KR102241528B1 - Jig for ferrite - Google Patents

Abstract

Disclosed is a magnetic body fixing device for cutting a magnetic body. According to the present disclosure, the magnetic body fixing device comprises: an arrangement part arranged in alignment with a magnetic body and supporting the lower side of the aligned magnetic body; one side part supporting the magnetic body in contact with one side of the aligned magnetic body; the other side part which abuts against the other side of the aligned magnetic body at a position symmetrical with the one side part to support the other side of the magnetic body; and a fixing part having a communication part in contact with the upper side of the aligned magnetic body and pressing the aligned magnetic body downward to fix the aligned magnetic body and move a cutting blade.

Description

Magnetic body fixing device{JIG FOR FERRITE}

The present invention relates to a fixing device for a magnetic body.

In particular, it relates to a magnetic material fixing device capable of fixing a magnetic material in order to perform a magnetic material cutting process.

The expansion of the supply of eco-friendly vehicles, such as electric vehicles that replace existing internal combustion vehicles, is rapidly progressing through policies to limit or ban the production and sales of internal combustion vehicles, along with policies to encourage supply in countries around the world.

Some countries are proposing or planning legislation to completely ban the sale of vehicles with internal combustion engines. Therefore, automobile manufacturers are announcing new roadmaps such as eco-friendly vehicle development plans.

As a representative eco-friendly car, electric cars can be cited.

Unlike conventional internal combustion engine vehicles, electric vehicles have different core components due to differences in power sources. In particular, due to the structural difference in replacing the engine, which can be said to be the heart of an automobile, with a motor, mechanical parts constituting the engine must be replaced with electric and electronic parts such as motors, motor parts, and motor control devices.

Therefore, the required amount of some motors (Starter Motor, Fuel Pump Injection Motor, etc.) used for engines or transmissions is expected to decrease, but the demand for devices for convenience, stability, and controllability of automobiles is continuously expanding. Accordingly, the demand for magnets is expected to expand further.

Most of these industrial magnets are processed with ferrite. Ferrite is a magnetic object, and when cutting it, a cracking phenomenon occurs at the end, so shaking should be minimized. Therefore, cutting ferrite uses a different method than cutting other objects. Among the methods of cutting ferrite, the most commonly used method is the use of bonds.

This process includes (i) aligning a plurality of ferrites, (ii) bonding ferrites, (iii) solidifying the bond, (iv) cutting the ferrite, and (v) heating the ferrite to form a solid bond. It proceeds in the same order as the dissolving step, (vi) dipping the cut ferrite in a washing solution to remove the bond adhered to the ferrite.

However, since such a process is naturally bonded, the composition is complicated and laborious, and there is a problem that ferrite is damaged in the process of performing each process.

Domestic registered patent registration number "10-1842917"

An object of the present invention is to solve the above-described problem, and to provide a fixing device for cutting ferrite in which ferrite is cut by a simple method, and damage of ferrite does not occur during cutting.

The magnetic body fixing device is used for cutting the magnetic body.

The magnetic body fixing device includes a magnetic body arranged and arranged, an arrangement portion supporting a lower side of the aligned magnetic body, a side portion supporting the magnetic body by contacting one side of the aligned magnetic body, and the aligned magnetic body at a position symmetrical with the one side portion. The other side that contacts the other side to support the other side of the magnetic body and the other side that contacts the upper side of the aligned magnetic body presses the aligned magnetic body downward, fixes the aligned magnetic body, and a communication part through which the cutting blade can be moved is formed. Includes a fixed part.

The one side portion is characterized in that a hole communicating with the communication portion of the fixing portion is formed.

The one side portion includes a connecting portion formed including an extension portion extending in one direction and a bent portion bent in one direction from the extension portion, and one end of the fixing portion is surrounded by the extension portion and the bent portion and connected to the one side portion. It is characterized by that.

It characterized in that the cutting groove is formed along the longitudinal direction in the arrangement part.

The cutting groove is characterized in that it is formed in a position opposite to the communication portion of the fixing portion.

The other side portion is characterized in that it is formed to be moved to one side or the other side along the longitudinal direction of the placement portion.

In addition, it further includes a base portion in which a moving portion is formed in a recessed form along the length direction, and a portion of the other side portion is located in the moving portion, and a position adjusting portion penetrating the base portion and threaded along the length direction is In contact with and according to the set operation of the position control unit, the other side is characterized in that it can be moved to one side or the other side along the thread.

The other side portion is characterized in that the hole communicating with the communication portion of the fixing portion is formed.

