case, misalignment occurs between the horizontal shaft pump equipment and the reduction gear, so the space required for arrangement becomes large. There is a problem. In particular, when the centers of the suction port and the discharge port of the horizontal shaft pump equipment are misaligned, the effect is conspicuous. There was a need for the development of a system that could accommodate more multiple horizontal shaft pump facilities in a limited space such as a drainage pump station.

JP 2012-127360 A

SUMMARY OF THE INVENTION It is an object of the present invention to provide a drainage system capable of arranging a large number of horizontal shaft pump facilities in a limited space such as a drainage pump station.

The drainage system of the present invention is a drainage system comprising a first horizontal pump facility and a second horizontal pump facility that are installed side by side, wherein the first horizontal pump facility includes a first suction pipe and a first suction pipe. and a first discharge pipe connected to the other end of the first pump, wherein the first suction pipe and the first discharge pipe are offset from each other in plan view A first space is formed on the side of the first horizontal shaft pump equipment, and the second horizontal shaft pump equipment is connected to the second suction pipe and the second suction pipe. A second pump having one end connected thereto, and a second discharge pipe connected to the other end of the second pump, wherein the second suction pipe and the second discharge pipe are offset from each other in plan view. A second space is formed on the side of the second horizontal pump equipment, and the first space of the first horizontal pump equipment is provided with the second horizontal pump equipment. A part is arranged, and a part of the first horizontal pump arrangement is arranged in the second space of the second horizontal pump arrangement.

According to this configuration, part of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment, and the first horizontal pump equipment is disposed in the second space of the second horizontal pump equipment. By arranging a part of the horizontal shaft pump equipment, it is possible to effectively utilize the space of the horizontal shaft pump equipment and save space. can.

Further, in the drainage system of the present invention, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. The pump has a first curved portion curved such that the first suction pipe and the first discharge pipe connected to the first pump are arranged offset from each other in a plan view, 1 space is formed on the side of the first suction pipe and on the side where the first discharge pipe is offset, and the second pump is connected to the second suction pipe. The pipe and the second discharge pipe have a second curved portion that is curved so as to be offset from each other in a plan view, and the second space is lateral to the second discharge pipe. the second suction pipe is formed on an offset side, and the second suction pipe of the second horizontal shaft pump device is arranged in the first space of the first horizontal shaft pump device; The first discharge pipe of the first horizontal pump equipment may be arranged in the second space of the second horizontal pump equipment.

According to this configuration, the second suction pipe of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment, and the first horizontal pump equipment is arranged in the second space of the second horizontal pump equipment. By arranging the first discharge pipe of the pump equipment, it is possible to effectively utilize the space of the horizontal pump equipment and save space, and many horizontal pump equipment can be installed in a limited space such as a drainage pump station. can be placed.

Further, in the drainage system of the present invention, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is opposite and the discharge direction is opposite. The pump has a first curved portion curved such that the first suction pipe and the first discharge pipe connected to the first pump are arranged offset from each other in a plan view, 1 space is formed on the side of the first discharge pipe and on the side where the first suction pipe is offset, and the second pump is connected to the second suction pipe. The pipe and the second discharge pipe have a second curved portion that is curved so as to be offset from each other in a plan view, and the second space is lateral to the second discharge pipe. the second suction pipe is formed on an offset side, and the second suction pipe of the second horizontal shaft pump device is arranged in the first space of the first horizontal shaft pump device; The first suction pipe of the first horizontal pump equipment may be arranged in the second space of the second horizontal pump equipment.

According to this configuration, the second suction pipe of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment, and the first horizontal pump equipment is arranged in the second space of the second horizontal pump equipment. By arranging the first suction pipe of the pump equipment, it is possible to effectively utilize the space of the horizontal pump equipment and save space, and many horizontal pump equipment can be installed in a limited space such as a drainage pump station. can be placed.

Further, in the drainage system of the present invention, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are arranged side by side so that the suction direction is opposite and the discharge direction is opposite, and the first pump is a first curved portion curved such that the first suction pipe and the first discharge pipe connected to the first pump are arranged offset from each other in a plan view; is formed on the side of the first suction pipe and on the side where the first discharge pipe is offset, and the second pump is connected to the second suction pipe connected to the second pump. The second discharge pipe and the second discharge pipe have a second curved portion that is curved so as to be offset from each other in a plan view, and the second space is lateral to the second suction pipe and is the second space. 2 discharge pipes are formed on the offset side, the second discharge pipe of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment, and the second The first discharge pipe of the first horizontal pump equipment may be arranged in the second space of the second horizontal pump equipment.

