JPS6410678B2 - - Google Patents

Abstract

An axial or oblique flow type underwater pump improved to reduce the load on the connection to a discharge tube due to vibration in operation. A motor casing (16) is formed integrally with a pump casing coaxially with the central axis of the lower opening (15) of the pump casing with the pump casing (11) formed in a bent tube. The motor casing has an end face (17) opened externally of the pump casing through the tubular wall of the pump casing. A motor (18) is provided in the motor casing, and a guide blade unit (29), an impeller (34) and an intake piece (35) are sequentially disposed under the motor casing (16).

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement of an axial/mixed flow type submersible pump.

(Prior Art) Conventionally, as disclosed in Japanese Patent Publication No. 45-30741, a radial flow type submersible pump has conventionally had a suction opening formed on the lower surface and a discharge opening formed on the side surface, and a gap between the two openings. The pump head is equipped with a pump head in which a curved flow path is formed, and a motor head disposed on the pump head, a submersible motor is disposed on the empty motor head, and a shaft portion of the submersible motor is extended downward. It is known that the pump impeller is connected to a pump impeller disposed in the flow path of the pump head. Then, by placing this submersible pump on the bottom wall of the aquarium, connecting the discharge pipe to the discharge side opening of the submersible pump with a flange, and energizing the submersible motor,
There is known a device in which fluid sucked in through a suction opening is discharged from a discharge opening into a discharge pipe using a rotating pump impeller.

(Problems to be Solved by the Invention) In addition to such radial flow type submersible pumps, there are axial flow type or diagonal flow type submersible pumps.
For example, as shown in FIG. 1, such an axial/mixed flow type submersible pump has a front guide vane 3, a pump impeller 4, and a rear guide vane 5 above a submersible motor 2 located in a suction fitting 1. are arranged in sequence and a discharge pipe (not shown) is directly connected above them, or
Or the discharge pipe 7 is fixed to the bottom of the tank via the bent pipe 6.
There is one that connects with a flange.

However, in the case of such an axial flow submersible pump, the direction of flow is almost the same between the upstream and downstream sides of the pump impeller 4, so unlike the radial flow type,
Due to the layout, the submersible motor itself must be placed within the flow path of the suction fitting. Therefore, although the submersible motor is exposed to the flow and its cooling performance is good, there is a risk that the motor drive cable 8 may be damaged by the flowing water or may be sucked into the impeller 4. Furthermore, it is difficult to connect the tip of the cable 8 to the motor 2, and the maintenance and inspection workability of the connection portion is poor.

Furthermore, when the submersible pump is in operation, the heavy objects such as the submersible motor 2 act as a mass, so the bent pipe 6 may vibrate and start jumping, and the moment due to this excitation force may be transferred to the discharge pipe 7 of the bent pipe 6. This acts intensively on the connecting flange, impairing the liquid tightness of the flange, and is likely to cause water leakage.

By the way, when connecting the bent pipe 6 and the discharge pipe 7 with flanges, a simple method is to fasten the flanges together with bolts, but in order to facilitate the connection and removal of the submersible pump, so-called automatic connection is used. The connection is performed by That is, as shown in FIG. 1, a guide fitting that engages with a guide member provided in the tank and is guided in the vertical direction is attached to the flange of the curved pipe 6, and a connection that engages with the flange of the discharge pipe 7. When connecting, the bent pipe 6 is suspended by a chain or the like, and when the bent pipe 6 descends and its flange comes into contact with the flange of the discharge pipe 7, the connecting fitting connects to the flange of the discharge fitting. The flanges are connected by engaging with the flanges. When this automatic connection function is provided, in order to facilitate the connection work, it is necessary to hang the bent pipe stably during the connection work, and the connection condition is unstable compared to the case where the flanges are connected with bolts. Since it is stable, the bending of the bent pipe 6 and water leakage from the flange as described above are particularly likely to occur.