The fixing portion is characterized in that it includes a length portion having a length longer than the sum of the length of the arrangement portion and the length of the other side portion so as to be able to contact the upper side of the aligned magnetic body and the upper side of the other side portion.

A prevention part for preventing movement of the magnetic material is formed on one side of the length part by a predetermined length.

At least one side surface of the placement unit may further include a side surface supporting side surfaces of the aligned magnetic material.

The magnetic material fixing device according to the above embodiment stably fixes ferrite (magnetic material) so that the magnetic material can be cut without using an adhesive.

1 is a perspective view of a magnetic body fixing device according to the present invention.
2 is a perspective view of the remaining components except for the fixing part in the magnetic body fixing device according to the present invention.
3 is an enlarged cross-sectional view of a base portion, the other side portion, and a position control portion of the magnetic body fixing device of the present invention according to the first embodiment.
4 is an enlarged cross-sectional view of a base portion, the other side portion, a position adjustment portion, and an elastic portion of the magnetic body fixing device according to the second embodiment of the present invention.
5 is an enlarged perspective view of only the fixing part of the magnetic body fixing device according to the present invention.
6 is a diagram showing a magnetic material cutting sequence using the magnetic material fixing device according to the present invention, (a) is a state in which the magnetic material is fixed by moving the other side, (b) is a state in which the magnetic material is fixed using a fixing part, ( c) shows a state in which the magnetic material is cut, and (d) shows a state in which the fixing part is separated after the magnetic material is cut.

Hereinafter, an embodiment of the present invention will be described in detail through exemplary drawings. However, this is not intended to limit the scope of the present invention.

In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible, even if they are indicated on different drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, the size or shape of the components illustrated in the drawings may be exaggerated for clarity and convenience of description. In addition, terms specifically defined in consideration of the configuration and operation of the present invention are only for describing the embodiments of the present invention, and do not limit the scope of the present invention.

1 is a perspective view of a magnetic body fixing device according to the present invention.

2 is a perspective view of the remaining components except for the fixing part in the magnetic body fixing device according to the present invention.

3 is an enlarged cross-sectional view of a base portion, the other side portion, and a position control portion of the magnetic body fixing device of the present invention according to the first embodiment.

4 is an enlarged cross-sectional view of a base portion, the other side portion, a position adjustment portion, and an elastic portion of the magnetic body fixing device according to the second embodiment of the present invention.

5 is an enlarged perspective view of only the fixing part of the magnetic body fixing device according to the present invention.

The magnetic body fixing device according to the present invention includes a base part 100, a placement part 200, one side part 300, the other side part 400, a fixing part 500, and a position control part 600.

The base part 100 includes a first base part 110 and a second base part 120. The first base portion 110 may have a height greater than that of the second base portion 120. Accordingly, a step may be formed between the first base portion 110 and the second base portion 120. One side part 300, the placement part 200, and part of the other side part 400 are disposed on the first base part 110, and the second base part 120 has the remaining part of the other side part 400, and a fixed part Part of 500, a position control unit 600 may be disposed.

A moving part and a fixing hole are formed in the second base part 120.

The moving part is formed in a form recessed in the second base part 120. In addition, the moving part may be formed along the length direction of the second base part 120. On the other side of the second base portion 120, a position adjustment portion 600 may be disposed so as to penetrate the moving portion.

The position control part 600 may move the other side part 400 to one side or the other side.

A method of moving the other side part 600 by the position control part 600 according to the first embodiment is as follows.

The position adjusting part 600 may include a grip part 610 and a threaded part 620. The grip part 610 is disposed on the other side of the second base part 120, and the threaded part 620 extends from the grip part 610 and passes through the moving part. The threaded portion 620 has a thread formed around it. The threaded portion 620 is connected to a portion of the other side portion 400 disposed in the moving portion. The other side part 400 may be moved to one side or the other side along the length direction of the base part 100 according to the rotational operation of the position control part 600.

In the method of moving the other side part 400 to one side or the other side by the position control part 600 according to the second embodiment, an elastic part 700 is additionally disposed.

The elastic part 700 may be located between the other side part 600 and the first base part 110. The position adjusting part 600 includes a grip part 610 and a threaded part 620 as in the first embodiment.

Here, when the position control unit 600 is rotated in one direction, it may be gradually moved to one side, and when it is rotated in the other direction, it may be gradually moved to the other side. If the position control part 600 is rotated in one direction and gradually moves to one side, the other side part 400 may be gradually pushed to one side. Then, the elastic portion 700 may be gradually pressed and disposed between the first base portion 110 and the other side portion 400.