According to this configuration, the second discharge pipe of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment, and the first horizontal pump equipment is arranged in the second space of the second horizontal pump equipment. By arranging the first discharge pipe of the pump equipment, it is possible to effectively utilize the space of the horizontal pump equipment and save space, and many horizontal pump equipment can be installed in a limited space such as a drainage pump station. can be placed.

The drainage system of the present invention is a drainage system comprising a first horizontal pump facility and a second horizontal pump facility that are installed side by side, wherein the first horizontal pump facility includes a first suction pipe and a first suction pipe. a first pump connected at one end to a first discharge pipe connected to the other end of the first pump; a first reducer connected to the first pump; and a first reducer connected to the first reducer and a first prime mover, wherein the input shaft and the output shaft of the first reduction gear are offset from each other in a plan view, so that the first A space is formed, and the second horizontal shaft pump equipment includes a second suction pipe, a second pump having one end connected to the second suction pipe, and a second pump connected to the other end of the second pump. 2 discharge pipe, a second reduction gear connected to the second pump, and a second prime mover connected to the second reduction gear, wherein in the first space of the first horizontal shaft pump equipment, The second reducer and the second prime mover of the second horizontal shaft pump arrangement are arranged.

According to this configuration, by arranging the second reduction gear and the second prime mover of the second horizontal pump equipment in the first space of the first horizontal pump equipment, the space of the horizontal pump equipment can be effectively utilized. It is possible to save space, and many horizontal shaft pump facilities can be arranged in a limited space such as a drainage pump station.

Further, in the drainage system of the present invention, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. The speed reducer is arranged on the suction direction side of the first pump, the input shaft of the first speed reducer is offset to the opposite side of the first suction pipe, and the first space defines the first suction pipe. It is formed on the side of the first pump opposite to the side on which the pipe is offset, and the second horizontal shaft pump equipment is displaced in the discharge direction from the first horizontal pump equipment. The second speed reducer is arranged on the suction direction side of the second pump, and the output shaft of the second speed reducer is on the opposite side of the second suction pipe and on the side of the first horizontal shaft pump. The second reduction gear and the second prime mover may be offset and arranged in the first space on the side of the first pump.

According to this configuration, by arranging the second reduction gear and the second motor of the second horizontal pump equipment in the first space formed on the side of the first pump of the first horizontal pump equipment, the horizontal Space can be saved by effectively utilizing the space of the shaft pump equipment, and many horizontal shaft pump equipment can be arranged in a limited space such as a drainage pump station.

Further, in the drainage system of the present invention, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. The speed reducer is arranged on the discharge direction side of the first pump, the input shaft of the first speed reducer is offset to the opposite side of the first discharge pipe, and the first space is spaced from the first discharge pipe. It is formed on the side of the first pump opposite to the side where the pipe is offset, and the second horizontal shaft pump equipment is shifted in the suction direction side from the first horizontal shaft pump equipment. and the second reduction gear is arranged on the discharge direction side of the second pump, and the output shaft of the second reduction gear is located on the opposite side of the second discharge pipe and on the side of the first horizontal shaft pump equipment. The second speed reducer and the second prime mover may be arranged in the first space on the side of the first pump.

According to this configuration, by arranging the second reduction gear and the second motor of the second horizontal pump equipment in the first space formed on the side of the first pump of the first horizontal pump equipment, the horizontal Space can be saved by effectively utilizing the space of the shaft pump equipment, and many horizontal shaft pump equipment can be arranged in a limited space such as a drainage pump station.

According to the present invention, it is possible to effectively utilize the space of the horizontal pump equipment to save space, and many horizontal pump equipment can be arranged in a limited space such as a drainage pump station.

It is an explanatory view of the space of the horizontal shaft pump equipment in the first embodiment. It is an explanatory view showing an example of a drainage system in a 1st embodiment. FIG. 4 is an explanatory diagram showing another example of the drainage system in the first embodiment; FIG. 4 is an explanatory diagram showing another example of the drainage system in the first embodiment; It is explanatory drawing which shows the other example of a drainage system. It is explanatory drawing which shows the other example of a drainage system. It is explanatory drawing which shows the other example of a drainage system. It is an explanatory view of the space of the horizontal shaft pump equipment in the second embodiment. It is an explanatory view showing an example of a drainage system in a second embodiment. FIG. 9 is an explanatory diagram showing another example of the drainage system in the second embodiment; It is explanatory drawing which shows the other example of a drainage system. It is explanatory drawing which shows the other example of a drainage system. It is explanatory drawing of the space of the horizontal shaft pump equipment in other embodiment. It is explanatory drawing which shows the example of the drainage system in other embodiment.