The present invention has been made in view of these points, and its purpose is to improve the cooling performance of the submersible motor by appropriately arranging the submersible motor in the above-mentioned axial/cross-flow type submersible pump. The purpose of this invention is to prevent damage to the motor drive cable and reduce the moment acting on connecting parts such as flanges.

Furthermore, for axial/mixed flow type submersible pumps that automatically connect, the purpose is to facilitate pump connection work and stabilize the connection state by reducing the moment acting on connection parts such as flanges.

(Means for Solving the Problems) In order to achieve the above object, the solving means of the present invention first includes a curved pump casing having a suction opening at one end and a discharge opening at the other end; a guide vane device and a suction fitting connected to the suction opening side of the pump casing; a bottomed cylindrical motor casing provided within the pump casing; a submersible motor disposed within the motor casing; A pump impeller is provided between the guide vane device and the suction fitting. The motor casing is integrally provided with the pump casing so that the bottom thereof faces the suction opening, the side faces the discharge opening, and the end opposite to the bottom opens to the outside of the pump casing. The pump impeller is connected to the shaft of the submersible motor passing through the bottom of the motor casing, and a cable is connected to the opening of the motor casing through a bearing box that has an electric wire connection part and supports the shaft of the submersible motor. A lid fitting is detachably attached to the pump casing, and a flange is provided at the discharge side opening of the pump casing so that a discharge pipe can be connected to the pump casing.

Furthermore, as a solution to an automatic connection function, a bent pipe-shaped pump casing having a suction opening opening downward at one end and a discharge opening opening laterally at the other end, A guide vane device and a suction fitting connected to the opening side, a bottomed cylindrical motor casing provided within the pump casing, a submersible motor disposed within the motor casing, the guide vane device and the suction The pump impeller is arranged between the metal fitting and the pump impeller. The motor casing is integrally provided with the pump casing so that its bottom portion faces the suction opening, its side portions face the discharge opening, and its upper end opens outside the pump casing. The pump impeller is connected to the shaft of the submersible motor passing through the bottom of the motor casing, and a cable is connected to the opening of the motor casing through a bearing box that has an electric wire connection part and supports the shaft of the submersible motor. A lid fitting is detachably attached, and a flange is provided at the discharge side opening of the pump casing so that a discharge pipe can be connected. Furthermore, a guide fitting is provided on the flange and is guided in the vertical direction by engaging with a guide member provided in the tank;
The pump casing is provided with a connecting fitting that engages with the discharge pipe and connects both flanges when the flange of the pump casing comes into contact with the flange of the discharge pipe provided in the tank as the pump casing descends.

(Function) With the above configuration, in the present invention, the fluid sucked from the suction fitting is sent from the guide vane device to the suction opening of the pump casing by the pump impeller driven by the submersible motor, and from the discharge opening. It is discharged into the discharge pipe.

In this case, since the motor casing housing the submersible motor is provided within the pump casing, the motor casing is exposed to the flow within the pump casing and is cooled well, improving the cooling performance of the submersible motor.

In addition, the motor casing is integrated with the pump casing, and the end opposite to the bottom of the motor casing opens to the outside of the pump casing, and the lid fitting with cable is attached to the opening via the bearing box. By connecting the cable to the electrical wire connection in the bearing box, it is possible to supply power to the submersible motor without placing the cable in the flow path of the pump casing, thereby preventing the cable from being damaged by running water or the cable from touching the pump impeller. This prevents the cable from being sucked in, and improves the ease of cable connection and the ease of inspection and maintenance of the connection section.

Furthermore, since the bottom of the motor casing faces the suction opening and the side faces the discharge opening, the motor casing is located near the intersection of the line passing through the center of the suction opening and the line passing through the center of the discharge opening. As a result, the distance between the submersible motor and the flange of the pump casing discharge opening is shortened as much as possible, and vibrations occurring in the pump casing are suppressed using the submersible motor as a mass, thereby preventing the pump casing from moving. At the same time, the moment acting on the flange is reduced, and water leakage from the flange is prevented.

