KR20130095601A - Hall sensor cover with moisture-proof and stator assembly using the same - Google Patents

Abstract

PURPOSE: A Hall sensor cover for a motor having a moisture-proof structure and a stator assembly using the same are provided to improve electrical connection reliability, by preventing corrosion at the connection part of a coil. CONSTITUTION: A space part is formed inside a Hall sensor cover. The space part inserts a magmate. A terminal pin (11) is installed in the space part. An open aperture part (13) is formed in one side of the terminal pin. A barrier part (14) is formed in one side of the opening aperture part.

Description

Hall Sensor Cover with Moisture-proof and Stator Assembly Using the Same}

The present invention relates to a motor. More specifically, the present invention may prevent the penetration of moisture into the electrical binding portion of the coil and the magnet wound on the stator core by introducing a new structure of the hall sensor cover coupled to the magnet of the insulator surrounding the stator of the motor. It is about a motor.

In general, a motor is composed of a stator and a rotor, and a motor used in an electric device such as a drum washing machine winds a coil after wrapping the periphery of the stator with an insulator. And electrically connected to the back.

1 is a view illustrating a hall sensor cover coupled to a conventional stator core and an insulator to manufacture a stator assembly. As shown in FIG. 1, the upper insulator 110 is coupled to the upper portion of the stator core 100, and the lower insulator 120 is coupled to the lower portion of the stator core 100. Coils (not shown) are wound around the teeth formed radially on these upper and lower insulators 110 and 120. The upper insulator 110 is formed with three magmates 111 to which the U, V, and W phases of the coil are connected, respectively.

In FIG. 2, the coil 200 is wound around the terminal pin slot 112 in the magmate 111, and in FIG. 3, the hall sensor cover 10 ′ is inverted. Coil ends are connected to terminal pin slots 112 inserted into the magmate 111. Inside the hall sensor cover 10 ′, there is a terminal pin 11 coupled to the terminal pin slot 112, and has a space portion 12, which is a space into which the magmate 111 is inserted. The conventional Hall sensor cover 10 ′ has a problem in that electrical connection reliability is lowered by moisture penetrating and corroding the coupling portion of the coil coupled to the terminal pin slot 112.

Accordingly, the present inventors propose a new structure of the hall sensor cover which can prevent moisture from penetrating into the coupling portion of the coil and the terminal pin slot inside the magmate and improves workability.

An object of the present invention is to provide a hall sensor cover of a novel structure that can prevent the penetration of moisture into the terminal pin coupling portion of the magmate.

The above and other inherent objects of the present invention can be easily achieved by the present invention described below.

Hall sensor cover according to the invention in the hall sensor cover is coupled to the magmate formed in the insulator surrounding the stator core,

A space portion formed inside the hall sensor cover and into which the magmate is inserted;

A terminal pin installed in the space part; And

An opening formed at one side of the terminal pin in the space part;

And a control unit.

In the present invention, the partition may be further formed on one side of the opening in the space portion.

In the present invention, the coil coupled to the terminal pin slot installed in the magmate is exposed to the outside through the opening, it is preferable that the sealing means is injected and sealed in the opening.

The stator assembly according to the present invention

Stator cores;

An insulator surrounding the stator core and having a magmate formed thereon;

A coil wound around the insulator and coupled to a terminal pin slot installed inside the magmate; And

A hall sensor cover including a space portion to which the magmate is coupled, a terminal pin installed in the space portion, and an opening formed at one side of the terminal pin in the space portion;

The coil coupled to the terminal pin slot is exposed to the outside through the opening, characterized in that the exposed portion is sealed by a sealing means.

The present invention provides a hall sensor cover having a new structure that can prevent moisture from penetrating the terminal pin coupling portion of the magmate.

1 is an exploded perspective view illustrating a conventional stator core and a hall sensor cover.
2 is a perspective view showing a coil coupled to a terminal pin slot of a magmate in the case of a conventional hall sensor cover.
Figure 3 is a perspective view showing the back of the conventional hall sensor cover.
Figure 4 is a photograph showing the back of the hall sensor cover according to the present invention.
5 is a perspective view showing the top of the Hall sensor cover according to the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a perspective view showing the back of the Hall sensor cover 10 according to the present invention, Figure 5 is a perspective view showing the top surface of the Hall sensor cover 10 according to the present invention.

