KR101144854B1 - The transformer - Google Patents

Abstract

PURPOSE: A high efficiency transformer is provided to multiply outputted current amount when transforming a current by including a first coil part which perpendicularly executes a reciprocating motion by power of a motor. CONSTITUTION: A case(10) forms an insertion hole(11) on the opened ends of an accommodation space. A first coil part(20) is fitted and installed into the accommodation space of the case. The first coil part is composed of a gear train(23), a crank(25), and a load(27). The first coil part perpendicularly executes a reciprocating motion by receiving power of a motor. A first coil is rolled on the first coil part. A second coil part(30) is installed in the accommodation space of the case to be opposite to both ends of the first coil part. A second coil is rolled on the second coil part.

Description

High Efficiency Transformers {THE TRANSFORMER}

The present invention relates to a high efficiency transformer, and more particularly, to electromagnetic induction due to the movement of a primary coil part reciprocating by the power of a motor to face an adjacent secondary coil while flowing an AC voltage and a current to the primary coil. High-efficiency transformer characterized by increasing the amount of mutual induction current output by generating power generation (current production) effect during the transformation by applying the action.

In general, a transformer is a device that changes the value of alternating voltage or current by using electromagnetic induction (mutual induction).

These transformers consist of a primary coil and a secondary coil to interrupt the direct current to the primary coil, or change the strength of the current flowing by supplying alternating current, the magnetic field flux through the secondary coil changes because the magnetic field is continuously changed. It is a device that generates induced electromotive force even in a secondary coil.

Transformers are categorized into open type transformer and closed type transformer according to the structure. The open type is the type used in the early transformers and has a cylindrical case, and the core of the primary coil and the secondary coil wound inside the case It is installed, but filled with synthetic plastic or insulating oil to insulate and cool the coil, and the external iron core is placed inside the case to prevent magnetic field loss. It is inexpensive but bulky and has a high loss of magnetic flux. .

The closed furnace type is processed into a thin iron plate with a short E-shape in the middle to face two overlapping iron plates. The core is made of iron core, and the primary coil and secondary coil are wound around the core with air gap and the surface of plastic resin As covered by, there is a problem that the loss of the magnetic flux is low, the boost voltage is high and the volume is small, but the price is expensive.

Therefore, as is well known, the independent type has a problem that it is difficult to obtain a high voltage due to the loss of magnetic flux, and the closed type has a problem of low economical efficiency and the power multiplied by the voltage and current supplied to the primary coil. There has been a problem that cannot increase the total amount of power mutually induced to the coil.

The present invention is to solve this problem, and has a primary coil portion reciprocating vertically by the power of the motor, such as the power generation action, by supplying an alternating current to the primary coil, mutually induced voltage and current to the secondary coil When generating (induction electromotive force), an electromagnetic induction action is applied to provide a high efficiency transformer that increases the amount of output current generated by the power generation effect.

In addition, the present invention also provides a high-efficiency transformer that can be miniaturized due to its low cost, excellent economy, and simple structure.

High efficiency transformer of the present invention for achieving the above object has a receiving space therein in the "c" shape and the case forming an insertion groove on both open ends of the receiving space; A primary coil portion wound in a shape of a “ㅒ” shape fitted into the insertion groove of the case so that a current passes through the primary coil and reciprocating vertically by receiving power from a motor; And installed in the accommodating spaces of the case to face both ends of the primary coil portion, and the primary coil portions are installed at intervals to reciprocate vertically, and the secondary coils are wound so that the generated voltage and current are mutually induced at one end thereof. It comprises a secondary coil portion of the "c" shape.

The primary coil portion is characterized in that the gear train, the crank and the rod is configured to receive the power of the motor to reciprocate vertically.

In addition, the primary coil portion is characterized in that it consists of a conductor portion, the primary coil is wound, and a non-conductive portion fitted in the insertion groove of the case.

In addition, the material of the secondary coil portion is a conductor, characterized in that the material of the case is made of a non-conductor.

The present invention by the above solution means is provided with a primary coil portion reciprocating vertically by the power of the motor is transformed by the mutual induction action of the alternating voltage and current flowing in the primary coil and the voltage and current induced in the secondary coil Due to the electromagnetic induction action, there is an effect of increasing the amount of current output by the power generation effect during the transformation.

In addition, there is an effect that can be miniaturized due to the low price, excellent economical efficiency and simple structure.

1 is a perspective view of a high efficiency transformer of the present invention.
2 to 3 are cross-sectional views of the high efficiency transformer of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a high efficiency transformer of the present invention, Figures 2 to 3 are cross-sectional views of the high efficiency transformer of the present invention.

As shown in FIGS. 1 to 3, the high efficiency transformer of the present invention includes a case 10, a primary coil part 20, and a secondary coil part 30.

As shown in FIGS. 1 to 3, the case 10 has an accommodating space therein in a “c” shape and insertion grooves 11 are formed at both open ends of the accommodating space.