In addition, when connecting an axial/mixed-flow type submersible pump that automatically connects, when the pump casing is guided by the guide metal fitting and descends, and its flange comes into contact with the flange of the discharge pipe, the connecting metal fitting closes. Both flanges are connected by engaging the discharge pipe.

In this case, among the above-mentioned effects, in particular, the effect of reducing the moment acting on the flange facilitates the connection work and stabilizes the connection state.

(Example) Hereinafter, an example of the present invention will be described based on the drawings.

FIG. 2 shows a self-connecting axial flow pump according to an embodiment of the invention. In the figure, 1 is a pump casing in the shape of a curved tube, and the pump casing 1
A suction opening that opens downward is formed at one end, and a discharge opening that opens laterally is formed at the other end. A bottomed cylindrical motor casing 1b is provided inside the pump casing 1. The motor casing 1b is integrally provided with the pump casing 1, with its bottom facing the suction opening, its side facing the discharge opening, and its end opposite to the bottom opening outside the pump casing. ing. Further, the discharge opening 12 of the pump casing 1 is connected to a vertical flange 1.
A is formed.

Reference numeral 2 denotes a submersible motor built into the motor casing 1b, the shaft portion 2a of which is extended downward to an appropriate length so as to serve also as a pump shaft, and two bearings 4 are supported by a bearing box 3 fixed to the lower end of the motor casing 1b. The upper end is similarly supported by a bearing box 5 via a bearing 6. The upper surface of the bearing box 5 is provided with an electric wire connection part 5a for connection to the submersible motor 2, and the upper part of the bearing box 5 is further provided with a lid fitting 8 with a cable that supports a cable 7 in a watertight manner at the center. The cap is fixed in a removable manner.

Reference numeral 9 denotes a rear guide vane device fixed to the lower surface of the pump casing 1 and the lower surface of the bearing box 3, in which a conical partition wall 9b is supported at the center by a plurality of blade members 9a protruding from the inner wall, and the partition wall 9b and the bearing A lubricating oil chamber 10 is formed by the lower surface of the box 3, and it is possible to lubricate a mechanical seal 11 fitted to the submersible motor shaft portion 2a as shown in the chamber.

Reference numeral 12 denotes an axial pump impeller fixed to the tip of the motor shaft 2a so as to be close to the partition wall 9b.
3 is a rear guide vane device 9 enclosing the impeller 12;
A suction fitting fixed to the lower surface includes a plurality of front guide impellers 13a facing the impeller 12,
A strainer 14 having grid-like openings on the outer periphery and the bottom is attached to the lower surface.

Reference numeral 15 denotes a connecting member fixed above the back of the flange 1a of the discharge port, and the connecting member 15 is connected to a guide fitting 15a that engages with guide members 18, 18 provided in the tank and is guided in the vertical direction. , and a connecting fitting 15b that engages with a flange 17a of a discharge pipe 17 provided in the tank. That is, two tubular guide members 18, 18 are erected between the curved discharge pipe 17 fixed to the tank bottom stepped floor 16 and the top of the tank, and the guide fitting 15a is placed on the side of the pump casing. The pump casing 1 extends from the guide members 18, 18 toward the discharge pipe side, and then widens to the left and right in the direction in which the pump casing 1 extends in the vertical direction along the guide members 18, 18. I am trying to guide you. In addition, the above-mentioned connecting fitting 1
5b is formed to be inclined so as to engage in a wedge-like manner with an inclined portion _17a1 formed at the back of the flange of the discharge pipe 17. Therefore, when the pump casing 1 is lowered under the guidance of the guide fitting 15a and its flange 1a comes into contact with the flange 17a of the discharge pipe 17, the connecting fitting 15b engages with the discharge pipe 17 and both The flanges 1a and 17a are connected to each other.

