JP3168093U - Electric structure - Google Patents

Abstract

An electric machine structure having a simple structure, a small volume, and small copper loss and mechanical loss is provided. A stator 1 includes a polymer material for a coreless disk type coil unit 112 and a stator fixed casing 11. The coil unit 112 is packaged by a polymer material and is provided on both sides of the stator fixed casing. The lid plate 12 to which the rotor is coupled, the bearing lid 113 and the bearing 13 that movably fixes the rotor are respectively installed at the center of the lid plate. The rotor is fixed in both lid plates, is movably coupled to the coil unit, and a spindle 21 is provided in the center of the coil unit and penetrated in both bearings. Magnetic shielding plates 22 corresponding to both sides of the unit, and magnetic bodies 23 respectively disposed on the inner surface of the magnetic shielding plate and corresponding to the coil unit. [Selection] Figure 2

Description

    The present invention relates to an electrical structure, and in particular, can be applied to various types of transmission equipment. The structure is simple, lightweight and small in diameter, high efficiency, no core wear, minimal copper loss, and mechanical loss. It relates to the one that can obtain a small effect.

    The general electric structure is cylindrical and has a fixed casing in which bearing holes are relatively formed at both ends in the axial direction, and a power generation output set is previously installed on the inner wall of one end, and both ends are fixed respectively. A spindle that is pivotally attached to the bearing hole of the casing and has one end as an input end, and a bearing hole that is pivotally attached to the inside of the fixed casing and is similarly pivotally attached to both ends in the axial direction. A rotating inner casing in which an annular wheel is installed in advance at one end, and a ring-shaped power generation output ring seat capable of conducting electricity against the power generation output set installed in the fixed casing is installed in the other end; And the second gear, the first gear is fixed to the spindle, the second gear is pivotally attached to the inner wall of one end of the fixed casing, and the ring faces on opposite sides thereof are respectively The first gear and the annular wheel mesh with each other, whereby when the spindle rotates, the transmission gear set transmits the rotation inner casing in the reverse direction by the transmission of the transmission gear set, and the inner rotation inner casing corresponding to the spindle. And a coil ring assembled on the inner wall of the rotating inner casing so as to correspond to the magnet sheet of the rotor. Thereby, the function of power generation is exhibited.

    The above-mentioned conventional electrical structure can exert the functions of transmission and power generation, but it has a structure with a core while having a brush, so copper loss and mechanical loss are slightly increased, and the overall structure is also compared. Therefore, the effect of high rotation speed and high efficiency cannot be obtained. For this reason, a general conventional electric structure is not practical.

    The present inventor proposes the present invention in which the above-mentioned drawbacks are studied carefully, and the above-mentioned disadvantages can be effectively eliminated by utilizing the theory, and the design is rational.

    The main purpose of the present invention is applicable to various types of transmission equipment, and is simple in structure, small in volume, light weight, high efficiency, no core wear, copper loss and mechanical loss Provides an extremely small electrical structure.

    The present invention is an electric machine structure for achieving the above object, and includes a stator and rotors installed on both side surfaces of the stator coil unit, and the stator is a disk-type coil without a core. Made of polymer material for the unit, fixed to the fixed casing of the stator, the coil unit is packaged by the polymeric material, and lid plates for coupling with the rotor are installed on both sides of the fixed casing of the stator In addition, there is a bearing that fixes and rotates the bearing lid and the rotor at the center of the lid plate, respectively, and the rotor is movably coupled to the coil unit inside the lid plates, and the coil A spindle extending through the center of the unit and in both bearings, a magnetic shielding plate installed on the spindle and corresponding to both sides of the coil unit, and an inner surface of the magnetic shielding plate, respectively. A magnetic body that corresponds to the coil unit is are included.

    According to one embodiment of the present invention, the coil unit is provided with a polymer material, a coil unit located inside the polymer material, and a center of the coil unit, and both ends correspond to each bearing. And a heat radiating tank installed in a fixed casing of the stator.

    According to one embodiment of the present invention, each cover plate is fixed to both side surfaces of the fixed casing of the stator by a fixing element.

    According to one embodiment of the present invention, each bearing is provided on a bearing lid, and the bearing lid is coupled to each lid plate in accordance with a fixed element.

    According to one embodiment of the present invention, each magnetic shield is coupled to the spindle in alignment with the fixed element.

    According to one embodiment of the present invention, each magnetic body is coupled to each magnetic shielding plate in accordance with the fixed element.

    Hereinafter, the features and technical contents of the present invention will be described in detail with reference to the drawings. However, the drawings and the like are for reference and explanation, and the present invention is not limited thereby.

