RU2413868C1 - Hydraulic-wave stock-type core electric generator - Google Patents

Abstract

FIELD: power industry. ^ SUBSTANCE: device represents hydraulic-wave stock-type core electric generator which includes floating housing (1) made so that it retains its constant position relative to vertical line at any rise and fall of water; vertical pin (2) fixed on housing; float (3) arranged on pin with possibility of back-and-forth movement along the pin; vertical stock (4) attached to the float with magnet (5) fixed inside the stock; limit stop (6) installed near upper end of vertical pin to exclude the position when the float exceeds upper limit of the pin, core (7) attached to the limit stop and around the cross section of which there is winding (8). ^ EFFECT: providing effective generation of electric energy on waves of any length irrespective of the speed of vertical wave movement, high operating reliability of the device because component parts are not used in the design, absence of rotating parts and lubricating materials predicts improvement of environmental behaviour of the device, mobile floating housing allows transporting the device by water, device has storm resistant properties because horizontal waves freely pass through frame housing and flow about the floats of the device; the number of materials for manufacture of the device has been considerably reduced, which is essential for economic component of manufacture; besides, maintainability of the devices is achieved, which influences the cost reduction of the generated electric energy, namely at its being used on sites of industrial production of sea and coastal location. ^ 21 cl, 8 dwg

Description

The device relates to hydropower, in particular to the production of electricity by converting the energy of vertical waves of water into electrical energy.

Known buoy wave generator [1], containing a magnetic core attached to the bottom surface of the buoy with the possibility of vertical reciprocating motion on the wave. A winding coil is movably mounted on the magnetic core, the movement of which along the magnetic core is limited, and the coil holds a fixed position under water by means of flat horizontal panels installed around it, which increase the resistance of the water when the core moves back and forth.

Known wave power plant [2], containing a two-section frame, the vertical struts of which are fastened by the upper and lower bases, are guides placed in the lower section of the frame of the float, capable of reciprocating vertical movement, and in the upper section of which there is an energy converter. The energy converter contains one or a combination of several long-stroke linear electric generators with generating cores based on permanent magnets, the axes of which are made of non-magnetic material with the possibility of reciprocating movement inside the ring inductive coils, rigidly interconnected by a common flange mounted on the end of the transfer rod, rigidly connected with a float.

Known float wave generator [3], containing a floating casing with a straight vertical channel, a stator winding made on the inner wall of the vertical channel, and a core with a permanent magnet placed inside the vertical channel with the possibility of vertical reciprocating motion relative to the stator winding. This technical solution is selected as a prototype.

A significant disadvantage of the prototype is that at a low speed of vertical movement of the waves, the energy of the vertical waves of the water is not converted into electrical energy, since with the slow passage of the magnet inside the winding there is no electric current. In addition, water passing through the vertical channel loses its initial vertical speed, the wave amplitude in the vertical channel decreases, which negatively affects the power generation capacity. Since horizontal waves do not pass through the housing, the device does not have storm resistance. Another disadvantage of the device is that the element moving under the influence of vertical waves of water is a floating unshielded magnet, which implies attraction of magnetic litter to the energy conversion unit. To create a device requires a large amount of materials, which increases the cost of manufacturing the device and the cost of the resulting electricity.

The objectives of the proposed device are the implementation of effective generation of electricity on waves of any length regardless of the speed of the vertical movement of the waves, increasing the performance of the energy conversion unit, increasing the storm resistance and reliability of the device, maintaining optimal environmental characteristics of the device, as well as achieving mobility, ease of manufacture, ease of maintenance and reduce the cost of electricity generated.

