KR200410891Y1 - Generator - Google Patents

Abstract

The present invention relates to a bidirectional power generation device for all power plants, such as nuclear power, thermal power, hydropower, tidal power plant, in particular, to form an inner rotary case in which the coil is wound inside of the case, the rotary shaft penetrating the center of the case By forming a magnet corresponding to the coil so that the coil and the magnet can be rotated independently, the front end of the rotary shaft is connected to the turbine shaft of the turbine, the reverse rotation power so that the coil can rotate in the opposite direction to the rotation direction of the turbine shaft It forms a reverse rotational power transmission means including a planetary gear that transmits the power, and the power input side of the magnet and the coil is connected to a speed increaser to increase the rotational speed, thereby rotating by the flow force of water or steam in nuclear, thermal, hydropower and tidal power plants. The magnet mounted on the rotating shaft rotates in the forward direction by the power of the turbine. Relates to a rotating power transmitting means of a nuclear power, thermal power, water power, tidal power stations bidirectional power generator by rotating in the opposite direction by the rotational power to the power generating efficiency is improved by the transfer.

Forward and reverse drive, case, internal rotating case, coil, magnet, planetary gear, pulley,

Description

Bi-directional generator for nuclear, thermal, hydro and tidal power plants {Generator}

1 is a cross-sectional view showing a bidirectional power generation device for nuclear, thermal, hydro, tidal power plant of the present invention.

Figure 2 is a view showing a planetary gear applied to the present invention.

3 is a view showing another embodiment of the present invention.

Explanation of symbols for main parts of the drawings

1: case, 2: internal rotating case,

3: coil, 4: bearing,

5: axis of rotation, 6: magnet,

7: turbine, 7a: turbine shaft,

8a: first gearbox, 8b: second gearbox,

9: first gear, 10: reverse rotation base,

11: second gear, 12: bearing,

13: planetary gear, 14: external housing,

15: internal housing, 16: amateur,

17: brush, 18: finish plate,

The present invention relates to a bidirectional power generation device for nuclear, thermal, hydropower and tidal power plants. In particular, the magnets mounted on the rotating shaft by the power of the turbine rotating with the flow of water or steam in the nuclear, thermal, hydroelectric and tidal power plants are in the forward direction. The bidirectional power generation device for nuclear power, thermal power, hydropower, tidal power plant is rotated by the reverse direction and the coil installed on the outer side of the magnet is rotated in the opposite direction by the reverse rotational power transmitted by the reverse rotational power transmission means. .

Currently, power plants that produce electricity, such as nuclear power plants using nuclear reaction heat, coal-fired power plants that generate steam using thermal power such as petroleum coal, and hydroelectric power that generate power by using kinetic energy of water passing through waterways by constructing dams. Various power plants are installed and operated, such as power plants and tidal power plants, which are generated by the difference between tides in the West Sea.

These power plants use the same power generation principle as only the energy source is used to rotate the turbine using water or steam and generate power using the rotational force.

That is, when the turbine is rotated by water or steam, the turbine's rotational force is connected to the shaft of the generator to rotate the generator at high speed to generate electricity.

In the conventional power plant generator, a stator made of a coil is installed at an inner periphery of the case, and a rotor made of a magnet corresponding to the coil is installed at a rotating shaft formed to penetrate the center of the case.

Accordingly, as the rotating shaft rotates, the rotor formed on the rotating shaft rotates at a high speed and intersects with the outer coil. At this time, magnetic flux is applied to the coil so that electric current flows to generate electricity.

However, the conventional power plant generator has a problem that the electricity generation efficiency is reduced because only the rotor formed on the rotating shaft rotates to generate electricity, and for this reason, the high-capacity generator is not only bulky, but also expensive to produce. There was a problem that would act as an economic burden on users.

That is, the power generation efficiency of the generator is determined by the magnetic flux generated by the number of crossings of the coil and the magnet. In the prior art, only the rotor (coil) rotates, so that the coil and the magnet rotate in opposite directions. This remarkably falling problem occurs.

