JP3216991B2 - Electronic component shield structure and displacement detection device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shield structure and a displacement detecting device for an electronic component provided with a shield surrounding an electronic component in a case and having a shield for preventing electromagnetic waves from entering the case. is there.

[0002]

2. Description of the Related Art FIG. 9 is a cross-sectional view of a conventional rotation angle detecting device. An electronic circuit section 2 made up of electronic components is housed in a case 1 sealed with a cover 13. One end portion 4a ₁ of the ground terminal 4a is exposed from the end portion of the case 1, the other end 4a ₂ are faces are fixed by fixing unit 42 into the case 1. In addition, from the end of this case 1,
One end of an output terminal (not shown) and one end of a power supply terminal (not shown) are also exposed. The other end of the output terminal and the other end of the power supply terminal respectively penetrate through capacitors (not shown) and face the case 1. A magnetic detection element 5 is attached to an end of the electronic circuit section 2. Electronic circuit section 2
The magnetic detecting element 5 is closed by a dish-shaped first shield 6 and a second shield 7 that covers the first shield 6. The first shield 6 and the second seal 7 are provided to surround the electronic circuit unit 2 in the case 1 and prevent electromagnetic waves from entering the inside of the case 1. A connector having an output terminal and a power supply terminal constitutes a shield structure of an electronic component.

A shaft 9 rotatably supported by a bearing 8 extends through the case 1. A magnet 10 is fixed to the tip of the shaft 9. An arm 11 is fixed to the other end of the shaft 9.

In this rotation angle detecting device, the arm 11 and the shaft 9 rotate by the rotation of the detected rotating object, and the shaft 9 rotates.
The magnet 10 also rotates with the rotation of. The magnet 10 applies a magnetic field to the magnetic detection element 5. The magnetic detection element 5 detects the change in the magnetic field, the electronic circuit 2 processes the detection signal, and outputs an output signal corresponding to the change in the angle of the detected rotating object. Is output to the outside through the output terminal.

Next, a procedure for assembling the rotation angle detecting device will be described. First, the brass first shield 6 for shielding electromagnetic waves and the electrode portion outside the feedthrough capacitor are brazed by soldering. Thereafter, the end of the terminal body (the unit before being separated into the ground terminal, the output terminal, and the power supply terminal by tie bar cutting) and the electrode inside the feedthrough capacitor are soldered. Further, the end of the ground terminal of the terminal body is passed through the through hole for grounding of the first shield 6, and the end of the ground terminal and the first shield 6 are brazed by soldering. Next, pre-molding is performed to fix the first shield 6, the terminal body and the feedthrough capacitor, and then the terminal body is separated from the ground terminal 4a, the output terminal and the power supply terminal by tie-bar cutting. I do. After that, the case 1
To form

Next, the electronic circuit section 2, the magnetic detection element 5, and the magnet 10 are assembled in the case 1, and the electrical connection of the electronic circuit section 2, the magnetic detection element 5, the ground terminal 4a, the output terminal, and the power supply terminal is made. After performing, the first shield 6 is covered with the second shield 7 and fixed by welding with solder. Finally, the case 1 is sealed with a cover 13 to protect the shields 6 and 7 and the magnet 10 in the case 1.

[0007]

In the conventional rotation angle detecting device, there is a pre-molding process for fixing the first shield 6, the terminal body and the feedthrough capacitor in the manufacturing process. In the above, although the first shield 6 and the terminal body are fixed by solder,
The fixing portion is offset to the connector side of the first shield 6, and the resin pressure injected into the mold does not ensure the space between the first shield 6 and the terminal body, resulting in a poor product yield. was there. Also, the ground terminal 4a and the first
In order to electrically connect to the shield 6, there is a problem that welding work with solder must be performed. In addition, there is another problem that the fixing of the outer electrode portion of the feedthrough capacitor to the shield and the fixing of the inner electrode portion of the feedthrough capacitor to the end of the terminal are performed separately, resulting in poor workability.

An object of the present invention is to solve such a problem, and it is possible to secure a space between a shield and a terminal body in a manufacturing process, to improve productivity, and to improve a ground terminal and a first terminal. shield structure of the shield and can be Ru electronic components to reduce the welding operation and is intended to provide a displacement detection apparatus.

