KR101489180B1 - Sensor Assembly for Measuring Rotating Object and Manufacturing Method thereof - Google Patents

Abstract

A sensor assembly for measuring a rotating object according to one embodiment of the present invention includes a sensing device which includes a sensing unit and a plurality of first conductive lines which are extended from the sensing unit, a cable which includes second conductive lines which are electrically connected to the first conductive lines, and a terminal whose one side is combined with the sensing device and the other side is combined with the second conductive lines. Wherein, the same number of hooks as the second conductive lines are formed on the end of the other side thereof. The end of the second conductive line is welded to the hook after the end of the second conductive line is attached to the hook by pressing the linear part of the hook when the end of the second conductive line is inserted into the conductive line insertion hole.

Description

Technical Field [0001] The present invention relates to a sensor assembly for measuring a rotating body,

An embodiment of the present invention relates to a sensor assembly for measuring a rotating body and a method for manufacturing the sensor assembly, which has a robust structure in which a manufacturing process is simple and manufacturing cost can be reduced, .

The contents described in this section merely provide background information on the embodiment of the present invention and do not constitute the prior art.

In general, a sensor for measuring the rotational speed, the rotational direction, and the position of the rotating body is installed in an automatic transmission, an ABS, a driving wheel,

For example, the sensing element senses a change in the induced magnetic field generated when the rotating body rotates, and senses the direction of rotation. Further, the rotation speed of the rotating body is sensed by converting a change in the sensed magnetic field into the number of revolutions. On the other hand, the controller connected to the sensor controls the rotating speed of the rotating body and the like using information such as the rotating direction and the rotating speed.

The sensor assembly including such a sensor includes a sensing element for measuring rotation speed and the like, a terminal connected to the sensing element, and a cable connected to the terminal. In addition, a case is formed by using a processing method such as an insert injection to securely connect a sensing element, a terminal, a cable, and the like, and protect them from an external impact or the like, and the case includes at least a part .

BACKGROUND OF THE INVENTION [0002] A background technique for a sensor assembly for measuring rotors is the WHEEL SPEED SENSOR MOUNTING STRUCTURE disclosed in US Patent Publication No. US 2013-0026731.

In general, a sensing element, a terminal, a cable, etc. housed in the case are fixedly coupled to the case through injection molding or the like. Such a sensor assembly, which is manufactured by injection molding or the like, has a simple manufacturing process, which can lower the manufacturing cost and is easy to install because of its small size.

However, if a disconnection occurs in the sensor assembly, it is difficult to disassemble the sensor assembly again to repair it. Therefore, if a disconnection occurs in the interior, the sensor assembly can not be disassembled and can not be repaired. As a result, in the case of a sensor assembly manufactured by injection molding or the like, it can not be disassembled again after fabrication. Therefore, in order to improve durability, it is necessary to fabricate the sensor assembly so that disconnection does not occur easily.

Therefore, the embodiment of the present invention provides a sensor assembly for measuring a rotating body, which is simple in manufacturing process and low in manufacturing cost, is small in size, easy to install, and does not easily break, and a manufacturing method thereof The purpose is to provide.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

One embodiment of the sensor assembly for rotating body measurement includes a sensing unit, a sensing device having a plurality of first conductors extending from the sensing unit, A cable including second conductors each electrically connected to the first conductors; And a plurality of hooks are formed on the other end of the second conductive wires so as to form the same number of hooks as the second conductive wires, And the end of the second conductor is inserted into the conductor insertion hole to press the straight portion of the hook so that the end of the second conductor and the hook And a terminal welded to the end of the second conductor and the hook.

