KR102262564B1 - Manufacturing system and method of metal fiber - Google Patents

Abstract

The present invention provides a metal fiber manufacturing system including a metal supply device for supplying a metal round bar, a heating device for heating the metal round bar supplied by the metal supply device, a rotating body arranged under the heating device to extract the melted metal round bar into the form of fiber, a monitoring device for monitoring the metal round bar, and a control device for controlling the metal supply device or the heating device or the rotating body according to monitoring results of the monitoring device. According to the present invention, metal fiber can be manufactured stably and smoothly.

Description

Metal fiber manufacturing system and metal fiber manufacturing method

The present invention relates to a system and method for manufacturing metal fibers in a fiber state that are thin and soft enough to simply make cloths such as clothes from metal.

1 schematically shows a general metal fiber manufacturing apparatus.

Referring to FIG. 1 , the metal fiber manufacturing apparatus melts the metal 20 in the form of a round bar through the heating device 11 , and the molten portion ( 21) is finely divided to produce a metal fiber.

However, the metal fiber may not be smoothly manufactured depending on control factors such as the metal supply speed, that is, the downward feeding speed of the metal, the heating temperature of the heating device, and the rotation speed of the rotating body. That is, the metal fiber may be excessively manufactured or insufficiently manufactured according to the fast or slow input of the metal, excessive melting or micro-melting according to the heating temperature, or the fast or slow speed of the rotating body.

The matters described in the above background art are intended to help the understanding of the background of the invention, and may include matters that are not already known to those of ordinary skill in the art to which this technology belongs.

Korean Patent Publication No. 10-0178643 Korean Patent Publication No. 10-2144459 Korean Patent Publication No. 10-2136140

The present invention has been devised to solve the above-described problems, and an object of the present invention is to provide a metal fiber manufacturing system and manufacturing method capable of stably and smoothly manufacturing metal fibers.

Metal fiber manufacturing system according to an aspect of the present invention is a metal supply device for supplying a metal round bar, a heating device for heating the metal round bar supplied by the metal supply device, the metal is disposed below the heating device and melted A rotating body for extracting a round bar in the form of a fiber, a monitoring device for monitoring the metal round bar, and a control device for controlling the metal supply device or the heating device or the rotating body according to the monitored result by the monitoring device.

And, the control device, if the length from the end of the metal round bar to the reference height is less than the reference length, the metal supply device increases the speed at which the metal round bar is supplied, and increases the heating temperature of the heating device, and , characterized in that it reduces the speed of the rotating body.

Or, the control device, if the length from the end of the metal round bar to the reference height is greater than the reference length, the metal supply device reduces the speed at which the metal round bar is supplied, and reduces the heating temperature of the heating device, It is characterized in that the speed of the rotating body is increased.

And, the control device, when the radius of curvature of the molten portion of the metal round bar is smaller than the reference radius of curvature, the metal supply device reduces the speed at which the metal round bar is supplied, increases the heating temperature of the heating device, and the It is characterized in that the speed of the rotating body is reduced.

In addition, the control device, if the radius of curvature of the molten portion of the metal round bar is larger than the reference radius of curvature, the metal supply device reduces the speed at which the metal round bar is supplied, and reduces the heating temperature of the heating device, the rotation It is characterized by increasing the overall speed.

Next, in the metal fiber control method according to an aspect of the present invention, in the control device of the metal fiber manufacturing system of claim 1, the length from the end of the metal round bar to the reference height is the same as the reference length, and the melting of the metal round bar determining whether the negative radius of curvature is equal to the reference radius of curvature, and the length from the tip of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the molten portion of the metal round bar is greater than the reference radius of curvature, or When the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is the reference length and determining whether the radius of curvature of the molten portion of the metal round bar is larger than the reference radius of curvature.

And, if the length from the end of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the end of the metal round bar to the reference height is the It is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference If it is greater than the radius of curvature, it may further include the step of increasing the speed of supplying the metal round bar of the metal supply device.

In addition, if the length from the end of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the end of the metal round bar to the reference height is the above It is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference If it is not greater than the radius of curvature, it may further include reducing the speed of supplying the metal round bar of the metal supply device.

Or, if the length from the tip of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is the It is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference If it is larger than the radius of curvature, the method may further include reducing the heating temperature of the heating device.

