KR20240012190A - Marina pedestal apparatus comprising piezoelectric element - Google Patents

Abstract

The present invention is a marina pedestal device that is fixedly installed in a marina and capable of supplying power to a ship, comprising: a pedestal body; A piezoelectric element provided on the pedestal body; A pressurizing part that contacts and pressurizes the piezoelectric element; A connection part provided in the pressurization part and connected to a mooring line of a ship for mooring, or connected to a moving part having a predetermined weight that lies in the sea and moves according to waves; And a storage unit that is pressurized by the pressurization unit and stores the electrical energy generated from the piezoelectric element. It is characterized in that it includes a, and feeds the stored electrical energy to the ship.

Description

Marina pedestal device having a piezoelectric element {MARINA PEDESTAL APPARATUS COMPRISING PIEZOELECTRIC ELEMENT}

The present invention relates to a marina pedestal device having a piezoelectric element, and more specifically, to a marina pedestal device having a piezoelectric element, which is characterized in that power generation is possible using the piezoelectric element in the marina pedestal device for power supply.

In general, various yachts and ships are equipped with storage equipment such as storage batteries to supply power to various electrical equipment installed inside, and water storage tanks that store water for use as drinking water for sailors and domestic purposes, so that they can be used at sea for long periods of time. It is designed to enable living, and when yachts or ships, etc., consume power and water stored in power storage equipment or water storage tanks due to living at sea for a certain period of time, they are moored at a marina such as a dock or marina to receive power and water from outside. The power and water required for operation are supplied and recharged.

If you want to supply power, water, or refuel to a yacht or ship moored in a marina, this is done through a pedestal installed in the marina. The pedestal is essential for a yacht or ship to sail. It is a device that provides power, water, etc., and is generally installed in large numbers in marinas. In addition to basic functions such as power charging and water supply, it measures the amount of power and water supply, member management, and a payment system using mobile, anchoring, etc. It is being developed to support total services such as supporting communication functions and providing lighting functions for ships under construction.

These pedestal devices have not developed significantly due to lack of awareness of marine leisure and policy priorities. However, with the recent revitalization of marine leisure and sports, demand and interest in marina ports are increasing, and the ships or yachts required for marina operation are increasing. Demand for mooring facilities is also rapidly increasing.

Meanwhile, as resources are depleted, a variety of alternative energy technologies such as solar energy are being developed, but the high conversion efficiency of these alternative energy technologies is still subject to many location restrictions.

However, when a power generation method using a piezoelectric element is installed in a place where people and cars pass by, a change in load may occur, resulting in mechanical stress. And because of its high electrical conversion efficiency, research on power generation methods using piezoelectric elements is being actively pursued.

Republic of Korea Patent Publication No. 10-1379821 (2014.03.25.) Republic of Korea Patent Publication No. 10-2103878 (2020.04.17.)

The present invention was conceived based on the above technical background, and its purpose is to provide a marina pedestal device including a piezoelectric element capable of generating and storing electrical energy in the pedestal device.

The purpose is to provide a marina pedestal device equipped with a piezoelectric element that can generate and store electrical energy at any time even when a ship is moored or when the ship is not connected by tying a rope to the pedestal device.

Additionally, the purpose is to provide a marina pedestal device including a piezoelectric element that can manage electrical energy stored from a plurality of pedestal devices in an integrated manner.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned can be clearly understood from the description below.

The present invention for achieving the above object is a marina pedestal device that is fixedly installed in a marina and capable of supplying power to a ship, comprising: a pedestal body; A piezoelectric element provided on the pedestal body; A pressurizing portion that contacts and applies pressure to the piezoelectric element; A connection part provided in the pressurization part and connected to a mooring line of a ship for mooring, or connected to a moving part having a predetermined weight that lies in the sea and moves according to waves; And a storage unit that is pressurized by the pressurization unit and stores the electrical energy generated from the piezoelectric element. It is characterized in that it includes a, and feeds the stored electrical energy to the ship.

And according to a preferred embodiment according to the present invention, the pedestal body further includes a groove formed on the inside surrounding a predetermined portion, the piezoelectric element is provided in the groove, and the pressing portion is inserted into the groove. Do it as

In addition, according to a preferred embodiment of the present invention, a plurality of marina pedestal devices having the above-described piezoelectric elements are provided, and an integrated storage unit that integrates and stores the electric energy stored in each storage unit of the plurality of marina pedestal devices. and a management unit that manages the stored electrical energy, measures the amount of energy supplied to the ship, and calculates the cost.

The present invention with the above configuration can expect the following effects.

Conventionally, by equipping a pedestal device installed in a marina for power supply, water supply, and oil refueling, a piezoelectric element can be used to independently generate and store electric energy.

Here, by using a piezoelectric element with high electrical conversion efficiency, electrical energy can be generated efficiently and can be used as an alternative energy for which the need is emerging worldwide.

