KR101079426B1 - Apparatus for guiding a rolled material - Google Patents

Abstract

Disclosed is a rolled material guide device which can prevent the inflow of crops cut in a cutter and pinch the guided rolled material so that the rolled material can be stably cut during cutting of the rolled material.

The rolled material guide device is provided on the exit side of the cutter is provided to guide the progress rolling material and is provided with a guide body configured to be foldable, and provided on one side of the guide body, opening and closing one side of the guide body when folding the guide body A pair of opening / closing members configured to be disposed in front of the guide body, the sensing sensor detecting the inflow of the rolled material, and connected to the guide body and connected to the control unit to fold the guide body according to the signal of the sensing sensor. It comprises a drive unit configured.

According to such a rolled material guide device, it is possible to prevent the inflow of the crop cut in the cutter through the opening and closing member provided in the guide body to be folded, and also provided in the guide body when the guide body is unfolded to open the mouth of the guide body Rolled material is pinched by the opening and closing member which is to be cut the rolled material stably during cutting of the rolled material.

Rolled material, wire rod, guide, opening and closing

Description

Rolling material guide device {APPARATUS FOR GUIDING A ROLLED MATERIAL}

The present invention relates to a rolled material guide device, and more particularly, to a rolled material guide device for guiding a rolled material in which a tip of the rolled material is cut in a subsequent process.

In general, the wire rolling process is a series of rolling processes as shown in Figure 1 after heating the billet material having a cross section of 160 × 160 mm in the heating furnace to 940 ~ 1200 ℃ that can be rolled wire according to the steel type of the billet Is done through.

Looking at this in more detail, the wire rolling process first consists of a continuous rolling fixed tablet of the rough rolling section 10, the intermediate rough rolling section 20, the intermediate finishing rolling section 30, the finishing rolling section 40.

In general, wire rods of 5.5 to 4.2 mm in diameter are produced through the continuous rolling process described above. Thereafter, wire rod products are produced through processes such as cooling, winding, and heat treatment.

The rough rolling unit 20 is a process of rolling the billet extracted from the heating furnace through a plurality of rolling mills, the heated billet through the rough rolling unit 20 is a rolled material (S) of 95 ~ 100 mm do.

Rolling material (S) passed through the rough rolling portion 10 is a cutting machine 50, the front end (head) and tail (tail) is cut to a predetermined length. That is, the rolled material S is subjected to a crop cutting process in which the tip and tail portions of the rolled material S are cut to a predetermined length.

This is because the shape of the front end portion and the tail portion of the rolled material S is lost due to heat transfer while passing through the rough rolling portion 10, thereby deforming the shape.

Since the rolling material (S) in the intermediate rough rolling unit 20 is passed through a plurality of rolling mills are rolled into a rolling material (S) of 29 ~ 42 mm in diameter. The rolled material S rolled to a diameter of 29 to 42 mm is subjected to a cropping process in which the tip and tail portions are cut to a predetermined length in the cutter 60 for the above reason.

Subsequently, the rolled material S becomes a wire rod having a diameter of 5.5 to 42 mm through numerous rolling of the intermediate filament rolling part 30 and the filament rolling part 40.

In this wire rod rolling process, a cobble phenomenon in which the rolled material S leaves the pass-line occurs intermittently due to the process characteristics of continuously performing a rolling process. 50, 60) by crop-chopping the entire length of the rolled material to reduce the release of the rolled material (S) from the progress line.

And if any one of the facilities of the wire rod rolling process is a problem in the facility, or can no longer perform wire rod rolling, the electric field of the rolled material (S) in the cutter (50, 60) by crop-chopping treatment After removal, the next rolled material (S) is to be subjected to rough rolling and intermediate rough rolling operations.

As shown in FIG. 2, the cutters 50 and 60 provided in the conventional wire rod rolling process are rotary-shear, respectively, to the rotating cutter bodies 52a and 52b and 62a and 62b, respectively. Four crop-chopping braids 54 and 64 and one crop-cutting braid 56 and 66 are fixedly installed, respectively. Then, the two cutter bodies 52a, 52b, 62a, 62b form a pair to cut the rolled material S.

Crop-cutting braids 56 and 66 of the cutters 50 and 60 are located on the first traveling line P1 of the rolled material S to crop-cut the front and tail portions of the rolled material S. crop-cutting).

In addition, the crop-chopping braids 54 and 64 of the cutters 50 and 60 are located on the second traveling line P2 of the rolled material S to crop-chop the rolled material S to a predetermined length. (crop-chopping)

On the other hand, behind the cutters 50 and 60, a rolled material guide 70 serving as a guide is disposed in order to transfer the rolled material S cut at the tip portion to a subsequent process. By the way, the rolled material guide 70 should be spaced apart from the cutters 50 and 60 by a certain distance for the rotation of the cutters 50 and 60 and the drop of the crop cut from the rolled material S. .