In addition, if the length from the end of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the end of the metal round bar to the reference height is the above It is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference If it is not greater than the radius of curvature, the method may further include increasing the heating temperature of the heating device.

Or, if the length from the tip of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is the It is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference If it is greater than the radius of curvature, it may further include the step of increasing the rotational speed of the rotating body.

Or, if the length from the end of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the end of the metal round bar to the reference height is the It is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference If it is not greater than the radius of curvature, the method may further include reducing the rotational speed of the rotating body.

According to the metal fiber manufacturing system and manufacturing method of the present invention, by appropriately controlling the supply speed of the metal round bar, the heating temperature of the heating device, and the rotational speed of the rotating body by the control device, the metal fiber can be smoothly and without interruption. do.

1 schematically shows a general metal fiber manufacturing apparatus.
Figure 2 schematically shows a metal fiber manufacturing system according to the present invention.
3 shows a monitoring image by the metal fiber manufacturing system of the present invention.
4a to 4e show the shape of the molten portion of the metal round bar to explain the method for manufacturing the metal fiber of the present invention.
5 shows a method for manufacturing a metal fiber according to a first embodiment of the present invention.
6 illustrates a method for manufacturing a metal fiber according to a second embodiment of the present invention.
7 illustrates a method for manufacturing a metal fiber according to a third embodiment of the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

In describing preferred embodiments of the present invention, well-known techniques or repetitive descriptions that may unnecessarily obscure the gist of the present invention will be reduced or omitted.

2 schematically shows a metal fiber manufacturing system according to the present invention, and FIG. 3 shows a monitoring image by the metal fiber manufacturing system of the present invention.

Hereinafter, a metal fiber manufacturing system according to an embodiment of the present invention will be described with reference to FIGS. 2 and 3 .

The metal fiber manufacturing system according to an embodiment of the present invention is to control each device to enable smooth manufacturing of metal fibers.

The device for manufacturing the metal fiber is a metal supply device (not shown) for supplying the metal round bar 20, a heating device 11 for heating the supplied metal round bar 20, the heating device 11 is disposed below the melting It includes a rotating body 12 for extracting the metal round bar 20 to be in the form of a fiber.

The metal feeding device feeds the metal round bar 20 downward at a predetermined speed, thereby causing the metal round bar 20 to pass through the heating device 11 .

The heating device 11 is formed with an inlet through which the metal round bar 20 passes, and heats the round metal bar 20 passing through the inlet.

Then, the molten portion 21 corresponding to the tip of the metal round bar 20 is melted and stretched, and the rotating body 12 is rotated in the form of a disk whose outer periphery is formed of a metal blade, etc., and the rotating body ( 12) comes into contact with the molten portion 21 and is extracted in the form of fibers.

The present invention further comprises a chamber (1), a sight glass (2), a monitoring device (13), a control device (14) for controlling the metal supply device, the heating device (11), the rotating body (12), and heating A plurality of the device 11, the rotating body 12 and the metal round bar 20 may be arranged side by side.

As shown in FIGS. 2 and 3 , a metal round bar 20 , a heating device 11 , a rotating body 12 , etc. are disposed in the chamber 1 , and a sight glass 2 is provided so that the inside of the chamber 1 can be photographed. It is formed on one side of the chamber (1), and the monitoring device (13) is configured to monitor the inside of the chamber (1) through the sight glass (2).

Manufacturing speed, quality, etc. of the metal fiber vary depending on the supply speed of the metal round bar, the heating temperature of the heating device, and the rotational speed of the rotating body, and the present invention is controlled through the information monitored by the monitoring device 13 . Controlling this by means of the device 14 ensures that the metal fibers are produced smoothly and consistently.

Figures 4a to 4e show the shape of the molten portion of the metal round bar of various types in order to explain this. Here, h is the length from the tip of the round metal bar to the reference height, and r is the radius of curvature of the fusion part of the round metal bar.

4A is a reference metal round bar 31 corresponding to the control target, wherein the length from the end of the round metal bar 31 to the reference height is h1, and the radius of curvature of the molten portion is r1.

4b of the metal round bar 32 is a state in which h2 is smaller than h1, in this case, it is preferable to increase the metal supply rate, increase the heating temperature, and control the rotating body speed to be low.

The metal round bar 33 of Figure 4c is a state in which h3 is greater than h1, in this case, it is preferable to lower the metal supply rate, lower the heating temperature, and control the rotating body speed to be high.