[0009]

SUMMARY OF THE INVENTION A shield structure for an electronic component according to the present invention prevents electromagnetic waves from reaching the electronic component.
Through the shield and the ground through hole of this shield
And connected to the electronic component as well as a through hole for grounding.
And a ground terminal fixed by a fixing portion of
And the ground terminal are integrally molded
In the above, the ground terminal is separated from the fixing portion.
Between the shield and the ground terminal.
Having a positioning portion for holding the gap in cooperation with the fixing portion
You.

Further, a support portion for supporting the shield is formed on the ground terminal.

Further, the shield is supported by the support portion, and is engaged with a step formed in the positioning portion of the ground terminal, and is held at a constant interval from the ground terminal.

The shield has a locking portion which is elastically engaged with the locked portion of the ground terminal.

Further , the displacement detecting device according to the present invention comprises an electronic part.
Product and the electronic component
Shield to prevent the
And a ground terminal connected to the
Magnet and the magnet that detects the change in the magnetic field from this magnet
And a detection signal of the magnetic detection element.
A displacement detection device designed to be processed by electronic components
Therefore, the shield has an elastic
An engaging portion engaged and engaged is formed .

[0014]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIG. 1 shows a displacement detecting device according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of a certain rotation angle detecting device, in which a case 1 sealed with a cover 13 has an electronic circuit unit 2 made of electronic components.
Is stored. One end portion 4a ₁ of the ground terminal 4a is exposed from the end portion of the case 1, the other end 4a ₂ are faces inside the case 1 is fixed by the fixing unit 42. In addition,
From the end of the case 1, one end of an output terminal (not shown) and one end of a power supply terminal (not shown) are also exposed. The other end of the output terminal and the other end of the power supply terminal respectively penetrate through capacitors (not shown) and face the case 1.
A magnetic detection element 5 is attached to an end of the electronic circuit section 2. The electronic circuit section 2 and the magnetic detection element 5
It is closed by the first shield 16 and the dish-shaped second shield 17. The first shield 16 and the second shield 16
And a shield 41 comprising first and second shields 16 and 17 for preventing electromagnetic waves from reaching the electronic circuit section 2, a ground terminal 4a, an output terminal and a power supply terminal. And the connector having the above structure constitutes a shield structure of the electronic component. A shaft 9 rotatably supported by a bearing 8 penetrates the case 1. Magnet 1 at the tip of shaft 9
0 is fixed. The other end of the shaft 9 has an arm 1
1 is fixed.

[0015] Figure 2 is an enlarged view of FIG. 1, the ground terminal 4a is formed with recesses 4a ₃ is locked portion, also in a peripheral edge portion of the second shield 17 of dish-shaped A projection 17a serving as a locking portion is formed.

FIG. 3 is a plan view of the terminal body 20. The terminal body 20 including the ground terminal section 4A, the output terminal section 4B and the power supply terminal section 4C has a window 21 formed inside. A positioning portion 22 for positioning the first shield 16 with respect to the terminal body 20 is provided on one side of the window portion 21.
Are formed as a pair protruding upward with respect to the paper surface.
On the other side of the window portion 21, a pair of support portions 23 for supporting the first shield 16 are formed so as to protrude upward with respect to the paper surface. The projecting length of the support portion 23 is shorter than the projecting length of the positioning portion 22. Also, the ground terminal 4
One end portion 4A ₁ of A are formed to extend along the plane of FIG. 3, the other end 4A ₂ is formed to protrude upward with respect to the paper surface. Similarly, one end 4 of the output terminal 4B
B _1, one end portion 4C ₁ of the power supply terminal portion 4C is also formed to extend along the paper surface, and is formed to protrude upward with respect to the plane respectively and the other end 4B _2, the other end portion 4C ₂ also .