In addition, since the rolled material S maintains a heated state, the rolled material S may sag due to its own weight, and left and right tipping may occur.

As described above, it should be spaced apart from the cutters 50 and 60, and rolled to compensate for the linearity defects of the rolled material S due to deflection or left and right tilting occurring in the rolled material S. The mouth side of the material guide 70 should be formed to have a wide inlet in order to easily guide the rolled material (S).

However, when the rolled material S is abnormally cut in the cutters 50 and 60, there is a problem that the cut rolled material S, that is, the crop is introduced into the rolled material guide 70.

In other words, depending on various conditions such as rolling speed, steel grade, temperature, cutting length, running line, and the rotational speed of the cutters 50 and 60 and the moving speed of the rolling material S, the cutting machine 50 The rolled material S cut by the abrasion of the crop-chopping braids 54 and 64 and the crop-cutting braids 52 and 62 provided at 60 may be introduced into the rolled material guide 70. Can be.

In this case, when the following rolling material S enters the inside of the rolling material guide 70, the traveling direction of the rolling material S is changed by the crop accommodated in the rolling material guide 70, or the crop is rolled material. Proceeding with (S), there is a problem that the rolled material (S) tangled cobbles are generated due to being stuck between the rolling rollers (not shown) disposed behind the rolled material guide 70.

On the other hand, when the rolled material (S) tangled cobbles are generated, the production line must be stopped, as well as to remove the crop accommodated inside the rolled material guide 70, this removal operation is a risk of causing a safety accident There is a problem.

In addition, when such a coble is generated, there is a problem that the productivity of the wire rod is lowered.

An object of the present invention is to provide a rolled material guide device that can prevent the introduction of the crop cut in the cutter.

In addition, an object of the present invention is to provide a rolled material guide device for pinching the guided rolling material to be stably cut when the rolling material is cut.

The rolled material guide device is provided on the exit side of the cutter is provided to guide the progress rolling material and is provided with a guide body configured to be foldable, and provided on one side of the guide body, opening and closing one side of the guide body when folding the guide body A pair of opening / closing members configured to be disposed in front of the guide body, the sensing sensor detecting the inflow of the rolled material, and connected to the guide body and connected to the control unit to fold the guide body according to the signal of the sensing sensor. It comprises a drive unit configured.

The guide body may include an upper guide body and a lower guide body coupled to the upper guide body to form an outer shape of the guide body and rotatably provided on the upper guide body.

The drive unit includes a drive source provided adjacent to the guide body, one side is connected to the drive source, the other side is connected to the guide body to fold the guide body, and the drive member to be interlocked with the drive member Is connected to, one side may be rotatably installed on the upper end of the guide body and the other side is fixed to the lower end of the guide body may be provided with a connecting member provided to fold the guide body.

The upper and lower guide bodies may include mounting holes to which the opening and closing members are mounted, and the mounting holes may be provided with elastic members provided to mitigate impacts when the opening and closing members collide with each other.

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The opening and closing member may be configured as a guide roller that the rolling material is guided in contact with the rolling material progress through the guide body.

According to the present invention, through the opening and closing member provided in the guide body to be folded there is an effect that can prevent the inflow of the crop cut in the cutter.

In addition, when the guide body is opened so that the mouth of the guide body is opened, the rolled material is pinched by the opening and closing member provided in the guide body, so that the rolled material can be stably cut when the rolled material is cut.

Hereinafter, a rolling material guide device according to an embodiment of the present invention will be described with reference to the drawings.

Figure 3 is a block diagram showing a rolling process is installed rolling material guide device according to an embodiment of the present invention, Figure 4 is a block diagram showing a rolled material guide device according to an embodiment of the present invention.

3 and 4, the rolled material guide device 100 includes, for example, a guide body 120, an opening / closing member 140, a driving unit 160, and a detection sensor 180.

Guide body 120 is disposed on the exit side of the cutter 50 is provided to guide the progress rolling material, it can be configured to be foldable. In addition, the guide body 120 may have a larger cross-sectional area at the inlet side than a cross-sectional area at the outlet side. That is, the guide body 120 may be formed to be tapered.

Meanwhile, the guide body 120 may include an upper guide body 122 and a lower guide body 124.

The upper guide body 122 forms a half of the guide body 120 and may include a mounting hole 132 on which one of the opening members 140 is mounted. On the other hand, the mounting hole 132 may be provided with a mounting groove 132a so that both ends of the opening and closing member 140 can be inserted and coupled, the elastic member 133 may be mounted in the mounting groove 132a.

In addition, the other side of the upper guide body 122 may be provided with a coupler 134 to which the lower guide body 124 is coupled.

The lower guide body 124 is combined with the upper guide body 122 to form an outer shape of the guide body 120, and can be folded and provided in the upper guide body 122 to be rotatable.