A drainage system according to an embodiment of the present invention will be described below with reference to the drawings. In this embodiment, the case of a drainage system installed in a drainage pumping station or the like is exemplified.

(First embodiment)
A configuration of a drainage system according to a first embodiment of the present invention will be described with reference to the drawings. 1 and 2 are explanatory diagrams (plan views) showing the drainage system of the present embodiment. FIG. 1(a) shows a first type of horizontal shaft pump installation, and FIG. 2(a) shows a second type of horizontal shaft pump installation.

As shown in FIG. 1(a), the first type of horizontal shaft pump equipment 100 includes a suction pipe 110, a pump 120 connected to the suction pipe 110, and a discharge pipe 130 connected to the pump 120. . The pump 120 includes a prime mover 140 that generates a driving force for driving the pump 120 and a speed reducer 150 that reduces the speed of the driving power from the prime mover 140 and transmits it to the pump 120 . A discharge valve 160 is provided on the discharge pipe 130 .

The suction pipe 110 has an opening on one end (left side in the drawing) located on the suction tank (not shown) side, and an opening on the other end side (right side in the drawing) connected to the pump 120 . The pump 120 has an opening at one end (left side in the drawing) connected to the suction pipe 110 and an opening at the other end (right side in the drawing) connected to the discharge pipe 130 . The discharge pipe 130 has an opening on one end (left side in the drawing) connected to the pump 120 and an opening on the other end (right side in the drawing) on the side of a discharge water tank (not shown).

The speed reducer 150 is, for example, a parallel shaft gear speed reducer, and includes an input shaft 151 to which driving force from the prime mover 140 is input, and an output shaft 152 to which reduced driving force is output. The prime mover 140 is connected to the input shaft 151 of the speed reducer 150 and rotates the input shaft 151 of the speed reducer 150 . As the input shaft 151 rotates, the speed reducer 150 reduces the rotation speed of the input shaft 151 so that the ratio between the rotation speed of the input shaft 151 and the rotation speed of the output shaft 152 becomes a predetermined value. Rotate 152.

The output shaft 152 of the speed reducer 150 is connected to the main shaft (not shown) of the pump 120. As the output shaft 152 of the speed reducer 150 rotates, the main shaft of the pump 120 rotates. As a result, the impeller (not shown) of the pump 120 rotates. Rotation of the impeller causes water in the suction water tank to be sucked up from the suction pipe 110 and discharged from the discharge pipe 130 into the discharge water tank.

As shown in FIG. 1(a), in the first type horizontal shaft pump equipment 100, the pump 120 includes a cylindrical portion 121 connected to the suction pipe 110 and an impeller (see FIG. 1A) connected to the cylindrical portion 121. not shown), a cylindrical portion 123 connected with the spherical portion 122, and a curved portion 124 connected with the cylindrical portion 123. Discharge pipe 130 has a curved portion 131 connected to curved portion 124 of pump 120 and a cylindrical portion 132 connected to curved portion 131 .

In the horizontal shaft pump equipment 100 of the first type, the suction pipe 110 and the discharge pipe 130 are arranged to be offset from each other in a plan view. A space S1 is formed. More specifically, the curved portion 124 of the pump 120 is curved such that the suction pipe 110 and the discharge pipe 130 connected to the pump 120 are arranged offset from each other in plan view, and the suction pipe 110 side is curved. A space S1 is formed on the side where the discharge pipe 130 is offset with respect to the suction pipe 110 (lower side in the figure).

As shown in FIG. 1(b), the second type of horizontal shaft pump equipment 200 also includes a suction pipe 210, a pump 220 connected to the suction pipe 210, and a discharge pipe 230 connected to the pump 220. . The pump 220 includes a motor 240 that generates driving force for driving the pump 220 and a speed reducer 250 that reduces the driving force from the motor 240 and transmits it to the pump 220 . A discharge valve 260 is provided on the discharge pipe 230 . The speed reducer 250 is, for example, a parallel shaft gear speed reducer, and includes an input shaft 251 to which driving force from the prime mover 240 is input, and an output shaft 252 to which reduced driving force is output.

As shown in FIG. 1(b), in the second type horizontal shaft pump equipment 200, the suction pipe 210 has a cylindrical portion 211 on the side of the suction water tank and a curved portion 212 connected to the cylindrical portion 211. have. The pump 220 includes a curved portion 221 connected to the curved portion 212 of the suction pipe 210, a cylindrical portion 222 connected to the curved portion 221, and an impeller (not shown) connected to the cylindrical portion 222. and a cylindrical portion 224 connected to the spherical portion 223 .

