JP3486177B2 - Manufacturing method of rotation angle detecting device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] TECHNICAL FIELD The present invention relates to an electronic device in a case.
Electromagnetic waves penetrate inside the case provided around the components
Structure of electronic components with a shield to prevent noise
The present invention relates to a method for producing a body. [0002] 2. Description of the Related Art FIG. 9 is a sectional view of a conventional rotation angle detecting device.
There is an electronic part in the case 1 sealed by the cover 13.
An electronic circuit unit 2 made of a product is stored. Ground terminal
One end 4a of 4a₁Is exposed from the end of case 1
And the other end 4a_TwoIs fixed in the case 1 with the fixing portion 42
Have been facing. In addition, from the end of this case 1,
One end of output terminal (not shown), power supply terminal (not shown)
Is also exposed. Other than the other end of the output terminal and power supply terminal
Each end passes through a feedthrough capacitor (not shown)
Faced in Case 1. Also, at the end of the electronic circuit section 2
Is provided with a magnetic detection element 5. Electronic circuit section 2
And the magnetic detecting element 5 includes a dish-shaped first shield 6
Closed by the second shield 7 covering the first shield 6
Have been Note that the electronic circuit unit 2 in the case 1 is
To prevent electromagnetic waves from entering the case 1
With the first shield 6 and the second seal 7 to prevent
The shield 40, the ground terminal 4a, the output terminal and
Of electronic components with a connector having a power supply terminal
The structure. [0003] A case 1 is rotatably mounted on a bearing 8.
A supported shaft 9 extends through. Point of shaft 9
A magnet 10 is fixed to the end. The other end of the shaft 9
An arm 11 is fixed to the portion. In this rotation angle detecting device, the rotation of the detected rotating object is
The arm 11 and the shaft 9 rotate by the rotation, and the shaft 9
The magnet 10 also rotates with the rotation of. This magnet 10 is magnetic
A magnetic field is applied to the air detecting element 5, and the change in the magnetic field is applied to the magnetic field.
The detection element 5 detects the signal and the electronic circuit 2 processes the detection signal.
Output an output signal corresponding to the change in the angle of the detected rotating object
Output to the outside through the terminal. Next, a procedure for assembling the rotation angle detecting device will be described.
Will be described. First, brass shielding electromagnetic waves
Of the first shield 6 and the electrode portion outside the feedthrough capacitor
Is soldered with solder. Then, the terminal body (tie bar)
Separated into ground terminal, output terminal and power terminal by cutting
Before the end of the capacitor and the electrode inside the feedthrough capacitor
And brazing with solder. Also, ground the terminal body
Insert the tip of the terminal into the through hole for grounding the first shield 6
Through the end of the ground terminal and the first shield 6
Braze with solder. Next, the first shield 6, the end
Pre-mold for fixing the body and feedthrough capacitor
And then tie-bar cut the terminal body
, The ground terminal 4a, the output terminal and the power supply terminal
And separate. After that, the case 1
To form Next, the electronic circuit section 2, the magnetic detection element 5, the magnetic
The stone 10 is assembled in the case 1 and the electronic circuit 2
Output element 5, ground terminal 4a, output terminal, power supply terminal
After making these electrical connections, the second shield 7
The shield 6 is covered and fixed by welding with solder. Most
Later, the shields 6 and 7 and the magnet 10 in the case 1 are protected.
The case 1 is hermetically closed by the cover 13. [0007] A conventional rotation angle detecting device
Then, fix the electrode part outside the feedthrough capacitor and the shield.
Electrode and terminal ends inside the feedthrough and feedthrough capacitors
Is fixed separately, and the workability is poor.
There was a title. The present invention solves such a problem.
The problem is to shield the feedthrough capacitor.
And the workability of fixing to the terminals is improved.Rotation angle detection
apparatusIs provided. [0009] SUMMARY OF THE INVENTIONRotation angle detector
The electromagnetic wave is applied to the electronic circuit part where the magnetic sensing element is provided.
And a shield to prevent
Through capacitor and the end penetrates through capacitor
And a terminal electrically connected to the electronic circuit section
With a connector havingRotation angle detectorProduction method
And outside the shield and the feedthrough capacitor.
A step of placing a ring-shaped first brazing material between the electrode portion and the electrode portion
When,A terminal portion is provided in a positioning hole formed in the shield.
Insert the positioning part of the terminal
Inserting the end into the feedthrough capacitor;And said
Between the electrode section inside the feedthrough capacitor and the terminal section.
