KR20190055518A - ribbon magnet bobbin structure for magnetic sensor - Google Patents

Abstract

It is an object of the present invention to provide a ribbon magnetic body bobbin structure for a magnetic force sensor which can be manufactured without a separate attachment means and which does not cause physical property disturbance of the magnetic body.
In order to achieve the above object, the present invention provides a ribbon magnetic bobbin structure for a magnetic sensor, which is applied to a bobbin of a driving unit in a magnetic sensor module including a driving unit and a pickup unit, the ribbon magnetic bobbin structure comprising: a first ring having an annular shape; A second annular shape, a second annular portion formed with the first annular portion to form a bobbin; An inner space formed in a closed form in the bobbin section; And a ribbon magnetic body wound around the inner space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ribbon magnet bobbin structure for a magnetic sensor,

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a ribbon magnetic body bobbin structure for a magnetic force sensor, and more particularly to a ribbon magnetic body bobbin structure for a magnetic sensor which exhibits elaborate magnetic force characteristics.

The magnetic force sensor is a sensor that measures the magnetic force value and is used for various purposes. For example, it is applied to equipment that detects the change of magnetic force on the ground surface and detects minerals. It is used as a proximity sensor that detects the proximity of an object by detecting the change of magnetic force generated when an object is close to the object.

The magnetic force sensor having the above-described purpose generally comprises a magnetic force generating source (driving part) and a rotation element (pickup part) for sensing a change in magnetic force generated by the magnetic force generating source. In the case of the driving part, And the output of the pickup unit is connected to the calculation processing unit to calculate and output the actual magnetic force change value.

The arithmetic processing unit is designed to calculate an accurate magnetic force change by correcting characteristics that vary according to the environment. For example, Japanese Laid-Open Patent Publication No. 2012-0093382 relates to a magnetic force sensor, and includes an operating portion elastically supported by a support member; A first rotation converting element fixed to a working portion; A magnetic flux generating source arranged to face the first rotation converting element; A second rotation converting element disposed at a fixed position with respect to the magnetic flux generating source; And an arithmetic processing unit for correcting the output of the first rotation converting element based on the output of the second rotation converting element, wherein a configuration capable of calculating a sophisticated value by correcting a temperature change and an offset change is provided Lt; / RTI >

On the other hand, in the case of the driving unit, a magnetic body is placed on an annular bobbin, and then a coil is wound on the outer surface of the bobbin. In this case, in order to fix the magnetic body and the bobbin, a method of attaching the magnetic body and the bobbin using an attachment means such as an adhesive or welding is mainly used. However, when the magnetic body is attached to the bobbin in the same manner as described above, the physical properties of the sensitive magnetic body are disturbed There are disadvantages that the performance of one magnetic sensor is not implemented properly.

It is an object of the present invention to provide a ribbon magnetic bobbin structure for a magnetic force sensor which can be manufactured without any additional attachment means and which does not cause physical property disturbance of the magnetic body .

In order to achieve the above object, the present invention provides a ribbon magnetic bobbin structure for a magnetic sensor, which is applied to a bobbin of a driving unit in a magnetic sensor module including a driving unit and a pickup unit, the ribbon magnetic bobbin structure comprising: a first ring having an annular shape; A second annular shape, a second annular portion formed with the first annular portion to form a bobbin; An inner space formed in a closed form in the bobbin section; And a ribbon magnetic body wound around the inner space.

Preferably, the cross section of the inner space is rectangular in shape, and the width of the inner space is equal to the width of the ribbon magnetic body.

More preferably, the left / lower side of the inner space is formed by the first annular portion, and the upper / right side of the inner space is formed by the second annular portion.

More preferably, the thickness of the ribbon magnetic body is 5 占 퐉 to 30 占 퐉.

More preferably, the thickness of the ribbon magnetic body is 10 占 퐉 to 15 占 퐉.

Preferably, the cross section of the first annulus includes a first inner diameter portion arranged horizontally, a first horizontal portion a, a first horizontal portion b, and a first outer diameter portion, the first left side surface being vertically disposed, A first vertical portion b, and a first right side portion, and the cross section of the second annulus includes a second inner diameter portion, a second horizontal portion a, a second horizontal portion b, and a second outer diameter portion, A second vertical portion a, a second vertical portion b, and a second right side portion.

More preferably, the sum of the lengths of the first vertical part a and the first vertical part b is equal to the sum of the lengths of the second vertical part a and the second vertical part b, and the length of the second vertical part a Is smaller than the first vertical part (a), and the length of the first vertical part (b) is smaller than the length of the second vertical part (b).