On the other hand, one side of the lower guide body 124 may be provided with a mounting opening 136 is mounted on the opening and closing member 140, the mounting opening 136 is mounted so that both ends of the opening and closing member 140 can be inserted and coupled. The groove 136a may be provided. In addition, the elastic member 137 may be mounted in the mounting groove 136a.

In addition, the lower guide body 124 may include a coupling counterpart 138 coupled to the coupling hole 134 of the upper guide body 122. Accordingly, the lower guide body 124 may be pivoted about the coupler 134 and the coupling counterpart 138 to be folded to the upper guide body 122.

Opening and closing member 140 is provided on one side of the guide body 120, opening and closing one side of the guide body 140 when the folding of the guide body 120 or rolled material during the progress of the rolling material through the guide body 120 It may be configured to guide the contact.

On the other hand, the opening and closing member 140 may be composed of a guide roller that the rolling material is contact guide.

In addition, the opening and closing member 140 may be disposed to face each other, and include a first opening and closing member 142 mounted to the upper guide body 122 and a second opening and closing member 144 mounted to the lower guide body 124. Can be.

The first opening / closing member 142 may include an insertion mounting portion 142a inserted into and coupled to the mounting opening 132 provided in the upper guide body 122. That is, the insertion mounting portion 142a is inserted and coupled to the mounting groove 132a of the mounting hole 132 so that the first opening / closing member 142 may be provided at one side of the upper guide body 122.

On the other hand, the insertion mounting portion 142a may be provided with a departure prevention jaw (142b) for preventing the departure from the mounting groove (132a).

In addition, one side of the elastic member 133 installed in the mounting hole 132 provided in the upper guide body 122 is supported by the mounting groove 132a and the other side is supported by the insertion mounting portion 142a. Accordingly, the elastic member 133 can mitigate the impact generated during the collision between the first and second opening and closing members 142 and 144.

The second opening / closing member 144 may include an insert mounting portion 144a inserted into and coupled to the mounting opening 136 provided in the lower guide body 124. That is, the insert mounting portion 144a is inserted and coupled to the mounting groove 136a of the mounting hole 136.

In addition, one side of the elastic member 137 installed in the mounting hole 136 provided in the lower guide body 124 is supported by the mounting groove 136a and the other side is supported by the insert mounting portion 144a to open and close the first and second openings. The impact generated when the members 142 and 144 collide with each other can be alleviated.

The driving unit 160 is connected to the guide body 120 may be configured to fold the guide body 120. To this end, the driving unit 160 may include a driving source 162, a driving member 164, and a connecting member 166.

The driving source 162 may be provided adjacent to the guide body 120. That is, the driving source 162 may be installed in a frame (not shown) in which the rolled material guide device 100 is installed.

In the present embodiment, the driving source 162 is described as a cylinder, but the present invention is not limited thereto. The driving source 162 may be a motor.

One side of the driving member 164 may be connected to the driving source 162, and the other side may be connected to the guide body 120 to fold the guide body 120. That is, the other side of the drive member 164 is rotatably coupled to the upper guide body 122, the drive member 164 may be rotated when the rod of the drive source 162 is elevated.

The connecting member 166 is connected to the driving member 164 to interlock with the driving member 164. In addition, the connection member 166 may be provided so that one side is rotatably installed at the upper end of the guide body 120 and the other side is fixedly installed at the lower end of the guide body 120.

That is, the connection member 166 is rotatably installed on one side of the upper guide body 122, the other side is fixed to the lower guide body (124). On the other hand, one side of the connecting member 166 is connected to the driving member 164, when the driving member 164, the connecting member 166 is also rotated with the driving member 164.

As a result, the lower guide body 124 in which the connecting member 166 is fixed due to the rotation of the connecting member 166 may be pivoted about the coupling counterpart 138 to be folded to the upper guiding body 122.

Meanwhile, in the present embodiment, the driving unit 160 folding the guide body 120 includes a driving source 162, a driving member 164, and a connecting member 166, but is not limited thereto. The drive unit 160 may employ any configuration that can fold the guide body 120. That is, the drive unit 160 may be made of a motor and a plurality of gears to fold the guide body 120.

In addition, the driving unit 160 may be connected to a controller (not shown).

The sensor 180 may be disposed in front of the guide body 120 to detect the inflow of the rolled material. That is, the sensor 180 may be installed in a frame (not shown) in which the rolled material guide device 100 is installed, and may be disposed between the cutters 50 and 60 and the guide body 120.

On the other hand, the sensor 180 may be connected to a control unit (not shown), and when detecting the rolled material may transmit a signal to the control unit. Accordingly, the control unit drives the driving unit 160 to guide the rolled material in which the guide body 120 is unfolded and guided.