Another embodiment of the sensor assembly for measuring the rotating body includes a sensing element for sensing at least one of rotational speed, rotational direction, and position of the rotating body; A cable including a plurality of conductors and electrically connected to the sensing element; Wherein a plurality of hooks are formed at the other end of the hooks and the end portions of the respective conductors are connected to the curved portions of the hooks, A terminal formed with a wire insertion hole to be inserted therein, the end of the second wire being welded to the hook after the straight portion of the wire is inserted into the wire insertion hole; A holder having a sensing portion of the sensing element disposed at a front portion thereof, a hook portion protruding from a rear portion thereof, and a portion electrically coupled to the sensing element and the terminal at an intermediate portion thereof; A holder cup fitted in a front portion of the holder so that a sensing portion of the sensing element is accommodated; And a case coupled to a portion of the holder cup and enclosing the sensing element, the cable, and at least a portion of the terminal.

One embodiment of the method for manufacturing a sensor assembly for measuring a rotating body includes a sensing element having a sensing part, the sensing element is coupled to the sensing element, and the other end is coupled to second conductors provided on the cable, Providing a terminal formed in a hook shape and having a curved portion of each hook in which a lead insertion hole for inserting an end of each of the second leads is formed; And the sensing element and the terminal are connected to each other by an insert injection process so that a sensing part of the sensing element is disposed at the front part and a hook is protruded at the rear part, Coupling to the holder; Fitting the holder cup to the holder front portion to receive the sensing portion; And pressing the straight portion of the hook with the end of the second lead wire inserted into the lead wire insertion hole and welding the end of the second lead wire with the hook to join the sensing device and the terminal .

The sensor assembly for measuring a rotating body and the method of manufacturing the same according to the embodiments of the present invention can be easily manufactured because the manufacturing process is simple and the manufacturing cost can be reduced and the size is small and the installation is easy. It is possible to enhance the durability of the sensor assembly for measuring the rotating body.

1 is a perspective view showing a sensing element used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention.
2 is a perspective view illustrating a terminal used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention.
3 is a perspective view illustrating a state where a terminal and a holder used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention are coupled.
FIG. 4 is a perspective view illustrating a sensing element, a terminal, and a holder used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention.
5 is a perspective view illustrating a sensing element, a terminal, a holder, a holder cup, and a cable used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention.
6 is a perspective view showing a sensor assembly for measuring a rotating body according to an embodiment of the present invention.
7 is a partial cutaway view showing a sensor assembly for measuring a rotating body according to an embodiment of the present invention.
8 is a flowchart illustrating a method of manufacturing a sensor assembly for measuring a rotating body according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms specifically defined in consideration of the constitution and operation of the present invention are only for explaining the embodiments of the present invention, and do not limit the scope of the present invention.

1 is a perspective view showing a sensing device 100 used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention.

The sensing device 100 senses the rotational speed, the rotational direction, and the position of the rotating body. The sensed information is transmitted to a control system (not shown) A first wire 120, a first wire connection 130, and a terminal coupling 140.

The sensing unit 110 is positioned adjacent to the rotating body and senses a change in the magnetic field of the rotating body and senses the rotating speed, the rotating direction, and the position of the rotating body.

The first conductor 120 is composed of a plurality of conductors extending from the sensing unit 110 and bent at a portion adjacent to the sensing unit 110 so that the front surface of the sensing unit 110 is positioned at a position .

One end of the first wire connecting portion 130 is connected to the plurality of first wires 120 and the other end is connected to the terminal 300. The terminal connecting portion 140 is a portion extending from the other side of the first wire connecting portion 130 and joining with the terminal 300.

On the other hand, the sensing element 100 can be formed of a Hall IC having an amplifier, a transmitter, and the like, which is used for detecting a contactless displacement.

2 is a perspective view showing a terminal 300 used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention.

The terminal 300 is connected to the sensing element 100 and the other end is coupled to the second leads 210 and the same number of pieces 300-1, -3 and serves to electrically connect the sensing element 100 and the cable 200 and includes a hook 310, a resistor 320, and a bent portion 330.

