Communications – electrical: acoustic wave systems and devices – Transmitter systems – Animal control
Reexamination Certificate
2000-05-19
2001-09-04
Lobo, Ian J. (Department: 3662)
Communications, electrical: acoustic wave systems and devices
Transmitter systems
Animal control
Reexamination Certificate
active
06285629
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a method of preventing deterioration of a submerged marine structure, and an ultrasonic vibration unit for use in the method.
BACKGROUND ART
A variety of structures including buildings and ships have been placed in the ocean for development of natural resources such as biological, oil, gas and mineral resources, for exploitation of ocean energy, ocean space, seawater, etc, for preservation of environment, etc, or for industrial applications for marine transport, harbor, marine product industry, etc.
In such structures, steel materials are generally employed, although materials are selected considering their purposes, costs, strength, durability, etc.
However, when these structures are placed in seawater, the surface of the structure in contact with seawater becomes a suitable environment for reproduction of marine organisms, and the marine organisms may cling to and thus damage the surface of the structure. On the other hand, since seawater provides a severe corrosion environment to the steel materials, corrosion will grow with time, resulting in deterioration of the structure.
In order to solve such a problem, adequate coating has been performed on the surface of the structure, with periodical repainting.
However, repainting requires removal of old paint, which takes a lot of time and labor, posing a problem of marine pollution due to stripped paint flakes. Also, clinging marine organisms should be removed for repainting, in which case it must be ensured that the removed dead organisms never sink to the bottom of the sea to be decomposed. Such a work must be very difficult.
On the other hand, coating materials have been developed preventing corrosion due to oxidation of the surface of the structure. Although such materials have effects of retarding growth of the corrosion, however, they contain zinc, lead, cupper, etc, raising a problem of environmental pollution due to dissolution of these metals into seawater. In addition, none of these coating materials can prevent clinging of marine organisms, and if they cling to the structure, oxidation is accelerated by oxygen sent out from the marine organisms, causing further growth of the corrosion of the structure.
Alternatively, an idea has been suggested in which a vibration may be applied to the structure. It is reported that vibrating a structure prevents clinging of fungi or algae. However, it has not been clear what type of vibration should be applied and how. In addition, even if no marine organisms cling to the structure, seawater causes rust, resulting in corrosion of the structure.
In view of the foregoing, it is the object of this invention to provide a method of preventing deterioration of a submerged marine structure, capable of preventing clinging of marine organisms and corrosion due to rust, and capable of effecting long life of the structure, and a suitable ultrasonic vibration unit for use in the method.
DISCLOSURE OF THE INVENTION
According to this invention, a method of preventing deterioration of a submerged marine structure is provided which comprises applying an ultrasonic vibration and a voltage to the structure to exert vibrating and electric energies thereon, wherein a power source is connected such that the structure acts as an electrode, and the voltage is applied to the structure from the power source.
Further, according to this invention, an ultrasonic vibration unit for use in preventing deterioration of a submerged marine structure is provided which comprises an ultrasonic vibrator made from a piezoelectric ceramic plate with an electrode on each side thereof, power supply wires connected to the respective electrodes, a support member for supporting fixedly the ultrasonic vibrator and transmitting an ultrasonic vibration to the structure, and a resin coat for protecting the ultrasonic vibrator against seawater.
The method of preventing deterioration of a submerged marine structure according to this invention is characterized in that an ultrasonic vibration and a voltage are applied to the structure to exert thereon vibrational and electric energies. Vibrational energy and electric energy are superimposed, which prevents clinging of marine organisms to the structure and its corrosion due to rust, effecting long life of the structure.
In the method of this invention, the ultrasonic vibrator employed for application of ultrasonic vibration can be either a type in which the vibrator is attached to the structure on the seawater side, or a type in which it is attached to the structure on the inner side not in contact with sea water. In the former type, an ultrasonic vibration unit with an electrical insulating resin coat as described below is preferably used such that it is not short-circuited and durability can be maintained. As for the type of the ultrasonic vibrator, it may be of a flat type made from a piezoelectric material, a film type, a bulk type, or a Langevin type. The frequency of the ultrasonic wave is selected appropriately depending on the thickness and size of the structure, and generally ranges from 10 kHz to 200 KHz, preferably from 50 kHz to 60 kHz.
In the method of this invention, for a voltage to be applied to the structure and for an anticorrosive electric current to be supplied to the same, a power source is connected to the structure such that the structure acts as a cathode, and a voltage is applied to the structure from the power source. In this case, a solar batteries or commercially available batteries can be used as the power supply. Alternatively, an electrode made of a metal, such as Zn, Al or Mg, with larger ionization tendency than the metal constituting the structure may be electrically connected directly to the structure to form a battery, which battery may supply the anticorrosive electric current.
Also, in the method of this invention, instead of supplying the anticorrosive electric current as described above, the power source may be connected such that a voltage is applied to the structure and the structure acts as an electrode, and the voltage may be applied from the power source to the structure. In this case, solar batteries or commercially available batteries can be used.
It is preferable that the voltage applied to the structure is one containing an AC component in synchronization with the vibration waveform of the ultrasonic vibration. In this case, the voltage is preferably a pulsating one in which a DC voltage component and an AC voltage component are superimposed. The difference between the maximum applied voltage and the minimum one is at least 1 V, ranging preferably from about 2 to 4 V. The applied voltage is changed in this way (potential sweep), so that marine organisms can be avoided effectively.
In a preferred embodiment of this invention, the structure is comprised of a plurality of structural members electrically insulated from each other, an ultrasonic vibration is applied to the plurality of structural members, one or a plurality of power sources are connected to the plurality of structural members, and a voltage(s) is applied to the plurality of structural members from the power sources. In this case, adjacent two structural members are adapted to act as a pair of electrodes, and a periodically inversed voltage is preferably applied such that one and the other pair of electrodes have each a different polarity. Also, if there is provided a multiple pairs of structural members, an appropriate number of pairs are grouped into one set, and the structural members in each set may be driven in sequence.
Further, according to this invention, an ultrasonic vibration unit is adopted which is attached to a submerged marine structure on the seawater side. The ultrasonic vibration unit comprises an ultrasonic vibrator made from a piezoelectric ceramic plate with an electrode on each side thereof, power supply wires connected to the respective electrodes, a support member for fixedly supporting the ultrasonic vibrator and transmitting an ultrasonic vibration to the structure, and a resin coat for protecting the ul
Kobayashi Masaki
Shigihara Takanori
Lobo Ian J.
Lorusso & Loud
Richter Corporation
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