In addition, the control unit detects this when the cutters 50 and 60 are driven, and may drive the driving unit 160 to fold the guide body 120.

As described above, through the folding guide body 120 and the opening and closing member 140 mounted on the mouth of the guide body 120, the cut rolled material, that is, the crop is cut into the guide body 120 when cutting the rolled material Inflow can be prevented.

In addition, when the rolled material is guided, since the opening and closing member 140 may contact the rolled material to guide the rolled material, cutting of the tail of the rolled material may be more stably cut.

Hereinafter, with reference to the drawings will be described the operation of the rolling material guide device according to an embodiment of the present invention.

5 and 6 is an operation diagram for explaining the action of the rolling material guide device according to an embodiment of the present invention.

5 and 6, when the first sensor 180 detects the progress of the rolled material, the driving unit 160 is driven to unfold the guide body 120. Accordingly, the inlet side of the guide body 120 is open.

At this time, the rolling material is pinched by the opening and closing member 140 mounted on the guide body 120. That is, the rolling material is in contact with the first opening and closing member 142 and the second opening and closing member 144 is guided.

Meanwhile, elastic members 133 and 137 may be connected to ends of the first opening / closing member 142 and the second opening / closing member 144 to guide the rolling material without generating a pressing mark on the rolling material.

In addition, when the tail portion of the rolled material is advanced, the rolled material is pinched by the first and second opening and closing members 142 and 144, so that the rolled material may be more stably cut by the cutter 50.

Then, when crop-chopping the rolled material in the cutter 50, the drive unit 160 is driven by a controller (not shown). That is, the rod of the driving source 162 is lowered, and the driving member 164 and the connecting member 166 are rotated accordingly. As a result, the lower guide body 124 of the guide body 120 is rotated according to the rotation of the connecting member 166.

In other words, the guide body 120 is folded according to the rotation of the lower guide body 124.

At this time, the first opening and closing member 142 and the second opening and closing member 144 mounted on the upper and lower guide bodies 122 and 124 close the inlet side of the guide body 120. Accordingly, the cut rolled material, that is, the crop may be prevented from flowing into the guide body 120.

Then, when the sensor 180 detects the progress of the rolled material, the guide body 120 is unfolded again.

As described above, it is possible to prevent the inflow of the crop cut in the cutter 50 through the opening and closing member 140 provided in the guide body 120 to be folded.

In addition, when the guide body 120 is opened so that the mouth side of the guide body 120 is opened, the rolled material is pinched by the opening / closing member 140 provided on the guide body 120, so that the rolled material is stably cut when the rolled material is cut. Can be cut.

In the above description of the configuration and features of the present invention based on the embodiment according to the present invention, the present invention is not limited thereto, and various changes or modifications can be made within the spirit and scope of the present invention. As will be apparent to those skilled in the art, such changes or modifications fall within the scope of the appended claims.

1 is a process chart showing a wire rod rolling step.

Figure 2 is a block diagram showing a rolling material guide device according to the prior art.

Figure 3 is a block diagram showing a rolling process is installed rolling material guide apparatus according to an embodiment of the present invention.

Figure 4 is a block diagram showing a rolling material guide device according to an embodiment of the present invention.

5 is an operation showing the action of the rolling material guide device according to an embodiment of the present invention.

Figure 6 is an operation showing the action of the rolling material guide device according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: rolled material guide device

120: guide body

140: opening and closing member

160: drive unit

180: detection sensor

Claims (6)

A guide body disposed on the exit side of the cutter and provided to guide the progress rolling material, the guide body being foldable; A pair of opening and closing members provided at one side of the guide body and configured to open and close one side of the guide body when the guide body is folded; A detection sensor disposed at the front of the guide body to detect the inflow of the rolled material; And A driving unit connected to the guide body and connected to the control unit, the driving unit configured to fold the guide body according to a signal of the detection sensor; Rolled material guide device comprising a. The method of claim 1, wherein the guide body Upper guide body; And A lower guide body coupled to the upper guide body to form an outer shape of the guide body, the lower guide body being rotatably provided on the upper guide body; Rolled material guide device having a. The method of claim 1, wherein the drive unit A driving source provided adjacent to the guide body; A driving member having one side connected to the driving source and the other side connected to the guide body to fold the guide body; And A connecting member connected to the driving member so as to be interlocked with the driving member, one side of which is rotatably installed on the upper end of the guide body and the other side of which is fixedly installed on the lower end of the guide body; Rolled material guide device having a. The method of claim 2, The upper and lower guide body is provided with a mounting hole for mounting the opening and closing member, Rolling material guide device is provided with the elastic member to mitigate the impact during the collision between the opening and closing member. delete The method of claim 1, wherein the opening and closing member Rolling material guide device consisting of a guide roller that the rolled material is in contact guide when the rolled material proceeds through the guide body.

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