As described above with reference to FIGS. 1 to 3, the upper insulator 110 and the lower insulator 120 are coupled to the upper and lower portions of the stator core 100. Next, a coil is wound around the teeth formed radially on each insulator, and the coils are wound to form u, v, and w phases, and each end thereof is a magmate 111 formed on the upper insulator 110. ) Is electrically connected to the terminal pin slot 112 therein. The terminal pin slot 112 has a 2-pin insertion structure such that the terminal to which the coil end is connected and the terminal pin 11 of the hall sensor cover can be coupled.

Referring to FIG. 4, the hall sensor cover 10 having the moisture penetration preventing structure according to the present invention includes a space part 12 and an upper insulator 110, which are portions into which the magmate 111 of the upper insulator 110 is inserted. Has a terminal pin 11 inserted into the terminal pin slot 112 in the magmate 111. In addition, one side of the terminal pin 11 has an opening 13, which is a space that is open to the outside, and a partition 14 having a predetermined height is formed between the terminal pin 11 and the opening 13.

As shown in FIG. 5, when the hall sensor cover 10 is coupled to the magmate 111 of the upper insulator 110, the terminal pin slot 112 is exposed through the opening 13. Therefore, the portion exposed through the opening 13 of the terminal pin slot 112 is sealed by the silicon (20). That is, when the hall sensor cover 10 is coupled to the magmate 111, the portion of the terminal pin slot 112 to which the coil 200 is coupled through the opening 13 is exposed to the outside, At this time, the high-viscosity liquid silicon 20 having insulation performance and sealing function is injected through the opening 13. After that, when the silicon 20 is cured, the coupling portion of the coil 200 and the terminal pin slot 112 is sealed to prevent the penetration of moisture.

When the silicon 20 is injected, the partition wall 14 having a predetermined height between the opening 13 and the terminal pin 11 to prevent the liquid silicon from flowing into the adjacent terminal pin 11 side. To form. Therefore, the silicon 20 is filled in the opening 13 with the partition 14 as a boundary.

Referring to the process sequence for manufacturing the stator assembly using the hall sensor cover 10 according to the present invention.

First, the upper insulator 110 and the lower insulator 120 are coupled to the stator core 100. The upper insulator 110 has a magmate terminal 111 and a terminal pin slot 112 inserted into the magmate terminal 111 as in the case of the prior art. Thereafter, coils are wound around the teeth of each insulator, and the ends of the coils are coupled to the terminal pin slots 112.

Next, the hall sensor cover 10 is coupled to the upper insulator 110 so that the space part 12 of the hall sensor cover 10 of the present invention covers the magmate terminal 111 of the upper insulator 110. At this time, in order to increase the coupling force between the hall sensor cover 10 and the upper insulator 110, a separate screw may be coupled.

Next, the terminal pin slot 112 to which the coil is coupled is shown through the opening 13 of the hall sensor cover 10, and the sealing silicon in the liquid state is injected into the opening 13. The silicon penetrates into the coupling portion of the terminal pin slot 112 and the coil and hardens to seal the coupling portion of the coil.

In the present invention, other sealing materials other than the well-known sealing silicone in the liquid state may be used. That is, although the term "silicon" is used herein, the term "silicone" is used as a concept including all sealing materials having similar materials and functions, including silicon.

The detailed description of the present invention described above is given by way of example for the purpose of understanding the present invention, and does not define the scope of the present invention. The scope of the present invention is determined by the appended claims, and it should be understood that all simple modifications and changes within this range are within the scope of the present invention.

10, 10 ': Hall sensor cover 11: Terminal pin
12: space part 13: opening part
14: partition 20: silicon
100: stator core 110: upper insulator
111: Magmate 112: Terminal pin slot
120: lower insulator 200: coil

Claims (4)

In the hall sensor cover coupled to the magmate formed on the insulator surrounding the stator core,
A space portion formed inside the hall sensor cover and into which the magmate is inserted;
A terminal pin installed in the space part; And
An opening formed at one side of the terminal pin in the space part;
Hall sensor cover, characterized in that comprises a.
The hall sensor cover of claim 1, further comprising a partition wall formed at one side of the opening in the space.
The hall sensor cover of claim 1, wherein a coil coupled to the terminal pin slot installed inside the magmate is exposed to the outside through the opening, and a sealing means is injected into the opening to seal the opening.
Stator cores;
An insulator surrounding the stator core and having a magmate formed thereon;
A coil wound around the insulator and coupled to a terminal pin slot installed inside the magmate; And
A hall sensor cover including a space portion to which the magmate is coupled, a terminal pin installed in the space portion, and an opening formed at one side of the terminal pin in the space portion;
And a coil coupled to the terminal pin slot is exposed to the outside through the opening, and the exposed portion is sealed by a sealing means.

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