KR101271840B1 - Apparatus for measuring thermal expansion characteristics of roll - Google Patents

Abstract

Disclosed is a thermal expansion characteristic measuring apparatus for a rolling roll capable of measuring thermal expansion characteristics of a rolling roll.
An apparatus for measuring thermal expansion characteristics of a rolling roll according to an embodiment of the present invention includes: a mounting part 200 configured to be rotatably mounted with a rolling roll R; A heating part 300 positioned adjacent to the mounting part 200 and configured to heat a rolling roll R mounted on the mounting part 200; And measuring unit 400 provided in the mounting portion 200 and configured to measure the thermal expansion characteristics of the heated rolling roll (R); . ≪ / RTI >
By the above configuration, the present invention can measure the thermal expansion characteristics of the rolling rolls, can measure the surface temperature distribution of the heated hot rolling rolls, by measuring the surface shape of the heated hot rolling rolls By measuring the thermal expansion properties and using in the actual rolling process, the material can be rolled to a desired thickness, it can be used for the production of new rolling rolls.

Description

Apparatus for measuring thermal expansion of rolling rolls {APPARATUS FOR MEASURING THERMAL EXPANSION CHARACTERISTICS OF ROLL}

The present invention relates to a device for measuring thermal expansion characteristics of a rolling roll, and more particularly to heating the rolling roll while the rolling roll is rotated, and to determine the surface temperature distribution and surface shape of the heated rolling roll. The present invention relates to a device for measuring thermal expansion characteristics of a rolling roll capable of measuring thermal crowns.

Rolling is a processing method using the firing of a metal is a method of passing the metal material between two rolling rolls and processing into various forms such as plate, bar, tube, shape.

Such rolling is classified into hot rolling for heating the metal material and rolling in a high temperature state according to the temperature of the metal material to be rolled, and cold rolling for rolling at room temperature without heating the metal material.

Hot rolling has the advantage that the power required for rolling does not have to be large and deformation is easily performed. However, there is a disadvantage that the surface of the rolled material is not clean due to oxidation of the metal material due to the high temperature, the dimensional accuracy is not good, and it cannot be rolled to a thin thickness.

On the other hand, cold rolling has a disadvantage in that power required for rolling must be large and deformation is not easily performed, but the surface of the rolled material is clean and has good dimensional accuracy and can be rolled to a thin thickness.

On the other hand, magnesium among metal materials has a large stretching effect by heat. The material made of magnesium is rolled using a hybrid rolling roll in which a plurality of pipes through which water and the like flow are inserted to make the temperature of the rolling roll constant. And the induction heating type heater is installed in the entrance side and exit side of this hybrid rolling roll, for example.

With this configuration, the magnesium material first proceeds in the forward direction and is heated by a heater installed at the entrance side, then rolled by a hybrid rolling roll and heated by a heater installed at the exit side. Thereafter, the magnesium material proceeds in the reverse direction and is rolled by a hybrid rolling roll and heated by a heater installed at the mouth side. The magnesium material is rolled repeatedly by such heating and rolling.

By this rolling method, the magnesium material is heated to about 250 ° C., and the hybrid rolling roll for rolling the magnesium material is also heated to about 250 ° C. by heat transfer from the magnesium material.

As a result, the hybrid rolling rolls are thermally expanded. The information on the degree of thermal expansion of the hybrid rolling rolls should be known so that the material can be rolled to a desired thickness by using it in the actual rolling process. Moreover, it can use for manufacture of a new rolling roll.

However, conventionally, there is a problem that there is no device capable of measuring the thermal expansion characteristics of the rolling roll including such a hybrid rolling roll.

The present invention is realized by recognizing at least any one of the above-mentioned conventional needs or problems.

One aspect of the object of the present invention is to be able to measure the thermal expansion characteristics of the rolling rolls.

Another aspect of the object of the present invention is to measure the surface temperature distribution of a heated hot rolling roll.

Another aspect of the object of the present invention is to measure the hot crown by measuring the surface shape of the heated hot rolling rolls.

Another aspect of the object of the present invention is to measure the thermal expansion characteristics of the rolling roll to be used in the actual rolling process to be able to roll the material to a desired thickness.

Another aspect of the object of the present invention is to measure the thermal expansion characteristics of the rolling roll to be used in the production of a new rolling roll.

An apparatus for measuring thermal expansion characteristics of a rolling roll according to an embodiment for realizing at least one of the above problems may include the following features.

The present invention is basically based on being configured to be able to measure the thermal expansion characteristics of a rolling roll.

An apparatus for measuring thermal expansion characteristics of a rolling roll according to an embodiment of the present invention includes: a mounting portion configured to rotatably mount the rolling roll; A heating unit positioned adjacent to the mounting portion and configured to heat the rolling roll mounted to the mounting portion; And a measuring unit provided in the mounting unit and configured to measure thermal expansion characteristics of the heated rolling roll. It may include.

