RU2653609C2 - Device for the transformation of the energy of marine waves into reciprocal - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention relates to devices that convert the energy of sea waves into reciprocating motion. Device comprises a flexible connection 1 connected to the triangular web 3 and having a portion 15, by means of the unit 14 connected to the tension device of the flexible connection 1. Flexible connection 1 from one end is fixed on the shore or coastal island at an altitude corresponding to the level of sea water, with the formation of a horizontally located section. One side 4 of the cloth 3 is made on the area 15 and its ends 5 and 6 are connected to it. Other two sides 7 and 8 form an angle α to the top of which a load 9 is attached to tension the web 3 and contact the bottom surface 11.

EFFECT: invention is aimed at creating an environmentally friendly device that is simple in design, installation and operation, increasing the efficiency, as well as the expansion of consumer properties and arsenal of technical means designed to convert the energy of sea waves.

11 cl, 1 dwg

Description

The invention relates to devices that convert the energy of sea waves into reciprocating motion, which can be used to convert to electrical energy or directly to perform one or another mechanical work.

It is known that the kinetic energy of sea waves is much higher than the energy of tides and can be used much wider than tidal. Sea waves, caused mainly by the wind of unstable directions and forces, carry a much larger supply of energy. However, sea waves have a number of disadvantages, in particular, unpredictability and inconsistency of energy flow, and devices for converting sea wave energy - the complexity of the operation and transportation of energy to the consumer. In addition, the horizontal and vertical movement of sea water molecules is usually the most intense near the surface and becomes slower with increasing depth.

Due to the instability of this energy source and the multidirectional movement of water molecules, extracting and storing the energy of sea waves is difficult and expensive. As a result, the available energy reserve of sea waves, despite the huge need for it, is almost not used, and existing devices for its extraction are difficult to manufacture and operate. In addition, energy converters of sea waves are designed, as a rule, to convert the vertical component of the energy of sea waves and do not use its most significant part, which is associated with the transverse and longitudinal movement of water and which accounts for up to 75% of all energy.

Known wave power plant designed for installation on the sea or lake to produce energy, containing a floating structure and at least one floating body, which moves vertically with respect to the floating structure and is connected to the structure through an energy transfer device containing vertical floats with vertical pipes in which air is compressed by water and its energy is converted into an electric turbine in an air turbine (patent RU 2386051 C2, F03B 13/18, F03B 13/20, published on April 10, 2010, bull. No. 10). However, the disadvantage of this wave power plant is the complexity of the design and low efficiency. The low efficiency is explained by the fact that only the vertical component of the multidirectional movement of sea water molecules is used to obtain energy.

A known energy converter of sea waves, containing a platform immersed in water, which is supported in water by means of a completely flooded float and is held by a halyard connecting the platform to the bottom of the water space, a pump assembly mounted on the platform and performing a reciprocating pump (patent RU 2472030 C2, F03B 13/18, publ. 10.01.2013, bull. No. 1). The disadvantages of this converter, in addition to complexity and high cost, include the fact that for reliable fastening of the halyard on the seabed during installation, it is necessary to perform expensive diving operations. A device is also known for lifting with a hydraulic pump sea water to a certain height and then using its potential energy to generate electrical energy, in which there is a float pivotally connected to the piston of the pump, which is rigidly fixed relative to the bottom of the reservoir (patent GR 20110100695 A, F03B 13 / 18, published on July 13, 2012). The disadvantages of this converter are the complexity of design and installation, low efficiency. The low efficiency is also associated with the fact that when converting the energy of sea waves, only the vertical component of the energy vector of sea waves is taken into account and its longitudinal and transverse components are not taken into account. The complexity of installation is due to the fact that when installing the converter, the pump must be rigidly fixed relative to the bottom of the reservoir, which is associated with diving operations.

A device is known from the prior art for converting the energy of sea waves into reciprocating motion, comprising a flexible connection connected to a panel in the shape of a triangle and having a section, by means of a unit connected to a flexible communication tension device (SU 1656146 A1, 06.15.1991, F03B 13 / 12, columns 3-4, Fig. 1, 2, total 2 pages in the document). The device has an appointment that matches the purpose of the invention, and it has an inherent set of features that is closest to the set of essential features of the invention. Therefore, this device is taken as the closest analogue (prototype).