In the second type of horizontal pump equipment 200, the suction pipe 210 and the discharge pipe 230 are arranged offset from each other in a plan view, so that a space is provided on the side of the horizontal pump equipment 200 (upper side in the figure). S2 is formed. More specifically, the curved portion 221 of the pump 220 is curved such that the suction pipe 210 and the discharge pipe 230 connected to the pump 220 are offset from each other in plan view, and the discharge pipe 230 side is curved. A space S2 is formed on the side where the suction pipe 210 is offset with respect to the discharge pipe 230 (upper side in the figure).

FIG. 2 is a diagram showing an example of a drainage system according to the first embodiment. The drainage system of the present embodiment includes first horizontal pump equipment and second horizontal pump equipment that are installed side by side. In the drainage system A of FIG. 2, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. Here, a first type horizontal pump facility 100 is used as the first horizontal pump facility, and a second type horizontal pump facility 200 is used as the second horizontal pump facility.

In the present embodiment, a part of the second horizontal pump equipment 200 is arranged in the space S1 of the first horizontal pump equipment 100, and a part of the first horizontal pump equipment is arranged in the space S2 of the second horizontal pump equipment 200. 100 are placed. In the drainage system A of FIG. 2 , the suction pipe 210 of the second horizontal pump equipment 200 is arranged in the space S1 of the first horizontal pump equipment 100, and the first horizontal pump equipment 200 is arranged in the space S2 of the second horizontal pump equipment 200. A discharge pipe 130 of the axial pump installation 100 is arranged.

According to the drainage system A of the first embodiment, part of the second horizontal pump equipment 200 is arranged in the space S1 of the first horizontal pump equipment 100, and the second horizontal pump equipment By arranging a part of the first horizontal shaft pump equipment 100 in the space S2 of 200, it is possible to effectively utilize the spaces S1 and S2 of the horizontal shaft pump equipment and save space. A lot of horizontal shaft pump equipment can be arranged in a limited space.

In the drainage system A of FIG. 2, the suction pipe 210 of the second horizontal pump facility 200 is arranged in the space S1 of the first horizontal pump facility 100, and the first By arranging the discharge pipe 130 of the horizontal shaft pump equipment 100, it is possible to effectively utilize the spaces S1 and S2 of the horizontal shaft pump equipment to save space, and a large number of pumps can be installed in a limited space such as a drainage pump station. Horizontal shaft pumping equipment can be arranged.

FIG. 3 is a diagram showing another example of the drainage system of the first embodiment. In the drainage system B of FIG. 3, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are arranged side by side so that the suction direction is opposite and the discharge direction is opposite. Here, the second type of horizontal pump equipment 200 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

Also in the drainage system B of FIG. A portion of the pumping equipment 200 is arranged. In this case, the suction pipe 210 of the second horizontal pump equipment 200 is arranged in the space S2 of the first horizontal pump equipment 200, and the space S2 of the second horizontal pump equipment 200 is the space S2 of the first horizontal pump equipment 200. A suction pipe 210 is arranged.

In the drainage system B of FIG. 3, the suction pipe 210 of the second horizontal pump facility 200 is arranged in the space S2 of the first horizontal pump facility 200, and the first By arranging the suction pipe 210 of the horizontal shaft pump equipment 200, it is possible to effectively utilize the spaces S1 and S2 of the horizontal shaft pump equipment to save space, and many pumps can be installed in a limited space such as a drainage pump station. Horizontal shaft pumping equipment can be arranged.

FIG. 4 is a diagram showing another example of the drainage system of the first embodiment. In the drainage system C of FIG. 4, the first horizontal pump equipment and the second horizontal pump equipment are installed side by side so that the suction direction is opposite and the discharge direction is opposite. Here, the first type of horizontal pump equipment 100 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

Also in the drainage system C of FIG. A portion of the pumping equipment 100 is arranged. In this case, the discharge pipe 130 of the second horizontal pump equipment 100 is arranged in the space S1 of the first horizontal pump equipment 100, and the space S1 of the second horizontal pump equipment 100 is provided with the first horizontal pump equipment 100. A discharge tube 130 is arranged.

In the drainage system C of FIG. 4, the discharge pipe 130 of the second horizontal pump facility 100 is arranged in the space S1 of the first horizontal pump facility 100, and the first By arranging the discharge pipe 130 of the horizontal pump equipment 100, it is possible to effectively utilize the space of the horizontal pump equipment and save the space. Equipment can be placed.