The hook 310 is formed at an end portion connected to the second lead 210 of the terminal 300 and has a lead insertion hole 311. The lead wire insertion hole 311 is a portion where the end of the second lead wire 210 is inserted into the curved portion of the hook 310. The coupling between the second lead wire 210 and the hook 310 will be described later.

The resistor 320 is coupled to the terminal 300 at both ends by welding, and serves to stabilize an electrical signal flowing through the terminal 300. [ At this time, at least one of the pieces 300-1, 300-2, and 300-3 of the terminal 300 is coupled with the resistor 320 between the bending portion 330 and the hook 310. In addition, although various welding methods can be used when welding between the resistor 320 and the terminal 300, it is more appropriate to use advantageous spot welding when the welding portion is small.

3 is a perspective view showing a state where a terminal 300 and a holder 400 used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention are combined.

4 is a perspective view illustrating a state in which a sensing element 100, a terminal 300, and a holder 400 used in a sensor assembly for measuring a rotating body according to an embodiment of the present invention are combined.

The bent portion 330 is formed at the end of the portion of the sensing element 100 that engages with the terminal fitting portion 140 and unlike the remaining portion of the terminal 300 that engages in the longitudinal direction of the holder 400, So that the terminal 300 can be firmly coupled to the holder 400 without being easily separated from the holder 400.

The holder 400 is disposed such that the sensing unit 110 of the sensing device 100 is disposed at a front portion thereof and the hook 310 protrudes at a rear portion of the holder 400. The sensing device 100, And serves to firmly hold the coupling between the sensing element 100 and the terminal 300. At this time, the holder 400 is formed by combining the sensing element 100 and the terminal 300 by an insert injection process or the like.

Meanwhile, the lower end of the terminal coupling portion 140 of the sensing element 100 is welded to the upper end of the bent portion 330. At this time, although various welding methods can be used, it is more appropriate to use advantageous spot welding when the welding portion is small.

5 shows a state where the sensing element 100, the terminal 300, the holder 400, the holder cup 500, and the cable 200 used in the sensor assembly for measuring a rotating body according to an embodiment of the present invention are combined Fig.

The end of the second lead wire 210 is inserted into the lead wire insertion hole 311 formed in the curved portion of the hook 310 formed in the terminal 300. At this time, a part of the end of the second lead wire 210 is positioned between a pair of straight portions of the hook 310.

Thereafter, the pair of straight portions of the hook 310 are pressed so as to come close to each other, so that at least a part of the pair of straight portions and a part of the end portions of the second lead wires 210 are brought into close contact with each other. When the straight portion of the hook 310 and the end portion of the second wire 210 are in close contact with each other, the hook 310 and the second wire 210 are fixedly coupled to each other to a certain degree, and between the hook 310 and the second wire 210 The contact area to be welded becomes wider. The hook 310 and the second conductor 210 are welded to each other so that the hook 310 and the second conductor 210 are in close contact with each other. ) Are firmly coupled. On the other hand, various welding methods can be used for welding between the hook 310 and the second lead wire 210, but it is more appropriate to use advantageous spot welding when the welding portion is small.

In this way, when the terminal 300 including the hook 310 and the cable 200 including the second conductor 210 are firmly coupled, even if the sensor assembly is manufactured so that the sensor assembly can not be disassembled by injection molding, 300 and the cable 200 are disconnected from each other, the durability of the sensor assembly increases.

The holder cup 500 is formed to open on the rear side and is fitted to the front portion of the holder 400 and is arranged to receive the front portion of the sensing element 110 and includes the sensing element 100, And a groove 510 for protecting the resistor 320 coupled to the terminal 300 from an external impact.

The grooves 510 are formed in the circumferential direction of the holder cup 500 at the rear portion of the holder cup 500, and are provided in the rearward direction. The groove 510 serves to maintain a firm engagement with the holder cup 500 when the holder 600 is coupled to the holder 400 after the holder cup 500 is inserted into the holder 400, .