The technical problem that had to be solved in the process of developing the invention is to create an economical, environmentally friendly device that is simple in design and installation to convert the energy of the sea waves into a reciprocating movement of flexible communication, easily converted to electrical energy, for the installation of which diving is not required works.

The technical result of the invention is to create a simple in design, installation and operation of environmentally friendly, eliminating the formation of polluting emissions and waste throughout the entire period of operation of the device for converting the energy of sea waves into reciprocating motion, increasing efficiency by improving the efficiency of the use of currents and multidirectional oscillatory movements occurring in the waves, as well as the expansion of consumer properties in and an arsenal of technical means designed to convert the energy of sea waves.

The technical result is achieved due to the fact that in the device for converting the energy of sea waves into reciprocating motion (hereinafter referred to as the device), containing a flexible connection connected with a cloth in the form of a triangle and having a section, through a unit connected to a device for tensioning a flexible connection, flexible the connection from one end is fixed on the coast or coastal island at a height corresponding to the level of sea water, with the formation of a horizontally located area, while one of the sides of the panel is made on The specified section of the flexible connection and its ends are connected to it, and the other two form an angle to the top of which a load is attached for tensioning the panel and contact with the bottom surface.

By the side of the triangle we also understand the side of the panel.

The drawing conventionally shows a device for converting the energy of sea waves into reciprocating motion, side view.

The device contains a flexible connection 1, which is fixed on the shore by means of a fastening 2 and is made with a cloth 3, the side 4 of which is connected with it with its ends 5 and 6, and the sides 7 and 8 form an angle α, to the top of which a load 9 with a comb 10 is attached for tension the panel 3 and contact with the bottom surface 11, while from the other end, the flexible connection 1 passes through blocks 12, 13 and 14 into a rectilinear rectilinear section 15 connected to the device for tensioning the flexible connection 1 in the form of a load 16.

Flexible connection 1 is performed in the form of a steel cable or rope or rope or tape, and the load 9 is performed with an anchor or comb 10 in the form of a gear rack with the possibility of moving along the bottom surface 11 or securing to it. The load 9 is performed with an anchor or comb 10 to create additional resistance to the movement of the load 9 along the bottom surface 11.

или

сторону полотнища 3. При этом на мелководном участке моря используют устройство, в котором на гибкой связи 1 выполнена большая сторона полотнища 3, а на глубоководном участке применяют устройство, в котором на гибкой связи выполнена меньшая сторона полотнища 3.Obviously, the presence of cargo 9 contributes to the vertical position of the panel 3, which often increases the efficiency of the device. Moreover, the vertical position of the panel 3 is not always optimal. In this case, the height of the triangle, in the form of which the panel 3 is made, is greater than the depth of the sea area on which the proposed device is installed. Depending on the depth of the coastal sea section, in order to increase the efficiency of the device, flexible communication devices 1 have

or

the side of the panel 3. In this case, a device is used in the shallow section of the sea in which the large side of the panel 3 is made on flexible connection 1, and a device is used in the deep-sea section in which the smaller side of the panel 3 is made on flexible communication.

In special cases, reflecting the specific conditions of use of the device, the side 4 of the panel 3, made on a flexible connection 1, is fixedly connected from one end to the flexible connection, and movably connected to the other. As a rule, the connection is movable from the end from which it is technologically easier to change the connection point with the flexible connection 1. Changing the connection of the side 4 with the flexible connection 1 is necessary to find the position of the panel 3 on the flexible connection 1, at which the tension of the panel 3 will be the greatest.

Embodiments of the device are possible in which the ends 5 and 6 of the side 4 of the panel 3 with flexible connection 1 are connected movably or motionless. With a movable connection of the ends 5 and 6 of side 4, it becomes possible to displace the panel 3 along the flexible connection 1 with the choice of position with the most active movement of water masses.

The length of side 4 of the panel 3 is often taken longer than the length of the flexible connection segment 1, to which side 4 is connected at its ends 5 and 6. This allows the kinetic energy of a larger volume of sea water to be used to tension the flexible connection 1, which is especially important in shallow areas.