In this case, the material of the case is preferably made of a non-conductor, such as a plastic through which no current.

As shown in FIGS. 1 to 3, the primary coil part 20 has a "ㅒ" shape installed in the insertion groove 11 of the case 10 so that an electric current flows in one end thereof. The winding is provided to receive the power of the motor (A) is provided to reciprocate vertically.

At this time, the primary coil portion 20 is the conductor portion (20a) and the insertion groove of the case 10 to enable the change of magnetic and magnetic polarity (alternative magnetic field) when the primary coil 21 is wound by the alternating current flow It is made of a non-conducting portion (20b) is fitted to the (11) is blocked the flow of current.

In addition, both ends of the primary coil 21 wound on the primary coil part 20 are installed to be connected to the input device 29 to supply an AC current.

The motor A is installed under the case 10 and is electrically connected to the battery B.

At this time, the primary coil portion 20 is provided with a gear train 23, a crank shaft 25 and a rod 27 in order to convert the rotational movement generated by the motor (A) to reciprocate vertically. .

The gear train 23 includes a first gear 23a connected to the shaft of the motor A, and a second gear 23b installed to be connected to the first gear 23a.

The crankshaft 25 is installed in the second gear 23b so as to rotate the second gear 23b.

One end of the rod 27 is connected to the second gear 23b and the other end is connected to the front end of the non-conductive part 20b of the primary coil part 20 to receive the rotation of the second gear 23b to be vertically. Have a reciprocating motion.

The secondary coil portion 30 is installed in the receiving space of the case 10 to face both ends of the primary coil portion 20 in a "c" shape as shown in Figures 2 to 3, respectively A part 20 is installed at predetermined intervals to reciprocate vertically.

At this time, the material of the secondary coil part 30 is made of a conductor such as metal so as to enable magnetic and magnetic polarity change (alternative magnetic field), and the secondary coil 31 is wound to be connected to each other so that current passes through. Both ends of the primary coil 31 are generated by electromagnetic induction when mutual induction voltage and current are generated according to the alternating voltage, current, and reciprocating motion flowing in the primary coil unit 20 so that a higher voltage than a conventional transformer is generated. It is installed to be connected to the output unit 39.

The present invention having the structure as described above shows the voltage and current induced in the secondary coil 31 by the mutual induction of the AC voltage and the current supplied to the primary coil 21 of the primary coil portion 20, FIG. 1, 2 to 3 is applied to the electromagnetic induction generated periodically by the primary coil portion 20 reciprocating vertically by receiving the power of the motor (A) is applied to generate a power generation effect during the transformation It is characterized by increasing the amount of current output during transformation.

The present invention has a primary coil portion 20 reciprocating vertically by the power of the motor to the secondary coil 31 by the mutual induction action of the AC voltage and current supplied to the primary coil 21. Due to the electromagnetic induction effect on the induced voltage and current, there is an effect of increasing the amount of current output during the transformation.

According to the present invention, the secondary coil 31 is provided with a primary coil portion 20 which reciprocates vertically by the power of a motor and is mutually induced by an AC voltage and a current supplied to the primary coil 21. Due to the electromagnetic induction applied to the induced voltage and current, a high efficiency transformer is provided which increases the amount of current output during transformation.

It also provides a high-efficiency transformer that can be miniaturized due to its low cost, high economical efficiency, and simple structure.

10: Case 11: Insertion groove
20: 1 Primary coil part 20a: Conductor part
20b: non-conductive part 21: 1 primary coil
23: Gear train 23a: First gear
23b: second gear 25: crankshaft
27: load 29: input unit
30: Secondary coil part 31: Secondary coil
39: output part A: motor
B: Battery

Claims (4)

A case 10 having an accommodating space therein and having an insertion groove 11 formed at open ends of the accommodating space;
The first coil 21 is wound around the end of the case 10 to be inserted into the insertion groove 11 of the case 10 so that a current passes through the coil 10, and vertically reciprocates by receiving the power of the motor A. Primary coil part 20; And
It is installed in the receiving space of the case 10 so as to face both ends of the primary coil portion 20, the primary coil portion 20 is installed at intervals to reciprocate vertically, and the generated voltage and current are mutually induced at one end High-efficiency transformer, including secondary coil portion (30) of the "C" shape is wound around the secondary coil (31). The method of claim 1, wherein the primary coil portion 20 is characterized by consisting of a gear train 23, a crank 25 and a rod 27 so as to reciprocate vertically by receiving the power of the motor (A). High efficiency transformer. The non-conductive part 20b of claim 2, wherein the primary coil part 20 is a conductor part 20a on which the primary coil 21 is wound and an insertion groove 11 of the case 10. High efficiency transformer, characterized in that made. The high efficiency transformer according to claim 1, wherein the material of the secondary coil part (30) is a conductor and the material of the case (10) is made of a non-conductor.

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