19 is a chain suspended from an elevator (not shown) provided at the top of the tank, and its forked tip is connected to the lid fitting 8 above.
It is connected to a hanging ring 20 provided oppositely on the upper surface.

Next, to explain the operation of the above embodiment,
The fluid sucked from the suction fitting 13 is sent from the rear guide vane device 9 to the suction opening of the pump casing 1 by the pump impeller 12 driven by the submersible motor 2, and from the discharge opening to the discharge pipe 17.
is discharged to.

In that case, since the motor casing 1b containing the submersible motor 2 is provided inside the pump casing 1, the motor casing 1b is exposed to the flow inside the pump casing 1 and is well cooled, improving the cooling performance of the submersible motor 2. do.

Moreover, the motor casing 1b is integrated with the pump casing 1, and the motor casing 1b
The end opposite to the bottom opens to the outside of the pump casing, and the cable-attached lid fitting 8 is attached to the opening via the bearing box 5. Therefore, the cable 7 is connected to the wire connection path 5a of the bearing box 5 By connecting the cable 7 to the pump impeller 12, it is possible to supply power to the submersible motor 2 without disposing the cable 7 in the flow path of the pump casing 1. This prevents In addition, inspection and maintenance of the connection parts can be easily and easily performed without disassembling the pump itself, improving work efficiency.

Furthermore, since the bottom of the motor casing 1b faces the suction opening, and the side faces the discharge opening, the motor casing 1b has a line passing through the center of the suction opening and a line C' passing through the center of the discharge opening. It will be located near the intersection of the submersible motor 2 and the flange 1 of the pump casing discharge opening.
The distance to b is as short as possible and the submersible motor 2
Vibrations occurring in the pump casing 1 are suppressed using the mass, preventing the pump casing 1 from bouncing, reducing the moment acting on the flange 1a, and preventing water leakage from the flange 1a.

In addition, the conventional model was slightly unstable because it suspended the middle part of the long model.
In the above embodiment, since the top of the short piece is suspended, the stability is also good.

Furthermore, since the pump casing 1 is automatically connected to the discharge pipe 17, it becomes easy to connect or disconnect the submersible pump to the discharge pipe 17.

In that case, since the moment is small, the pump casing 1 is stabilized in a suspended state, and the connection work becomes easy.

Due to its structure, this automatic connection type makes the connection state unstable compared to one that connects with bolts, but as mentioned above, the moment acting on the flange 1a is reduced, so the connection state is stabilized. This prevents the pump casing from jumping and water from leaking from the flange 1a.

Furthermore, FIG. 3 shows a modification of the automatic connection type mixed flow pump, and only the differences from the axial flow pump shown in FIG. 2 described above will be explained. 10 in the diagram
Reference numeral 9 denotes a guide vane device, in which a partition wall 109b is supported at the center by a plurality of blade members 109a protruding from the inner wall in the same manner as in the above case, and the lubricating oil chamber is supported by the partition wall 109b and the lower surface of the bearing box 3. 11
A mechanical seal 111 is fitted onto the shaft portion 2a of the motor so as to face the portion.
lubrication is possible.

112 is a mixed flow type impeller, 113 is the impeller 11
This is a suction fitting in which the lower half of the guide vane device 109 is connected to the lower surface of the guide vane device 109 in an enclosed manner.

Although the above embodiments and modifications are shown as automatically connecting type pumps, this is not a limitation. It may also be connected to a device.

