KR20120036448A - Ship with piezoelectric and ultrasonic ice breaking means - Google Patents

Abstract

PURPOSE: A ship having a piezoelectric and ultrasonic ice breaking unit is provided to remarkably reduce energy required for breaking ice using the cavitation and piezoelectric properties of ultrasonic waves. CONSTITUTION: A ship comprises a piezoelectric and ultrasonic ice breaking unit. The piezoelectric and ultrasonic ice breaking unit comprises a piezoelectric vibrator(110), a horn(120), a hammer, and a vibration medium(130). The piezoelectric vibrator converts an electrical signal into a vibration signal. The horn amplifies the stress of the converted vibration signal. The hammer strikes ice through the amplified vibration signal. The vibration medium is formed between the hammer and the horn and transfers the amplified vibration signal to the hammer.

Description

Ship with piezoelectric and ultrasonic ice breaking means

The present invention relates to a ship having piezoelectric ultrasonic ice-breaking means, and more particularly, to induce cracks in ice through physical blow using ultrasonic cavitation phenomenon and piezoelectric properties, thereby effectively breaking ice. A ship having piezoelectric ultrasonic ice-breaking means.

Ice breakers are ships that have the ability to crush ice in ice-covered waters. Most icebreakers operate by breaking the ice using the ship's propulsion or the weight of the ship and using the weight of the ship. In addition, a very large propulsion force is required because the ice having a thickness of about 1m must be continuously broken.

The present invention has been made to solve the above problems, piezoelectric ultrasonic ice-breaking means that can induce cracks in the ice through the physical blow using the cavitation phenomenon and piezoelectric properties by ultrasonic waves and effectively break the ice through this The purpose is to provide a vessel equipped with a.

The vessel provided with the piezoelectric ultrasonic ice-breaking means according to the present invention for achieving the above object comprises a piezoelectric ultrasonic ice-breaking means provided on one side of the hull, the piezoelectric ultrasonic ice-breaking means, to convert the electrical signal into a vibration signal A piezoelectric vibrator, a horn that amplifies the stress of the vibration signal converted by the piezoelectric vibrator, a hammer that moves back and forth by the stress-amplified vibration signal to strike ice, and is provided between the hammer and the horn. The vibration signal stress-amplified by the horn comprises a vibration medium for transmitting to the hammer, the vibration signal converted by the piezoelectric vibrator is transmitted to the horn and the medium in the water and the cavitation core inside the ice It is characterized by inducing generation.

The hammer is provided with a blow plate which serves to break the ice in contact with the ice, and provided on one side of the blow plate to provide a space in which the piezoelectric vibrator, the horn, and the vibration medium are provided, and the piezoelectric vibrator, the horn, and the vibration medium. It comprises a support shaft that serves as a fixture to fix the. In addition, a plurality of tip protrusions may be provided on the striking plate with a uniform density.

One end of the support shaft is coupled to the nut member, and a compression spring member is further provided on the nut member. In addition, the vibration medium, the horn and the piezoelectric vibrator are sequentially stacked on the rear surface of the striking plate, the vibration medium, the horn and the piezoelectric vibrator is provided in the form of the center portion is formed in the form of the opening to be fitted to the support shaft. Can be.

A fixing member for fixing the hammer to the hull is further provided, and the fixing member includes an inner sleeve closely attached to the support shaft and an outer sleeve fixed to the hull while being connected to the inner sleeve. In addition, a power supply unit is further provided, and the power supply unit applies an electrical signal corresponding to the natural frequency of the piezoelectric vibrator to the piezoelectric vibrator.

The vessel provided with the piezoelectric ultrasonic ice-breaking means according to the present invention has the following effects.

By using piezoelectric and ultrasonic properties to induce cracking in the ice, the energy required for subsequent substantial icebreaking can be significantly reduced.

1 is a block diagram of a ship provided with piezoelectric ultrasonic ice-breaking means according to an embodiment of the present invention.
Figure 2 is a perspective view of the piezoelectric ultrasonic ice-breaking means according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of the piezoelectric ultrasonic icebreaking means according to an embodiment of the present invention.