In addition, by allowing the pressing operation for energy generation in the piezoelectric element to be performed by waves or wind, there is also the effect of eliminating the need for separate power for pressing.

In other words, when a ship is tied to a rope on a pedestal device for mooring, the string and pressure section connected to the ship moving by waves or wind can pressurize the piezoelectric element to generate electrical energy, or pressurization can occur even if the ship is not connected. As the moving part connected to the part has a predetermined weight and moves according to the waves, the piezoelectric element can be pressed by the pressurizing part to generate electrical energy.

Additionally, there is an effect of being able to integrate, collect, and manage the electrical energy generated from a plurality of these pedestal devices.

Figure 1 is a diagram showing a marina pedestal device equipped with a piezoelectric element according to the present invention.
Figure 2 is a diagram showing a marina equipped with a plurality of marina pedestal devices including piezoelectric elements according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Prior to the description, the advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. And the terms used in this specification are for describing embodiments and are not intended to limit the present invention. Among these terms, the singular includes the plural unless specifically stated in the phrase, and words indicating direction in the description Please note that this is intended to aid understanding of the explanation and may change depending on the time.

Hereinafter, a marina pedestal device including a piezoelectric element according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings. Figure 1 is a diagram showing a marina pedestal device equipped with a piezoelectric element according to the present invention.

Referring to Figure 1, the marina pedestal device 100 equipped with a piezoelectric element according to the present invention includes a pedestal body 10, a piezoelectric element 20, a pressing part 30, a connection part 40, and a storage part 50. ) includes.

The pedestal device 100 is a power supply, water supply, and oil supply device that supplies electricity, water, oil, etc. to ships moored at the marina, and is fixed to the marina as shown in FIG. 1. A pedestal body 10 is installed and has a predetermined pillar shape. The pedestal device 100 according to this embodiment does not need to have a water supply or oil supply function.

This pedestal body 10 is connected to an external power source, external water supply facility, and external refueling facility, and is equipped with a cable (not shown) capable of supplying power, water supply, and refueling to the ship, and measures the amount of electricity, water, and oil supplied. A meter may be provided, and a management department may be provided to charge a fee according to the amount measured by the meter.

The pedestal body 10 is made of a material that prevents corrosion or is formed by coating its surface, and may be in the form of a square pillar as shown in FIG. 1, or may be in the form of a polygonal pillar or a cylinder.

In addition, the pedestal body 10 further includes a groove 11 formed on the inside surrounding a predetermined portion. That is, as shown in FIG. 1, a groove 11 is formed in a predetermined portion of the pedestal body 10, and the size of the groove 11 is formed to correspond to the size of the pressing portion 30.

Next, the piezoelectric element 20 is an element that has the function of converting the change in pressure applied to the element into electric power by using the piezoelectric effect, which is a phenomenon in which electrical polarization occurs on the surface of a crystal when force is applied to a solid.

This piezoelectric element 20 is provided in the groove 11 described above. The groove 11 is a part where the pressing part 30 described below is inserted, and the piezoelectric element 20 is pressed by the movement of the pressing part 30. The pressing part 30 is continuously moved by waves and wind. Therefore, the piezoelectric element 20 is continuously pressurized for power generation, thereby enabling efficient power production.

A plurality of piezoelectric elements 20 according to this embodiment may be provided surrounding the entire groove 11, and may be provided only in the portion to be pressed depending on the shape of the pressing portion 30. For example, the pressing part 30 is formed in an oval shape so that there is almost no space between the pedestal body 10 and the minor axis, and the pressing part 30 is formed along the major axis. axis), the piezoelectric element 20 may be provided only in the groove 11 that contacts the vertex of the long axis of the pressurizing part 30.

And the piezoelectric element 20 is attached so that all parts constituting the piezoelectric element 20, such as electrodes and piezoelectric films, are exposed surrounding the groove 11, and a protective member is attached to prevent contamination or damage by the external environment. It may be provided by attaching it to the top of the element 20. Alternatively, the piezoelectric element 20 may be attached so that only the electrode portion requiring pressure is exposed, and components other than the electrode are inserted into the groove 11. Even in this case, a protective member may be attached to the top of the electrode to prevent the exposed electrode from being contaminated or damaged.

Next, the pressing portion 30 is inserted into the groove 11 of the pedestal body 10 by contacting and pressing the piezoelectric element 20. The pressurizing part 30 is connected to the connection part 40 described below and is continuously moved by waves or wind, and the movement of the pressurizing part 30 presses the piezoelectric element 20 inside the groove 11. This generates electrical energy.

The pressurizing part 30 according to this embodiment is not limited to the ring shape as shown in FIG. 1, but has an oval shape as described above, or can easily pressurize the piezoelectric element 20 inside the groove 11. It can be of various shapes.