The tasks are solved as follows. A vertical rod is fixed to the floating body, which holds its constant position relative to the vertical with any wave of water. The float with the possibility of reciprocating movement along the rod is placed on the rod with a vertical rod fixed to the float, inside of which a magnet is fixed. At the same time, at the upper end of the vertical rod to prevent the float from going beyond the upper limit of the rod, a limiter is installed, and a core is fixed to the limiter, around which its winding is made. The magnet must be fixed inside the vertical rod so that when the float moves along the vertical rod, the magnet makes a reciprocating motion relative to the core. The core can be made having a W-shape and fixed to the limiter with the upper edge towards the vertical rod. The core can be made with a U-shape and fixed to the limiter with the upper edge towards the vertical rod. The core should be fixed to the limiter with a minimum gap between the core and the vertical rod with the possibility of excluding contact of the magnet with the core. Two or more cores may be fixed to the limiter around a horizontal cross-section of the stem. The float can be made having a rounded shape and placed on the rod using vertical guides, eliminating the rotation of the float around a vertical axis. The rod can be placed inside a vertical through hole made in the float. In this case, the through hole of the float and the rod may have a circular cross section in the horizontal plane. The vertical stem may have a circular cross section in the horizontal plane. A limiter can be installed at the lower end of the vertical rod to prevent the float from exceeding the lower limit of the rod. An elastic element can be attached to the limiter to prevent the float from touching the limiter firmly. The masses of the body and the float must be selected sufficient to overcome the resistance of the electric field that occurs when the float moves along the vertical rod and the magnet passes along the core. The housing may be made in the form of at least three floating bodies fastened together in the same plane. At the same time, a load can be attached to the lower part of the structure, which is made with the possibility of eliminating the inversion of the plane of placement of the floating body of the body at any wave of water. The body can be made in the form of a floating body and a load secured to the floating body to hold the floating body in a constant vertical position with any wave of water. In this case, the load can be made in the form of at least three vertical blades. An electric energy conversion unit can be installed in any part of the structure. From any part of the structure, a cable connected to the object of conversion, consumption or accumulation of electrical energy can be derived. At least one vertical rod can be fixed to the housing, and at least one vertical float with at least one vertical rod fixed inside the rod is mounted on the rod with the possibility of reciprocating movement along the rod, at least one magnet, at the same time, at the upper end of the vertical rod to prevent the float from going beyond the upper limit of the rod, a limiter is installed, and at least one core is fixed to the limiter, around the cross section cerned is provided with at least one winding. The float may be placed on two or more vertical rods with the possibility of reciprocating movement along the rods.

The proposed device comprises a floating body, made to maintain its constant position relative to the vertical with any wave of water, a vertical rod fixed to the body, placed on the rod with the possibility of reciprocating movement along the rod, a float, a vertical rod fixed to the float with a magnet fixed inside the rod, installed at the upper end of the vertical rod to prevent the float from exceeding the upper limit of the rod limiter attached to the core limiter k, a winding made around a cross section of the core, the magnet being fixed inside the vertical rod so that when the float moves along the vertical rod, the magnet makes a reciprocating motion relative to the core.

Figure 1 presents a General view of the proposed device. Figure 1-8 shows a diagram of a device containing a floating housing (1), a vertical rod (2), a float (3), a vertical rod (4) with a magnet (5), a limiter (6), a core (7) with a winding (8). Figure 1-4 shows a diagram of a device containing a core made with a W-shaped. Figure 5-8 shows a diagram of a device containing a core made in a U-shape. Figure 1, 2, 5, 6 shows a diagram of a device whose body is made in the form of four floating bodies, fastened together in the same plane. Figure 3, 4, 7, 8 shows a diagram of a device, the casing of which is made in the form of a floating body and a load secured to the floating body. Figure 1, 3, 5, 7 shows a longitudinal section of the device, figure 2, 4, 6, 8 shows a top view of the device.

The device operates as follows. In the presence of waves, the float (3) acquires various accelerations along the vertical rod (2). At the same time, the vertical rod (4) fixed to the float performs a reciprocating movement relative to the limiter (6) installed at the upper end of the vertical rod. The magnet (5) fixed inside the rod makes a reciprocating motion relative to the core (7) fixed to the limiter. As a result, in the winding (8), made around the cross section of the core, an electric current occurs, which is supplied to the object of conversion, consumption or accumulation of electrical energy.

Compared with the known technical solutions, the effect is as follows. The design does not use complex elements such as a lever, pump, etc., as a result of which high reliability of the device is achieved. The absence of rotating parts and lubricants implies an improvement in the environmental performance of the device. A mobile floating casing allows water transportation of the device.

