JP2005002943A - Sewage pump - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent wear of a casing cover caused by generation of a swirl flow in a main plate side chamber in a sewage pump. <P>SOLUTION: A tip face of a main plate 24b of an impeller 24 facing a back plate 28 is perpendicular to a main shaft 21. The back plate 28 has a uniform thickness and an annular shape of which a mounting face 28a to the casing cover 27 and a face 28b facing the main plate tip of the impeller 24 are perpendicular to the main shaft 21. An annular gap S2 perpendicular to the main shaft 21 is formed between a face 24f facing the back plate 28 of the main plate 24b of the impeller 24 and the face 28b facing the main plate tip of the back plate 28. Ribs 37A, 37B extending in a direction intersecting with the main shaft 21 are provided inside the main plate side chamber 31. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sewage pump used for pumping up sewage containing foreign substances in a sewerage facility or the like.
[0002]
[Prior art]
Conventionally, various types of sewage pumps have been provided. For example, Patent Document 1 discloses a sewage pump including a mixed flow type impeller.
[0003]
Referring to FIGS. 6 and 7, an example of a centrifugal pump type sewage pump will be described. An impeller 3 is fixed to a tip end of a main shaft 2 that is rotationally driven by a motor 1. The impeller 3 is accommodated in a volute chamber 8 in the pump casing 4. The pump casing 4 includes a suction port 4a and a discharge port 4b, and is closed by a casing cover 6 to which a shaft seal device 5 is attached. A space (main plate side chamber 7) partitioned by the main plate 3a of the impeller 3, the boss portion 3b of the impeller 3, and the casing cover 6 is formed. In order to prevent intrusion of foreign matter from the volute chamber 8 into the main plate side chamber 7, a back plate 9 is attached to the casing cover 6, and a gap S1 between the back plate 9 and the main plate 3a is set as narrow as possible. Yes.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 9-4585
[Problems to be solved by the invention]
In the conventional sewage pump shown in FIGS. 6 and 7, the inclination angle θ1 of the main plate 3a of the impeller 3 with respect to the main shaft 2 is set to be substantially constant in order to improve the passage of foreign matter. Correspondingly, the surface of the back plate 9 facing the main plate 3a is conical, and the gap S1 between the back plate 9 and the main plate 3a is also conical. Therefore, the portion (attachment portion 6a) to which the back plate 9 of the casing cover 6 is attached needs to have a shape extending from the outside toward the main shaft 2. Due to the attachment portion 6a extending toward the main shaft 2, as shown in FIG. 7, the main plate side chamber 7 has a region where water stays (dead water portion 7a). Since a swirling flow is generated in the main plate side chamber 7 as the impeller 3 rotates, if a fine foreign matter such as sand enters the dead water portion 7a, the casing cover 6 is worn by the foreign matter repeatedly colliding with the swirling flow. If wear progresses and the casing cover 6 is damaged at the dead water portion 7a, the entire casing cover 6 needs to be replaced.
[0006]
Further, as described above, the back plate 9 has a complicated shape with a conical surface on the main plate 3a side, so that it is difficult or complicated to process. Further, since the displacement amount of the back plate 9 in the direction of the main shaft 2 indicated by the symbol δ1 in FIG. 7 is not equal to the increase / decrease of the gap S1 corresponding to the displacement amount δ1, the position adjustment of the back plate 9 in the direction of the main shaft 2 can be performed. It is complicated. For these reasons, the sewage pump shown in FIGS. 6 and 7 is complicated to process, assemble and adjust.
[0007]
Then, this invention makes it a subject to prevent abrasion of the casing cover resulting from swirling flow generation | occurrence | production in the main plate side chamber in a sewage pump. Moreover, this invention makes it a subject to make processing, an assembly, and adjustment of a sewage pump easy.
[0008]
[Means for Solving the Problems]
Accordingly, the present invention provides an impeller fixed to the tip of a main shaft and housed in a pump casing, a casing cover that closes the pump casing on the main plate side of the impeller, and the impeller attached to the casing cover. A main plate side chamber is formed by at least the main plate of the impeller, the casing cover, the back plate, and the main shaft, and the main plate of the impeller is provided at the tip of the impeller. The surface of the back plate facing the main shaft is perpendicular to the main shaft, and the back plate has a mounting surface for the casing cover and a surface facing the tip of the main plate of the impeller perpendicular to the main shaft. The ring at the tip of the main plate of the impeller A sewage pump characterized in that an annular gap perpendicular to the main axis is formed between a surface facing the cup plate and a surface facing the tip of the main plate of the back plate. provide.