More preferably, the cross section of the inner space is surrounded by the first horizontal portion a, the second horizontal portion a, the first vertical portion a, and the second vertical portion b.

A ribbon magnetic bobbin structure for a magnetic sensor according to the present invention comprises a bobbin including a first annular portion made of a ceramic material and a second annular portion joined to the first annular portion, and a bobbin formed between the first annular portion and the second annular portion The ribbon-like magnetic body can be fixed to the bobbin without any additional attachment means, so that the performance disturbance of the magnetic body can be prevented in advance in the manufacturing step, and a precise magnetic force sensor And provides an effect that can be manufactured.

1 is a configuration diagram of a magnetic sensor module to which a ribbon magnetic-element bobbin structure for a magnetic sensor according to the present invention is applied,
Fig. 2 is a configuration diagram of the ribbon magnetic-body bobbin structure for magnetic force sensor,
3 is a cross-sectional view of the first lesion shown in Fig. 2,
4 is a cross-sectional view of the second lesion portion shown in Fig. 2,
5 is a cross-sectional view of the bobbin shown in Fig. 2,
FIG. 6 is an assembling flowchart of the ribbon magnetic body bobbin structure for magnetic force sensor according to the present invention.

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

The ribbon magnetic body bobbin structure 100 for a magnetic sensor according to the present invention is applied to the magnetic force sensor module 1 shown in Fig.

The magnetic force sensor module 1 includes a driving unit 2 located at the center and a pickup unit 3 disposed so as to surround the driving unit 2. The driving unit 2 is driven by an external power source Thereby forming a constant magnetic force.

The pickup unit 3 accommodates the driving unit 2, a separate coil is wound, and a current is induced by the coil.

The calculation processing unit 4 calculates a change in magnetic force based on the power supplied to the driving unit 2 and the voltage induced in the pickup unit 3, The magnetic force characteristic generated in the driving unit 2 is changed, so that the magnetic force value is measured by detecting the change as described above.

The ribbon magnetic bobbin structure 100 for a magnetic sensor according to the present invention is applied to the bobbin structure of the driving unit 2.

2, the bobbin structure 100 includes a first annular portion 10 and a second annular portion 30 coupled to the first annular portion 10 at a side thereof. .

The first annular portion 10 has a sectional shape as shown in FIG. 3 and includes a first inner diameter portion 11, a first horizontal portion a 12, a first horizontal portion b 13 And a first outer diameter portion 14.

And includes a first left side surface 21, a first vertical portion a 22, a first vertical portion b 23, and a first right side portion 24 arranged vertically.

4, and includes a second inner diameter portion 31, a second horizontal portion a 32, and a second horizontal portion b 33 And a second outer diameter portion 34.

And includes a second left side surface 41, a second vertical part a 42, a second vertical part b 43 and a second right side part 44 arranged vertically.

5, the inner diameter of the bobbin 50 is smaller than the inner diameter of the first inner diameter portion 11 (11), and the inner diameter of the bobbin 50 is larger than the inner diameter of the first inner diameter portion 11 , And the outer diameter of the bobbin 50 becomes the second outer diameter portion 34. [

At this time, the first outer diameter portion 14 and the second outer diameter portion 33, the first horizontal portion a 12 and the second horizontal portion a 32, the first horizontal portion b 13 and the second inner diameter portion 31 Are set to the same size.

The first vertical part a 22 and the first vertical part b 23 are set to be the same as the second vertical part a 42 and the second vertical part b 43.

The second vertical part a 42 is formed smaller than the first vertical part a 22 and the first vertical part b 23 is set smaller than the second vertical part b 43.

According to the above conditions, the bobbin 50 is surrounded by the first horizontal part a 12, the second horizontal part a 32, the first vertical part a 22 and the second vertical part b 43 An internal space 60 is formed.

That is, the side located at the left / lower end of the inner space 60 is formed by the first annular portion 10, and the side located at the upper / middle portion is formed by the second annular portion 30.

The inner space 60 is an annular shape having a rectangular cross section, and the ribbon magnetic body 70 is wound around the inner space 60.

The ribbon magnetic body 70 has a band-like flexibility property and has a constant thickness and width.

If the width of the ribbon magnetic body 70 is the same as the width of the inner space 60, it is possible to wind the ribbon magnetic body 70 into a plurality of layers as shown in FIG.

