KR100737272B1 - Counter rotary type Generator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a forward and reverse type generator, in particular, 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 passing through the center of the case, thereby forming a coil and a magnet. This independent rotation is possible, and a pulley is formed at the end of the rotating shaft, and by forming a power transmission means including a planetary gear that transmits reverse rotational power so that the coil can rotate in the opposite direction to the rotation direction of the pulley. Forward and reverse drive type to improve the power generation efficiency by rotating the magnet attached to the rotating shaft in the forward direction by the externally supplied power, and the coil installed on the outside of the magnet rotates in the opposite direction by the reverse rotational power transmitted by the power transmission means. It is about a generator.

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

Description

Forward rotary drive generator {Counter rotary type Generator}

1 is a cross-sectional view showing a forward and reverse type generator of the present invention.

Figure 2 is a view showing a planetary gear applied to 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: pulley, 8: belt,

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 forward and reverse drive type generator, in particular, a magnet mounted on a rotating shaft by an externally supplied power rotates in a forward direction, and a coil installed on the outer side of the magnet is rotated in a reverse direction by a reverse rotational power transmitted by a power transmission means. It relates to a forward and reverse drive type generator to rotate to improve the power generation efficiency.

 In general, the generator refers to a device that generates electricity by driving by external power, such a generator is installed in automobiles, industrial, large buildings and the like.

Generators installed in automobiles are generated by using the rotational power of the engine, and generators installed in other places are mostly generated by rotating by the driving force of the motor.

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

That is, in the conventional generator, as the rotating shaft rotates, the rotor formed on the rotating shaft rotates at a high speed to intersect the outer coil. At this time, the magnetic flux is applied to the coil to generate electric current.

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

Accordingly, the present invention for solving the above problems is to form an inner rotary case in which the coil is wound inside the case, and a magnet corresponding to the coil is formed on the rotating shaft penetrating the center of the case coil and magnet This independent rotation is possible, and a pulley is formed at the end of the rotating shaft, and by forming a power transmission means including a planetary gear that transmits reverse rotational power so that the coil can rotate in the opposite direction to the rotation direction of the pulley. Forward and reverse drive type to improve the power generation efficiency by rotating the magnet attached to the rotating shaft in the forward direction by the externally supplied power, and the coil installed on the outside of the magnet rotates in the opposite direction by the reverse rotational power transmitted by the power transmission means. The purpose is to provide a generator.

The present invention for achieving the above object,

According to claim 1,

An inner rotary case is bearing-coupled to the inside of the case, and a center of the case penetrates the rotating shaft, and a coil is wound around the inner side of the inner rotating case, and a magnet corresponding to the coil is installed on the rotating shaft so that the coil and the magnet Allow independent rotation,

A pulley for receiving external power is formed at the front end of the rotating shaft, and a reverse rotation power transmission means is formed between the pulley and the inner rotary case to convert the forward rotational power of the pulley in the reverse rotational direction, and
An armature for discharging electricity is formed inside the rear end of the coil, and a brush that is supplied with electricity in contact with the armature is formed on a finishing plate coupled to the rear end of the case.

According to claim 2,

The reverse rotation power transmission means is formed to extend the reverse rotation base connected to one side of the inner rotation case to the pulley side, the first side of the pulley is formed in an annular shape, the first gear at the end of the reverse rotation base A second gear is formed to have an annular shape, and a planetary gear is formed between the first gear and the second gear to convert the rotational direction of the first gear in the opposite direction to supply the second gear. .

According to claim 3,

The planetary gear is rotatably mounted between the circular outer housing and the inner housing, and the outer housing is fixed to the case.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1 and 2.

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 permanent 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).

A pulley 7 for receiving power from the outside is formed at the distal end of the rotary shaft 5, and a belt 8 for power transmission is wound around the pulley 7.

On the other hand, in the present invention constitutes a reverse rotational power transmission means for converting the rotational direction of the pulley (7) in the reverse direction to supply to the inner rotary case (2).

The reverse rotation power transmission means has an annular first gear 9 having an inclined surface on the inner surface of the pulley 7, and has one end inside the second gear 11 facing the first gear 9. Protruding to the front end portion of the reverse rotation base 10 coupled to the rotary case 2, a plurality of planetary gear 13 is formed between the first gear 9 and the second gear 11 do.

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, and the outer housing 14 is preferably fixed to the case (1).

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.

In the pulley 7 of the present invention, a belt 8 for receiving power from an external device is wound. As an external device for transmitting power to the belt 8, a conventional motor or an engine of an automobile can be used. do.

When the rotational power is transmitted to the belt 8 so that the pulley 7 rotates forward, the rotation shaft 5 held in the center of the pulley 7 rotates in the forward direction so that the magnet 6 rotates in the forward direction. do.

On the other hand, the first gear (9) formed on one surface of the pulley (7) rotates in the forward direction and rotates the planetary gear (13) engaged with the planetary gear (13) to face the first gear (9) The second gear 11 engaged with the other side of the 13 is reversed by the reverse rotational power supplied through the planetary gear 13.

As the second gear 11 rotates in reverse, the reverse rotation base 10 rotates in reverse, and the internal rotation case 2 connected to the reverse rotation base 10 rotates in reverse to rotate the internal rotation case ( The coil 3 mounted in 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, the power generation efficiency was about 1.5 to 2.5 times higher than the rotation of the magnet 6 alone.

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 passing through the center of the case so that the coil and the magnet are independently rotated. It is possible to form a pulley at the end of the rotating shaft, the power transmission means including a planetary gear for transmitting a reverse rotational power so that the coil can rotate in the opposite direction with respect to the rotation direction of the pulley, The magnet mounted on the rotating shaft by the power rotates in the forward 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 power transmission means to provide a forward-driven generator to improve the power generation efficiency You can expect the effect.

Claims (3)

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, and a coil is formed on an inner side of the inner rotary case 2. (3) is wound, and the rotating shaft 5 is provided with a magnet 6 corresponding to the coil 3 so that the coil 3 and the magnet 6 can be independently rotated, A pulley 7 is formed at the distal end of the rotary shaft 5 to receive external power, and the forward rotational force of the pulley 7 is converted between the pulley 7 and the inner rotary case 2 in the reverse rotation direction. To form a reverse rotational power transmission means for supplying Brushes for forming the armature (16) for discharging the electricity into the rear end of the coil (3), and is supplied with electricity in contact with the armature (16) to the closing plate 18 coupled to the rear end of the case ( 17) a forward-driven generator characterized in that it is formed. The method of claim 1, The reverse rotation power transmission means is formed to extend the reverse rotation base 10 connected to one side of the inner rotary case 2 to the pulley (7) side, the first gear (9) on one side of the pulley (7) annular And a second gear 11 facing the first gear 9 in an annular shape at an end of the reverse rotation base 10, wherein the first gear 9 and the second gear 11 are formed in an annular shape. Between and the planetary gear generator characterized in that the planetary gear (13) for supplying to the second gear (11) by converting the rotation direction of the first gear (9) in the opposite direction. 3. The planetary gear (13) according to claim 2, wherein the planetary gear (13) is rotatably mounted between the circular outer housing (14) and the inner housing (15), and the outer housing (14) is fixed to the case (1). Forward and reverse generator type.

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