Placing a second brazing material in the form of a ring,
Brazing material and the second brazing materialDissolveMelts and solidifies,
Between the feedthrough capacitor and the shield, and the feedthrough capacitor
Densa and saidTerminal bodyWith stickingIn the same processPerforming the steps,Previous
Cutting the terminal body to form the terminal;Equipped
It is something. [0010] DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIG. 1 illustrates the present invention.
FIG. 1 is a cross-sectional view of a rotation angle detection device according to an embodiment,
In the case 1 sealed by the bar 13, there are no electronic components.
Electronic circuit section 2 is housed. One of the ground terminals 4a
End 4a₁Is exposed from the end of case 1 and other
End 4a_TwoIs fixed at the fixing portion 42 and faces the inside of the case 1.
In. In addition, from the end of the case 1, an output terminal
(Not shown), one end of the power supply terminal (not shown) is also exposed.
ing. The other end of the output terminal and the other end of the power terminal are
Case 1 through each through capacitor (not shown)
Is facing inside. In addition, the end of the electronic circuit section 2 has a magnetic detection section.
The output element 5 is attached. Electronic circuit part 2 and magnet
The air detection element 5 includes a first shield 16 and a dish-shaped second
It is closed by the shield 17. Note that the first system
Shield 16 and the second shield 17
And prevents electromagnetic waves from reaching the electronic circuit section 2.
Of the first and second shields 16 and 17
Field 41, ground terminal 4a, output terminal and power supply terminal
Shield structure for electronic components
Make up. The case 1 is rotatable around the bearing 8
The shaft 9 supported by the pierce through. Of shaft 9
A magnet 10 is fixed to the tip. Other than shaft 9
An arm 11 is fixed to the end. FIG. 2 is an enlarged view of a main part of FIG.
The concave portion 4a which is a locked portion is _ThreeIs formed
And is locked to the periphery of the dish-shaped second shield 17.
A projection 17a is formed. FIG. 3 is a plan view of the terminal body 20, which is grounded.
From terminal portion 4A, output terminal portion 4B and power supply terminal portion 4C
The configured terminal body 20 has a window 21 formed therein.
Have been. One side of the window 21 is
Positioning part 22 for positioning the first shield 16
Are formed as a pair protruding upward with respect to the paper surface.
The other side of the window 21 supports the first shield 16.
Support portion 23 for projecting upward with respect to the paper surface.
Is paired. The protruding length of the support part 23 is determined
It is shorter than the protruding length of the female part 22. Also, the ground terminal 4
One end 4A of A₁Is a figure3Extending along the plane of the paper
And the other end 4A₂Is projected upward with respect to the paper surface
It is formed. Similarly, one end 4 of the output terminal 4B
B₁, One end 4C of the power supply terminal 4C₁Extend along the paper
Other end 4B₂, Other end 4C₂
Are also formed to project upward from the paper.
You. Next, a procedure for assembling the rotation angle detecting device will be described.
Will be described with reference to FIGS. First, sever
A first shield 16 made of brass having an L-shape and a penetrating capacitor
Ring-shaped, which is the first brazing material between the outside of the denser 12
Is placed on the first solder 30. Then the first shield
The positioning portion 22 of the terminal body 20 is
Insert the other end 4A of the ground terminal 4A._TwoTo
Insert the first shield 16 into the through hole 25 for grounding
The other end 4B of the output terminal 4B_Two, Other than the power supply terminal 4C
End 4C_TwoIs inserted into the feedthrough capacitor 12. At this time
Between the support portion 23 and the step portion 22a of the positioning portion 22.
Fixed distance between the first shield 16 and the terminal body 20
Is held. Next, an electrode portion inside the feedthrough capacitor 12
And the other end 4B of the output terminal 4B₂Between and through condensate
The electrode part inside the power supply 12 and the other end 4C of the power supply terminal 4C₂
Between the ring-shaped second brazing material
The solder 31 is placed, and the ground
The second solder 31 is placed in the through hole 25 for source. FIG.
4A is a plan view of the assembly at this time, and FIG.
FIG. 4A is a cross-sectional view taken along the line bb, and FIG.
FIG. 4A is a cross-sectional view taken along the line c-c, and FIG.
FIG. 4A is a sectional view taken along the line d-d, and FIG.
It is sectional drawing which follows the ee line of (a). Then this group
The three-dimensional object is placed in a furnace at about 300 ° C.
2 of the solder 31 and the feedthrough capacitor 12 and the terminal 2
0, the feedthrough capacitor 12 and the first shield 16
With stickingIn the same processDo. At this time, the ground terminal 4
The other end 4A of A₂Also, the second solder 3 is attached to the first shield 16.
1 to form the fixing portion 42. Next, as shown in FIG.