Hereinafter, a vessel equipped with piezoelectric ultrasonic ice-breaking means according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, a vessel provided with piezoelectric ultrasonic ice-breaking means according to an embodiment of the present invention includes a piezoelectric ultrasonic ice-breaking means 100.

The piezoelectric ultrasonic ice-breaking means 100 serves to induce cracks in ice, and has two functions, namely, a function of generating cracks in ice by generating ultrasonic waves and inducing cavitation by ultrasonic waves (first function); Together, a function (second function) of generating cracks in ice through physical blow using piezoelectric properties is performed.

The piezoelectric ultrasonic ice-breaking means 100 is specifically, a piezoelectric vibrator 110, a horn 120 (horn), a vibration medium 130, a hammer 140 and a power supply unit, as shown in Figure 2 and 3 160).

The piezoelectric vibrator 110 serves to convert an electric signal corresponding to the natural frequency of the piezoelectric vibrator 110 into a vibration signal. The vibration signal converted by the piezoelectric vibrator 110 is transmitted to the horn 120 (horn) and is also transmitted to the medium in the water, that is, ice. The vibration signal transmitted to the ice serves to induce the crack of the ice by inducing the cavitation phenomenon as an ultrasonic wave, the ice crack principle by the ultrasonic wave will be described in detail later. In addition, the power supply unit 160 serves to apply an electrical signal corresponding to the natural frequency of the piezoelectric vibrator 110 to the piezoelectric vibrator 110.

The horn 120 serves to amplify the stress of the vibration signal generated by the piezoelectric vibrator 110. The horn 120 is composed of various cross-sectional shapes and the stress amplification by the horn 120 is determined by the length and diameter of the horn 120. In addition, the vibration medium 130 serves to transmit the vibration signal amplified by the horn 120 to the hammer 140.

The hammer 140 receives the vibration signal of the vibration medium 130 and substantially serves to induce ice cracking by hitting the ice. The hammer 140 is composed in detail of the striking plate 142 and the support shaft 141. The striking plate 142 serves to substantially strike ice, and the support shaft 141 is provided at one side of the striking plate 142 to provide the piezoelectric vibrator 110, the horn 120, and the vibration medium ( It provides a space provided with the 130 and serves as a fixture for fixing the piezoelectric vibrator 110, the horn 120 and the vibration medium 130. In addition, in order to effectively induce the occurrence of cracking of ice, a plurality of tip protrusions 143 are provided at a uniform density on top of the striking plate 142.

In order to fix the hammer 140 to the hull, a fixing member is provided at one side of the support shaft 141 of the hammer 140. The fixing member includes an inner sleeve 151 and an outer sleeve 152, the inner sleeve 151 is provided in close contact with the support shaft 141, and the outer sleeve 152 is the inner sleeve. It is connected to 151 and is fixed to the bow or stern front end of the hull.

In addition, one end of the support shaft 141 of the hammer 140 is coupled to the nut member 144, the nut member 144 and the inner sleeve 151 to secure the forward and backward movement space of the hammer 140. ) Is provided at a distance spaced apart, and a compression spring member 145 is provided between the nut member 144 and the inner sleeve 151 to impart a restoring force when the hammer 140 moves forward and backward.

On the other hand, the vibration medium 130, the horn 120 and the piezoelectric vibrator 110 is provided in the form of sequentially stacked on the rear surface of the impact plate 142 of the hammer 140, in detail the vibration medium ( 130, the horn 120 and the piezoelectric vibrator 110 may be provided in a form in which a central portion is opened and fitted to the support shaft 141.

The piezoelectric ultrasonic ice-breaking means 100 as described above is provided at the fore and aft end of the hull, and its position can be selectively adjusted according to the height and direction of the ice to be iced. For example, the vertical height and the left and right positions of the piezoelectric ultrasonic ice-breaking means 100 may be adjusted through separate driving means.