FIG. 5 is a diagram showing another example of a drainage system. In the drainage system D of FIG. 5, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. Here, the second type of horizontal pump equipment 200 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

In the drainage system D of FIG. 5, part of the second horizontal pump equipment 200 (lower horizontal pump equipment in the figure) is placed in the space of the first horizontal pump equipment 200 (upper horizontal pump equipment in the figure). is placed. In this case, the prime mover 240 and the speed reducer 250 of the second horizontal pump equipment 200 are arranged in the space S<b>2 of the first horizontal pump equipment 200 . Even in such a drainage system D, it is possible to effectively utilize the space of the horizontal pump equipment and save space, and many horizontal pump equipment can be arranged in a limited space such as a drainage pump station. .

FIG. 6 is a diagram showing another example of a drainage system. In the drainage system E of FIG. 6, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. Here, the first type of horizontal pump equipment 100 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

In the drainage system E of FIG. 6, part of the second horizontal pump equipment 100 (lower horizontal pump equipment in the figure) is placed in the space of the first horizontal pump equipment 100 (upper horizontal pump equipment in the figure). is placed. In this case, the prime mover 140 and the speed reducer 250 of the second horizontal pump equipment 100 are arranged in the space S1 of the first horizontal pump equipment 100 . Even in such a drainage system E, it is possible to effectively utilize the space of the horizontal shaft pump equipment to save space, and many horizontal pump equipment can be arranged in a limited space such as a drainage pump station. .

FIG. 7 is a diagram showing another example of a drainage system. In the drainage system F of FIG. 7, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are arranged side by side so that the suction direction is opposite and the discharge direction is opposite. Here, a first type horizontal pump facility 100 is used as the first horizontal pump facility, and a second type horizontal pump facility 200 is used as the second horizontal pump facility.

In the drainage system F of FIG. 7 , part of the first horizontal pump equipment 100 is arranged in the space S2 of the second horizontal pump equipment 200 . In this case, the motor 140 and the reduction gear 250 of the first horizontal pump equipment 100 are arranged in the space S<b>2 of the second horizontal pump equipment 200 . Even in such a drainage system F, it is possible to effectively utilize the space of the horizontal shaft pump equipment to save space, and many horizontal pump equipment can be arranged in a limited space such as a drainage pump station. .

(Second embodiment)
Next, a drainage system according to a second embodiment of the present invention will be described. Here, the drainage system of the second embodiment will be mainly described with respect to the differences from the first embodiment. The configuration and operation of this embodiment are the same as those of the first embodiment unless otherwise specified.

8 and 9 are explanatory diagrams (plan views) showing the drainage system of the present embodiment. FIG. 8(a) shows a first type of horizontal shaft pump installation 100, and FIG. 8(b) shows a second type of horizontal shaft pump installation 200. As shown in FIG.

As shown in FIG. 8(a), in the first type of horizontal shaft pump equipment 100, the input shaft 151 and the output shaft 152 of the speed reducer 150 are offset from each other in plan view, so that the horizontal shaft A space S3 is formed on the side of the pump facility 100 (upper side in the figure). In this case, the speed reducer 150 is arranged on the discharge direction side (right side in the figure) of the pump 120, and the input shaft 151 of the speed reducer 150 is on the opposite side of the suction pipe 110 with respect to the output shaft 152 (upper side in the figure). is offset to As a result, a space S3 is formed on the side of the pump 120 opposite to the side where the discharge pipe 130 is offset with respect to the suction pipe 110 (upper side in the figure).

As shown in FIG. 8(b), in the second type of horizontal shaft pump equipment 200, the input shaft 251 and the output shaft 252 of the speed reducer 250 are offset from each other in plan view, so that the horizontal shaft A space S4 is formed on the side of the pump facility 200 (lower side in the drawing). In this case, the speed reducer 250 is arranged on the suction direction side (left side in the figure) of the pump 220, and the input shaft 251 of the speed reducer 250 is located on the opposite side of the suction pipe 210 with respect to the output shaft 252 (lower side in the figure). ). A space S4 is formed on the side of the pump 220 opposite to the side where the suction pipe 210 is offset with respect to the discharge pipe 230 (lower side in the figure).