The cable 200 includes a plurality of second wires 210, one end of which is connected to the control system and the other end of which is electrically connected to the first wires 120.

6 is a perspective view showing a sensor assembly for measuring a rotating body according to an embodiment of the present invention. 7 is a partial cutaway view showing a sensor assembly for measuring a rotating body according to an embodiment of the present invention.

Each of the pieces 300-1, 300-2, and 300-3 of the terminal 300 includes a bent portion 330 formed at an end of a portion to be coupled to the sensing element 100, The sensing element 100 is welded to the terminal 300 at the upper end of the bent portion 330 and the respective pieces 300-1, 300-2, and 300- 3 are connected to the resistor 320 between the bending part 330 and the hook 310. [

The case 600 is connected to the rear portion of the holder cup 500 and includes at least a part of the sensing element 100, the cable 200 and the terminal 300, and the holder cup coupling portion 610, A cable insertion portion 630, and a fastening portion 640. At this time, the case 600 is coupled with the sensing element 100, the terminal 300, the holder 400, the holder cup 500, and the cable 200 by a method such as injection molding.

The holder cup coupling portion 610 is formed on the front portion of the case 600 and surrounds the recess 510 provided in the rear portion of the holder cup 500 while the rear portion of the holder cup 500 is fitted, 100).

The built-in portion 620 includes at least a portion of the cable 200 and the terminal 300 and is integrally formed with the holder cup coupling portion 610, the cable insertion portion 630, and the coupling portion 640, .

The cable inserting portion 630 extends from the internal portion 620 to extend rearward and is a portion through which the cable 200 extending from the terminal 300 passes. At this time, the bent angle can be appropriately selected in consideration of the arrangement position of the sensor assembly and other conditions, and the cable insertion portion 630 can be flexibly formed and designed to be rotatable at a predetermined angle.

The fastening portion 640 is provided on the side of the case 600 and is a portion where the fastening means 800 is fastened and has a fastening means insertion hole 641 for fastening. The fastening means insertion hole 641 is a portion into which the fastening means 800 is inserted and is formed such that the center direction thereof is directed to the front portion of the case 600. A bush 700 may be installed in the fastening means insertion hole 641.

The bush 700 is formed in a cylindrical shape and is embedded in the fastening means insertion hole 641 and surrounds the fastening means 800 to prevent the fastening means 800 from shaking.

The fastening means 800 is inserted into the fastening means insertion hole 641, and one end of the fastening means 800 is fixedly coupled to an external object to couple the sensor assembly to an external object. Any means that can couple the bolt or other sensor assembly to the external object with the fastening means 800 can be used.

8 is a flowchart illustrating a method of manufacturing a sensor assembly for measuring a rotating body according to an embodiment of the present invention.

A method of manufacturing a sensor assembly for measuring a rotating body includes the steps of providing a sensing element 100 and a terminal 300 and connecting a sensing element 100 and a terminal 300 to a holder 400, (S300) of inserting the holder cup (500) into the front portion of the holder (400), combining the sensing element (100) and the terminal (400) (S400), forming the case (S500) and fixing the sensor assembly for rotating body measurement to an external object (S600). The method may further include a step S110 of coupling the resistor 320 to the terminal 300 after the step of providing the sensing element 100 and the terminal 300. [

In the step S100 of providing the sensing element 100 and the terminal 300, the sensing element 100 having the sensing part 110 is provided, one side is coupled to the sensing element 100, And the other end of each of the hooks 310 is formed into a shape of a hook 310. The ends of the second wires 210 are inserted into the curved portions of the hooks 310, The terminal 300 having the lead wire insertion hole 311 formed therein is provided.

At least one of each piece 300-1, 300-2, 300-3 of the terminal 300 is coupled to the bending portion 330 and the hook 320. In the step S110 of coupling the register 320 to the terminal 300, The resistor 320 is welded between the first and second electrodes 310 and 310. Further, as described above, it is more appropriate to use spot welding as a welding method.