Next, a procedure for assembling the rotation angle detecting device will be described with reference to FIGS. First, a ring-shaped first solder 30 as a first brazing material is placed between the first shield 16 made of brass having an L-shaped cross section and the outside of the feedthrough capacitor 12. Thereafter, the inserting the first positioning portion 22 of the positioning hole 24 terminal body 20 of the shield 16 by inserting the other end portion 4A ₂ of the ground terminal 4A on the ground through-hole 25 of the first shield 16, the insert the other end portion 4B ₂ of the output terminal portion 4B, the other end portion 4C ₂ of the power supply terminal portion 4C into the through capacitor 12. At this time, a fixed distance is maintained between the first shield 16 and the terminal body 20 by the support portion 23 and the step portion 22a of the positioning portion 22.

Next, between the other end portion 4B ₂ of the inner electrode portion of the feedthrough capacitor 12 and the output terminal portion 4B, the other end portion 4C of the inner feedthrough capacitor 12 of the electrode portion and the power supply terminal portion 4C ₂
A second solder 31 in the form of a ring, which is a second brazing material, is placed between them, and the second solder 31 is placed in the through-hole 25 for the earth through which the earth terminal portion 4A penetrates. FIG.
4A is a plan view of the assembly at this time, and FIG.
FIG. 4A is a sectional view taken along line bb, and FIG.
FIG. 4D is a cross-sectional view taken along the line cc in FIG.
FIG. 4A is a sectional view taken along line dd, and FIG.
It is sectional drawing which follows the ee line of (a). Then, the assembly is placed in a furnace at about 300 ° C. to melt the first solder 30 and the second solder 31, and the feedthrough capacitor 12 and the terminal 2
0, the feedthrough capacitor 12 and the first shield 16
And fixing simultaneously. At this time, the other end portion 4A ₂ of the ground terminal portions 4A also fixed by the second solder 31 to the first shield 16, fixing portion 42 is formed.

Next, as shown in FIG.
6. After performing pre-molding to fix the terminal body 20 and the feedthrough capacitor 12, the terminal body 20 is
(A) The tie bar is cut at the points A, B, and C in FIG. 3A. As a result, the ground terminal 4A becomes the ground terminal 4a, the output terminal 4B becomes the output terminal, and the power terminal 4C becomes the power terminal. Although the terminal body 20 of the above embodiment has the ground terminal 4a, the output terminal, and the power supply terminal physically and electrically connected to each other, if it is electrically isolated from each other, a tie bar cut is used. Is deleted.

Then, as shown in FIG. 6, the case 1 is formed at the same time as the first shield 16, the ground terminal 4a, the output terminal, the signal terminal, and the feedthrough capacitor 12 are integrated by molding with resin.

Next, as shown in FIG. 7, after assembling the electronic circuit section 2, the magnetic detection element 5, and the magnet 10 into the case 1,
The electrical connection of the electronic circuit section 2, the magnetic detection element 5, the ground terminal 4a, the output terminal and the power supply terminal is made, and then the first shield 16 is replaced with a dish-shaped second shield 17 as shown in FIG. cover. At this time, the second shield 1
Projections 17a of 7 is locked recess 4a ₃ elastically against and is engaged in the ground terminal 4a, the second shield 17 and the ground terminal 4a and a second shield 17 and the ground terminal 4a by purposely welding
There is no need to electrically connect Thereafter, the first shield 16 and the second shield 17 are fixed to each other by soldering by soldering.
6, 17, the case 1 is hermetically closed by the cover 13 to protect the magnet 10.

[0022] Incidentally, in the above embodiment has been described shield structure of an electronic component incorporated in the rotation angle detecting device for detecting a rotational displacement, the displacement detection apparatus in the same manner
The present invention can also be applied to a linear displacement detection device that detects a certain linear displacement . In addition, it goes without saying that this shield structure can be applied to devices other than the detection device.

[0023]

As described above, according to the shield structure for an electronic component of the present invention, the positioning portion for maintaining the distance between the shield and the ground terminal constant in cooperation with the fixing portion is formed on the ground terminal. Therefore, during the manufacturing process, there is no displacement between the terminal body and the shield,
Productivity is improved. Also, the shield and ground terminal
Shielded and grounded end as molded
The child is easily integrated.

Also, since the ground terminal has a support portion for supporting the shield, the shield is supported by the support portion during the manufacturing process, and the space between the terminal body and the shield is maintained during the manufacturing process. , And productivity is improved.

