KR20120063722A - Rotary position sensor and the combination method thereof - Google Patents

Abstract

PURPOSE: A rotary angle sensor manufacturing method facilitating to manufacture and rotary angle sensor manufactured by the same are provided to simplify a manufacturing process, to reduce a manufacturing time, to easily arrange a plurality of pins on a mold frame, and to solidify in a fixing unit. CONSTITUTION: A rotary angle sensor manufacturing method is as follows. A pin structure comprising a plurality of pins(10,20) having inner and outer terminals and connection units(16,26) connecting intervals of the pins is arranged within a mold frame. A separating device having a separation member is installed in a front surface of the pin structure. The separation member moves to the connection units of the pin structure. The separation member separates the connection units by moving to a higher position of the connection units. The separation member is laid in a position where the connection unit is separated for a predetermined time and the intervals of the pins is filled with a resin at the same time so that the fixing unit is molded. The separating device moves to an opposite direction and the separation member is separated from the fixing unit after the fixing unit hardens.

Description

Manufacturing method of easy rotation angle sensor and rotation angle sensor by the manufacturing method {Rotary Position Sensor and the combination method

The present invention relates to a rotation angle sensor, and more particularly, to a structure capable of easily disposing a plurality of pins installed in the rotation angle sensor, and integrally molding molding and a manufacturing method thereof.

In general, the rotation angle sensor is used to apply the physical change of the rotating body continuously changing in the electrical circuit, the opening amount control of the engine throttle valve of the transportation vehicle, the rotation angle control of the steering shaft, the control of the electronic accelerator pedal It is also used for position control of heavy machinery and agricultural machinery and for measuring opening and closing of fluid transfer valves.

Recently, the rotation angle sensor in the automobile industry is mainly used for safe and comfortable vehicle driving, such as driving dynamic regulation, for example, an electrically assisted steering system, and accordingly, the demand for high precision and robust rotation angle sensor is steadily increasing. Doing.

Such rotation angle sensors include an electric resistance type, a code plate encoder type, a hall sensor type, a magnetic type, a magnetic type, and the like, and recently used rotation angle sensors use a permanent magnet as a rotating body generating a displacement angle. It is common to measure the degree of rotation angle by measuring the voltage induced in the Hall element by using the Hall element as the intensity of the magnetic field.

1 is a view showing the appearance of a general rotation angle sensor. Referring to FIG. 1, a rotation angle sensor includes a rotating body connected to a rotating or moving object (not shown), and a main body 100 into which one end of an axis (not shown) provided at an end of the rotating body is embedded. It is provided. Inside the main body 100, a permanent magnet provided at the end of the shaft, various circuit elements such as hall elements and circuit boards are accommodated, and the configuration inside the main body 100 can be freely applied according to the operation method of the rotation sensor. . One side of the main body 100 is exposed connecting pins (10, 20) for transmitting a signal to the outside, the lower back cover is covered.

2 is a view showing a cross section of a general rotation angle sensor. 2, the left side of the main body 100 is open and an empty space is formed therein. A magnet, a hall sensor, a substrate, and various elements for detecting rotation are disposed inside the main body 100. In order to transmit the sensing signal sensing the rotation to the outside, the main body 100 is opened to the left side through a pin connected to the substrate. Will print.

Depending on the application, a plurality of pins may be arranged. In an embodiment, the pins may include two rows of four pins. This is referred to as a first pin 10 and a second pin 20 for each column, and each of the first pin 10 and the second pin 20 is arranged in two rows of four, each having an L shape. Is bent.

The part extending so as to be exposed toward the outside of the left side with respect to the bent portion is called the outer terminal 12 (22), and the portion formed vertically toward the inside of the main body 10 is called the inner terminal 14 (24). . The external terminals 12 and 22 and the internal terminals 14 and 24 are integrally molded and cured in the housing of the main body 100 by molding a synthetic resin, thereby supporting and fixing the external terminals 12 and 22. The hardened portion is fixed by supporting the external fixing part 110 and the internal terminals 14 and 24 and the hardened part is referred to as the internal fixing part 120. This is illustrated in FIG.

3 is a view showing a separate pin fixing part of a general rotation angle sensor. Referring to FIG. 3, two rows of four external terminals 12 and 22 are cured in the horizontal fixing unit 110 in a horizontal direction, and two rows of four inner terminals 14 and 24 are vertical in the vertical direction. It was cured in the fixture 120. Here, although the shape of the external fixing part 110 and the internal fixing part 120 is shown in the L-shape, it can be formed in various shapes in practice.

In order to arrange and fix the eight first and second pins 10 and 20 to the fixing part, the eight pins must be placed in the mold and hardened, respectively. In the case of deviating, a complicated and precise additional process is required to correct this.