In the step S200 of coupling the sensing element 100 and the terminal 300 to the holder 400, the sensing part 110 of the sensing element 100 is disposed at the front part and the hook 310 is provided at the rear part And the sensing element 100 and the terminal 300 are coupled to the holder 400 by an insert injection process so that the sensing element 100 and the terminal 300 are coupled to each other at an intermediate portion thereof. At this time, the sensing element 100 and the terminal 300 are disposed in the insert injection mold, and the liquid material for forming the holder 400 is injected into the mold to form the holder 400.

In the step S300 of fitting the holder cup 500 to the front portion of the holder 400, the holder cup 500 is inserted into the front portion of the holder 400 so that the sensing portion 110 of the sensing element 100 is received.

In the step S400 of joining the sensing element 100 and the terminal 300, after pressing the straight portion of the hook 310 with the end of the second lead 210 inserted into the lead insertion hole 311, The end of the second lead wire 210 is welded to the hook 310 to couple the sensing element 100 and the terminal 300 together. The hook 310 and the end of the second conductive line 210 are closely contacted with each other so that the hook 310 and the second conductive line 210 are connected to each other by the straight portion of the hook 310 and the end portion of the second conductive line 210, When the contact portions of the second wire 210 are welded to each other, the hook 310 and the second wire 210 are firmly coupled. Further, as described above, it is more appropriate to use spot welding as a welding method.

The case 600 is formed by insert injection processing so as to embed at least a part of the sensing element 100, the cable 200 and the terminal 300 in the step S500 of forming the case 600 by insert injection processing. At this time, a combined body of the cable 200 including the sensing element 100, the terminal 300, the holder 400, the holder cup 500, and the second lead wire 210 is disposed in the insert injection mold, A liquid material to be formed is injected into the mold to form a case 600.

In the step S600 of fixing the rotor assembly measuring sensor assembly to the external object, the fastening means 800 is used to fix the rotor assembly measuring sensor assembly to the external object.

On the other hand, in the case of installing a plurality of sensor assemblies for measuring rotational speed, a plurality of cables 200 may be tangled with each other. Therefore, the cables 200 may be connected to each other by using a fastening means such as a cable band, a snap clip, It can also be bundled together into bundles.

While only a few are described above in connection with the embodiments of the present invention, various other forms of implementation are possible. The technical contents of the embodiments described above may be combined in various forms other than the mutually incompatible technologies, and may be implemented in a new embodiment through the same.

100: sensing element 110:
120: first lead 130: first lead
140: terminal coupling part 200: cable
210: second lead 300: terminal
300-1, 300-2, 300-3: piece 310: hook
311: lead insertion hole 320: register
330: Bend section 400: Holder
500: holder cup 510: groove
600: Case 610: Holder cup coupling part
620: Internal part 630: Cable insertion part
640: fastening portion 641: fastening means insertion hole
700: Bush 800: Fastening means

Claims (13)