Accordingly, the present invention for solving the above problems forms an inner rotary case in which a coil is wound inside the case, and a magnet corresponding to the coil is formed on a rotating shaft penetrating the center of the case to form a coil and a magnet. Reverse rotation power transmission means for allowing independent rotation, and connecting the front end of the rotary shaft with the turbine shaft of the turbine, the planetary gear for transmitting the reverse rotation power so that the coil can rotate in the opposite direction to the rotation direction of the turbine shaft And a speed increaser for increasing the rotational speed on the power input side of the magnet and the coil, the magnet mounted on the rotating shaft by the power of the turbine rotating with the flow force of water or steam in nuclear, thermal, hydropower and tidal power plants Reverse rotational power transmitted by reverse rotational power transmission means that the coil rotated in the forward direction and installed at the outer side of the magnet It is an object of the present invention to provide a bidirectional power generation device for nuclear, thermal, hydropower, tidal power plant to improve the power generation efficiency by rotating in the opposite direction.

The present invention for achieving the above object,

According to claim 1,

In generating power by rotating the turbine 7 using a fluid such as water or steam,

An inner rotary case 2 is coupled to the bearing 4 inside the case 1, and a central portion of the case 1 penetrates the rotary shaft 5 connected to the turbine shaft 7a. Coil 3 is wound on the inner side of (2), and a magnet 6 corresponding to the coil 3 is installed on the rotating shaft 5 so that the coil 3 and the magnet 6 can be independently rotated,

The first gearhead 8a is connected between the rotary shaft 5 and the turbine shaft 7a, and the forward rotational power of the turbine 7 is reversed between the turbine shaft 7a and the internal rotary case 2. It characterized in that the reverse rotational power transmission means for converting in the rotational direction to supply to the inner rotary case (2).

According to claim 2,

The reverse rotational power transmission means

The first gear 9 is coupled to the turbine shaft 7a, and the planetary gear 13 for converting the rotation direction in the opposite direction is engaged with the first gear 9, and the second gear is attached to the planetary gear 13. The gear 11 is connected, and the second gearbox 8b is connected to the second gear 11 to increase the reverse rotation speed, and the rotational force increased by the second gearbox 8b is the reverse rotation base. Characterized in that configured to be transmitted to the internal rotary case (2) by (10).

According to claim 3,

Brushes for forming the armature (16) for the electrical discharge into the rear end of the coil (3), and is supplied with electricity in the state in contact with the armature (16) to the closing plate 18 coupled to the rear end of the case ( 17) characterized in that formed.

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings, Figures 1 and 2 as follows.

Reference numeral 7 denotes a turbine which is installed in nuclear, thermal, hydropower and tidal power plants and rotates by the movement of water or steam, and the turbine shaft 7a is coupled to the turbine 7.

Reference numeral 1 represents a case forming the outline of the generator.

In the center of the case 1, a rotating shaft 5 is formed therethrough, and an inner rotary case 2 is coupled to the inner side of the case 1 by a bearing 4 to enable independent rotation. Is installed.

The coil 3 is wound on the inner circumferential surface of the inner rotating case 2, and the magnet 6 is formed on the rotating shaft 5 so as to face the coil 3.

That is, the coil 3 is rotated independently by the internal rotary case 2, the magnet 6 is rotated independently by the rotary shaft (5).

The front end of the rotary shaft 5 is directly connected to the turbine shaft 7a. At this time, the first gearhead 8a is connected between the turbine shaft 7a and the rotary shaft 5 to rotate the turbine shaft 7a. The speed is increased and transmitted to the rotating shaft 5.

The reason why the first gearbox 8a is installed is generally that the turbine 7 installed in the power plant is manufactured in a large size, and thus the rotation speed is not fast but the horsepower is large. This is to rotate the coil and magnet at high speed.

On the other hand, the present invention constitutes a reverse rotation power transmission means for converting the rotation direction of the turbine 7 in the reverse direction to supply to the internal rotation case (2).