In this case, the measuring unit is a temperature measuring unit configured to measure the surface temperature distribution of the heated rolling roll; It may include.

The measuring unit may include a shape measuring unit configured to measure the surface shape of the heated rolling roll; It may include.

And, the mounting portion mounting base; A lower mounting member provided on the mounting base so that both sides of the rolling rolls are mounted, the supporting rolls rotatably supporting the rolling rolls to rotate; And an upper mounting member having one side rotatably connected to one side of the lower mounting member, and the other side detachably coupled to the other side of the lower mounting member, the supporting roll rotatably supporting the rolling roll; It may include.

In addition, the support roll provided in the lower mounting member may be connected to the rolling roll driving motor to rotate the rolling roll.

The heating unit may include a heating unit base; A heating head connected to the heating base by a support member; And a heating member provided in plurality in the heating head. It may include.

In addition, the temperature measuring unit is connected between the upper mounting member included in the mounting portion; A sensor support member movably connected to the connection member by a movement guide member; A plurality of temperature sensors movably provided at the sensor support member; And a moving cylinder connected to the connection member and the sensor support member to move the sensor support member. It may include.

The shape measuring unit includes a moving member provided between the lower mounting members included in the mounting unit. A sensor support member movably connected to the moving member; And a shape measuring sensor connected to the sensor support member. And a sensor moving motor connected to the moving member to move the sensor support member. It may include.

As mentioned above, according to the Example of this invention, the thermal expansion characteristic of a rolling roll can be measured.

In addition, according to the embodiment of the present invention, it is possible to measure the surface temperature distribution of the heated hot rolling rolls.

In addition, according to the embodiment of the present invention, the heat crown can be measured by measuring the surface shape of the heated hot rolling rolls.

In addition, according to an embodiment of the present invention, by measuring the thermal expansion characteristics of the rolling roll to be used in the actual rolling process to be able to roll the material to a desired thickness.

In addition, according to the embodiment of the present invention, the thermal expansion characteristics of the rolling rolls can be measured and used in the production of new rolling rolls.

1 is a perspective view showing an embodiment of a device for measuring thermal expansion characteristics of a rolling roll according to the present invention.
Figure 2 is a perspective view of the mounting portion and the measuring portion of the embodiment of the apparatus for measuring the thermal expansion characteristics of the rolling roll according to the present invention from a different direction than FIG.
3 is a perspective view showing a mounting portion and a measuring portion of an embodiment of the apparatus for measuring thermal expansion characteristics of a rolling roll according to the present invention, showing the mounting of the rolling roll on the mounting portion.
Figure 4 is a perspective view showing a temperature measuring part of the measuring unit of the embodiment of the thermal expansion characteristics measuring apparatus of the rolling roll according to the present invention.
5 is a perspective view showing a shape measuring unit of the measuring unit of the embodiment of the thermal expansion characteristic measuring apparatus of the rolling roll according to the present invention.
6 is a perspective view showing a heating unit of an embodiment of the apparatus for measuring thermal expansion characteristics of a rolling roll according to the present invention.

In order to help the understanding of the features of the present invention as described above, it will be described in more detail with respect to the thermal expansion characteristics measuring apparatus of the rolling rolls according to the embodiment of the present invention.

Hereinafter, exemplary embodiments will be described based on embodiments best suited for understanding the technical characteristics of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, It is to be understood that the present invention may be implemented as illustrated embodiments. Accordingly, the present invention may be modified in various ways within the technical scope of the present invention through the embodiments described below, and such modified embodiments fall within the technical scope of the present invention. In order to facilitate understanding of the embodiments to be described below, in the reference numerals shown in the accompanying drawings, among the constituent elements which perform the same function in each embodiment, the related constituent elements are indicated by the same or an extension line number.

Embodiments related to the present invention are basically based on being configured to measure the thermal expansion characteristics of the rolling rolls.

As shown in FIG. 1, the apparatus 100 for measuring thermal expansion characteristics of a rolling roll may include a mounting part 200, a heating part 300, and a measuring part 400.

Mounting unit 200 may be configured such that the rolling roll (R) is rotatably mounted. To this end, the mounting unit 200 may include a mounting unit base 210, lower mounting members 220 and 220 ′, and upper mounting members 230 and 230 ′ as shown in FIGS. 1 to 3.

Mounting base 210 may be movable because the wheel is provided as in the embodiment shown in Figures 1-3. The shape of the mounting base 210 is not particularly limited.