In addition, when the position control unit 600 is rotated in the other direction, it operates in the opposite direction to that described above, the distance between the first base unit 110 and the other side unit 400 is moved away, and the elastic unit 700 may be released from the pressure.

A method of moving the other side part 400 to one side or the other side by the position control part 600 according to the third embodiment is not shown, but the second embodiment is applied, and the elastic part 700 may be omitted. .

That is, there may be no elastic portion 700 between the first base portion 110 and the other side portion 400. In this case, although there is no assistance from the elastic part 700 when moving to one side or the other side of the other side part 400, the other side part 400 may be moved to one side or the other side according to the operation of the position control part 600.

The fixing hole of the second base part 120 is formed at a position not overlapping with the moving part. The fixing holes may be disposed on both sides based on the moving part. When the fixing part 500 is aligned and disposed on the second base part 120, the fixing hole of the fixing part 500 may be disposed corresponding to the fixing hole of the second base part 120. The fixing means is disposed to pass through each of the fixing holes of the second base part 120 and the fixing part 500 so that the fixing part 500 can be fixed to the second base part 120.

The placement part 200 is located on the base part 100. More precisely, the placement unit 200 is positioned above the first base unit 110. The placement unit 200 may be disposed along the longitudinal direction of the first base unit 110. The magnetic material may be aligned and disposed in the placement unit 200. A cutting groove 210 is formed in the placement part 200. The cutting groove 210 is formed along the length direction of the placement unit 200. The cutting groove 210 may be a cutting blade. Therefore, when the cutting blade is operated to cut the magnetic material, the cutting blade is moved along the longitudinal direction of the placement unit 200 while the cutting blade is disposed in the cutting groove 210, and the magnetic material can be cut by cutting the magnetic material.

One side part 300 is located on one side of the base part 100. One side part 300 abuts one side of the magnetic body aligned with the placement part 200 to support the aligned magnetic body.

A hole is formed in one side part 300. The hole is formed in a form in which one side and the other side of the one side portion 300 communicate with each other. In addition, the hole is formed along the length direction of the one side portion 300. The hole of the one side part 300 is formed at a position opposite to the cutting groove 210 of the placement part 200. That is, the circular cutting blade may pass through the hole of one side portion 300 and be positioned in the cutting groove 210 of the placement portion 200.

One side portion 300 may include a flat portion 310 and a connection portion 320. The flat portion 310 is formed in a flat shape and may contact the aligned magnetic material. The connection part 320 may be disposed above the flat part 310. Here, the connection part 320 may protrude less to the other side than the flat part 310. The degree of protrusion of the connection part 320 and the flat part 310 may be due to an arrangement relationship between the connection part 320 and the flat part 310.

The connection part 320 may include an extension part 321 and a bent part 322.

The extension part 321 may be formed to extend in one direction from the flat part 310. The bent portion 322 may extend in a direction intersecting the direction in which the extension portion 321 is extended. Therefore, the extension part 321 and the bent part 322 may be observed in the form of'a' when viewed from the side. In addition, the inner surface of the bent portion 322 may include an inclined surface. Here, the inclined direction of the inclined surface of the bent portion 322 may be formed such that one side portion is closer to the flat portion 310 than the other side portion.

The end of the fixing part 500 may be surrounded by the connection part 320 and may be fixed to one side part 300. One end of the fixing part 500 may be inclined to correspond to the inclined shape of the bent part 322. Therefore, one end of the fixing part 500 is slid along the inclined surface of the bent part 322 and may be disposed so as to come into contact with the extension part 321. Therefore, the end of the fixing part 500 may be arranged in a form surrounded by one side part 300. In addition, the lower side of the fixing part 500 may be supported by the flat part 310.

The other side part 400 may be located on the other side of the placement part 200. The other side part 400 may be spaced apart from the one side part 300 at a position facing each other. The other side part 400 may support the other side of the magnetic body arranged to be aligned with the placement part 200. A hole may be formed in the other side part 400 as in the one side part 300. The hole of the other side part 400 is formed at a position opposite to the cutting groove 210 of the placement part 200 like the hole of the one side part 300. That is, the circular cutting blade is moved along the cutting groove 210 of the placement unit 200 and may be located in the hole of the other side portion 400. Therefore, the magnetic material located on the other side of the placement unit 200 can also be stably cut by the cutting blade.

The other side portion 400 may be moved to one side or the other side along the longitudinal direction of the placement portion 200 with respect to the placement portion 200. The other side part 400 may be partially disposed on the moving part of the base part 100 described above. In addition, an end of the threaded portion 620 of the position adjusting portion 600 may be disposed to be in contact with the other side portion 400.