The height of the inner space 60 is set in consideration of the number of times the ribbon magnetic body 70 is wound.

In addition, when the first ring portion 10 and the second ring portion 30 are processed to limit the clearance to the maximum, the movement of the ribbon magnetic body 70 in the four directions is restricted, so that the bobbin 50 ).

On the other hand, the thickness of the ribbon magnetic body 70 wound around the bobbin 50 is preferably 5 탆 to 30 탆. At this time, if the thickness of the ribbon magnetic body 70 is less than 5 탆, there is a fear of rupture during fabrication, and if it is more than 30 탆, the efficiency of the magnetic material is inadequate.

Particularly, when the thickness is 10 탆 to 15 탆, it exhibits the most excellent properties in terms of production and efficiency.

The width of the ribbon magnetic body 70 and the number of laminations (the number of times of winding) are not limited. However, when the average diameter of the bobbins 50 (the diameter of the central portion of the inner space 60) is about 20 mm to 30 mm, 70 is preferably about 1 mm to 3 mm.

That is, it is preferably about 1/30 to 1/7 of the average diameter of the bobbin 50.

The first annular portion 10 and the second annular portion 30 are preferably made of a ceramic material. However, if necessary, the first annular portion 10 and the second annular portion 30 may be made of other materials such as synthetic resin and wood. In the case of ceramics, do.

In addition, it is preferable that roughness is appropriately formed on the surface when bonding characteristics and the like are considered.

6, when the ribbon magnetic body 70 is wound around the first horizontal portion a 12 of the first ring portion 10, the ribbon magnetic body 70 is wound around the first horizontal portion a 12, And then the coil is wound around a section formed by the first annular portion 10 and the second annular portion 30 to finally complete assembly of the bobbin structure 100 .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And all of the various forms of embodiments that can be practiced without departing from the technical spirit.

1: magnetic force sensor module 2: driving part
3: Pickup unit 4:
10: first ring part 11: first inner neck part
12: first horizontal part a 13: first horizontal part b
14: first outer diameter portion 21: first left side surface
22: first vertical part a 23: first vertical part b
24: first right side portion 30: second return portion
31: second inner diameter portion 32: second horizontal portion a
33: second horizontal part b: 34: second outside diameter part
41: second left side portion 42: second vertical portion a
43: second vertical part b 44: second right side part
50: bobbin 60: inner space
70: ribbon magnetic body 100: bobbin structure

Claims (8)

A ribbon magnetic body bobbin structure for a magnetic sensor, which is applied to a bobbin of a driving unit in a magnetic sensor module including a driving unit and a pickup unit,
A first ring having an annular shape;
A second annular shape, a second annular portion formed with the first annular portion to form a bobbin;
An inner space formed in a closed form in the bobbin section; And
And a ribbon magnetic body wound around the inner space.
The ribbon magnetic body bobbin structure according to claim 1, wherein a cross section of the inner space is rectangular and a width of the inner space is equal to a width of the ribbon magnetic body.
[3] The magnetic sensor according to claim 2, wherein the left / lower side of the inner space is formed by the first annular portion, and the upper / right side of the inner space is formed by the second annular portion. Structure.
4. The ribbon magnetic body bobbin structure for magnetic force sensor according to claim 3, wherein the thickness of the ribbon magnetic body is 5 to 30 占 퐉.
5. The ribbon magnetic body bobbin structure for magnetic force sensor according to claim 4, wherein the thickness of the ribbon magnetic body is 10 占 퐉 to 15 占 퐉.
[4] The endoscope according to claim 3, wherein the cross section of the first lesion comprises a first inner diameter portion arranged horizontally, a first horizontal portion a, a first horizontal portion b, and a first outer diameter portion, A vertical portion a, a first vertical portion b, and a first right side portion,
The second annular portion has a second inner diameter portion, a second horizontal portion a, a second horizontal portion b, and a second outer diameter portion, and includes a vertically disposed second left surface portion, a second vertical portion a, And a second right side portion of the ribbon magnetic body bobbin structure.
The method of claim 6, wherein the sum of the lengths of the first vertical portion a and the first vertical portion b is equal to the sum of the lengths of the second vertical portion a and the second vertical portion b,
The length of the second vertical part a is smaller than the length of the first vertical part a and the length of the first vertical part b is smaller than the length of the second vertical part b.
The ribbon magnetic body bobbin structure according to claim 7, wherein a cross section of the inner space is surrounded by a first horizontal portion a, a second horizontal portion a, a first vertical portion a, and a second vertical portion b.

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