RU180828U1 - WAVE POWER INSTALLATION - Google Patents

Abstract

The utility model relates to the field of electricity production by converting mechanical energy, in particular sea wave energy, into electrical energy, can be used as an integral part of a group of generators (power plants), combined into one network to power lighting systems for piers, embankments, and other low-power consumers. The wave power plant containing a linear alternating current generator contains a cylindrical hollow body of dielectric material, in the walls of which a stator with a winding is installed on the inside, an anchor-float is located inside the cylinder cavity, consisting of a cylindrical body of floating material and an annular ring installed in it magnet, while the inner cylindrical surface of the housing and the outer cylindrical surface of the anchor-float is made smooth and continuous. The anchor-float has the ability to reciprocate inside the stationary stator under the action of sea waves along the guide passing through its central hole and fixed in the central holes of the leaky plugs of the cylinder cavity. The technical result is an increase in the reliability and durability of the device. 5 cp f-ly, 2 ill.

Description

The utility model relates to the field of electricity production by converting mechanical energy, for example, the energy of sea waves, into electrical energy. It can be used as an integral part of a group of generators (power plants) integrated into a single network to power lighting systems for piers, embankments, and other low-power consumers.

Known technical solution according to patent RU No. 69932 U1 F03B 13/20, publ. January 10, 2008, according to which the FLOATING WAVE GENERATOR comprises a body with a rectilinear vertical channel made floating; stator winding made on the inner wall of the vertical channel; a core with a permanent magnet located inside the vertical channel with the possibility of vertical reciprocating motion relative to the stator winding, characterized in that the upper part of the body protrudes above the surface of the reservoir, the lower end of the vertical channel communicates with the water of the reservoir, the upper end of the vertical channel communicates with the atmosphere, the core made floating, and the inertia of the core differs from the inertia of the body so that in the presence of waves on the surface of the reservoir, the core and the body acquire p various accelerations along the vertical axis.

The known generator according to patent RU No. 69932 has the following disadvantages. Firstly, the core oscillations relative to the floating body arise due to the inertia difference, which is difficult to achieve in practice and the fluctuations will be insignificant. Secondly, in order to achieve the inertia of the casing or core when exposed to the buoyant force of the waves, and the vertical position of the generator, the casing or core must have a significant mass and dimensions, which leads to more expensive construction, complexity of manufacture and installation. Thirdly, the floating position of the generator leads to a hindrance of navigation, the difficulty of transmitting electricity, the possibility of separation and loss of product during a storm.

Known technical solution according to patent RU 2431057 C1 F03B 13/18 publ. / 10.10.2011, according to which the INSTALLATION FOR CONVERSION OF ENERGY OF WAVES IN ELECTRIC ENERGY contains a reinforced support at the bottom, a float device connected to the support, and a device for converting mechanical energy into electrical energy. The float device comprises a float and a guide. The float includes a rim on which a tire with a chamber is fixed, a spherical spherical plain bearing mounted rigidly in the center of the rim, and a valve for pumping air into the chamber. One of the ends of the guide of the float device is rigidly fixed along the axis of the float to the inner spherical ring of the bearing. The conversion device comprises a linear electric generator, the generating inductor of which is directly connected axially to the second end of the guide of the float device, and a guide axis is rigidly fixed at the other end of the generating inductor. The guiding axis of the float device and the guiding axis of the generating inductor kinematically interact with sliding bearings fixed in bearings mounted along the axis of the generator body from its two end faces.

Known installation has the following disadvantages. Firstly, the complexity of the design: the float is taken out of the generator body, the transmission of vibrations from the float to the generator armature is carried out through the rod. For the operation of such a system, guide rollers, bearings, seals, hinges are used, which complicates the product and affects reliability, especially in aggressive environments of sea water. Secondly, in addition to the useful longitudinal (buoyant) force, the transverse rod is influenced by the transverse wave force, which affects reliability and can lead to breakage with significant fluctuations in water.