The lower mounting members 220 and 220 ′ may be provided in the mounting base 210 as shown in FIGS. 1 to 3. Lower mounting members (220, 220 ') may be mounted on both sides of the rolling roll (R), as shown in the embodiment shown. To this end, the lower mounting members (220, 220 ') may be rotatably provided with support rolls (221, 221') as shown in the illustrated embodiment. Two support rolls 221 and 221 'may be provided on the lower mounting members 220 and 220'. 1 and 2, the support rolls 221 and 221 'may be connected to the rolling roll driving motor 240. As shown in FIG. Therefore, when the rolling roll driving motor 240 is driven and the support rolls 221 and 221 'are rotated, the rolling roll R may be rotated. Thus, the rolling roll R can be heated by the heating part 300 mentioned later in the state which the rolling roll R rotates. Therefore, the rolling roll R can be heated evenly.

 One side of the upper mounting members 230 and 230 ′ may be rotatably connected to one side of the lower mounting members 220 and 220 ′ as shown in FIGS. 1 to 3. In addition, the other side of the upper mounting member (230,230 ') may be detachably coupled to the other side of the lower mounting member (220,220'). Therefore, in order to mount the rolling roll R, the other side of the upper mounting members 230 and 230 'is first separated from the other side of the lower mounting members 220 and 220'. Then, the upper mounting members 230 and 230 'are rotated to a position as shown in FIG. Then, after mounting both sides of the rolling roll (R) to the lower mounting members (220, 220 '), and rotates the upper mounting members (230, 230') to the position as shown in Figs. The other side of the upper mounting members 230 and 230 'is coupled to the other side of the lower mounting members 220 and 220'. Thereby, the rolling roll R can be easily attached.

The upper mounting members 230 and 230 'may also be rotatably provided with support rolls 231 and 231' as shown in FIGS. 1 to 3. As shown in the illustrated embodiment, one support roll 231 and 231 ′ may be rotatably provided on the upper mounting members 230 and 230 ′, respectively.

The support rolls 231 and 231 ′ of the upper mounting members 230 and 230 ′ may support the rolling roll R to rotate together with the support rolls 221 and 221 ′ of the lower mounting members 220 and 220 ′. In addition, according to such a configuration, the rolling roll R is merely positioned on the support rolls 221 and 221 'of the lower mounting members 220 and 220' and the support rolls 231 and 231 'of the upper mounting members 230 and 230'. Even without work, the temperature sensor 413 and the shape measuring sensor 423 of the shape measuring unit 420 included in the temperature measuring unit 410 of the measuring unit 400 to be described later are easily located at the measurement position of the rolling roll R. Can be located.

As illustrated in FIGS. 1 to 3, the upper mounting members 230 and 230 ′ may have a semicircular shape. Accordingly, the rolling roll R can be easily mounted. However, the shape of the upper mounting members 230 and 230 'is not particularly limited, and any shape can be used as long as the rolling roll R is easily mounted.

The heating part 300 may be positioned adjacent to the mounting part 200. And, the heating unit 300 may be configured to heat the rolling roll (R) mounted to the mounting portion 200. To this end, the heating unit 300 includes a heating unit base 310, a support member 320, a heating head 330, and a heating member 340, as shown in FIGS. 1 and 6. can do.

As shown in FIGS. 1 and 6, the heating unit base 310 may also be movable because the wheel is provided like the mounting base 210. The shape of such a heating unit base 210 is not particularly limited.

The support member 320 may be connected to the heating unit base 310 as shown in FIGS. 1 and 6. The shape of the support member 320 is not particularly limited, and any form may be used as long as the support member 320 is connected to the heating unit base 310 and the heating head 330 to be described later is connected.

As shown in FIGS. 1 and 6, the heating head 330 may be connected to the support member 320. The heating head 330 may be in the form corresponding to the rolling roll (R) as shown in the illustrated embodiment. Accordingly, as described below, the rolling roll R may be easily heated by the heating member 340 provided in the heating head 330. However, the shape of the heating head 330 is not particularly limited.

The heating member 340 may be provided in plurality in the heating head 330 as shown in FIGS. 1 and 6. The rolling roll R may be heated by the heating member 340. The heating member 340 may be, for example, a hot wire such as a KANTHAL wire. However, the heating member 340 is not limited to a heating wire such as a cantilever wire, and any known material can be used as long as the heating roll R can be heated.

In addition, the plurality of heating members 340 provided in the heating head 330 may be individually controlled. Therefore, the rolling roll R may be heated using some heating members 340 of the plurality of heating members 340. By such a structure, the thermal expansion characteristic of the rolling roll R at the time of rolling the raw material M of various width | variety, for example, wide or narrow width, can be measured.

The measuring unit 400 may be provided in the mounting unit 200. The measuring unit 400 may be configured to measure the thermal expansion characteristics of the heated rolling roll (R).

As illustrated in FIGS. 1 to 3, the measuring unit 400 may include a temperature measuring unit 410. The temperature measuring unit 410 may be configured to measure the surface temperature distribution of the heated rolling roll (R). To this end, the temperature measuring unit 410 may include a connection member 411, a sensor support member 412, a plurality of temperature sensors 413, and a moving cylinder 414, as shown in the embodiment shown in FIG. Can be.