(Effects of the Invention) As explained above, the axial/mixed flow type submersible pump of the present invention includes a curved pump casing having a suction opening at one end and a discharge opening at the other end; a guide vane device and a suction fitting connected to the suction opening side of the pump casing; a bottomed cylindrical motor casing provided within the pump casing; a submersible motor disposed within the motor casing; The motor casing includes a pump impeller disposed between the guide vane device and the suction fitting, and the motor casing has a bottom facing the suction opening, a side facing the discharge opening, and an end opposite to the bottom. integrally installed in the pump casing so that the part opens outside the pump casing,
The pump impeller is connected to the shaft of the submersible motor that passes through the bottom of the motor casing, and a cover with a cable is connected to the opening of the motor casing through a bearing box that has an electric wire connection part and supports the shaft of the submersible motor. The metal fittings are removably attached, and a flange is provided at the discharge side opening of the pump casing to connect the discharge pipe.This improves the cooling performance of the submersible motor, prevents damage to the motor drive cable, and prevents damage to the connection section. It is possible to improve maintenance/inspection work efficiency and ease of cable connection, and also to prevent water leakage from the flange by reducing pump casing bounce and the moment acting on the flange.

Furthermore, as having an automatic connection function, there is a guide fitting that is guided vertically by engaging a guide member provided in the tank on the flange, and a discharge pipe that is connected to the flange in the tank when the pump casing is lowered. Since we have provided a connecting fitting that engages the discharge pipe and connects both flanges when they come into contact with the flange, in addition to the above effects, the moment acting on the flange is reduced, so that the pump casing and It is possible to facilitate the connection work with the discharge pipe and to stabilize the connection state.

[Brief explanation of the drawing]

FIG. 1 is a vertical side view showing a conventional example, FIG. 2 is a vertical side view showing an embodiment of the present invention, and FIG. 3 is a vertical side view showing a modified example. 1... Pump casing, 1a... Flange,
1b... Motor casing, 2... Submersible motor, 2a... Shaft portion, 5... Bearing box, 5a... Electric wire connection portion, 8... Lid fitting with cable, 9... Rear stage guide vane device, 12... Pump impeller, 13... Suction fitting, 15a... Guide fitting, 15b... Connection fitting, 17... Discharge pipe, 17a... Flange.

Claims (1)

[Claims] 1. A curved pump casing having a suction opening at one end and a discharge opening at the other end, and a guide vane device and a suction fitting connected to the suction opening side of the pump casing. , a bottomed cylindrical motor casing disposed within the pump casing, a submersible motor disposed within the motor casing, and a pump impeller disposed between the guide vane device and the suction fitting. The motor casing is provided integrally with the pump casing, with its bottom facing the suction opening, its side facing the discharge opening, and its end opposite to the bottom opening outside the pump casing. The pump impeller is connected to the shaft of the submersible motor that passes through the bottom of the motor casing, and the opening of the motor casing is connected to a bearing box that has an electric wire connection and supports the shaft of the submersible motor. An axial mixed flow type submersible pump, characterized in that a lid fitting with a cable is detachably attached, and a flange is provided at the discharge side opening of the pump casing so that a discharge pipe can be connected thereto. 2. A curved pump casing having a suction opening opening downward at one end and a discharge opening opening laterally at the other end, a guide vane device connected to the suction opening side of the pump casing, and a suction a metal fitting, a bottomed cylindrical motor casing provided within the pump casing, a submersible motor provided within the motor casing, and a pump impeller disposed between the guide vane device and the suction fitting. The motor casing is integrally provided with the pump casing, with its bottom facing the suction opening, its side facing the discharge opening, and its upper end opening outside the pump casing. The impeller is connected to the shaft of the submersible motor that passes through the bottom of the motor casing, and the opening of the motor casing is connected to a lid fitting with a cable via a bearing box that has an electric wire connection and supports the shaft of the submersible motor. is detachably attached to the pump casing, and the discharge side opening of the pump casing is provided with a flange to which a discharge pipe can be connected. A guide fitting that is guided in the vertical direction, and a connecting fitting that engages the discharge pipe when the flange of the pump casing comes into contact with the flange of the discharge pipe provided in the tank to connect both flanges as the pump casing descends. An axial/mixed flow type submersible pump characterized by being provided with.