[0009]
In the sewage pump of the present invention, the surface facing the back plate at the front end of the main plate and the surface facing the front end of the main plate of the back plate are perpendicular to the main shaft, so that the back plate extends from the outside toward the main shaft. There is no need to provide the mounting portion on the casing cover. Therefore, the shape of the main plate side chamber is made a comparatively simple shape, the dead water portion where sewage stays can be eliminated, and foreign matters such as sand entering the main plate side chamber are not discharged and stay in the main plate side chamber. Can be prevented. Therefore, it is possible to prevent the casing cover from being worn by collision of foreign matter that has entered the main plate side chamber.
[0010]
In addition, the back plate has an annular shape with a uniform thickness in which the mounting surface with respect to the casing cover and the surface facing the front end of the main plate are perpendicular to the main axis, so the shape is relatively simple and easily processed. be able to.
[0011]
Furthermore, the back plate has an annular shape with a uniform thickness, and the gap formed between the impeller main plate and the back plate is also an annular shape perpendicular to the main axis, so the position of the back plate in the main axis direction is easy. Can be adjusted.
[0012]
It is preferable that a rib extending in a direction intersecting the main axis is provided in the main plate side chamber. This rib can prevent the swirling flow from occurring in the main plate side chamber due to the rotation of the impeller, thereby more reliably preventing the casing cover from being worn by collision of foreign matter that has entered the main plate side chamber. be able to.
[0013]
The rib may be provided on the casing cover or may be provided on the back plate.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0015]
(First embodiment)
1 to 3 show a centrifugal pump type sewage pump according to a first embodiment of the present invention.
[0016]
The sewage pump includes an impeller 24 that is fixed to the tip of a main shaft 21 that extends in the horizontal direction and is accommodated in a volute chamber 23 in a pump casing 22. The other end of the main shaft 21 is connected to a driving motor 20.
[0017]
A suction port 22 a is formed in the pump casing 22 so as to face the suction port 24 a of the impeller 24. A suction pipe 26 is connected to the suction port 22a. The pump casing 22 has a discharge port 22b. In the pump casing 22, the main plate 24 b side of the impeller 24 is closed by a casing cover 27. A back plate 28 is fixed to the casing cover 27 by bolts 29 so as to face the main plate 24 b of the impeller 24.
[0018]
On the back side of the main plate 24 b of the impeller 24, a space (main plate side chamber 31) surrounded by the casing cover 27, the back plate 28, the boss portion 24 c of the impeller 24, the main plate 24 b, and the main shaft 21 is formed. The main plate side chamber 31 communicates with the volute chamber 23 via a gap S2 described later.
[0019]
The main shaft 21 protrudes to the outside from an insertion hole 27a formed in the center of the casing cover 27, and the liquid tightness in the pump casing 22 is secured by a shaft seal device 32 attached to the insertion hole 27a. A cylindrical bearing housing 33 is fixed to the outside of the casing cover 27. Bearings 35 </ b> A and 35 </ b> B that rotatably support the main shaft 21 are fixed to the flange 33 a in the bearing housing 33 and the housing cover 34 fixed to the end of the bearing housing 33.
[0020]
The impeller 24 includes a boss portion 24c fixed to the main shaft, a main plate 24b extending from the boss portion 24c, and a side plate 24d disposed at a distance from the main plate 24b. A plurality of blades 24e are provided between the main plate 24b and the side plate 24d.
[0021]
The shape of the main plate 24b of the impeller 24 is set so that the inclination angle θ2 formed with respect to the axis L of the main shaft 21 gradually increases from the base end side (boss portion 24c side) toward the front end side. A surface (tip rear surface 24 f) facing the back plate 28 at the tip of the main plate 24 b is perpendicular to the axis L of the main shaft 21. The inclination angle θ2 that the main plate 24b forms with respect to the axis L of the main shaft 21 may be constant.
[0022]
The back plate 28 has a mounting surface 28 a for the casing cover 27 that is perpendicular to the axis L of the main shaft 21. Further, as described above, in correspondence with the front end back surface 24f of the impeller 24 being perpendicular to the axis L of the main shaft 21, a surface (impeller facing surface 28b) facing the front end of the main plate 24b of the back plate 28 is also provided. It is perpendicular to the axis L of the main shaft 21. Therefore, the back plate 28 has an annular shape with a uniform thickness as a whole.