In particular, since these pins are small in size, they require sophisticated work, and if the number of pins increases, the manufacturing process becomes very complicated.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a rotation angle sensor manufacturing method and a rotation angle sensor that can be arranged in a mold more easily, a plurality of pins in the mold. do.

In addition, an object of the present invention is to provide a rotation angle sensor manufacturing method and a rotation angle sensor that can simplify the manufacturing process, shorten the manufacturing time by connecting a plurality of pins arranged in the mold and molding.

According to an aspect of the present invention, there is provided a pin structure including a plurality of pins having an inner terminal and an outer terminal, and a pin structure having a connection portion interconnecting the plurality of pins in a mold; Preparing a separating device having a separating member thinly formed so that an end can separate the metal on the front surface of the fin structure; The separating device is moved, and the separating member is moved toward the connecting portions of the pin structure; Separating the connecting portion while the separating member moves further than the position of the connecting portion; And at the same time as the separating member stays at the position at which the connecting part is separated, injecting resin into and out of each of the pins of the separated fin structure to form a fixing part; And after the fixing part is cured, the separating device is moved in the opposite direction and the separating member is separated from the fixing part. to provide.

After the separation member is separated, disposing the pin and the fixing part which are molded and integrated into another mold; And resin is injected into the outside of the pin and the fixing portion, characterized in that it comprises a step of forming a housing.

Separating the connecting portion, characterized in that the separating member is separated from the separation by cutting off a portion of the connecting portion.

Separating the connecting portion, characterized in that the separating member breaks a portion of the connecting portion, to bend.

It also provides a rotation angle sensor manufactured by the manufacturing method.

In addition, in the rotation angle sensor, a plurality of first pins and a plurality of second pins, the first pins and the second pins are arranged in a row, respectively, the first pin and the second pin Each of the internal terminal having an end exposed to the inside toward the inside of the main body and an external terminal exposed to the outside toward the outside of the main body has an internal fixing part and the external terminals formed to fix the internal terminals. And an external fixing part formed to be fixed, wherein the plurality of first pins have a connecting part for interconnecting, the plurality of second pins have a connecting part for interconnecting, and the connecting parts are the internal fixing part or the When the external fixing part is formed, it is characterized in that it is separated in the internal fixing part or the external fixing part.

The inner fixing part or the outer fixing part in which the separated connecting part is located is provided with a separation hole formed by separating the connecting part.

The present invention has the effect of making it easier to place a plurality of pins in the mold and to cure them in a fixed part.

In addition, the present invention has the effect of simplifying the manufacturing process and shortening the manufacturing time.

1 is a view showing the appearance of a general rotation angle sensor.
2 is a view showing a cross section of a general rotation angle sensor.
3 is a view showing a separate pin fixing part of a general rotation angle sensor.
4 is a view showing a fin structure having a connecting portion according to the present invention.
5 is a view for explaining a state in which the connection portion of the pin structure according to the present invention is separated.
6 is a view for explaining the operation of the separation device according to the present invention.
7 is a view showing a state in which the separating device according to the invention separated the connecting portion of the pin structure.

Hereinafter, with reference to the embodiments of the present invention shown in the accompanying drawings, it will be described in detail the configuration of the present invention.

4 is a view showing a fin structure having a connecting portion according to the present invention. Referring to FIG. 4, the four first pins 10 positioned on the upper side have an outer terminal 12 extending horizontally and an inner terminal 14 extending vertically, and the horizontal outer terminal 12. The connection part 16 formed integrally between is provided, and the external terminal 12 is connected. The connecting portion 16 is made of the same material as the first pins 10, and is formed in one configuration when the first pin 10 is formed. Although not shown in the drawings, the connecting portion 16 may be provided on the inner terminal 14 side.

In addition, the four second pins 20 positioned on the lower side also have an external terminal 22 extending horizontally and an inner terminal 24 extending vertically, and are integrated between the horizontal outer terminals 22. The connection part 26 formed in this is provided and the external terminal 22 is connected. Similarly, the connection part 26 may connect between the internal terminals 24.

These connections 16 and 26 allow the pins to move and be arranged integrally, while maintaining the required spacing therebetween. Therefore, it is necessary to perform eight pin placement processes to install eight pins, or replace the four all-in-one pins with two pin placement processes, which requires precise molds and placement tools to maintain eight pin spacings. The process is simplified so that the spacing is defined by the connecting portions 16 and 26, so that they can be placed in the mold while maintaining mutual spacing without precise molds or placement tools, so that subsequent resin injection and molding processes can be performed. Can be.

5 is a view for explaining a state in which the connection portion of the pin structure according to the present invention is separated. Referring to FIG. 5, the top view of FIG. 4 is provided with connecting portions 16 and 26 connecting the external terminals 12 and 22 to each other. At this time, as shown in (a), the separating member 210 can be closer toward the connecting portions 16 and 26.