Unlike the prototype, the proposed device has several advantages. Efficient generation of electric power is achieved on waves of any length, regardless of the speed of the vertical movement of the waves. Horizontal waves freely pass through the frame body and flow around the floats, which increases the storm resistance of the device. To manufacture the device requires a significantly smaller amount of materials, which is important for the economic component of production. Due to the use of a core with a winding, an increase in the efficiency of each magnet is achieved. The location of the magnet above the water level eliminates the possibility of attraction of magnetic litter to the energy conversion unit. Ease of maintenance of the device is achieved, affecting the reduction in the cost of electricity generated.

The proposed device allows you to provide electricity to industrial facilities of marine and coastal based.

Information sources

1. Patent for IZ US 2004061338, 2004

2. Patent for PM RU 88744, 2009

3. Patent for PM RU 69932, 2007

Claims (21)

1. Hydroelectric generator comprising a floating body, made to maintain its constant position relative to the vertical with any wave of water, characterized in that a vertical rod is fixed to the body, and a float with a reciprocating motion along the rod is mounted with the rod with a vertical rod fixed to the float inside which the magnet is fixed, while at the upper end of the vertical rod to prevent the float from exceeding the upper limit of the rod, a limiter is installed, and a limiter is fixed to the core, a winding is made around its cross section, the magnet being fixed inside the vertical rod so that when the float moves along the vertical rod, the magnet makes a reciprocating motion relative to the core. 2. The device according to claim 1, characterized in that the core is made with a W-shape and is fixed to the limiter with the upper edge towards the vertical rod. 3. The device according to claim 1, characterized in that the core is made in a U-shape and is fixed to the limiter with the upper edge towards the vertical rod. 4. The device according to claim 1, characterized in that the core is fixed to the limiter with a minimum gap between the core and the vertical rod with the possibility of preventing the magnet from touching the core. 5. The device according to claim 1, characterized in that two or more cores are fixed to the limiter around the horizontal cross section of the stem. 6. The device according to claim 1, characterized in that the float is made having a rounded shape. 7. The device according to claim 1, characterized in that the float is placed on the rod using vertical guides, eliminating the rotation of the float around a vertical axis. 8. The device according to claim 1, characterized in that the rod is placed inside a vertical through hole made in the float. 9. The device according to claim 8, characterized in that the through hole of the float and the rod have a circular cross section in the horizontal plane. 10. The device according to claim 1, characterized in that the vertical rod has a circular cross section in the horizontal plane. 11. The device according to claim 1, characterized in that a limiter is installed at the lower end of the vertical rod to prevent the float from exceeding the lower limit of the rod. 12. The device according to claim 1, characterized in that an elastic element is attached to the limiter, preventing the float from touching the limiter firmly. 13. The device according to claim 1, characterized in that the mass of the housing and the float are selected sufficient to overcome the resistance of the electric field arising from the reciprocating movement of the float along the vertical rod and the passage of the magnet along the core. 14. The device according to claim 1, characterized in that the housing is made in the form of at least three floating bodies fastened together in the same plane. 15. The device according to p. 14, characterized in that the load is attached to the lower part of the structure, made with the possibility of eliminating the inversion of the plane of the floating body of the body with any wave of water. 16. The device according to claim 1, characterized in that the housing is made in the form of a floating body and a load fixed to the floating body to hold the floating body in a constant vertical position with any wave of water. 17. The device according to clause 16, wherein the load is made in the form of at least three vertical blades. 18. The device according to claim 1, characterized in that in any part of the structure, an electric energy conversion unit is installed. 19. The device according to claim 1, characterized in that a cable connected to an object for converting, consuming or storing electrical energy is derived from any part of the structure. 20. The device according to claim 1, characterized in that at least one vertical rod is fixed to the body, and at least one float with at least one float fixed to the float is mounted on the rod with the possibility of reciprocating movement along the rod at least one vertical rod, inside of which at least one magnet is fixed, while at the upper end of the vertical rod to prevent the float from going beyond the upper limit of the rod, a limiter is installed, and at least one core is fixed to the limiter, a cross-sectional region of which at least one winding is made. 21. The device according to claim 1, characterized in that the float is placed on two or more vertical rods with the possibility of reciprocating motion along the rods.

Images