Closest to the claimed one is the technical solution according to patent RU No. 2440510 C1 F03B 13/18, published .. 01/20/2012, according to which the WAVE ENERGY INSTALLATION contains a linear current generator, consisting of a stator and a generating core capable of vertical reciprocating movement inside the stator, a hollow float, a rod kinematically connecting the core with the float, vertical guide beams with supporting rollers moving along them, dampers. The installation is equipped with a vertical stand, fixedly installed, for example, in the soil of a reservoir, and a body fixed on it, made in the form of a hollow box of non-metallic material with central holes on the arch and on the bottom, inside which the stator and core are placed. Beams are rigidly fixed on the arch and on the bottom of the body. The rollers are attached to the side surface of the core. The float having a bottom, a bow, a vault and a valve is connected to the rod through a hinge device, which is rigidly attached to the vault of the float.

The disadvantages are low efficiency and uneven process of converting the mechanical energy of the waves into electrical energy, low reliability and insufficient durability of the structure. In particular, the following design features can be attributed to the disadvantages of the adopted prototype: the float is moved out of the generator body, the transmission of vibrations from the float to the generator armature is carried out through the rod. The operation of a complex multicomponent system is provided by guide rollers, bearings, seals, hinges, which complicates the product and affects reliability, especially in aggressive environments of sea water; also, in addition to the useful longitudinal (buoyant) force, there is an action on the transmitting rod of the transverse wave force, which affects the reliability and can lead to breakage with significant fluctuations in water.

These shortcomings are eliminated by the claimed technical solution.

The task is to increase the reliability in operation, increase the service life while simplifying the design, increase the reliability of the device and the durability of the structure.

The problem is solved by simplifying the design of the wave power plant, which is a linear alternating current generator containing a hollow cylindrical cast housing made of dielectric material (for example, polypropylene) and a stator with a winding installed in its walls. Inside the body cavity there is a cylindrical anchor-float made of light floating material (for example, foamed polypropylene), in the cylindrical surface of which a permanent ring magnet is installed. The cylinder cavity has leaky plugs on both sides and a guide of the anchor-float, which coincides with the common vertical axis of the device. In this case, the stator with the winding is fixed in the cylinder wall of the body from the inside, and the permanent magnet in the body of the body of the anchor-float from the outside. The housing is fixed in an upright position using brackets. Lead wires are installed in the wall of the housing, the terminal box of wires from which the power cable leaves is fixed on the upper end of the housing. When the wave oscillates, the anchor-float is capable of reciprocating movement inside the housing along the guide, leaky plugs have openings for access and exit of water from below and air above.

Differences from the prototype: combining the functions of the rod, the float, the generating core in one element - the anchor-float and placing it in the cavity of the generator body, thereby achieving a significant simplification of the design and increasing compactness, which allows to increase the reliability and durability of the device, reducing the risk of failure in due to the lack of protruding elements.

In the prototype, the current generates a core by reciprocating movement inside the stator, this movement provides a float through the rod and the hinge device. In the claimed design, the stator mounted in the housing is stationary, the current in the stator winding generates a permanent ring magnet mounted in the outer cylindrical surface of the housing of the anchor-float - reciprocating motion inside the stator under the action of waves along the guide that coincides with the common vertical axis of the device. This movement does not encounter obstacles, since the inner cylindrical surface of the body and the outer cylindrical surface of the anchor-float are made smooth and continuous. The guide passes through the central hole in the body of the anchor-float, and is fixed in the central mounting holes of the upper and lower plugs, covering the cavity of the cylinder of the body from both ends. The plugs made in the form of round plates have openings for free access and exit of water from below and air from above the cavity of the installation housing.

The advantages of the proposed technical solution: simplicity of design, the absence of intermediate converters of the energy of the sea wave into electrical energy (mechanical, hydraulic, etc. systems), affecting the reliability and durability of the device; for its use there is no need to erect structures (dams, reservoirs, cargo holding, etc.), there is no hindrance to navigation and economic activity.

The technical result is an increase in the reliability and durability of the device.