Separation member 210 is formed of a conventional metal cutter, a blade or a thin metal piece, while the separation member 210 passes close to the position of the connection portion 16, 26, disconnecting the connection portion 16, 26, Can be separated.

In this case, as shown in (b), the connection portions 16 and 26 are disconnected from the A and B portions, separated into eight pins, and electrically separated from each other. The connection part 16 and 26 separation process is performed before the fixing part is formed by resin injection and molding. In this case, when the separation member 210 returns to its original position at the position where the connection part 16 and 26 are disconnected, the pins Since the spacing or position of the can be changed or inclined, it is preferable that the separating member 210 continuously maintains the position of the connecting portions 16 and 26 of the pins until the fixing portion is formed and cured.

6 is a view for explaining the operation of the separation device according to the present invention. Referring to FIG. 6A, after the fin structure is disposed in the mold for forming, and the separating device 200 including the separating member 210 breaks the connection of the external terminals 12 and 22, While the mold is closed in a state, the resin is injected and molded to mold the outer fixing part 110. The separation device 200 is in a state of maintaining the state close to the pin.

After all of the resin is cured and the fixing part is completed, the separation device 200 is raised, so that the separation member 210 is separated from the external fixing part 110, and at this time, the external fixing part 110 has a separating member ( Separation hole 122 is formed in the portion where the 210 was located. In the separation hole 122, the connecting portions 16 and 26 are disposed in a broken state. In some cases, the separation member 210 is inserted into the separation hole 122 again, so that the separation between the pins is better. You can certainly.

The molding process may be performed at the time of forming the housing of the main body 100, or may be modularized only by the pin and the fixing part separately from the main body 100, and then molded first, and then the housing mold part of the main body 100 again. You may arrange | position a primary shaping | molding module in a required position of and resin molding may be performed again.

7 is a view showing a state in which the separating device according to the invention separated the connecting portion of the pin structure. Referring to FIG. 7, when the separating member 210 of the separating device 200 breaks the connecting part, as shown in (a), the part 16a of the connecting part 16 is separated and spaced apart so that the resin 110a is separated. ) May be poured and hardened, or as shown in (b), one side of the portion 16b of the connecting portion 16 may be cut and bent to separate, and then the resin 110a may be poured and cured.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

10: first pin 12: external terminal
14: internal terminal 16: connection
20: 2nd pin 22: External terminal
24: internal terminal 26: connection
100: main body 110: external fixing part
120: internal fixing part 122: separation hole
200: separating device 210: separating member

Claims (7)

Arranging a fin structure having a plurality of pins having an inner terminal and an outer terminal, and a pin structure having a connecting portion interconnecting the plurality of pins in the mold;
Preparing a separating device having a separating member thinly formed so that an end can separate the metal on the front surface of the fin structure;
The separating device is moved, and the separating member is moved toward the connecting portions of the pin structure;
Separating the connecting portion while the separating member moves further than the position of the connecting portion; And
Forming a fixing part by injecting resin into and out of each of the pins of the separated fin structure while the separating member stays at the position where the connecting part is separated for a predetermined time; And
After the fixing portion is cured, the separating device is moved in the opposite direction, the separating member is separated from the fixing portion; manufacturing method of the easy rotation angle sensor, characterized in that it comprises a.
The method of claim 1,
After the separation member is separated, disposing the pin and the fixing part which are molded and integrated into another mold; And
Resin is injected into the outside of the pin and the fixing portion, the manufacturing method of the easy manufacturing rotation angle sensor, characterized in that it comprises a step of forming a housing.
The method of claim 1,
Separating the connecting portion,
The method of manufacturing a rotation angle sensor easy to manufacture, characterized in that the separation member is separated by separating part of the connecting portion.
The method of claim 1,
Separating the connecting portion,
The method of manufacturing a rotation angle sensor easy to manufacture, characterized in that the separating member breaks a portion of the connection portion, and bent.
A rotation angle sensor manufactured by the manufacturing method of claim 1.
In the rotation angle sensor,
A plurality of first pins and a plurality of second pins, wherein the first pins and the second pins are arranged in a row,
Each of the first pin and the second pin has an inner terminal whose end is exposed inward toward the inside of the main body and an outer terminal whose end is exposed outward toward the outside of the main body,
The main body includes an inner fixing portion formed to fix the inner terminals and an outer fixing portion formed to fix the outer terminals.
The plurality of first pins have a connecting portion for interconnecting,
The plurality of second pins have a connecting portion for interconnecting,
The connection part is a rotation angle sensor, characterized in that the state is separated in the inner fixing or the outer fixing when the inner fixing part or the outer fixing part is formed.
The method according to claim 6,
The inner fixing part or the outer fixing part in which the separated connection part is located,
Rotation angle sensor, characterized in that the separation hole is formed by separating the connecting portion.

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