JP2005171310A - Protective structure of electrode for corrosion prevention of underwater electrically driven rotary machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a protective structure of an electrode for corrosion prevention which can exert a corrosion preventive effect on all areas of wetting metallic sections of an underwater electrically driven pump etc., by a single electrode for corrosion prevention, can protect the electrode for corrosion prevention from the entanglement of foreign substances around the electrode for corrosion prevention and the vibration during operation, is semipermanent in the corrosion preventive effect, eliminates the need for replacement of the electrode for corrosion prevention and is excellent in maintainability. <P>SOLUTION: The electrode for corrosion prevention 6 is disposed to face the underwater electrically driven rotary machine 1 installed within a water tank 2 in a contacless state with the same by the form of leading corrosion preventive wiring 4a out of a motor section of the underwater electrically driven rotary machine 1, connecting the same to a negative side electrode of a corrosion preventive electric power unit 5, connecting the insoluble electrode for corrosion prevention 6 to the front end of a cable 4b for the electrode led down from the positive side terminal of the corrosion preventive electric power unit 5 and housing the electrode for corrosion prevention 6 in a guide pipe 3 erected so as to communicate with the interior of the water tank 2. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a protection structure for an anticorrosion electrode in an underwater electric rotary machine such as an underwater electric pump and an aeration / stirring device.

In order to prevent corrosion of wetted metal parts such as submersible electric pumps, corrosion protection members made of low-potential metals, which have a higher ionization tendency than submersible electric pumps, etc. are used as sacrificial anodes, and are exposed in the required locations. The structure of installing and attaching to a fixed form is well-known (for example, refer patent document 1). In such a configuration, an electric flow is generated through the water between the submersible electric pump or the like and each anticorrosion member, and corrosion of the submersible pump or the like is prevented by dissolution of each anticorrosion member in water. However, in order to provide the anticorrosion effect to all the parts of the wetted metal part such as the submersible electric pump, a large number of anticorrosion members must be provided, which is structurally complicated and increases the equipment cost. In addition, foreign matters get entangled with the anti-corrosion member fixed in the exposed state, or the anti-corrosion member needs to be replaced due to resonance due to vibration generated during operation or worn over time. is there.
JP 2000-310194 A (FIG. 1)

  The problem to be solved is that a single anticorrosion electrode can exert an anticorrosive effect on all parts of the wetted metal part such as an underwater electric pump. It is an object of the present invention to provide a protection structure for an anticorrosion electrode that can protect the anticorrosion electrode from vibrations, has a semipermanent anticorrosion effect, does not require replacement of the anticorrosion electrode, and has excellent maintainability.

  In the present invention, the anticorrosion wiring is derived from the motor part of the submersible electric rotating machine installed in the water, connected to the negative terminal of the anticorrosion power supply, and the electrode cable led from the positive terminal of the anticorrosion power supply. An insoluble anticorrosive electrode is connected to the tip, and the anticorrosive electrode is accommodated in a non-contact state with the underwater electric rotating machine by an aspect in which the anticorrosive electrode is accommodated in a guide pipe standing to communicate with the water. Is the main feature.

  According to the present invention, a single insoluble anticorrosion electrode can exert an anticorrosion effect on all parts of the wetted metal portion of the underwater electric rotating machine without requiring a large number of anticorrosive members (sacrificial anodes). Therefore, there is an advantage that the structure can be simplified and equipment can be provided at low cost. Further, the anticorrosion electrode can be protected from the entanglement of foreign matter on the anticorrosion electrode and vibration during operation. Furthermore, according to the present invention, it is possible not only to prevent the wetted metal part in the submersible electric rotary machine from being eluted, but also to provide an anticorrosive effect without eluting the anticorrosive electrode itself. A semi-permanent anticorrosion function can be maintained without requiring replacement, and a protection structure for an anticorrosion electrode excellent in maintainability is provided.

  The anticorrosion wiring is led out from the motor part of the submersible electric rotating machine installed in the aquarium, connected to the negative terminal of the anticorrosion power supply, and insoluble at the tip of the electrode cable led from the positive terminal of the anticorrosion power supply An anti-corrosion electrode is connected to the anti-corrosion electrode so that an annular bumper can be extracted from the lower portion of the anti-corrosion electrode, and the anti-corrosion electrode is supported via the bumper in a guide pipe that is erected so as to communicate with the water tank. According to the embodiment, the anticorrosion electrode is placed in a non-contact state with the underwater electric rotary machine.

  In FIG. 1, reference numeral 1 denotes an underwater electric rotary machine such as an underwater electric pump, which is illustrated as a removable type that moves up and down along a guide pipe 3 standing in a water tank 2. 4a is an anticorrosion wiring led out from the motor unit of the submersible electric rotary machine 1 and connected to the negative terminal of the anticorrosion power supply 5, 4b is an electrode cable led from the positive terminal of the anticorrosion power supply 5, An insoluble anticorrosive electrode 6 is connected to the leading end of the electrode cable 4b. And in order to avoid the entanglement of a foreign material, the electrode 6 for anticorrosion is set in a non-contact state with the submersible electric rotating machine 1 in a mode in which the electrode 6 is accommodated in the guide pipe 3. For example, a flow hole 8 is formed in the guide pipe 3 so as to communicate with the inside of the water tank 2. In order to provide the anti-vibration function on the outer periphery of the anticorrosion electrode 6, for example, an annular rubber bumper 10 is fitted as shown in FIG. 2, and the anticorrosion electrode 6 is inserted into the guide pipe 3 through the bumper 10. 3, or the holder portion 6H of the anticorrosion electrode 6 itself is formed in a cushion structure as shown in FIG. 3, and the anticorrosion electrode is supported in the guide pipe 3 by the cushion structure. To do. With this configuration, the anticorrosion electrode 6 can be prevented from being damaged by resonance due to the influence of vibration from the underwater electric rotating machine 1. When necessary, it is possible to lift only the anticorrosion electrode 6 onto the tank. This embodiment can be applied regardless of whether the underwater electric rotating machine 1 is detachable or non-detachable. In the case of the detachable type, the lifting guide pipe 3 protects the anticorrosion electrode 6 as it is. In the case of the non-detachable type, a pipe dedicated for protection of the anticorrosion electrode 6 is erected. In this embodiment, if each member in the wetted metal portion of the underwater electric rotating machine 1 is electrically connected, the single anticorrosion electrode 6 has an anticorrosive effect on all portions of the wetted metal portion. In addition, it is possible not only to prevent elution of the water-contacting metal part but also to prevent the anticorrosion electrode 6 itself from being eluted and to maintain the anticorrosion function semipermanently.