A sensing device comprising: a sensing unit; and a plurality of first conductors extending from the sensing unit;
A cable including second conductors each electrically connected to the first conductors; And
And the other end is formed with the same number of hooks as the second conductors and the curved portion of each of the hooks is connected to the respective one of the first conductive lines and the second conductive lines, And the end portion of the second lead wire is pressed against the straight portion of the hook while the end portion of the second lead wire is inserted into the lead wire insertion hole so that the end portion of the second lead wire is in close contact with the hook The end of the second conductor and the terminal welded to the hook
The sensor assembly comprising: The method according to claim 1,
The sensing element includes:
Wherein one end of the first lead is connected to the first leads and the other end of the first lead is connected to the terminal. The method according to claim 1,
The terminal comprises:
And a resistor coupled to the terminal at both ends by welding to stabilize an electrical signal flowing through the terminal. The method of claim 3,
The terminal comprises:
And a number of the same number of pieces as the second lead wire,
Each of the above-
Wherein the sensing element is welded to the terminal at an upper end portion of the bent portion, and the sensing element is welded to the terminal at the upper end of the bent portion, Wherein at least one of the first and second flanges is coupled to the resistor between the bend and the hook. The method according to claim 1,
Further comprising a holder having a sensing portion of the sensing element disposed on a front portion thereof and a hook portion protruded on a rear portion thereof and a portion where the sensing element and the terminal are coupled to each other, . 6. The method of claim 5,
A holder cup which is formed to open on the rear side of the holder and is arranged to receive the front portion of the sensing element and has a plurality of recesses formed in the circumferential direction on the rear portion thereof in the direction of the rear portion Wherein the sensor assembly comprises: The method according to claim 6,
And a coupling means insertion hole which is engaged with a rear portion of the holder cup and which incorporates at least a part of the sensing element, the cable and the terminal, and a fastening means insertion hole into which one end portion is fixedly coupled to an external object,
The sensor assembly further comprising: 8. The method of claim 7,
And a bush which is formed in a cylindrical shape and surrounds the fastening means, and which prevents the fastening means from swinging, is embedded in the fastening means insertion hole. 8. The method of claim 7,
In this case,
A holder cup engaging portion formed at a front portion of the holder cup, the holder cup engaging a rear portion of the holder cup and surrounding the recess provided at a rear portion of the holder cup, the holder cup engaging at least a part of the sensing element;
A built-in unit including the cable and at least a part of the terminal;
A cable insertion portion extending rearwardly from the built-in portion, the cable insertion portion extending from the terminal through; And
Wherein the fastening means insertion hole is formed such that a central direction of the fastening means insertion hole faces the front portion,
And a sensor assembly for measuring the rotation of the rotor. A sensing element for sensing at least one of a rotational speed, a rotational direction, and a position of the rotating body;
A cable including a plurality of conductors and electrically connected to the sensing element;
And a plurality of hooks are formed on the other end of the cable at the same number as that of the leads, and the curved portion of the hook-shaped end portion is connected to the end of each of the conductors A terminal inserted into the lead insertion hole, the terminal being connected to an end of the lead wire and the hook after the straight portion of the lead wire is inserted into the lead insertion hole;
A holder having a sensing portion of the sensing element disposed at a front portion thereof, a hook portion protruding from a rear portion thereof, and a portion electrically coupled to the sensing element and the terminal at an intermediate portion thereof;
A holder cup fitted in a front portion of the holder so that a sensing portion of the sensing element is accommodated; And
A housing coupled to a portion of the holder cup and including at least a portion of the sensing element,
And a sensor assembly for measuring the rotation of the rotor assembly. And a sensing element having a sensing part, wherein one end of the sensing element is coupled to the sensing element, and the other end of the sensing element is coupled to second conductors provided on the cable, the other end of the sensing element is formed in a hook shape, Providing a terminal in which a lead insertion hole for inserting an end of each of the second leads is formed;
And the sensing element and the terminal are connected to each other by an insert injection process so that a sensing part of the sensing element is disposed at the front part and a hook is protruded at the rear part, Coupling to the holder;
Fitting the holder cup to the holder front portion to receive the sensing portion; And
Bonding the sensing element and the terminal by welding the end portion of the second conductive wire and the hook after pressing the straight portion of the hook with the end of the second conductive wire inserted into the conductive wire insertion hole
Wherein the sensor assembly is mounted on the rotor. 12. The method of claim 11,
After the step of providing the sensing element and the terminal,
And coupling a resistor to the terminal. ≪ Desc / Clms Page number 20 > 12. The method of claim 11,
After coupling the sensing element and the terminal,
Forming a case by insert injection processing to embed at least a part of the sensing element, the cable and the terminal; And
And fixing the sensor assembly for rotator measurement to the external object using a fastening means. ≪ Desc / Clms Page number 19 >

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