[0023]
Since both the front end back surface 24f of the impeller 24 and the impeller facing surface 28b of the back plate 28 are perpendicular to the axis L of the main shaft 21, a gap S2 formed between the front end back surface 24f and the impeller facing surface 28b. Is an annular shape perpendicular to the axis L of the main shaft 21. 6 and 7, in the conventional sewage pump, the gap S1 has a conical shape. Therefore, a mounting portion 6a extending from the outside toward the main shaft 21 is provided on the casing cover 27, and a back plate is provided on the mounting portion 6a. 28 is required, and the dead water portion 7a exists in the main plate side chamber 31 by providing the attachment portion 6a. However, in this embodiment, since the gap S2 is perpendicular to the axis L of the main shaft 21, there is no need to provide a mounting portion on the casing cover 27 that extends from the outside toward the main shaft 21 as in the prior art. As shown, a mounting portion 27b that slightly protrudes toward the impeller 24 is provided in the vicinity of the outer peripheral edge of the casing cover 27, and the back plate 28 may be fixed to the mounting portion 27b. Therefore, the inner surface of the casing cover 27 has a relatively flat shape, the main plate side chamber 31 is also relatively simple, and has a shape in which sewage stays, that is, no dead water portion 7a (FIG. 7). As a result, even if foreign matter such as sand enters the main plate side chamber 31 from the volute chamber 23 through the gap S2, the foreign matter does not discharge and does not stay in the main plate side chamber 31, and the foreign matter collides. Thus, the casing cover 27 can be prevented from being worn.
[0024]
Further, as described above, the back plate 28 has an annular shape in which both the attachment surface 28 a and the impeller facing surface 28 b have a uniform thickness perpendicular to the main shaft 21. With such a relatively simple shape, the back plate 28 can be easily processed. Further, the back plate 28 has an annular shape with a uniform thickness, and the gap S2 formed between the main plate 24b of the impeller 24 and the back plate 28 is also an annular shape perpendicular to the main axis. Accordingly, the displacement amount δ2 of the back plate 28 in the main axis direction is equal to the increase / decrease in the gap S2 corresponding to the displacement amount δ2. In other words, when the back plate 28 is moved in the main axis direction, the gap S2 increases or decreases by an amount equal to the moving distance. Therefore, the position of the back plate 28 in the main axis direction can be easily adjusted. In the above points, the sewage pump of this embodiment is easy to process, assemble, and adjust.
[0025]
A pair of elongated rectangular plate-like ribs 37 </ b> A and 37 </ b> B are provided in the main plate side chamber 31. Referring to FIGS. 2 and 3, the ribs 37 </ b> A and 37 </ b> B protrude from the inner surface of the casing cover 27 toward the main plate 24 b of the impeller 24. Further, when viewed from the main shaft direction, the ribs 37 </ b> A and 37 </ b> B extend from the outer peripheral edge of the main plate side chamber 31 toward the main shaft 21 in a direction orthogonal to the axis L of the main shaft 21. The ribs 37A and 37B may be integrated with the casing cover 27, or may be fixed separately from the back plate 28 by means such as bolts.
[0026]
By providing the ribs 37A and 37B, it is possible to prevent the swirling flow around the main shaft 21 from occurring in the main plate side chamber 31 when the impeller 24 rotates. By preventing the swirling flow itself from occurring, foreign matter that has entered the main plate side chamber 31 can be prevented from colliding with the casing cover, and wear of the casing cover 27 can be prevented more effectively and reliably. .
[0027]
(Second Embodiment)
In the second embodiment of the present invention shown in FIGS. 4 and 5, ribs 47 </ b> A and 47 </ b> B are provided on the back plate 28.
[0028]
Specifically, the ribs 47 </ b> A and 47 </ b> B extend from the inner peripheral surface of the annular back plate 28 toward the main shaft 21. In addition, the ribs 47 </ b> A and 47 </ b> B protrude toward the casing cover 27, and the foremost portion is in contact with the casing cover 27. The ribs 47A and 47B may be integrated with the back plate 28, or may be fixed separately from the back plate 28 by means such as bolts. By providing the ribs 47A and 47B, it is possible to prevent the swirling flow from occurring in the main plate side chamber 31, thereby preventing the casing cover 27 from being worn by the collision of foreign matter that has entered the main plate side chamber.