FIG. 9 is a diagram showing an example of a drainage system according to the second embodiment. The drainage system of the present embodiment includes first horizontal pump equipment and second horizontal pump equipment that are installed side by side. In the drainage system G of FIG. 9, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. Here, the second type of horizontal pump equipment 200 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

In this embodiment, the reduction gear 250 of the second horizontal pump equipment 200 (lower horizontal pump equipment in the figure) is installed in the space S3 of the first horizontal pump equipment 200 (upper horizontal pump equipment in the figure). and a prime mover 240 are arranged. In the drainage system G of FIG. 9 , the second horizontal shaft pump facility 200 is arranged to be shifted to the discharge direction side (right side in the figure) from the first horizontal shaft pump facility 200 . The speed reducer 250 of the second horizontal shaft pump equipment 200 is arranged on the suction direction side (left side in the drawing) of the pump 220, and the input shaft 251 of the speed reducer 250 is located on the opposite side of the suction pipe 210 with respect to the output shaft 252. And it is offset to the side of the first horizontal shaft pump equipment 200 (upper side in the drawing). The speed reducer 250 and the prime mover 240 of the second horizontal pump equipment 200 are arranged in the space S4 beside (below) the pump 220 of the first horizontal pump equipment 200 .

According to the drainage system G of the second embodiment, by arranging the speed reducer 250 and the prime mover 240 of the second horizontal pump equipment 200 in the space S4 of the first horizontal pump equipment 200, the horizontal Space can be saved by effectively utilizing the space S4 for the shaft pump equipment, and many horizontal shaft pump equipment can be arranged in a limited space such as a drainage pump station.

In the drainage system G of FIG. 9, the speed reducer 250 and the prime mover 240 of the second horizontal pump equipment 200 are installed in a space S4 formed on the side (lower side in the drawing) of the pump 220 of the first horizontal pump equipment 200. By arranging them, it is possible to effectively utilize the space S4 for the horizontal shaft pump equipment and save space, and many horizontal shaft pump equipment can be arranged in a limited space such as a drainage pump station.

FIG. 10 is a diagram showing another example of the drainage system of the second embodiment. In the drainage system H of FIG. 10, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is opposite and the discharge direction is opposite. Here, the first type of horizontal pump equipment 100 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

In the drainage system H of FIG. 10 as well, the deceleration of the second horizontal pump equipment 100 (upper horizontal pump equipment in the figure) is provided in the space S3 of the first horizontal pump equipment 100 (lower horizontal pump equipment in the figure). A machine 150 and a prime mover 140 are located. In the drainage system H of FIG. 10 , the second horizontal pump equipment 100 is arranged to be shifted to the suction direction side (left side in the figure) with respect to the first horizontal pump equipment 100 . The speed reducer 150 of the second horizontal shaft pump equipment 100 is arranged on the discharge direction side (right side in the figure) of the pump 120, and the input shaft 151 of the speed reducer 150 is on the opposite side of the discharge pipe 130 with respect to the output shaft 152. And it is offset to the side of the first horizontal shaft pump equipment 100 (lower side in the drawing). The speed reducer 150 and the prime mover 140 of the second horizontal pump equipment 100 are arranged in the space S3 on the side (upper side in the figure) of the pump 120 of the first horizontal pump equipment 100 .

In the drainage system H of FIG. 10, the speed reducer 150 and the prime mover 140 of the second horizontal pump equipment 100 are arranged in a space S3 formed on the side (upper side in the drawing) of the pump 120 of the first horizontal pump equipment 100. By doing so, it is possible to effectively utilize the space S3 for the horizontal shaft pump equipment to save space, and many horizontal pump equipment can be arranged in a limited space such as a drainage pump station.

FIG. 11 is a diagram showing another example of a drainage system. In the drainage system I of FIG. 11, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is opposite and the discharge direction is opposite. Here, the first type of horizontal pump equipment 100 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

In the drainage system I of FIG. 11, the second horizontal pump equipment 100 (upper horizontal pump equipment in the figure) discharges into the space S3 of the first horizontal pump equipment 100 (lower horizontal pump equipment in the figure). A tube 130 is placed. Even in such a drainage system I, it is possible to effectively utilize the space S3 for the horizontal shaft pump equipment to save space, and it is possible to arrange many horizontal shaft pump equipment in a limited space such as a drainage pump station. can.

FIG. 12 is a diagram showing another example of a drainage system. In the drainage system J of FIG. 12, the first horizontal shaft pump facility and the second horizontal shaft pump facility are installed side by side so that the suction direction is opposite and the discharge direction is opposite. Here, the second type of horizontal pump equipment 200 is used for both the first horizontal pump equipment and the second horizontal pump equipment.

In the drainage system J of FIG. 12, the second horizontal pump equipment 200 (lower horizontal pump equipment in the figure) sucks into the space S4 of the first horizontal pump equipment 200 (upper horizontal pump equipment in the figure). A tube 210 is placed. Even in such a drainage system J, it is possible to effectively utilize the space S4 for the horizontal shaft pump equipment to save space, and it is possible to arrange a large number of horizontal pump equipment in a limited space such as a drainage pump station. can.

