KR20020043824A - Fan motor - Google Patents

Abstract

PURPOSE: A fan motor is provided to improve an assembling feature by simplifying a bearing and prevent a damage and transformation due to an assembling impact by facilitating an assembling of a printed circuit board. CONSTITUTION: A holder(2) is integrally formed on a frame(1). A stator(4) is connected to a peripheral surface of the holder(2) at an upper side of the frame(1). A shaft(6) is inserted into one bearing. The one bearing is pressurized to an inner diameter portion of the holder(2). A hub(7) is connected to an upper end of the shaft(6). A magnet(7b) is attached to an inner periphery of the hub(7). A printed circuit board(3) is installed at a lower side of the frame(1) and electrically connects each component to each other. A cover plate(2a) is connected to a lower side of the frame(1) and shelters the printed circuit board(3) from an outside.

Description

Fan motor

The present invention relates to a fan motor mounted on an electronic device, and more particularly, to a fan motor adopting a single metal bearing to ensure stable driving characteristics and to facilitate assembly of a circuit board to improve assemblability. About

In general, the fan motor is mainly used for cooling the driving heat of the driving device that generates heat during driving such as a microprocessor or a VGA card in a limited space such as a laptop or a personal computer. It is common to use small, single-axis axial flow fans.

These fan motors are currently applied as a case of directly attaching to a microprocessor and attaching to an internal structure alone in a notebook, etc. In particular, the personal computer itself is gradually smaller in size, whereas the CPU of each driving device has a large capacity and a high speed. Therefore, the load capacity is rapidly increased and generates very high heat on its own.

In particular, when the heat generated in an integrated circuit package such as a CPU is left unattended, it may lead to an inoperable state caused by overheating, or it may cause a serious device failure such as damage to main components.

As such, a fan motor attached to an electronic device having a heating characteristic, that is, an integrated circuit package such as a CPU, prevents energy loss due to separation of flow air, reduces noise, and minimizes the loss between the inlet and the outlet of the wing. It is designed to satisfy conditions that can exhibit high performance, such as maximizing static pressure rise.

Most of these fan motors are radial type three-phase driving method in which the magnet is provided in the radial direction of the stator. However, at most, the fan motor has a single-phase driving method in accordance with the trend of simplifying the configuration and improving economic efficiency. Fig. 2 is also increasingly applied in two phases.

1 to 2 are a perspective view and a cross-sectional view showing a fan motor mainly used in a conventional cooling fan, as shown in the fan motor is generally provided with a frame 100 to form an outer body, and the bottom of the frame 100 A cover plate 120, a printed circuit board 130 and a stator 140 attached to an upper surface of the cover plate 120, a shaft 160 and a hub rotated around the stator 140. 170).

The frame 100 has a tubular holder 110 protruding upward from the center portion, and the shaft 160 after the ball bearing 150 and the metal bearing 155 are press-fitted up and down the inner diameter portion of the holder 110. Is rotatably fitted.

Here, the shaft 160 has a ring groove formed on the outer periphery of one end of the shaft 160, the ring member is fitted into the ring groove is fixed.

In addition, a printed circuit board 130, which is a driving circuit unit, is attached to a bottom surface of the frame 100, and a cover plate 120 is provided at the bottom of the printed circuit board 130, so that the printed circuit board 130 is removed from the outside. Will be protected.

On the other hand, the stator 140 is coupled to a state in contact with the outer peripheral surface of the holder 110 of the frame 100.

The stator 140 is formed by stacking a plurality of iron pieces in which a plurality of arms extend in a radial direction, and the armature coil 145 is wound around the arms.

The hub 170 is integrally coupled to the upper end of the shaft 160, and the hub 170 has a cylindrical shape extending downwardly at the outer circumferential end thereof, and a blade 171 for generating wind power is integrally formed at the outer circumferential edge thereof. Is formed.

The hub 170 has a magnet 172 forming a concentric circle to the inner circumferential surface of the extended end is extended, the magnet 172 is to face the arm end of the stator 140 to have a uniform gap with each other. .

The conventional fan motor having such a configuration generates a predetermined driving force by the electromagnetic force generated by the current flowing through the armature coil 145 wound on the stator 140, the blade 171 by the driving force at this time Is formed hub 170 is to be rotated integrally with the shaft 160.

However, the conventional fan motor as described above employs a bearing supporting the shaft 160, a ball bearing 150 at the top, and a metal bearing 155 at the bottom thereof, that is, two types of bearings 150 and 155. Because of this configuration, not only the assembling work becomes difficult, but there is a problem that productivity is reduced due to the increase of the working process. In particular, there is a problem that the price competitiveness of the product is weakened by employing the expensive ball bearing 150.

In addition, as shown in FIG. 2, the printed circuit board 130 has a pair of through holes 131 spaced apart from each other, and vertically protrudes from the bottom side of the frame 100 corresponding to the through holes 131. The pair of hooks 111 are formed to be fastened to each other by the fitting structure, but the printed circuit board 130 is assembled because the operator has to force the fastening force in an assembly process of assembling the printed circuit board 130. It causes problems such as being easily broken or deformed by an external force applied by an impact or an operator.

