KR200176106Y1 - Coreless micro vibration motor - Google Patents

Abstract

The present invention is a coreless micro vibration motor with a very small diameter. It is a vibration function instead of a ringtone for notifying a call reception or a call for a mobile communication device. The present invention relates to a coreless micro vibration motor which generates vibration so as to press-install a bearing house (8) having a smaller outer diameter into a cylindrical housing (1), or to a housing (1) and a bearing house (8-1). , The magnets 4 are fixed to the outer diameters of the bearing houses 8, 8-1, and bearings 5-1, 5-2 at both ends of the bearing houses 8, 8-1. ), And the cylindrical rotor coil 10 formed integrally with the shaft 3 so as to maintain a predetermined distance in the space between the housing 1 and the magnet 4, and the shaft 3 of

One end of the commutator 13 formed at the same time as the injection molding of resin and the like, and the brush 14 is embedded in the mold base 15 formed of the resin and the like, and the lead wire 17-1 connected to the outside of the brush 14. 17-2) to supply current, and fix the vibrator 2 to the shaft 3 protruding out of the housing.

Description

Coreless micro vibration motor

The present invention provides information transmission apparatuses such as mobile communication devices, for example, portable mobile telephones and radio pagers, which provide a function of transmitting a status to a human body by vibration that a telephone is being received or called. Coreless Micro Vibration Motor

It is about. In addition, the coreless vibration motor used for this purpose is required to have a diameter of about 4 mm due to the light and small size reduction of the portable mobile communication device. For example, in the above-described mobile mobile communication device, a function of notifying a state of a call being received or being called is to select one of sound and vibration functions in some cases instead of notifying it as sound in recent years. 6 is a side view of a coreless motor according to a conventional example. As an example applied in the case where the outer diameter size of the motor is relatively larger than 6 mm in FIG. 6, it is rotated at the other end of the shaft 3-1 in which the vibrator 2-2 is provided at the part projecting out of the housing 1-1. A housing 1-1 in which a hub 12-1 supporting the electromagnetic coil 10-1 and a commutator 13-1 are combined to form a rotor, and the rotor shaft shaft 3-1 protrudes. While the bush 22 is press-fitted into the opening of the bush 22, the bearing 5-3 is press-fitted into the bush 22, and the magnet 4-1 is moved into the magnetoelectric coil 10-1. Is attached to the bush 22, the brush 14-1 is provided in the brush mold mace 15-1, which is pressed into the other opening of the housing 1-1, to the lead wires 17-3 and 17-4. The bearing 5-4 is attached to the center of the brush mold base 15-1, and is configured to support the shaft 3-1.

In the conventional coreless motor of Fig. 6, in order to improve productivity, the housing 1-1 is formed in a pipe shape, and then the bush 22 and the brush mold base 15-1 are installed in both openings. Bearings 5-3 and 5-4 were installed at the center to support the rotor shaft 3-1, respectively, but this coincides with the center of rotation of the housing 1-1 and the rotor shaft 3-1. In addition to this, additional fixing means for preventing the bush 22 from being detached from the housing 1-1 is inevitable. In addition, the shaft 3-1 installed at the center of the rotor is provided with an annular groove 23 in the shaft 3-1 to prevent separation from the hub 12-1, and the ring 24 is coupled thereto. The combination of the shaft 3-1 and the ring 24 penetrates through the hub 12-1 so that the hub 12-1 and the shaft 3-1 are injection molded so as to be integral with each other. ) Is installed at the outer periphery of the hub 12-1, and the commutator 13-1 assembly has a problem that the outer diameter after the injection molding of the hub 12-1 is inevitably large due to the problem that the motor has a large starting characteristic. In addition to being a deteriorating factor, in order to further reduce the motor outer diameter size, there is a problem in that the size of the parts is also restricted, and the shape of the hub 12-1 must be improved entirely. The present invention aims to solve the above problems and to provide a coreless micro vibration motor having a very small diameter size.