Front view conceptual diagram of the present invention Cross-sectional state conceptual diagram of the present invention Exploded conceptual diagram of the cross-sectional state of the present invention

    1, 2 and 3 are a front view conceptual diagram of the present invention, a sectional state conceptual diagram of the present invention, and an exploded conceptual view of the sectional state of the present invention, respectively. As shown in the figure, the present invention is an electric machine structure, and the structure includes at least a stator 1 and a rotor 2 provided in the stator 1.

    The stator 1 includes a stator fixed casing 11, lid plates 12 provided on both side surfaces of the stator fixed casing 11, respectively, and corresponding bearings 13 in the center of the lid plate 12, respectively. The stator includes a fixed casing 11 composed of a polymer material 111 and a coil unit 112 positioned in the polymer material 111, and is installed in the center of the coil unit 112 so that both ends of the stator 13 And the heat sink tank 114 installed in the fixed casing of the stator, and each cover plate 12 is fixed to both side surfaces of the fixed casing 11 of the stator by the fixing elements 121, respectively. Each bearing 13 is installed on a bearing lid 131, and the bearing lid 131 is coupled to each lid plate 12 by a fixing element 132. .

    The rotor 2 is movably coupled to the coil unit 112, and the spindle 21 penetrating the shaft hole 113 of the coil unit 112 and the both bearings 13 are respectively installed on the spindle 21 and on both sides of the coil unit 112. A corresponding magnetic shielding plate 22 and a magnetic body 23 corresponding to the coil unit 112 provided on the inner surface of the magnetic shielding plate 22 and provided in the stator, respectively. The element 221 is coupled to the spindle 21, and each magnetic body 23 is coupled to each magnetic shield plate 22 by a fixed element 231. With the above structure, a new electric machine structure is formed. Thus, the present invention has an advantage that the structure is simple but the volume is small and the weight is light.

    According to the present invention, it can be applied to various types of transmission facilities (for example, transmission facilities such as gasoline engines, diesel engines, generators, wind machines, etc.), and the spindle 21 of the rotor 2 can be connected to related interlocking facilities ( When the coil unit 112 is connected to the coil unit 112 of the stator 1, the coil unit 112 continuously generates a phase repelling each magnetic body 23, and the rotor 2 is connected to the spindle 21. The bearing 13 is used to rotate continuously in the stator 1 and to dissipate heat when operating in each of the heat radiating tanks 114 in the stationary casing 11 of the stator. Number, high usage efficiency, no core wear, and extremely low copper loss and mechanical loss.

    As described above, the electrical structure according to the present invention can effectively eliminate the conventional drawbacks and can be applied to various types of transmission equipment, and is simple in structure, but has a small volume, light weight, and high efficiency. In addition, the effect of extremely small copper loss and mechanical loss can be realized without core wear.

    Therefore, the present invention is more progressive and more practical, and filed a utility model registration request in accordance with the law.

    The above is only a better embodiment of the present invention, and the present invention is not limited thereby, and equivalent changes made based on the scope of claims for patent registration relating to the present invention and the contents of the description. All modifications and changes are included in the scope of the claim for registration of the present invention.

DESCRIPTION OF SYMBOLS 1 Stator 11 Stator fixed casing 111 Polymer material 112 Coil unit 113 Shaft hole 114 Radiation tank 12 Cover plate 121 Fixed element 13 Bearing 131 Bearing cover 132 Fixed element 2 Rotor 21 Spindle 22 Magnetic shield plate 221 Fixed element 23 Magnetic body 231 Fixed element

Claims (6)

A stator,
A rotor located on both sides of the stator coil unit;
Contains
The stator is made of polymer material for coreless disk type coil unit, fixed to the stator's fixed casing, the coil unit is packaged in the polymer material, and rotated on both sides of the stator's fixed casing A lid plate to which the child is coupled, and a bearing lid and a bearing that movably fixes the rotor are installed at the center of the lid plate, respectively, and the rotor is fixed in both lid plates. And a spindle that is movably coupled to the coil unit and that extends through the center of the coil unit and both bearings, and a magnetic shielding plate that is installed on the spindle and corresponds to both sides of the coil unit, respectively. An electric machine structure comprising: a magnetic body installed on an inner surface of a plate and corresponding to a coil unit. The coil unit is formed in a polymer material, a quad located in the polymer material, and the center of the coil unit, and both ends are formed in a shaft hole corresponding to each bearing and in a fixed casing of the stator. The electric structure according to claim 1, comprising: a heat radiating tank. 2. The electric machine structure according to claim 1, wherein each cover plate is fixed to both side surfaces of a fixed casing of the stator by a fixing element. 2. The electric machine structure according to claim 1, wherein each bearing is installed on a bearing lid, and the bearing lid is coupled to each lid plate by a fixing element. 2. The electric machine structure according to claim 1, wherein each magnetic shielding plate is coupled to the spindle by a fixing element. The electric structure according to claim 1, wherein each magnetic body is coupled to each magnetic shielding plate by a fixing element.