The reverse rotation power transmission means forms a first gear 9 having an inclined surface on the turbine shaft 7a, and a plurality of planetary gears 13 are engaged with the first gear 9 to form a first gear 9. In order to change the rotation direction of the reverse direction, the second gear 11 to engage the second gear 11 to the rear end of the planetary gear 13, and to increase the rotation speed to the second gear (11) Connect 8b).

Then, the reverse rotation base 10 protrudes from the internal rotation case 2, protrudes from the distal end of the reverse rotation base 10, and the rotational force increased in the second speed increaser 8b reversely rotates. It is transmitted to the base 10 to allow the inner rotation case 2 to rotate in a direction opposite to the rotation shaft (5).

A bearing 12 is interposed between the reverse rotation base 10 and the rotation shaft 5.

The planetary gear 13 is rotatably mounted between the circular outer housing 14 and the inner housing 15, as shown in Figure 2, the outer housing 14 is fixed to the case (1) It is preferable.

In addition, the first gear 9 and the second gear 11 is provided with an inclined surface inclined at a predetermined angle, the planetary gear 13 has a wide cross-sectional shape of the upper side is narrow and the lower side is narrow so that the planet gear 13 can be engaged with the inclined surface Formed.

Accordingly, the rotational direction of the first gear 9 is reversed by the planetary gear 13 and transmitted to the second gear 11 so that the reverse rotation base 10 rotates in the reverse direction so that the coil 3 ) Rotates in the opposite direction to the rotation direction of the magnet (6).

On the other hand, the rear end of the case 1 is fitted with a closing plate 18 is coupled, the armature 16 for the electrical discharge is formed inside the rear end of the coil 3, the closing plate 18 The inner surface is provided with a brush 17 is supplied with electricity in contact with the armature 16, the electricity generated through the brush 17 is discharged to the outside.

Referring to the operation of the present invention configured as described above is as follows.

When the turbine 7 of the present invention is installed in nuclear, thermal, hydro and tidal power plants and rotates by the force of water or steam, the turbine shaft 7a of the turbine 7 rotates forward, and the turbine shaft 7a The rotational speed of is accelerated by the first gearhead 8a and transmitted to the rotation shaft 5, and the rotation shaft 5 is rotated in the forward direction so that the magnet 6 is rotated in the forward direction.

Meanwhile, the first gear 9 coupled to the turbine shaft 7a rotates in the forward direction and rotates the planetary gear 13 engaged therewith, and the planetary gear 13 faces the first gear 9. The second gear 11 meshed with the other side of the) is reversed by the reverse rotational power supplied through the planetary gear 13.

The reverse rotational power of the second gear 11 is increased by the second speed increaser 8b to reversely rotate the reverse rotation base 10, and the internal rotation case 2 connected to the reverse rotation base 10. As the reverse rotation, the coil 3 mounted on the inner rotation case 2 is reversed.

As described above, when the magnet 6 rotates forward, the installed coil 3 rotates in the opposite direction, so that the crossing speed and the number of times of the magnet 6 and the coil 3 increase, thereby improving power generation efficiency. .

As a result of the experiment, when the magnet 6 or the coil 3 was rotated only, the generation efficiency of about 1.5 to 2.5 times was obtained.

According to the present invention operating as described above, it is possible to increase the power generation capacity of the existing nuclear power plant, thermal power plant, hydroelectric power plant, tidal power plant and the like by more than 1.5 times by only replacing the generator.

On the other hand, Figure 3 shows another embodiment of the present invention,

In generating power by rotating the turbine 7 using a fluid such as water or steam,

A first gearhead (8a) connected to the end of the turbine shaft (7a) of the turbine (7) for increasing the rotational speed of the turbine shaft (7a);

Reverse rotation power transmission means connected to the middle of the turbine shaft (7a) to convert the forward rotational power of the turbine (7) in the reverse rotation direction;

A second speed increaser (8b) for increasing the reverse rotational power of the reverse rotation power transmission means;

A first generator 30 which is connected to the first power generating shaft 31 to generate power;

A second generator 40 connected to the second gearbox 8b via a medium gear 42 to generate power; Consisting of

Since the reverse rotation power transmission means is the same as that applied to the present invention, detailed description will be avoided.