Further, the shield is supported by the support portion and is engaged with the step formed in the positioning portion of the ground terminal. Is reliably maintained, and productivity is improved.

Further, since the shield is provided with the locking portion which is locked to the locked portion of the ground terminal, the shield and the ground terminal are electrically connected without welding.

According to the displacement detecting device of the present invention,
An electronic component and an electronic component provided over the electronic component.
A shield for preventing the spread of electromagnetic waves, and
An electrically connected ground terminal and the outside of the shield
And a magnetic field change from this magnet are detected.
And a detection signal of the magnetic detection element.
A displacement detection device adapted to process
The ground terminal is locked to the shield.
Since the locking part that is elastically engaged with the part is formed,
Ground and the ground terminal are electrically connected without welding.
An improved displacement detection device can be obtained.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a rotation angle detection device to which the present invention is applied.

FIG. 2 is an enlarged view of a main part of FIG.

FIG. 3 is a plan view of the terminal body before being separated into a ground terminal, an output terminal, and a power terminal by tie bar cutting.

4A is a plan view showing a manufacturing process of the rotation angle detection device of FIG. 1, FIG. 4B is a cross-sectional view taken along the line bb of FIG. 3A, and FIG. ), A cross-sectional view along the line c-c,
FIG. 3D is a sectional view taken along line dd in FIG. 3A, and FIG. 3E is a sectional view taken along line ee in FIG.

5A is a plan view showing a manufacturing process of the rotation angle detection device of FIG. 1, and FIG. 5B is a cross-sectional view taken along line bb of FIG. 4A.

6A is a plan view illustrating a manufacturing process of the rotation angle detection device in FIG. 1, and FIG. 6B is a cross-sectional view taken along line bb in FIG. 5A.

FIG. 7 is a cross-sectional view showing a manufacturing process of the rotation angle detection device of FIG.

FIG. 8 is a cross-sectional view showing a manufacturing process of the rotation angle detecting device of FIG.

FIG. 9 is a cross-sectional view of a conventional rotation angle detection device.

[Explanation of symbols]

1 case, 2 electronic circuit section, 4a ground terminal, 4a
₃ concave portion (locked portion), 16 first shield, 17
2nd shield, 17a projecting part (locking part), 20 terminal body, 22 positioning part, 23 supporting part, 24 positioning hole, 30 first solder, 31 second solder, 41 shield, 42 fixing part.

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Wataru Fukui 2-3-2 Marunouchi, Chiyoda-ku, Tokyo Inside Mitsubishi Electric Corporation (72) Inventor Yutaka Ohashi 2-3-2 Marunouchi, Chiyoda-ku, Tokyo Mitsubishi Electric (56) References JP-A-4-258104 (JP, A) JP-A-5-215505 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) G01P 3/487 -3/488 G01B 7/30 G01D 5/245 G12B 17/02 H05K 9/00

Claims (5)

(57) [Claims] A shield for preventing an electromagnetic wave from reaching an electronic component, a ground terminal penetrating through a ground through hole of the shield, being connected to the electronic component, and being fixed at a fixing portion of the ground through hole. And the shield and the front
Smell that is molded integrally with the earth terminal
The ground terminal is located at a position separated from the fixing portion.
Provided, the shield structure of an electronic component having the shield and the positioning unit that holds a gap in cooperation with the fixed portion of the earth terminal. 2. The shield structure for an electronic component according to claim 1, wherein the ground terminal has a support portion for supporting the shield. 3. The shield according to claim 2, wherein the shield is supported by the support portion, and the shield is engaged with a step formed in the positioning portion of the ground terminal, so that a predetermined distance from the ground terminal is maintained. Shield structure for electronic components. 4. The shield structure for an electronic component according to claim 1, wherein the shield has a locking portion elastically engaged with the locked portion of the ground terminal. 5. An electronic component, and provided over the electronic component.
A shield that prevents electromagnetic waves from reaching electronic components ,
And a ground terminal electrically connected to the electronic component, wherein
The magnet provided outside the shield and the magnet
A magnetic detection element for detecting a change in the field.
The detection signal of the element is processed by the electronic component
A displacement detector are in the shield elastic contact engagement sealed displacement detector engagement portion is formed in the engaged portion of the ground terminal to.