1 is a side view of a coreless micro vibration motor according to one embodiment of the present invention.

2 is a cross-sectional view cut along the center of the motor.

3 is an assembly view of a terminal and a housing as a means of supplying power to the motor.

4 is a side view of the coreless micro vibration motor in which the housing and the bearing house are integrally formed as one embodiment of the present invention.

5 is an explanatory diagram showing a fixing method of a vibrator according to one embodiment of the present invention.

6 is a side view of a conventional coreless motor.

<Explanation of symbols for main parts of drawing>

1,1-1 ............. Housing 2,2-1,2-2 ...... vibrator

3,3-1 ............. shaft 4,4-1 .......... magnet

5-1,5-2,5-3,5-4 .... Bearing 6 .............. Boss

7-1,7-2 ............ Liner 8,8-1 .......... Bearing House

9,20 ............... Adhesive 10,10-1 ........ Rotor Coil

11 ....... Letring 12,12-1 ........ Hub

13,13-1 ............ Commuter Part 14,14-1 ........ Brush

15,15-1 ............ Brush Mold Base 16 ............. And Cap

17-1,17-2,17-3,17-4..lead wire 18 ............. Terminal housing

19-1,19-2 .......... Terminal 22 ............. Bush

23..Around groove 24 ............. Ring

25 .... hole

In order to achieve the above object, the coreless micro vibration motor of the present invention has a bearing house 8- which is formed by forcibly pressing the bearing house 8 or integrally forming the housing 1 when press molding one end of the housing 1. Bearings 5-1 and 5-2 are formed at both ends of the inner diameter of 1) so as to be press-fitted and the magnets 4 are fixed to the outer diameters of the bearing houses 8 and 8-1 by means of adhesion or the like. The hub 12 and the hub 12 which are integrally formed by forcibly pressing the stator and the letring 11 provided with the V-groove in the outer diameter part to the stator, the shaft 3, and having the commutator 13 uniformly arranged. A rotor having the rotor coil 10 disposed at an outer diameter of one end), and the rotor coil 10 disposed in a space between the magnet 4 and the housing 1, and the magnet 4 and the housing. In the magnetic circuit formed between (1), the rotor coil 10 is configured to rotate in the magnetic circuit, and the rotation It is configured at one end of the brush so as to supply a current to the coil 10 assembly of mold base 15, a shaft 3, etc. would securing the transducer (2) on the semi-circular.

According to the present invention, the bearing house may be formed concentrically on one end of the housing, or the housing and the bearing house may be integrally formed to reduce the number of parts and simplify the production technology. The outer diameter of the commutator disposed in the hub may be greatly reduced. It is possible to produce a coreless micro-vibration motor having a structure in which a small amount of vibration is increased and the outer diameter of the motor is made extremely small, the vibration amount is large, and the shaft and the vibrator are not separated from the motor even by an excessive impact.

Claims (3)

A rotor body made of a rotor coil or the like, which is enhanced by press-fitting and adhering a notch provided with a V-groove in a shaft and an outer diameter part to a hub formed of resin, etc., and disposed on the outer circumferential surface of the hub, and the corresponding rotation A coreless micro vibration motor comprising a stator configured to form a magnetic circuit of a housing and a magnet arranged to maintain a constant gap with its own coil, and a current supply means for supplying current to the rotor coil. . 2. The vibrator according to claim 1, wherein the vibrator is provided so that the shaft penetrates through the hole protruding from one end of the housing and the outer periphery of the shaft through a hole located at the center of the semicircular vibrator. The coreless micro vibrating shaft characterized by enhancing cohesion by injecting adhesive and the like between the shaft and the vibrator through the end face where the shaft and the end of the shaft approximately coincide by caulking into the groove. foundation. The coreless micro vibration motor according to claim 1 or 2, wherein one end of the housing is molded to be integral with the bearing house and the magnet can be fixed to the outer circumference of the integrally formed bearing house by means of adhesion or the like. .