  For the electrode led out from the plus terminal of the anticorrosion power supply 5, the anticorrosion wiring 4 a is led out from the motor part of the submersible electric rotating machine 1 installed in the water tank 2 and connected to the negative terminal of the anticorrosion power supply 5. An insoluble anticorrosive electrode 6 is connected to the tip of the cable 4b, and an annular rubber bumper 10 is extractably fitted from below the anticorrosive electrode 6 as shown in FIG. As shown in FIG. 5, the anticorrosion electrode 6 is supported in a non-contact state with the submersible electric rotary machine 1 by the aspect in which the anticorrosion electrode 6 is supported through the bumper 10 in the standing guide pipe 3. . The fitting surface between the bumper 10 and the anticorrosion electrode 6 is preferably formed in a tapered shape. With this configuration, the anticorrosion electrode 6 can be prevented from being damaged by resonance due to the influence of vibration from the underwater electric rotating machine 1. When necessary, only the anticorrosion electrode 6 is pulled up from the inside of the guide pipe 3. However, according to the present embodiment, the anticorrosion electrode 6 is provided in the bumper 10 even when a protrusion such as a rust is formed on the inner wall of the guide pipe 3. The anticorrosion electrode 6 can be pulled up without support by inserting / removing from the bottom. This embodiment can be applied regardless of whether the underwater electric rotating machine 1 is detachable or non-detachable. In the case of the detachable type, the lifting guide pipe 3 protects the anticorrosion electrode 6 as it is. In the case of the non-detachable type, a pipe dedicated for protection of the anticorrosion electrode 6 is erected. In this embodiment, if each member in the wetted metal portion of the underwater electric rotating machine 1 is electrically connected, the single anticorrosion electrode 6 has an anticorrosive effect on all portions of the wetted metal portion. In addition, it is possible not only to prevent elution of the water-contacting metal part but also to prevent the anticorrosion electrode 6 itself from being eluted and to maintain the anticorrosion function semipermanently.

It is a side view of an underwater electric rotating machine equipped with the protection structure of the present invention. It is a side view of the anticorrosion electrode in this invention protection structure, Comprising: The case where the cyclic | annular bumper was fitted to the outer periphery of the anticorrosion electrode is shown. It is a side view of the anticorrosion electrode in this invention protection structure, Comprising: The case where the holder part itself of an anticorrosion electrode is made into the cushion structure is shown. It is a side view of the anticorrosion electrode in this invention protection structure, Comprising: The example which fitted the annular bumper so that extraction was possible from the lower part of the anticorrosion electrode is shown. It is a side view which shows the aspect which accommodated the electrode for corrosion prevention of FIG. 4 in the guide pipe. It is a side view which shows the aspect which the anticorrosion electrode inserted / removed from the bumper from the state of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Underwater electric rotating machine 3 Guide pipe 4a Corrosion prevention wiring 4b Electrode cable 5 Corrosion prevention power supply device 6 Corrosion prevention electrode 6H Corrosion prevention electrode holder part 10 Bumper

Claims (4)

  The anticorrosion wiring is derived from the motor part of the underwater electric rotating machine installed in the water and connected to the negative terminal of the anticorrosion power supply, and is insoluble at the tip of the electrode cable guided from the positive terminal of the anticorrosion power supply. The anticorrosion electrode is connected to the underwater electric rotating machine in a non-contact state by connecting the anticorrosion electrode and accommodating the anticorrosion electrode in a guide pipe standing upright so as to communicate with the water. Protective structure of anticorrosion electrode in underwater electric rotating machine.   The underwater electric rotation according to claim 1, wherein an annular bumper is fitted on the outer periphery of the anticorrosion electrode, and the anticorrosion electrode is supported in the guide pipe via the bumper. Protection structure for anticorrosion electrodes in machines.   2. The underwater electric rotating machine according to claim 1, wherein the holder portion of the anticorrosion electrode itself is formed in a cushion structure, and the anticorrosion electrode is supported in the guide pipe by the cushion structure. Protection structure for anticorrosion electrodes.   The anticorrosion wiring is derived from the motor part of the underwater electric rotating machine installed in the water and connected to the negative terminal of the anticorrosion power supply, and is insoluble at the tip of the electrode cable guided from the positive terminal of the anticorrosion power supply. An anticorrosion electrode is connected, an annular bumper is extracted from the lower part of the anticorrosion electrode, and the anticorrosion electrode is supported via the bumper in a guide pipe that is erected so as to communicate with water. The anticorrosion electrode protection structure for an underwater electric rotary machine, wherein the anticorrosion electrode is disposed in a non-contact state with the underwater electric rotary machine.

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