The metal round bar 34 of FIG. 4d is a state in which r2 is smaller than r1. In this case, it is preferable to lower the metal supply rate, increase the heating temperature, and control the rotating body speed to be low.

And, the metal round bar 35 of Figure 4e is in a state where r3 is greater than r1, in this case, it is preferable to lower the metal supply rate, lower the heating temperature, and control the rotating body speed to be high.

The metal fiber manufacturing method of the present invention controls the metal supply rate, the heating temperature and the rotational speed according to the monitored state for the above control.

5 is a metal fiber manufacturing method according to a first embodiment of the present invention, FIG. 6 is a metal fiber manufacturing method according to a second embodiment of the present invention, and FIG. 7 is a metal fiber manufacturing method according to a third embodiment of the present invention. will show

First, let the metal supply speed by the metal supply device be FS, the speed of the rotating body RS, and the heating temperature of the heating device be T, the height of the molten part, that is, the reference length from the tip of the metal round bar to the reference height is h, the operating length Let h' be h', the end reference length be h'', the reference radius of curvature of the fusion zone is r, and the running radius is r'.

5 is control of the metal supply rate, as a result of monitoring by the monitoring device 13 of the manufacturing system of the present invention, the control device 14 determines whether h'=h and r'=r (S11).

That is, if the length (h') from the tip of the round metal bar to the reference height during operation is the same as the reference length (h) and the radius of curvature (r) of the molten part is the same as the reference radius of curvature (r'), the metal fiber normally meets the standard goal. is in the manufacturing state.

So, in S12, it is determined whether h' is equal to the end reference length of h'', and if not, it is determined again in S11 to continue manufacturing the metal fiber, and in the same case, it is terminated.

If it is determined in S11 that h' is different from h or r' is different from r, S13 is determined.

That is, when h' is the same as h but r'>r, or when h' is greater than h and r'=r, or when h' is greater than h and r'>r, control the metal supply device to 20) to reduce the feed rate FS (S15).

On the other hand, if not, that is, when h' is less than h or r' is less than r, the supply rate FS of the metal round bar 20 is increased by controlling the metal supply device (S14).

Next, as the control of the heating temperature in FIG. 6 , as a result of monitoring by the monitoring device 13 of the manufacturing system of the present invention, the control device 14 determines whether h′=h and r′=r (S11).

That is, if the length (h') from the tip of the round metal bar to the reference height during operation is the same as the reference length (h) and the radius of curvature (r) of the molten part is the same as the reference radius of curvature (r'), the metal fiber normally meets the standard goal. is in the manufacturing state.

So, in S12, it is determined whether h' is equal to the end reference length of h'', and if not, it is determined again in S11 to continue manufacturing the metal fiber, and in the same case, it is terminated.

If it is determined in S11 that h' is different from h or r' is different from r, S13 is determined.

That is, h' is the same as h, but when r'>r, or when h' is greater than h and r'=r, or when h' is greater than h and r'>r, control the heating device 11 to heat The temperature T is decreased (S25).

On the other hand, if not, that is, when h' is smaller than h or r' is smaller than r, the heating device 11 is controlled to increase the heating temperature T (S24).

Next, Figure 7 is a control of the rotational speed, the monitoring result by the monitoring device 13 of the manufacturing system of the present invention, the control device 14 determines whether h' = h and r' = r (S11) .

That is, if the length (h') from the tip of the round metal bar to the reference height during operation is the same as the reference length (h) and the radius of curvature (r) of the molten part is the same as the reference radius of curvature (r'), the metal fiber normally meets the standard goal. is in the manufacturing state.

So, in S12, it is determined whether h' is equal to the end reference length of h'', and if not, it is determined again in S11 to continue manufacturing the metal fiber, and in the same case, it is terminated.

If it is determined in S11 that h' is different from h or r' is different from r, S13 is determined.

That is, h' is the same as h, but when r'>r, or when h' is greater than h and r'=r, or when h' is greater than h and r'>r, control the rotating body 12 to rotate The speed RS is increased (S35).

On the other hand, if not, that is, when h' is smaller than h or r' is smaller than r, the rotating body 12 is controlled to reduce the rotational speed RS (S34).

As described above, according to the metal fiber manufacturing system and manufacturing method of the present invention, the metal fiber is produced by monitoring the radius of curvature of the molten part of the metal round bar and the height of the metal round bar and controlling the metal supply rate, heating temperature and speed of the rotating body accordingly. to make manufacturing run smoothly.