Here, the position control unit 600 may pass through the other side part 400 or may be disposed in a form where a surface meets and pushes. Therefore, when the position control part 600 is rotated in one direction, the other side part 400 may be moved according to the moving operation of the threaded part 620.

Here, the other side part 400 includes a sliding part 430, and the sliding part 430 may be disposed in the moving part. The sliding part 430 extends in one direction and has a set length and may be located in the moving part. Therefore, the sliding part 430 may be disposed in the recessed moving part, guided by the moving part, and moved.

In addition, the other side part 400 may include a first block part 410 and a second block part 420. The first block unit 410 and the second block unit 420 may be connected in an intersecting direction. Accordingly, the other side portion 400 may be disposed at a step formed by the difference in height between the first base portion 110 and the second base portion 120 described above. That is, the first block part 410 may be disposed on the other side of the placement part 200 located on the first base part 110, and the second block part 420 is formed by the second base part 120. It is supported and can be placed. It is preferable that the first block portion 410 has a set length and at least the upper side is formed flat.

The first block part 410 may include a support protrusion 440. The support protrusion 440 has a set length and is formed to be spaced apart from the upper side and the other side of the first block part 410. In addition, a surface between the upper side and the lower side on which the support protrusion 440 of the first block portion 410 is formed may be formed to be round. Therefore, the first block part 410 may support the magnetic body through the support protrusion 440. Therefore, the aligned magnetic body is pressed to one side by the support protrusion 440, and one side and the other lower side are supported and disposed by the one side 300, the placement unit 200, and the other side 400, respectively.

The fixing part 500 abuts the upper side of the aligned magnetic body and presses the aligned magnetic body downward to fix the aligned magnetic body. The communication part 550 is formed in the fixing part 500. The communication part 550 is formed in a form in which the fixing part 500 is cut. The communication part 550 of the fixing part 500 is formed along the longitudinal direction of the fixing part 500. That is, the communication part 550 is formed from one side of the fixing part 500 to the other side.

The fixing part 500 may include a length part 510, a bending part 520, and a base part 530.

The length part 510 has a set length. The length portion 510 is formed to be longer than the sum of the length of the placement portion 200 and the length of the other side portion 400. Therefore, when the fixing part 500 is aligned and disposed, the length part 510 may cover the upper surface of the aligned magnetic body. In addition, the upper surface of the first block portion 410 of the other side portion 400 may also be covered.

One end of the length part 510 may be formed to be inclined, and a communication part 550 may be formed in the length part 510. Accordingly, the cutting blade may penetrate the one side portion 300 and be positioned in the communication portion 550 and the cutting groove 210, and may penetrate the hole of the other side portion 400. The bending portion 520 may be connected to the other side of the length portion 510 and may be formed in a direction crossing the length direction of the length portion 510. Here, the length of the bending portion 520 is formed longer than the length of the second block portion 420 of the other side portion 400 described above.

The base portion 530 is connected to the bending portion 520. The base portion 530 is formed to have a set area. A fixing hole is formed in the base portion 530. The base portion 530 may be disposed on the second base portion 120. Accordingly, the fixing hole of the base portion 530 may be disposed to correspond to the fixing hole of the second base portion 120. Thereafter, a fixing means is disposed in each fixing hole so that the fixing part 500 may be connected to the base part 100. Here, the fixing means is fixed in a form that presses the fixing part 500 downward.

Accordingly, the fixing part 500 receives a pressing force that is pressed downward by the fixing means, and this pressing force is also transmitted to the length part 510 of the fixing part 500 to press the upper side of the aligned magnetic body downward. Since the fixing part 500 covers not only the magnetic body in which the length part 510 is aligned, but also the other side part 400, it is possible to fix the other side part 400 that can be changed in position by an impact.

The other side part 400 is formed to be movable in order to adjust the size of the arrangement part 200 and apply a pressing force to the aligned magnetic body. Accordingly, the other side part 400 may change the position of the other side part 400 when a cutting blade, which is a diamond, cuts the magnetic body or receives high pressure water. In the present invention, since the length portion 510 of the fixing portion 500 presses the other side portion 400, the position of the other side portion 400 may be fixed even with an external impact. Therefore, the aligned magnetic body is supported by the one side part 300, the placement part 200, the other fixed side part 400, and the fixing part 500, so that it can be stably fixed during cutting.

Meanwhile, on one side of the length part 510, a prevention part 540 may be disposed along the length part 510. The prevention part 540 may assist in fixing the magnetic material.

The present invention is to modify the shape or number of the communication part 550 of the fixing part 500, and accordingly, the hole of one side 300, the hole of the other side 400, the cutting groove 210 of the placement part 200 ), etc., you can cut the magnetic material in various shapes.