Although the embodiments of the present invention have been described above by way of examples, the scope of the present invention is not limited to these, and can be changed and modified according to the purpose within the scope described in the claims. be.

13 and 14 are explanatory diagrams (plan views) showing a drainage system according to another embodiment. FIG. 13(a) shows a first type of horizontal shaft pump installation 100, and FIG. 13(b) shows a second type of horizontal shaft pump installation 200. As shown in FIG.

As shown in FIG. 13( a ), in the first type horizontal shaft pump equipment 100 , the input shaft 151 and the output shaft 152 of the speed reducer 150 are offset from each other in plan view, so that the prime mover 140 A space S5 is formed on the side of (lower side in the drawing). In this case, the speed reducer 150 is arranged on the discharge direction side (right side in the figure) of the pump 120, and the input shaft 151 of the speed reducer 150 is on the opposite side of the suction pipe 110 with respect to the output shaft 152 (upper side in the figure). is offset to Thereby, a space S5 is formed on the side of the prime mover 140 on the side where the output shaft 152 is offset with respect to the input shaft 151 (lower side in the figure).

As shown in FIG. 13(b), in the second type horizontal shaft pump equipment 200, the input shaft 251 and the output shaft 252 of the speed reducer 250 are offset from each other in plan view, so that the prime mover 240 A space S6 is formed on the side of (upper side in the drawing). In this case, the speed reducer 250 is arranged on the suction direction side (left side in the figure) of the pump 220, and the input shaft 251 of the speed reducer 250 is located on the opposite side of the suction pipe 210 with respect to the output shaft 252 (lower side in the figure). ). Thereby, a space S6 is formed on the side of the prime mover 240 on the side where the output shaft 252 is offset with respect to the input shaft 251 (upper side in the figure).

FIG. 14 is a diagram showing an example of a drainage system according to another embodiment. In the drainage system K of FIG. 14, the first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same and the discharge direction is the same. Here, a first type horizontal pump facility 100 is used as the first horizontal pump facility, and a second type horizontal pump facility 200 is used as the second horizontal pump facility.

In the drainage system K of FIG. 14, the prime mover 240 of the second horizontal pump equipment 200 is arranged in the space S5 of the first horizontal pump equipment 100, and the first horizontal pump equipment 200 is arranged in the space S6 of the second horizontal pump equipment 200. A prime mover 140 of the pump installation 100 is arranged. Even in such a drainage system K, it is possible to effectively utilize the spaces S5 and S6 for the horizontal shaft pump equipment to save space, and many horizontal pump equipment can be arranged in a limited space such as a drainage pump station. be able to.

As described above, in the drainage system according to the present invention, it is possible to effectively utilize the space of the horizontal shaft pump equipment and save the space. It has an effect that it can be arranged, and is useful as a drainage system installed in a drainage pump station or the like.

100 First Type Horizontal Shaft Pump Equipment 110 Suction Pipe 120 Pump 121 Cylindrical Section 122 Spherical Section 123 Cylindrical Section 124 Curved Section 130 Discharge Pipe 131 Curved Section 132 Cylindrical Section 140 Motor 150 Reducer 151 Input Shaft 152 Output Shaft 160 Discharge valve 200 Second type horizontal shaft pump equipment 210 Suction pipe 211 Cylindrical portion 212 Curved portion 220 Pump 221 Curved portion 222 Cylindrical portion 223 Spherical portion 224 Cylindrical portion 230 Discharge pipe 240 Prime mover 250 Reducer 251 Input shaft 252 Output Shaft 260 Discharge valve S1-S4 Space A-K Drainage system

Claims (7)