The present invention was created in order to solve the above-mentioned conventional problems, and an object of the present invention is to unify the bearing supporting the shaft to improve the assemblability, to facilitate the assembly of the printed circuit board, and the damage caused by the assembly shock. It is an object of the present invention to provide a fan motor that can prevent deformation.

1 is an exploded perspective view showing a fan motor according to the prior art,

2 is a cross-sectional view showing a fan motor according to the prior art,

3 is a cross-sectional view showing a fan motor according to the present invention;

Figure 4 is a cross-sectional view showing the mounting state of the circuit board in the fan motor according to the present invention.

<Explanation of symbols for main parts of drawing>

1: frame 2: holder

3: printed circuit board 3a: through hole

4: stator 5: bearing

6: shaft 7: hub

7a: blade 7b: magnet

10: fitting part 15: hook

According to an aspect of the present invention, there is provided a fan motor including: a frame integrally formed with a holder that protrudes upward from a central portion in a tubular shape; A stator coupled to a holder outer circumferential surface of the upper surface of the frame and having an armature coil wound thereon; A shaft inserted into a single bearing pressed into the inner diameter portion of the holder and rotatably supported; A hub coupled to an upper end of the shaft and having an upper edge extending downward and a magnet attached to an inner circumferential surface thereof; A printed circuit board provided on a bottom surface of the frame and electrically connecting each component; A cover plate coupled to the bottom surface of the frame to shield the printed circuit board from the outside; It characterized in that it comprises a flow preventing means for holding the printed circuit board to be locked in a state to be fitted to the frame.

One preferred feature of the present invention is that the bearing is a metal bearing, the metal bearing is to be processed larger than the inner diameter of the upper and lower portions so that the inner diameter of the central portion in limited contact with the upper and lower outer peripheral surface of the shaft.

Another desirable feature of the present invention, the flow preventing means is formed on one side of the bottom portion of the frame fitting portion to prevent the flow in the up, down direction by fitting a portion of the outer peripheral surface of the printed circuit board; A hook formed to protrude downwardly on one side of a bottom surface of the frame and having a locking jaw formed at an end thereof; The through-hole is formed at a predetermined position of the printed circuit board corresponding to the hook is inserted into the hook is engaged.

Hereinafter, a fan motor according to the present invention will be described with reference to the accompanying drawings.

3 is a cross-sectional view showing a fan motor according to the present invention, Figure 4 is a cross-sectional view showing the mounting state of the circuit board in the fan motor according to the present invention.

As shown, the fan motor is roughly divided into a stator that maintains a fixed state and a rotor that is rotated by interaction with the stator by a power supply, and the stator largely includes a frame 1 and a printed circuit board 3 and It consists of a stator (4) and the rotor consists of a shaft (6) and a hub (7) which rotates about the stator (4).

The frame 1 has a tubular holder 2 integrally formed at a central portion thereof, and a printed circuit board 3 which is a driving circuit portion at the bottom surface of the frame 1, that is, at the bottom surface side of the holder 2. The cover plate 2a is assembled.

A plurality of iron pieces are stacked on the upper surface of the frame 1, and a stator 4 wound around an armature coil is coupled to an arm extending in a radial direction.

Here, when a current is applied to the armature coil wound on the stator 4, electromagnetic force is generated by interaction with the magnet 7b attached to the inner circumferential surface of the hub 7, and the hub 7 and the shaft ( 6) rotates integrally.

The shaft 6 is inserted into a bearing 5 press-fitted into the inner diameter portion of the holder 2 of the frame 1 to be rotatably supported.

Hub (7) is integrally coupled to the upper end of the shaft (6), the outer peripheral end of the hub (7) is a downwardly cylindrical shape is attached to the magnet 7b having concentric circles on the inner peripheral surface and attached to the outer peripheral surface The blade 7a for blowing is integrally formed.

Here, the magnet 7b attached to the inner circumferential surface of the hub 7 interacts with the arm end of the stator 4 by having uniform voids with each other.

This configuration is almost the same as the structure of the conventional fan motor, but the present invention is applied to the bearing supporting the shaft 6 as a single metal bearing (5), the printing provided on the bottom side of the frame (1) In the state where one end is fitted to the frame 1 of the circuit board 3, the other end is most prominently characterized in that it is fixed by a locking action.

That is, the bearing is pressed into the holder 2 of the frame 1 is a metal bearing (5) is adopted, the metal bearing 5 is long enough to support the entire upper and lower ends of the shaft (6) Has

On the other hand, the metal bearing 5 is preferably configured to exert a limited bearing force only on the upper and lower outer peripheral surfaces of the shaft 6 in order to ensure a stable driving characteristics of the shaft (6).

That is, the metal bearing 5 in the present invention is processed to have an inner diameter proportional to the diameter of the shaft 6 so that the upper end and the lower end can be in sliding contact with the upper and lower outer peripheral surfaces of the shaft 6, the metal bearing 5 The central end of c) is machined larger than the diameter of the shaft 6 to avoid contact with the shaft 6.

