KR100768248B1 - Generator - Google Patents

Abstract

A generator is provided to prevent the deviation of the wound coils by including a coil supporter made of a dielectric material in the rotator of the generator. A generator includes a stator, a rotator iron core(110), a rotator coil(120), a coil deviation preventing unit(130), and a supporting device(140). The rotator iron core(110) rotates inside the stator. The rotator coil(120) is wound around the rotator iron core(110). The coil deviation preventing unit(130) inserted into the rotator iron core(110) is formed as a shape of a cylinder or a rectangle and prevents the deviation of the rotator coil(120) when the rotator iron core(110) rotates. The supporting device(140) is closely attached to the rotator iron core(110) and the coil deviation preventing unit(130) for performing exact winding of the rotator iron core(110) and prevents the deviation of the rotator iron core(110).

Description

Generator {GENERATOR}

The present invention relates to a generator, and more particularly, to a generator for preventing the winding of the coil and the winding accurately wound when winding the generator rotor.

Conventional generators have a rotor and a stator. As a generator, the first method of generating a magnetic field in the rotor to generate an electromotive force, and the second method of supplying an excitation current to generate a stator field to generate an electromotive force from the stator, the direct current supplied to the rotor of the generator The electric current excites the rotor to create a rotating magnetic field. As the rotor rotates, the magnetic field changes, and thus, electromotive force is induced in the stator. Here, the rotor and the stator are all the same winding direction of the coil, but the wiring between the adjacent coils is the opposite direction of the current flow direction is composed of N pole and S pole alternately.

Such a conventional generator has a problem in that it is difficult to wind the coil accurately because the coil is directly wound on the rotor, and the coil that is wound in accordance with the rotation of the rotor coil during power generation may be separated.

Accordingly, an object of the present invention is to provide a generator for preventing the accurate winding and the detachment of the wound coil when winding the coil to the generator rotor.

Features of the generator according to the present invention for achieving the above object, in the generator having a stator, a rotor iron core rotating inside the stator; A rotor coil wound around the rotor iron core; At least one coil escape preventing part for preventing the rotor coil from being separated; And a support member that is in close contact with the rotor iron core and the coil detachment prevention part and prevents the rotor coil from being separated when the rotor iron core is rotated.

In addition, in the generator according to the invention, the support member is characterized in that the insulator.

"의 형상으로 형성된 것을 특징으로 한다.In addition, in the generator according to the present invention, the support member is capable of winding the rotor coil inside.

It is characterized in that formed in the shape of ".

In addition, in the generator according to the present invention, the support member is characterized in that at least one contact groove is formed on one side to be in close contact with the coil detachment prevention portion.

In addition, in the generator according to the present invention, the support member is characterized in that the guide portion is formed in the direction in which the rotor coil is wound in order to close the winding of the rotor coil to the rotor iron core.

In addition, in the generator according to the invention, the support member is characterized in that a plurality of grooves for heat dissipation is formed at the bottom.

In addition, in the generator according to the present invention, the support member is characterized in that at least one heat dissipation groove for heat dissipation is formed on each side of the rotor coil is wound.

As described above, the generator according to the present invention may further include a coil support member formed of an insulator on the generator rotor, thereby preventing an accurate winding and detachment of the wound coil during winding of the generator rotor.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, the operation of the generator according to the present invention will be described in detail.

1 is a view showing a first embodiment of a generator according to the present invention.

Referring to FIG. 1, the generator according to the present invention includes a stator (not shown), a rotor iron core 110, a rotor coil 120, a coil detachment prevention unit 130, and a support member 140. Equipped.

The rotor iron core 110 rotates inside the stator.

The rotor coil 120 is wound around the rotor iron core 110.

The coil departure preventing unit 130 is formed in a cylindrical or rectangular shape, and is inserted into the rotor iron core 110 to prevent the rotor coil 120 from being separated when the rotor iron core 110 is rotated. do.

The support member 140 is in close contact with the rotor iron core 110 and the coil detachment prevention part 130 to enable accurate winding when winding the rotor iron core 110 and the rotor iron core 110. ) Prevents the rotor coil 120 from being separated.

2 is a view showing an embodiment of the support member according to Figure 1, (a) is a plan view, (b) is a front view, (c) is a side view.

"의 형상으로 형성되고, 상기 코일이탈방지부(130)에 밀착되도록 일측에 적어도 하나 이상의 밀착홈(141)이 형성되며, 상기 회전자 철심(110)에 상기 회전자 코일(120)을 밀착시켜 권선하기 위하여 상기 회전자 코일(120)이 권선되는 방향으로 가이드부(142)가 형성되고, 하부에 방열을 위한 다수의 홈(143)이 형성되며, 상기 회전자 코일(120)이 권선되는 양측면 각각에 방열을 위한 적어도 하나 이상의 방열홈(144)이 형성된다.Referring to FIG. 2, the support member 140 is an insulator, which may wind the rotor coil 120 inward.