Another embodiment of the present invention configured as described above

When the turbine 7 is installed in nuclear, thermal, hydro and tidal power plants and rotates by the force of water or steam, the turbine shaft 7a of the turbine 7 rotates forward, and the rotation speed of the turbine shaft 7a Accelerated by the first speed reducer 8a and transmitted to the first power generation shaft 31 of the first generator 30, the first gear 9 coupled to the turbine shaft 7a rotates in the forward direction. The planetary gear 13 engaged therewith is rotated, and the second gear 11 meshed with the other side of the planetary gear 13 to face the first gear 9 is supplied through the planetary gear 13. Reverse rotation is caused by rotational power, and the reverse rotational power of the second gear 11 is increased by the second speed increaser 8b and supplied to the second generator 40 through the intermediate gear 42.

Accordingly, the known first generator 30 and the second generator 40 are operated by the rotational force of the turbine 7, so that two generators can be driven as one turbine 7, thereby increasing the amount of power generated. You will be able to.

The first generator 30 and the second generator 40 are found to represent a known generator in which the coil and the magnet do not rotate in opposite directions, but any one, that is, the coil or the magnet generates power at high speed. Put it.

As described above, the present invention forms an inner rotary case in which a coil is wound inside of the case, and a magnet corresponding to the coil is formed on a rotating shaft penetrating the center of the case to independently rotate the coil and the magnet. It is possible to connect the tip of the rotary shaft with the turbine shaft of the turbine, forming a reverse rotation power transmission means including a planetary gear for transmitting the reverse rotation power so that the coil can rotate in the opposite direction to the rotation direction of the turbine shaft and By connecting a speed increaser to increase the rotation speed on the power input side of the magnet and the coil, the magnet mounted on the rotating shaft rotates in the forward direction by the power of the turbine rotating by the flow force of water or steam in nuclear, thermal, hydropower and tidal power plants. And the coil installed on the outside of the magnet is countered by the reverse rotational power transmitted by the reverse rotational power transmission means. So that the power generation efficiency can be expected to rotate in the direction of a nuclear power, thermal power, water power, tidal power stations to provide a two-way effect power generation device.

Claims (3)

In generating power by rotating the turbine 7 using a fluid such as water or steam, An inner rotary case 2 is coupled to the bearing 4 inside the case 1, and a central portion of the case 1 penetrates the rotary shaft 5 connected to the turbine shaft 7a. Coil 3 is wound on the inner side of (2), and a magnet 6 corresponding to the coil 3 is installed on the rotating shaft 5 so that the coil 3 and the magnet 6 can be independently rotated, The first gearhead 8a is connected between the rotary shaft 5 and the turbine shaft 7a, and the forward rotational power of the turbine 7 is reversed between the turbine shaft 7a and the internal rotary case 2. Bidirectional power plant for nuclear, thermal, hydro, tidal power plant, characterized in that the reverse rotational power transmission means for converting in the rotational direction to supply to the internal rotating case (2). The method of claim 1, The reverse rotational power transmission means The first gear 9 is coupled to the turbine shaft 7a, and the planetary gear 13 for converting the rotation direction in the opposite direction is engaged with the first gear 9, and the second gear is attached to the planetary gear 13. The gear 11 is connected, and the second gearbox 8b is connected to the second gear 11 to increase the reverse rotation speed, and the rotational force increased by the second gearbox 8b is the reverse rotation base. Bidirectional power generation device for nuclear, thermal, hydro, tidal power plant, characterized in that configured to be delivered to the internal rotary case (10) by (10). 2. The armature (16) according to claim 1, wherein the armature (16) is formed inside the rear end of the coil (3) for electrical discharge, and the armature (16) is in contact with the armature (16) coupled to the rear end of the case. Bi-directional power generation device for nuclear, thermal, hydro, tidal power plant, characterized in that the brush (17) receiving electricity is formed.

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