Obviously, the greater the depth of the sea section on which the proposed device is located, the smaller must be the angle α, to the top of which a load 9 is attached to tension the panel 3. Therefore, the device is made with the panel 3 in the form of a triangle, the angle α of which is inversely proportional to the depth offshore section. A decrease in the angle α with an increase in the depth of the sea section expands the consumer properties of the device, which allows it to be used at different depths without increasing the size of the flexible connection section 4, on which the horizontally located outer side of the cloth 3 is made at its ends. Thus, the cloth 3 is made with a shape that takes into account the change in the specific pressure of water on its part, depending on the depth of their presence in the water. On the smaller parts of the cloth 3, located at a greater depth, sea water acts with a high specific pressure, which somewhat compensates for the decrease in the area of the parts of the cloth with increasing depth of their presence in the water.

A device for converting the energy of sea waves into reciprocating motion is used as follows.

The circular movement of water in changing directions, occurring in the sea wave, acts on the panel 3 and brings it into a convex state, causing the flexible connection 1 to tension and the horizontal straight section 15 of the flexible connection 1 to move to the left towards the mounting 2. When the wave is quiet, the panel 3 in the form submarine sail comes into a plane or close to this state, causing a weakening of the tension of the flexible connection 1 and the movement of the rectilinear portion of the flexible connection 1 between blocks 12 and 13 and, accordingly, of the horizontal straight line of the 15th section between the blocks 13 and 14 under the action of the flexible coupling tensioning device 1 in the form of a load 16 to the right, away from the end of the flexible coupling 1 with the fastener 2. Further, the circular movement of water occurring in the wave leads to the fact that the panel 3 receives a concave the state also causing the tension of the flexible connection 1 and the movement of the inclined straight line segment (section) of the flexible connection 1 between blocks 12 and 13 and the horizontal straight section 15 between blocks 13 and 14 occurs already in the opposite direction, namely, towards the end flexibly th connection 1 with fastening 2. Blocks 12, 13, 14 each rotate freely on their axis and with a minimum resistance provide a change in the direction of movement of flexible connection 1.

This process is characterized by the reciprocating movement of the horizontal rectilinear segment 15 of the flexible connection 1 with the transfer of energy of this movement through appropriate devices for conversion into other types of energy.

The advantage of the proposed technical solution is its simplicity, the ability to perform and operate the device at the minimum cost of material, financial and labor resources.

Claims (11)

1. A device for converting the energy of sea waves into a reciprocating movement, containing a flexible connection connected with a panel in the shape of a triangle and having a section, by means of a unit connected to a device for tensioning a flexible connection, characterized in that the flexible connection is fixed from one end to the shore or coastal island at an altitude corresponding to the level of sea water, with the formation of a horizontally located area, while one of the sides of the panel is made on the specified area of flexible communication and its ends soy inena with it, and the other two form an angle, which is attached to the top load and to tension the cloth in contact with the bottom surface. 2. The device according to p. 1, characterized in that the flexible connection is made in the form of a steel cable, or rope, or rope, or tape. 3. The device according to p. 1, characterized in that the cargo is made with an anchor or comb in the form of a gear rack with the ability to move along the bottom surface. 4. The device according to p. 1, characterized in that the cargo is made with an anchor or comb in the form of a gear rack with the possibility of fixing on the bottom surface. 5. The device according to p. 1, characterized in that along the flexible connection is located the smaller side of the panel. 6. The device according to claim 1, characterized in that along the flexible connection there is a large side of the panel. 7. The device according to p. 1, characterized in that the side of the panel from one end with a flexible connection is connected motionlessly, and the other - movably. 8. The device according to p. 1, characterized in that both ends of the side of the panel with a flexible connection are connected movably. 9. The device according to p. 1, characterized in that both ends of the side of the panel with a flexible connection are connected motionless. 10. The device according to p. 1, characterized in that the length of the side of the panel is greater than the length of the segment of flexible connection with which it is connected at its ends. 11. The device according to p. 1, characterized in that the angle is inversely proportional to the depth of the marine area.

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