"Is formed in the shape of, at least one contact groove 141 is formed on one side to be in close contact with the coil departure prevention unit 130, by making the rotor coil 120 in close contact with the rotor iron core 110 The guide part 142 is formed in the direction in which the rotor coil 120 is wound so as to be wound, and a plurality of grooves 143 are formed at a lower side thereof, and both side surfaces of the rotor coil 120 are wound. At least one heat dissipation groove 144 for heat dissipation is formed in each.

3 is a view showing a second embodiment of the generator according to the present invention, Figure 4 is a view showing an embodiment of the support member according to Figure 3, (a) is a plan view, (b) is a front view, ( c) is a side view. 1 and 2, the number of the coil detachment preventer 130 shown in Figure 2, according to which two close contact grooves 141 of the support member 140 is formed, the other components are the same for this The description will be omitted.

Referring to the accompanying drawings, the operation of the generator according to the present invention configured as described above will be described in detail as follows.

First, as shown in FIGS. 1 and 2, the support member 130 is in close contact with the rotor iron core 110 having one coil detachment preventer 130 formed on one side thereof, and then the rotor coil 120 is moved. Winding inside the support member 140.

That is, the contact groove 141 formed on one side of the support member 140 is in close contact with the coil detachment prevention part 130, and the lower part of the support member 140 is connected to the rotor iron core 110. Here, the plurality of grooves 143 formed under the support member 140 radiate heat when the rotor iron core 110 rotates. Subsequently, the rotor coil 120 is wound inside the support member 140 while being connected to the rotor iron core 110 and the coil detachment prevention part 130. At this time, the guide parts 142 formed on both sides of the support member 140 allow the rotor coil to closely adhere to the side when the rotor coil 120 is wound. By doing this, the rotor coil 120 can be wound accurately. At least one heat dissipation groove 144 formed at both sides of the support member 140 may dissipate heat generated from the rotor coil 120 when the rotor iron core 110 is rotated, and FIGS. 3 and 4. As shown in, it may not be formed.

As described above, since the rotor coil 120 is wound inside the support member 140, the rotor iron core 110 is configured inside the stator (not shown), and then rotates to wind the inside of the support member 140 during power generation. The rotor coil 120 is prevented from being separated.

Meanwhile, FIGS. 3 and 4 are two contact grooves 141 of the support member 140 spaced apart from each other according to the number of the coil detachment preventers 130 and two are formed on one side, and one or more coils are separated on one side. After the support member 130 is in close contact with the rotor iron core 110 on which the prevention part 130 is formed, the rotor coil 120 is wound inside the support member 140.

Hereinafter, since the same configuration and operation as those of FIGS. 1 and 2 described above are performed, a description thereof will be omitted.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims and their equivalents.

1 is a view showing a first embodiment of a generator according to the present invention.

2 is a view showing an embodiment of the support member according to Figure 1, (a) is a plan view, (b) is a front view, (c) is a side view.

3 shows a second embodiment of a generator according to the invention.

Figure 4 is a view showing an embodiment of the support member according to Figure 3, (a) is a plan view, (b) is a front view, (c) is a side view.

Explanation of symbols for main parts of the drawings

110: iron core 120: rotor coil

130: coil detachment prevention unit 140: support member

141: contact groove 142: guide portion

143: groove 144: heat dissipation groove

Claims (7)

In a generator having a stator, A rotor iron core rotating inside the stator; A rotor coil wound around the rotor iron core; At least one coil escape preventing part for preventing the rotor coil from being separated; And And a support member in close contact with the rotor iron core and the coil detachment preventing part to prevent the rotor coil from being separated when the rotor iron core is rotated. The method of claim 1, And the support member is an insulator. The method of claim 1, The support member is capable of winding the rotor coil inwardly.

Generator characterized in that formed in the shape of ". The method of claim 1, The support member is a generator characterized in that at least one or more contact grooves formed on one side to be in close contact with the coil detachment prevention. The method of claim 1, The support member is a generator, characterized in that the guide portion is formed in the direction in which the rotor coil is wound in order to close the rotor coil to the rotor iron core. The method of claim 1, The support member is a generator, characterized in that a plurality of grooves for heat radiation formed in the lower portion. The method of claim 5, The support member is a generator, characterized in that at least one heat dissipation groove is formed on each side of the rotor coil is wound.

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