Therefore, the shaft 6 has upper and lower outer diameter surfaces of the upper and lower inner diameter surfaces of the metal bearing 5, so that the oil filled in the metal bearing 5 flows during rotation to generate dynamic pressure. High speed rotation is performed while the rotational load of (6) is minimized.

On the other hand, the fan motor of the present invention made as described above is firmly fixed to the frame 1 by the flow preventing means as shown in FIG.

That is, when the flow preventing means constitutes the printed circuit board 3 on the bottom side of the frame 1, the other end can be fixed by a locking action while the end is slide-fitted so that the printed circuit board 3 can be fixed. ) To minimize the assembly impact generated during assembly.

The flow preventing means includes a fitting portion 10 provided at the bottom of the frame 1, a hook 15, and a through hole 3a provided in the printed circuit board 3, respectively.

The fitting portion 10 has a groove on one side of the bottom of the frame 1, that is, a portion of the outer circumferential surface of the printed circuit board 3 can be slid in a horizontal direction at a position for receiving an edge surface of the printed circuit board 3. It is made of a structure that is formed.

When one end of the printed circuit board 3 is fitted to the fitting portion 10, the printed circuit board 3 is prevented from flowing upward and downward.

The hook 15 is formed to protrude vertically downward from a predetermined position at a bottom side of the frame 1, that is, a bottom surface of the holder 2, and an extended locking jaw is formed at one end thereof with an inclined surface toward one side. .

The through hole 3a is formed at a position opposite to the hook 15 and has a size enough to allow the hook 15 to be inserted.

Referring to the process of assembling the printed circuit board in the fan motor according to the present invention as described above are as follows.

First, the printed circuit board 3 is placed on the bottom side of the frame 1.

At this time, the position adjustment is performed so that the through hole 3a formed in the printed circuit board 3 and the hook 15 formed at the bottom side of the frame 1 coincide with each other.

Here, the printed circuit board 3 is referred to as one end of the portion where the through hole 3a is formed for convenience, and the other portion of the printed circuit board 3 opposite to the one end formed with the through hole 3a is referred to as the printed circuit board 3. The other end of the to be fitted to the fitting portion 10 of the frame 1 in an inclined state to have an upward slope.

When one end of the other end edge of the printed circuit board 3 is temporarily fixed to the fitting portion 10 of the frame 1, the printed circuit board 3 inclined obliquely about the fitting portion 10 in this state. The one end of the, i.e., the portion where the through hole 3a is formed, is moved upward to contact the frame 1.

Then, the hook 15 formed on the bottom side of the frame 1 is engaged while inserting the through hole 3a of the printed circuit board 3, and at the same time, the other end of the printed circuit board 3 is fitted. Completely fitted to the part 10, the assembly is completed.

Therefore, as described above, the printed circuit board 3 is assembled in a structure in which the other end is fitted with the hook 15 in a state in which one end is temporarily assembled by the fitting structure, so that impact force and assembly force generated during assembly are greatly increased. It can be reduced to prevent breakage and deformation of the printed circuit board 3 generated during the assembly operation.

The fan motor according to the present invention constructed and operated as described above has an advantage of increasing assembly workability and cost competitiveness of a product compared to conventionally employing two types of bearings by employing a single metal bearing.

In addition, when the printed circuit board is fixed to the frame, the assembly is performed without the operator applying excessive force, thereby preventing damage and deformation of the printed circuit board due to assembly shock or external force applied by the operator. There is an advantage to be able to improve the quality of.

Claims (4)

A frame in which a holder is formed integrally with the central portion projecting upwardly; A stator coupled to a holder outer circumferential surface of the upper surface of the frame and having an armature coil wound thereon; A shaft inserted into a single bearing pressed into the inner diameter portion of the holder and rotatably supported; A hub coupled to an upper end of the shaft and having an upper edge extending downward and a magnet attached to an inner circumferential surface thereof; A printed circuit board provided on a bottom surface of the frame and electrically connecting each component; A cover plate coupled to the bottom surface of the frame to shield the printed circuit board from the outside; Flow preventing means for locking the printed circuit board to be locked in a state of being fitted into the frame; Fan motor comprising a. The fan motor of claim 1, wherein the bearing is a metal bearing. The fan motor of claim 2, wherein the inner diameter of the center portion is larger than the inner diameter of the upper portion and the lower portion so that the metal bearing has limited contact with the upper and lower outer peripheral surfaces of the shaft. According to claim 1, wherein the flow preventing means A fitting portion formed at one side of the bottom portion of the frame to prevent a portion of the outer circumferential surface of the printed circuit board from being inserted and preventing flow in the up and down directions; A hook formed to protrude downwardly on one side of a bottom surface of the frame and having a locking jaw formed at an end thereof; A through hole formed at a predetermined position of the printed circuit board corresponding to the hook and having a hook inserted thereinto; Fan motor, characterized in that consisting of.