In the above, the configuration of a ship having piezoelectric ultrasonic ice-breaking means according to an embodiment of the present invention has been described, and the principle of ice crack induction by the ice-breaking ship according to the present invention is as follows. As described above, the ice crack induction by the icebreaker according to the present invention proceeds by 1) physical cracking due to piezoelectric properties and 2) cracking by ultrasonic waves. The two types of crack inducing types are piezoelectric vibrators 110. Simultaneously proceeds with the vibration signal conversion.

First, referring to the physical cracking process by the piezoelectric characteristics, when the electrical signal corresponding to the natural frequency of the piezoelectric vibrator 110 from the power supply unit 160 is applied to the piezoelectric vibrator 110, the piezoelectric vibrator 110 Converts the electrical signal into a vibration signal. The converted vibration signal is stress amplified by the horn 120 (horn) and transmitted to the vibration medium 130, and finally, to the striking plate 142 of the hammer 140. The impact plate 142 of the hammer 140 is moved back and forth by the vibration signal to induce the crack of the ice by hitting the ice.

Next, when looking at the crack induction process by the ultrasonic wave, when the electrical signal corresponding to the natural frequency of the piezoelectric vibrator 110 is transmitted from the power supply unit 160 to the piezoelectric vibrator 110, the piezoelectric vibrator ( 110 converts an electrical signal into a vibration that is a mechanical signal while causing resonance. The converted vibration signal is transmitted to ice, which is an underwater medium, which causes the sound pressure to increase and decrease as the kinetic energy of the medium increases. When the repetitive change in sound pressure becomes lower than the saturated steam pressure of the medium, the cavitation core is generated as the medium vaporizes. The resulting cavitation core expands with repeated increase and decrease of pressure and explodes as the ambient pressure exceeds the surface tension. At this time, fine bubbles having a very high velocity are generated, and cracks are generated from the inside of the ice by the energy of the fine bubbles.

100: piezoelectric ultrasonic crushing means
110: piezoelectric vibrator 120: horn
130: vibration medium 140: hammer
141: support shaft 142: blow plate
143: tip protrusion 144: nut member
145: compression spring member 151: inner sleeve
152: outer sleeve 160: power supply

Claims (7)

Piezoelectric ultrasonic crushing means provided on one side of the hull is made,
The piezoelectric ultrasonic crushing means,
A piezoelectric vibrator for converting an electrical signal into a vibration signal, a horn for amplifying the stress of the vibration signal converted by the piezoelectric vibrator, a hammer for moving back and forth by the stress-amplified vibration signal, and hitting ice; A vibration medium provided between the hammer and the horn and transmitting the vibration signal stress-amplified by the horn to the hammer,
And a vibration signal converted by the piezoelectric vibrator is transmitted to the horn and to a medium in the water to induce generation of a cavitation core inside the ice.
The method of claim 1, wherein the hammer,
A blow plate that serves to break the ice in contact with the ice,
It is provided on one side of the striking plate and provided with a space provided with the piezoelectric vibrator, arc and vibration medium, and comprises a support shaft that serves as a fixture for fixing the piezoelectric vibrator, arc and vibration medium. Vessel with piezoelectric ultrasonic icebreaking means.
3. The ship provided with the piezoelectric ultrasonic ice-breaking means according to claim 2, wherein a plurality of tip protrusions are provided on the striking plate at a uniform density.
3. The ship according to claim 2, wherein one end of the support shaft is coupled to a nut member, and a compression spring member is further provided on the nut member.
The vibration medium, the horn, and the piezoelectric vibrator are sequentially stacked on the rear surface of the striking plate, and the vibration medium, the horn, and the piezoelectric vibrator are formed to have an opening in a central portion thereof to fit the support shaft. Ship having piezoelectric ultrasonic ice-breaking means, characterized in that provided in the form.
According to claim 2, A fixing member for fixing the hammer to the hull is further provided, the fixing member is an inner sleeve in close contact with the support shaft, provided with an outer sleeve which is connected to the inner sleeve and fixed to the hull Vessel having a piezoelectric ultrasonic ice-breaking means, characterized in that configured.
The method of claim 1, further comprising a power supply,
And the power supply unit applies an electrical signal corresponding to the natural frequency of the piezoelectric vibrator to the piezoelectric vibrator.

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