6 is a diagram showing a magnetic material cutting sequence using the magnetic material fixing device of the present invention, (a) is a state in which the magnetic material is fixed by moving the other side, (b) is a state in which the magnetic material is fixed using a fixing part, ( c) shows a state in which the magnetic material is cut, and (d) shows a state in which the fixing part is separated after the magnetic material is cut.

In the present invention, a magnetic material cutting process can be very simple by using a separate fixing device as described above.

That is, after arranging the magnetic material and placing it on the placement unit 200, the position of the other side 400 is moved to one side using the position control unit 600 to press the magnetic material. After that, the fixing part 500 is disposed, and the fixing means is connected to pass through the fixing hole of the fixing part 500 and the fixing hole of the second base part 120. After that, the cutting blade is operated to pass from the hole of one side part 300 to the hole of the other side part 400. Here, the cutting blade moves through the communication part 550 of the fixing part 500 and the cutting groove 210 of the placement part 200 to cut the magnetic material. In addition, the magnetic material can be cut using a cutting blade and at the same time, washing can be performed by spraying high pressure water. However, spraying high-pressure water is separate from the cutting process and may be performed later. Thereafter, the cut magnetic body can be secured by simply removing the fixing unit 500 by removing the fixing means.

As described above, since the present invention does not use an adhesive, an operation such as heating a jig generated by using an adhesive may not be performed.

On the other hand, the present invention may further include a side portion. The side portion may be disposed on one side of the placement unit 200. Accordingly, by supporting the side surface of the magnetic material, the magnetic material can be more stably fixed to the placement unit 200.

Although the present invention has been illustrated and described with reference to specific embodiments, it is in the art that the present invention can be variously improved and changed within the scope of the technical spirit of the present invention provided by the following claims. It will be obvious to those of ordinary skill.

100: base part
110: first base portion
120: second base portion
200: placement unit
210: cutting groove
300: one side
310: flat part
320: connection
321: extension
322: bend
400: the other side
410: first block part
420: second block part
430: sliding part
440: support protrusion
500: fixed part
510: length
520: bending part
530: base
540: prevention part
550: communication part
600: position control unit
610: grip part
620: threaded part
700: elastic part

Claims (11)

In the magnetic body fixing device for cutting the magnetic body,
A placement unit in which the magnetic body is aligned and arranged to support a lower side of the aligned magnetic body;
One side portion for supporting the magnetic body in contact with one side of the aligned magnetic body;
The other side of the magnetic body to support the other side of the magnetic body in contact with the other side of the aligned magnetic body at a position symmetrical with the one side; And
And a fixing part having a communication part formed in contact with the upper side of the aligned magnetic material to press the aligned magnetic material downward, fixing the aligned magnetic material, and allowing a cutting blade to move,
The other side portion is formed to be moved to one side or the other side along the longitudinal direction of the placement portion,
Further comprising a base portion in which the moving portion is formed in a recessed form along the longitudinal direction,
A part of the other side is located on the moving part,
The position control part which penetrates the base part and is threaded along the length direction abuts a part of the other side
The position control unit is capable of moving the other side to one side or the other side according to a set operation
Magnetic body fixing device, characterized in that. The method of claim 1,
The one side
A hole communicating with the communication part of the fixed part is formed
Magnetic body fixing device, characterized in that. The method of claim 1,
The one side
A connection portion formed including an extension portion extending in one direction and a bent portion bent in one direction in the extension portion,
One end of the fixing part is surrounded by the extension part and the bent part, and is connected to the one side part.
Magnetic body fixing device, characterized in that. The method of claim 1,
A cutting groove is formed along the longitudinal direction in the arrangement part.
Magnetic body fixing device, characterized in that. The method of claim 4,
The cutting groove is formed at a position opposite to the communication part of the fixing part
Magnetic body fixing device, characterized in that. delete delete The method of claim 1,
The other side
A hole communicating with the communication part of the fixed part is formed
Magnetic body fixing device, characterized in that. The method of claim 1,
The fixing part
Including a length portion having a length longer than the sum of the length of the arrangement portion and the length of the other side portion at least
What can be brought into contact with the upper side of the aligned magnetic body and the upper side of the other side
Magnetic body fixing device, characterized in that. The method of claim 9,
On one side of the length part, a prevention part for preventing the movement of the magnetic material is formed by a set length
Magnetic body fixing device, characterized in that. The method of claim 1,
At least one side surface of the placement unit may further include a side portion supporting the side surface of the aligned magnetic material.
Magnetic body fixing device, characterized in that.

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