[0029]
Since the other configuration and operation of the second embodiment are the same as those of the first embodiment, the same elements are denoted by the same reference numerals and description thereof is omitted.
[0030]
The present invention is not limited to the above embodiment, and various modifications can be made. For example, in the above-described embodiment, the rib extends in a direction orthogonal to the main axis when viewed from the main axis direction, but may be extended in a direction intersecting the main axis. Further, the number of ribs may be one or three or more. Furthermore, the shape of the rib is not limited to a rectangular plate shape, and may be a curved shape or a shape whose thickness changes regularly or irregularly when viewed from the main axis direction.
[0031]
【The invention's effect】
As is clear from the above description, in the sewage pump of the present invention, the surface facing the back plate at the front end of the main plate and the surface facing the front end of the main plate of the back plate are perpendicular to the main shaft. There is no need to provide the casing cover with a mounting portion for the back plate extending toward the front. Therefore, the shape of the main plate side chamber can be made a comparatively simple shape and the dead water portion can be eliminated, so that the casing cover is worn by collision of foreign matter such as sand that has entered the main plate side chamber. Damage can be prevented. Therefore, according to the present invention, the cost required to replace the casing cover damaged by wear can be reduced.
[0032]
In addition, the back plate has an annular shape in which the mounting surface for the casing cover and the surface facing the front end of the main plate are perpendicular to the main axis and have a uniform thickness, so the shape is relatively simple and easily processed. be able to. Furthermore, the back plate has an annular shape with a uniform thickness, and the gap formed between the main plate of the impeller and the back plate is an annular shape perpendicular to the main shaft, so that the position adjustment of the back plate in the main shaft direction is easy. It is. Thus, the present invention simplifies the processing, assembly and adjustment of the sewage pump.
[0033]
Furthermore, by providing ribs extending in the direction intersecting the main axis in the main plate side chamber, it is possible to prevent the generation of swirling flow in the main plate side chamber due to the rotation of the impeller, so foreign matter that has entered the main plate side chamber It is possible to more reliably prevent the casing cover from being worn by collision.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a sewage pump according to a first embodiment of the present invention.
FIG. 2 is an enlarged view of a main part of FIG.
3 is a cross-sectional view taken along line III-III in FIG.
FIG. 4 is a partial cross-sectional view showing a sewage pump according to a second embodiment of the present invention.
5 is a cross-sectional view taken along line VV in FIG.
FIG. 6 is a cross-sectional view showing a conventional sewage pump.
7 is an enlarged view of a main part of FIG.
[Explanation of symbols]
20 Motor 21 Main shaft 22 Pump casing 22a Suction port 22b Discharge port 23 Volute chamber 24 Impeller 24a Suction port 24b Main plate 24c Boss portion 24d Side plate 24e Blade 24f Front end 26 Suction tube 27 Casing cover 27a Insertion hole 27b Mounting portion 28 Back plate 28a Mounting Surface 28b Impeller facing surface 29 Bolt 31 Main plate side chamber 32 Shaft seal device 33 Bearing housing 33a Flange 34 Housing cover 35A, 35B Bearing 37A, 37B Rib 47A, 47B
S2 Clearance L Axis θ2 Inclination angle δ2 Displacement

Claims (4)

An impeller fixed to the tip of the main shaft and accommodated in the pump casing, a casing cover for closing the pump casing on the main plate side of the impeller, and attached to the casing cover and facing the tip of the main plate of the impeller In the sewage pump, the main plate side chamber is formed by at least the main plate of the impeller, the casing cover, the back plate, and the main shaft.
The main plate of the impeller has a surface facing the back plate at the tip thereof perpendicular to the main axis,
The back plate has an annular shape with a uniform thickness in which a mounting surface for the casing cover and a surface facing the tip of the main plate of the impeller are perpendicular to the main shaft, and the tip of the tip of the main plate of the impeller An sewage pump, characterized in that an annular gap perpendicular to the main axis is formed between a surface facing the back plate and a surface facing the tip of the main plate of the back plate. The sewage pump according to claim 1, further comprising a rib extending in a direction intersecting the main axis in the main plate side chamber. The sewage pump according to claim 2, wherein the rib is provided on the casing cover. The sewage pump according to claim 2, wherein the rib is provided on the back plate.

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