Next, the connection part 40 is provided in the pressurizing part 30, and is connected to the mooring line of a ship for mooring, or is connected to a moving part (not shown) with a predetermined weight that lies in the sea and moves according to the waves. connected.

That is, the connection part 40 moves the pressurizing part 30 and is provided for the mooring of the ship. When the ship is moored at a marina, a rope is tied to the pedestal device 100, etc., and this rope is tied to the connection part 40. ), when the ship moves due to waves or wind, the cord and connection part 40 moves, which causes the pressing part 30 to move to pressurize the piezoelectric element 20.

At this time, the rope may be directly tied to the groove 11 to directly pressurize the piezoelectric element 20. However, the method and condition of tying the rope may differ depending on the person, so pressing may not be easily achieved, so in this embodiment The cord is tied through the connection part 40 according to the example.

On the other hand, when the ship's cord is not connected to the connection part 40, the floating part is connected to the connecting part 40, and the floating part is placed on the sea and has a predetermined weight. As this moving part moves due to waves or wind, the connecting part 40 moves and the pressing part 30 moves to pressurize the piezoelectric element 20.

Next, the storage unit 50 is pressurized by the pressurizing unit 30 and stores the electrical energy generated from the piezoelectric element 20. This storage unit 50 is provided inside the pedestal body 10, is connected to the piezoelectric element 20, and receives electrical energy generated from the piezoelectric element 20 and stores it.

The electrical energy stored in the storage unit 50 is used to power the ship. Here, the storage unit 50 may be a rechargeable battery, and may continuously charge and store the electrical energy generated from the piezoelectric element 20.

The electrical energy stored in the storage unit 50 may be supplied to the ship 300 through a cable.

A plurality of pedestal devices 100 according to this embodiment are installed in a marina, and they can be integrated and managed. This form is shown in Figure 2. Figure 2 is a diagram showing a marina equipped with a plurality of marina pedestal devices including piezoelectric elements according to the present invention.

Referring to FIG. 2, the pedestal device 100 according to the present embodiment described above may be installed at each mooring site where a ship is moored.

Each pedestal device 100 may be connected to the vessel 300 through a string, or may be connected to the moving part when there is no moored vessel.

When the ship 300 is connected, the pressurizing part 30 is moved by the ship, when connected to a moving part, by the moving part, or according to wind or waves, thereby pressurizing the piezoelectric element 20 and generating electrical energy.

In this way, a marina equipped with a plurality of pedestal devices 100 is equipped with a management center 400 that can manage them in an integrated manner. The management center 400 performs various tasks necessary for marina operation, and in this embodiment, it further includes an integrated storage unit and a management unit.

The integrated storage unit stores the electrical energy generated in each pedestal device 100 in each storage unit, and integrates and stores all of the electrical energy stored in each storage unit. The electrical energy stored in the integrated storage unit supplies power to the necessary pedestal device 100 and supplies power to the corresponding vessel 300.

The management unit manages the electrical energy stored in the integrated storage unit, measures the amount of energy supplied to the ship 300, and calculates the cost. These functions, such as electrical energy management, supplied energy measurement, and cost calculation, can be performed in a general way and can also be controlled through a wireless communication unit.

The above description is merely an illustrative explanation of the technical idea of the present invention, and various modifications, changes, and substitutions can be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. And, as described above, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is limited by these embodiments and the attached drawings. It doesn't work. The scope of protection of the present invention should be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope should be construed as being included in the scope of rights of the present invention.

100; pedestal device
200; marina
300; Ship
400; Management Center
10; pedestal body
11; home
20; Piezoelectric element
30; pressurized part
40; connection
50; storage unit

Claims (3)

In a marina pedestal device that is fixedly installed in a marina and capable of supplying power to a ship,
Pedestal body;
A piezoelectric element provided on the pedestal body;
A pressurizing part that contacts and pressurizes the piezoelectric element;
A connection part provided in the pressurizing part and connected to a mooring line of a ship for mooring, or connected to a moving part having a predetermined weight that lies in the sea and moves according to waves; and
It includes; a storage unit that is pressurized by the pressing unit and stores the electrical energy generated from the piezoelectric element;
A marina pedestal device having a piezoelectric element, characterized in that the stored electrical energy is supplied to the ship. The method of claim 1, wherein the pedestal body,
Further comprising a groove formed on the inside surrounding a predetermined portion,
A marina pedestal device having a piezoelectric element, characterized in that the piezoelectric element is provided in the groove, and the pressurizing part is inserted into the groove. A plurality of marina pedestal devices including the piezoelectric element according to claim 1 or 2 are provided,
an integrated storage unit that integrates and stores the electrical energy stored in each storage unit of the plurality of marina pedestal devices;
A marina pedestal device having a piezoelectric element, further comprising a management unit that manages the stored electrical energy, measures the amount of energy supplied to the ship, and calculates the cost.