In a drainage system comprising a first horizontal pump facility and a second horizontal pump facility that are installed side by side,
The first horizontal shaft pump equipment includes:
a first suction pipe, a first pump having one end connected to the first suction pipe, and a first discharge pipe connected to the other end of the first pump;
A first space is formed on the side of the first horizontal shaft pump equipment by arranging the first suction pipe and the first discharge pipe offset from each other in a plan view,
The second horizontal shaft pump equipment,
a second suction pipe, a second pump having one end connected to the second suction pipe, and a second discharge pipe connected to the other end of the second pump;
A second space is formed on the side of the second horizontal shaft pump equipment by arranging the second suction pipe and the second discharge pipe offset from each other in a plan view,
A part of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment,
A drainage system, wherein a part of the first horizontal pump equipment is arranged in the second space of the second horizontal pump equipment. The first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same direction and the discharge direction is the same direction,
The first pump has a first curved portion curved such that the first suction pipe and the first discharge pipe connected to the first pump are arranged offset from each other in plan view. ,
The first space is formed on the side of the first suction pipe and on the side where the first discharge pipe is offset,
The second pump has a second curved portion curved such that the second suction pipe and the second discharge pipe connected to the second pump are arranged offset from each other in a plan view. ,
The second space is formed on the side of the second discharge pipe and on the side where the second suction pipe is offset,
The second suction pipe of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment,
2. The drainage system according to claim 1, wherein said first discharge pipe of said first horizontal pump equipment is arranged in said second space of said second horizontal pump equipment. The first horizontal shaft pump equipment and the second horizontal shaft pump equipment are arranged side by side so that the suction direction is opposite and the discharge direction is opposite,
The first pump has a first curved portion curved such that the first suction pipe and the first discharge pipe connected to the first pump are arranged offset from each other in plan view. ,
The first space is formed on the side of the first discharge pipe and on the side where the first suction pipe is offset,
The second pump has a second curved portion curved such that the second suction pipe and the second discharge pipe connected to the second pump are arranged offset from each other in a plan view. ,
The second space is formed on the side of the second discharge pipe and on the side where the second suction pipe is offset,
The second suction pipe of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment,
2. The drainage system according to claim 1, wherein the first suction pipe of the first horizontal pump facility is arranged in the second space of the second horizontal pump facility. The first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is opposite and the discharge direction is opposite,
The first pump has a first curved portion curved such that the first suction pipe and the first discharge pipe connected to the first pump are arranged offset from each other in plan view. ,
The first space is formed on the side of the first suction pipe and on the side where the first discharge pipe is offset,
The second pump has a second curved portion curved such that the second suction pipe and the second discharge pipe connected to the second pump are arranged offset from each other in a plan view. ,
The second space is formed on the side of the second suction pipe and on the side where the second discharge pipe is offset,
The second discharge pipe of the second horizontal pump equipment is arranged in the first space of the first horizontal pump equipment,
2. The drainage system according to claim 1, wherein said first discharge pipe of said first horizontal pump equipment is arranged in said second space of said second horizontal pump equipment. In a drainage system comprising a first horizontal pump facility and a second horizontal pump facility that are installed side by side,
The first horizontal shaft pump equipment includes:
a first suction pipe, a first pump having one end connected to the first suction pipe, a first discharge pipe connected to the other end of the first pump, and a first reducer connected to the first pump and a first prime mover connected to the first reduction gear,
A first space is formed on the side of the first horizontal shaft pump equipment by arranging the input shaft and the output shaft of the first reduction gear offset from each other in a plan view,
The second horizontal shaft pump equipment,
a second suction pipe, a second pump having one end connected to the second suction pipe, a second discharge pipe connected to the other end of the second pump, and a second reducer connected to the second pump and a second prime mover connected to the second reduction gear,
A drainage system, wherein the second reduction gear and the second prime mover of the second horizontal pump equipment are arranged in the first space of the first horizontal pump equipment. The first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same direction and the discharge direction is the same direction,
The first reduction gear is arranged on the suction direction side of the first pump,
the input shaft of the first reduction gear is offset to the opposite side of the first suction pipe;
The first space is formed on the side of the first pump opposite to the side where the first suction pipe is offset,
The second horizontal shaft pump equipment is arranged to be shifted toward the discharge direction side with respect to the first horizontal shaft pump equipment,
The second reduction gear is arranged on the suction direction side of the second pump,
the input shaft of the second reduction gear is offset to the side opposite to the second suction pipe and to the side of the first horizontal shaft pump;
6. The drainage system according to claim 5, wherein said second reducer and said second prime mover are arranged in said first space beside said first pump. The first horizontal shaft pump equipment and the second horizontal shaft pump equipment are installed side by side so that the suction direction is the same direction and the discharge direction is the same direction,
The first reduction gear is arranged on the discharge direction side of the first pump,
the input shaft of the first reduction gear is offset to the opposite side of the first discharge pipe;
The first space is formed on the side of the first pump opposite to the side on which the first discharge pipe is offset,
The second horizontal shaft pump equipment is arranged to be shifted in the suction direction side with respect to the first horizontal shaft pump equipment,
The second reduction gear is arranged on the discharge direction side of the second pump,
the input shaft of the second reduction gear is offset to the side opposite to the second discharge pipe and to the side of the first horizontal shaft pump equipment;
6. The drainage system according to claim 5, wherein said second reducer and said second prime mover are arranged in said first space beside said first pump.

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