The technical result is achieved by the fact that the wave power plant is a linear alternating current generator, which contains a hollow body of non-metallic material fixed in a vertical position with central holes at the top and bottom (in the prototype, on the arch and bottom), a stator with a winding, an armature float, characterized in that the cylindrical-shaped housing contains a stator with a winding installed in the walls of the housing from the inside, the anchor-float consists of a cylindrical housing and installation ring magnet in it, with the possibility of reciprocating movement of the anchor-float under the action of sea waves inside a fixed stator along the common vertical axis of the device. The cavity of the body from both ends has leaky plugs made in the form of round plates with holes for access and exit of water from below and air at the top. The guide passing through the central hole of the anchor-float is fixed in the central mounting hole of each plug and coincides with the overall vertical axis of the device. The inner cylindrical surface of the body and the outer cylindrical surface of the anchor-float are made smooth and continuous of a material with dielectric properties. The body in the form of a hollow cylinder is cast from a non-metallic material with dielectric properties. The body of the anchor-float is cast from a light floating material with dielectric properties.

The technical solution is illustrated by the images in FIG. 1-2 (a, b, c):

FIG. 1. General view of the device in section along the vertical axis of the device, where

1 - housing;

2 - stator;

3 - stator winding;

4 - guide anchor-float;

5 - body of the anchor-float;

6 - a permanent ring magnet;

7 - the top cap;

8 - lower plug;

9 - outlet wires;

10 - wire terminal box;

11 - electric cable;

12 - bracket.

FIG. 2. A schematic representation of the device during operation: a) in a static state; b) the anchor-float in the upper position; c) the anchor-float in the lower position.

An example implementation.

The wave power plant is a linear generator comprising a housing 1 made in the form of a hollow cylinder of a dielectric material, for example, polypropylene. Case 1 is molded. A stator 2 with a winding 3 is rigidly mounted inside the casing walls, while the inner surface of the casing is smooth and continuous. From both ends, the openings of the cylinder cavity are closed with plugs 7, 8, made in the form of a round plate with holes for the entry and exit of sea water. A guide 4 made in the form of a rod passing through the central hole of the anchor-float 5 is rigidly installed in the center of both plugs. The anchor-float 5 is made in the form of a cylinder with a central hole for the guide made of lightweight floating material with dielectric properties, for example, foamed polypropylene. From the side of the outer cylindrical surface, an annular permanent magnet 6 is rigidly permanently mounted in the body of the anchor-float 5, while the outer cylindrical surface of the anchor-float 5 is made smooth and continuous. The housing 1 is rigidly detachably fixed in an upright position using the brackets 12, the outlet wires 9 are installed in the wall of the housing, the terminal box of wires 10, from which the electric cable 11 departs, is fixed on the upper end of the housing 1.

The device operates as follows: the generator is fixed through the brackets 12 permanently on a structure located in the water (for example, the support of the pier, breakwater, etc.), the anchor-float 5 under the influence of waves makes reciprocating movements (Fig. 2 b, c ), inside the hollow cylindrical body 1, while in the stator winding 3 under the influence of the magnetic field of the ring magnet 6, an electromotive force is induced, the current through the outlet wires 9 enters the terminal box of the wires 10 and is transmitted via an electric cable 11.

Method of application: this generator can be used as an integral part of a group of generators (power plants), combined in one network, to power lighting systems for piers, embankments, and other low-power consumers.

Claims (6)

1. A wave power plant comprising a linear electric current generator, comprising a vertically fixed hollow body of non-metallic material with central holes at the top and bottom, a stator with a winding, an anchor float, characterized in that the cylindrical body contains a stator with a winding installed in the walls of the body from the inside, the anchor-float consists of a cylindrical body and an annular magnet installed in it, with the possibility of reciprocating motion I-float under the action of the sea waves inside the fixed stator along a common vertical axis of the device. 2. The wave power plant according to claim 1, characterized in that the cavity of the body at both ends has leaky plugs made in the form of round plates with holes for access and exit of water from below and air above. 3. The wave power plant according to claim 1, characterized in that the guide passing through the central hole of the anchor-float is fixed in the central mounting hole of each plug and coincides with the overall vertical axis of the device. 4. The wave power plant according to claim 1, characterized in that the inner cylindrical surface of the body and the outer cylindrical surface of the anchor-float are made smooth and continuous of a material with dielectric properties. 5. The wave power plant according to claim 1, characterized in that the body in the form of a hollow cylinder is molded of a non-metallic material with dielectric properties. 6. The wave power plant according to claim 1, characterized in that the body of the anchor-float is cast from a light floating material with dielectric properties.

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