6, for fixing the terminal body 20 and the feedthrough capacitor 12
After pre-molding, the terminal body 20 is
(A) Cut the tie bar at points a, b, c in
As a result, the ground terminal 4A becomes the ground terminal 4a, and the output terminal
The sub part 4B is an output terminal, and the power terminal part 4C is a power terminal.
Becomes In addition, the terminal body 20 of the above-mentioned embodiment is grounded.
The terminal 4a, the output terminal and the power supply terminal are physically and electrically connected.
But are electrically isolated from each other.
If it is, the tie bar cutting process is deleted. Then, as shown in FIG. 6, the first seal
Terminal 16, ground terminal 4a, output terminal, signal terminal,
The capacitor 12 is integrated by molding with resin.
At the same time, case 1 is formed. Next, as shown in FIG.
After incorporating the air detection element 5 and the magnet 10 into the case 1,
Electronic circuit part 2, magnetic detecting element 5, ground terminal 4a, output
Terminals and power terminals, and make electrical connections.
After that, as shown in FIG.
1 shield 16. At this time, the second shield 1
7 is the concave portion 4a of the ground terminal 4a._ThreeHitting
The second shield 17 and the ground terminal 4a are
The second shield 17 and the ground terminal 4a are bothersomely welded.
There is no need to electrically connect Then, with solder
The first shield 16 and the second shield 17 by welding
It is fixed by soldering, and finally, the shield 1 in the case 1
6, 17, with cover 13 to protect magnet 10
Case 1 is sealed. [0018] [0019] As described above, according to the present invention,Angle of rotation
Method of manufacturing detection deviceAccording to shield and penetrating condenser
A ring-shaped first brazing material is placed between the electrode and the outer electrode
Placing,Positioning holes formed in the shield
Insert the positioning part of the terminal body with the terminal part
Then, insert the end of the terminal into the feedthrough capacitor
Process andThe electrode portion and the terminal inside the feedthrough capacitor
Placing a ring-shaped second brazing material between the portion and
The first brazing material and the second brazing materialDissolveMelting, solidifying
To fix the through capacitor and the shield,
And feedthrough capacitor and saidTerminal bodyWith stickingIn the same processline
Process,Cutting the terminal body to form the terminal
Process andAs a result, assembly workability is improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view of a rotation angle detecting device manufactured according to the present invention. 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 supply terminal by tie bar cutting. 4A is a plan view showing a manufacturing process of the rotation angle detecting 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,
3D is a sectional view taken along line dd of FIG. 3A, and FIG. 3E is a sectional view taken along line ee of FIG. 3A. 5A is a plan view showing a manufacturing process of the rotation angle detecting device of FIG. 1, and FIG. 5B is a cross-sectional view taken along the 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 detecting device of FIG. FIG. 8 is a cross-sectional view showing a manufacturing process of the rotation angle detection device of FIG. FIG. 9 is a cross-sectional view of a conventional rotation angle detection device. [Description of Signs] 1 case, 2 electronic circuit section, 4a ground terminal, 4a
₃ recess (locked part), 16 first shield, 17
2nd shield, 17a projection part (locking part), 20 terminal body, 22 positioning part, 23 support part, 24 positioning hole, 30 first solder, 31 second solder, 41 shield, 42 fixing part.

────────────────────────────────────────────────── ─── Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI G01D 5/18 G01D 5/18 E (72) Inventor Wataru Fukui 2-3-2 Marunouchi, Chiyoda-ku, Tokyo Mitsubishi Electric Corporation (72) Inventor Yutaka Ohashi 2-3-2 Marunouchi, Chiyoda-ku, Tokyo Inside Mitsubishi Electric Corporation (56) References JP-A-5-196633 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) G12B 17/02 G01P 3/487-3/488 G01B 7/30 G01D 5/245 H05K 9/00

Claims (1)

(57) [Claims] [Claim 1] In an electronic circuit section provided with a magnetic detection element.
Rotation with a shield to prevent the electromagnetic waves reaching a feedthrough capacitor provided in the shield and a connector having a terminal electrically connected to the electronic circuit part with end through said through capacitor A method of manufacturing a corner detection device , comprising: placing a ring-shaped first brazing material between the shield and an electrode portion outside the feedthrough capacitor ; Has terminal in positioning hole
While inserting the positioning part of the terminal body,
A step of inserting an end into the feedthrough capacitor; a step of placing a ring-shaped second brazing material between an electrode portion inside the feedthrough capacitor and the terminal portion; It said second brazing material melting and solidifying, the fixing of the feedthrough capacitor and the shield, and a feed-through capacitor adhesion between the terminal body and the row <br/> cormorant process in the same step, the terminal body And forming the terminal by cutting the rotation angle detecting device .