Although the present invention as described above has been described with reference to the illustrated drawings, it is not limited to the described embodiments, and it is common knowledge in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. self-evident to those who have Accordingly, such modifications or variations should be said to belong to the claims of the present invention, and the scope of the present invention should be interpreted based on the appended claims.

1: chamber 2: sight glass
11: heating device
12: rotating body
13: monitoring device
14: control unit
20, 31, 32, 33, 34, 35: metal round bar
21: melting part

Claims (12)

a metal supply device for supplying a metal round bar;
a heating device for heating the metal round bar supplied by the metal supply device;
a rotating body disposed below the heating device to extract the molten metal round bar in the form of fibers;
a monitoring device for monitoring the metal round bar; and
a control device for controlling the metal supply device or the heating device or the rotating body according to a result monitored by the monitoring device,
The control device, if the length from the end of the metal round bar to the reference height is less than the reference length, the metal supply device increases the speed at which the metal round bar is supplied, increases the heating temperature of the heating device, and the A system for manufacturing metal fibers, characterized in that reducing the speed of the rotating body. delete The method according to claim 1,
The control device is
If the length from the tip of the metal round bar to the reference height is greater than the reference length, the metal supply device reduces the speed at which the metal round bar is supplied, reduces the heating temperature of the heating device, and increases the speed of the rotating body characterized in that
Metal fiber manufacturing system. The method according to claim 1,
The control device is
When the radius of curvature of the fusion part of the metal round bar is smaller than the reference radius of curvature, the metal supply device reduces the speed at which the metal round bar is supplied, increases the heating temperature of the heating device, and reduces the speed of the rotating body characterized by,
Metal fiber manufacturing system. 5. The method according to claim 4,
The control device is
When the radius of curvature of the molten portion of the metal round bar is greater than the reference radius of curvature, the metal supply device reduces the speed at which the metal round bar is supplied, reduces the heating temperature of the heating device, and increases the speed of the rotating body characterized by,
Metal fiber manufacturing system. determining, by the control device of the metal fiber manufacturing system of claim 1, whether the length from the end of the metal round bar to the reference height is equal to the reference length, and the radius of curvature of the molten portion of the metal round bar is equal to the reference radius of curvature; and
When the length from the tip of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the molten portion of the metal round bar is greater than the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is the reference length If greater than and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference radius of curvature Including the step of determining whether the greater case,
Method for manufacturing metal fibers. 7. The method of claim 6,
If the length from the end of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the end of the metal round bar to the reference height is the reference length If greater than and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference radius of curvature If greater than, further comprising the step of increasing the speed of supplying the metal round bar of the metal supply device,
Method for manufacturing metal fibers. 8. The method of claim 7,
When the length from the tip of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the molten portion of the metal round bar is greater than the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is the reference length If greater than and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference radius of curvature If not greater than, further comprising the step of reducing the speed of supplying the metal round bar of the metal supply device,
Method for manufacturing metal fibers. 7. The method of claim 6,
If the length from the end of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the end of the metal round bar to the reference height is the reference length If greater than and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference radius of curvature If greater, further comprising the step of reducing the heating temperature of the heating device,
Method for manufacturing metal fibers. 10. The method of claim 9,
When the length from the tip of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the molten portion of the metal round bar is greater than the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is the reference length If greater than and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference radius of curvature If not greater than, further comprising the step of increasing the heating temperature of the heating device,
Method for manufacturing metal fibers. 7. The method of claim 6,
If the length from the end of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the fusion part of the metal round bar is greater than the reference radius of curvature, or the length from the end of the metal round bar to the reference height is the reference length If greater than and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference radius of curvature If greater than, further comprising the step of increasing the rotational speed of the rotating body,
Method for manufacturing metal fibers. 10. The method of claim 9,
When the length from the tip of the metal round bar to the reference height is the same as the reference length and the radius of curvature of the molten portion of the metal round bar is greater than the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is the reference length If greater than and the radius of curvature of the molten portion of the metal round bar is the same as the reference radius of curvature, or the length from the tip of the metal round bar to the reference height is greater than the reference length and the radius of curvature of the molten portion of the metal round bar is the reference radius of curvature If not greater than, further comprising the step of reducing the rotational speed of the rotating body,
Method for manufacturing metal fibers.

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