JPS63134899A - Sealing device for impeller root part of movable vane pump - Google Patents

Abstract

PURPOSE:To simplify constitution by arranging a scapegoat electrode and a spring onto a packing pressing part of an impeller seal part. CONSTITUTION:A sealed part is formed between an impeller vane 1 and an impeller hub 3, and three pieces of V-packings 4 are superposed onto a lower adapter 13, and an upper adapter 12 is arranged onto the V-packings 4. The upper adapter 12 is pressed by a spring 11 arranged in the hole formed on a scapegoat electrode ring 10. A packing press 2 tightens a fastening bolt 14, and a gap is formed between the upper adapter 12. Therefore, the initial fastening force of the V-packing can be determined by the strength of the spring 11.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a sealing device for the base of an impeller of a movable vane pump, and is particularly suitable for a pump used in seawater.

[Conventional technology]

As shown in Figures 4 and 5, conventional impeller seals have a structure in which multiple packings 4 are stacked, but when used in seawater, the material of the impeller is 18-8 stainless steel. As a result, clearance corrosion occurred at the contact area with the seal, causing leakage.

Additionally, in order to improve the sealing performance of the seal, it is ideal to place the spring 11 on the seal presser side to provide initial tightening force, and then to apply tightening force to the seal as the external pressure increases. However, placing the spring on the seawater side was difficult to put into practical use due to corrosion concerns.

In the figure, 2 is a packing holder, 8 is a stem bearing, 13 is a lower adapter, and 14 is a tightening bolt.

Furthermore, as described in Japanese Unexamined Patent Publication No. 56-148698, there is a device that discharges leakage when it occurs, but there is a problem that the structure is complicated.

[Problem that the invention seeks to solve]

The above conventional technology does not take into account corrosion in the gap between the 18-8 stainless steel and the sealing material, and the spring cannot be placed on the seawater side from the viewpoint of corrosion prevention, so the initial tightening force is Although it can be applied without adjustment, the structure is prone to leakage due to phenomena such as the tightening force remaining unchanged even when the external pressure increases or the position of the sealing material shifting.

Furthermore, if a backup device against leakage was to be provided, the structure would become complicated.

An object of the present invention is to provide an impeller root sealing device for a movable vane pump that has a simple structure and high reliability.

[Means for solving problems]

The above object is achieved by arranging a sacrificial electrode and a spring in the packing holding part.

[Effect]

The sacrificial electrode inserted into the seal retainer is selectively corroded when seawater enters between the seal and the impeller.
It is possible to prevent clearance corrosion of the impeller.

In addition, since a spring is placed in the packing holding part, the initial tightening force can be adjusted without adjustment, and when external pressure increases, that pressure is applied directly to the packing.
As external pressure increases, the tightening force of the seal increases, improving sealing performance. Corrosion prevention of this spring is also achieved by the sacrificial electrode, and it is difficult to realize this structure without the sacrificial electrode.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 to 3.

FIG. 1 is a sectional view of the impeller boss portion of a movable blade mixed flow pump, and details of section A are shown in FIG. 2.

The impeller vane 1 is rotatably supported by stem bearings 6 and 8 fitted into the impeller hub 3.

It can be adjusted to any desired angle using a wing operation mechanism (not shown). A seal portion (A portion) is provided between the impeller vane 1 and the impeller hub 3 to prevent external handling liquid (here considered as seawater) from entering the interior.

The seal part is made by stacking three V-packets 4 on the lower adapter 13 that is in contact with the impeller hub 2, and placing the upper adapter 12 on top of the three V-packets 4.
are placed. The upper adapter 12 has a sacrificial electrode ring 1
Spring 1 placed in hole 10a drilled in
1. When the packing holder 2 is in contact with the impeller hub 3 with the tightening bolt 14 tightened, a gap is created between the packing holder 2 and the upper adapter 12. Therefore, the initial tightening force of the V-pack can be determined by the strength of the spring 11, and an appropriate tightening force can be applied simply by tightening the tightening bolt 14 without any difficult adjustment. Also, if the external pressure increases during pump operation, the upper adapter 12 receives that external pressure, so ■Packskin 4
The tightening force increases and changes depending on the external pressure.
Sealing performance is improved.

Furthermore, since the lower adapter 13 is in contact with the impeller hub 3, even if the external pressure increases, the V-packet 4 does not shift and slides in the same position, improving reliability.

Also, because seawater intrudes into the gap between the upper adapter 12 and the seal holder 2, the sacrificial electrode ring 1o is damaged.

Selectively corroded impeller vane 1° spring 11. Packing presser 2. The impeller hub 3 and the like are protected from corrosion. In particular, since clearance corrosion on the sliding surfaces between the impeller vane 1 and the packing 4 can be prevented, the reliability of the sealing device is greatly improved.

〔Effect of the invention〕

According to the present invention, clearance corrosion of the impeller seal sliding part is prevented and the spring is disposed in the packing holding part, so (1) the initial tightening force of the packing can be determined by the strength of the spring.

(2) Difficult! I! Appropriate tightening force can be applied without adjustment.

(3) The tightening force changes and follows the external pressure.

(4) ■The position of the packing does not change.

As a result, the reliability of the sealing device is greatly improved.

[Brief explanation of the drawing]

Fig. 1 is a sectional view of the impeller boss portion, Fig. 2 is a detailed view of the seal portion of the present invention, Fig. 3 is a diagram of the sacrificial electrode ring, and Fig. 4 is a diagram of the sacrificial electrode ring.
The figure is a detailed diagram of the seal part of the conventional type (single).
The figure is a detailed view of the conventional type (double) seal part. 1... Impeller vane, 2... Packing holder, 3...
... Impeller hub, 4... V gasket, 5... Impeller nut, 6... Stem bearing (lower), 7... Impeller cap, 8... Stem bearing (upper), 9... Arm, 10...Sacrificial electrode ring, 11...Spring, 12...Upper adapter, 13...Lower adapter, 1
4...Tightening bolt.

Claims (1)

[Claims] 1. An impeller root sealing device for a movable vane pump, characterized in that a sacrificial electrode and a spring are arranged in a packing holding part in a sealing part of an impeller rotated via a vane angle adjustment mechanism.