The connection member 411 may be provided between the upper mounting members 230 and 230 ′ included in the mounting unit 200 as shown in FIGS. 1 and 2.

In addition, as shown in FIG. 4, the sensor support member 412 may be movably connected to the connection member 411 by the movement guide member 415.

The plurality of temperature sensors 413 may be provided to be movable on the sensor support member 412 as shown in FIG. 4. As shown in the illustrated embodiment, the plurality of temperature sensors 413 may be connected to the long hole formed in the sensor support member 412, and the other side thereof may be moved by being inserted into the long hole formed in the connection member 411. However, the configuration in which the plurality of temperature sensors 413 are movably provided in the sensor support member 412 is not limited to the illustrated embodiment, and is well known as long as the configuration is provided in which the plurality of temperature sensors 413 are movable. Any configuration is possible.

As shown in FIG. 4, the moving cylinder 414 may be connected to the connecting member 411 and the second washing support member 412. The sensor support member 412 may be moved by the moving cylinder 414. Accordingly, the temperature of the surface of the heated rolling roll R may be measured by bringing one end of the temperature sensor 413 into contact with the surface of the heated rolling roll R. FIG.

On the other hand, as in the embodiment shown in Figures 1 to 3, the measuring unit 400 may include a shape measuring unit 420. The shape measuring unit 420 may be configured to measure the surface shape of the heated rolling roll (R). To this end, the shape measuring unit 420 may include a moving member 421, a sensor support member 422, a shape measuring sensor 423, and a sensor moving motor 424 as in the embodiment illustrated in FIG. 5. Can be.

The moving member 421 may be provided between the lower mounting members 220 and 220 'included in the mounting part 200 as shown in FIGS. 1 to 3. The moving member 421 may be a conveying screw. However, the moving member 421 is not particularly limited and may be any type provided that the sensor supporting member 422 to be described later is movable.

As illustrated in FIG. 5, the sensor support member 422 may be movably connected to the moving member 421. As described above, if the moving member 421 is a transfer screw, the sensor support member 422 may be connected to the moving member 421 to be movable by rotation of the transfer screw. Accordingly, the surface shape of the rolling roll R heated by the shape measuring member 423 to be described later connected to the sensor support member 422 can be measured.

The sensor support member 422 may be movably connected to the moving member 421 as shown in FIG. 5. The sensor support member 422 may be in the form of '└┘' as shown in the illustrated embodiment. However, the shape of the sensor support member 422 is not particularly limited.

As shown in FIG. 5, the shape measuring sensor 423 may be connected to the sensor support member 422. The surface shape of the rolling roll R heated by the shape measuring sensor 423 can be measured. Thereby, the heat crown of the heated rolling roll R can be measured.

As shown in FIG. 5, the sensor support member 422 is in the form of '└┘', and two shape measuring sensors 423 may be connected to both ends of the sensor support member 422, respectively. Accordingly, the surface shape of one surface and the other surface of the heated rolling roll (R) can be measured at the same time, the measurement accuracy can be improved and the reproducibility of the measurement can be maintained.

On the other hand, the shape measuring sensor 423 for measuring the surface shape of the heated rolling roll (R) may be a laser displacement sensor. However, the shape measuring sensor 423 is not limited to the laser displacement sensor, and any known sensor can be used as long as it can measure the surface shape of the heated rolling roll R.

The sensor moving motor 424 may be connected to the moving member 421 as shown in FIG. 6. The sensor support member 422 may be moved along the rolling roll R by the sensor moving motor 424. As described above, if the moving member 421 is a conveying screw, the conveying screw is rotated by the driving of the sensor moving motor 424, and thus the sensor supporting member 422 may be moved. As described above, the surface shape of the rolling roll R heated by the shape measuring sensor 423 connected to the sensor support member 422 may be measured.

Hereinafter, the operation of the thermal expansion characteristic measuring apparatus 100 of the rolling roll according to the present invention will be described. First, as described above, the rolling roll R is mounted to the mounting unit 200 using equipment such as a crane (not shown). Then, the rolling roll driving motor 240 is driven to rotate the rolling roll (R).

Thus, the rolling roll R is heated by the heating part 300 in the state which the rolling roll R rotated, for example about 300 degreeC. When heating of the rolling roll R is complete | finished, rotation of the rolling roll R is stopped. Then, the moving cylinder 414 is operated so that the temperature sensor 413 is in contact with the heated rolling roll R to measure the surface temperature distribution of the heated rolling roll R.

Then, the sensor moving motor 424 is driven to move the sensor support member 422 connected to the shape measuring sensor 423 to measure the surface shape of the heated rolling roll R. Thereby, the heat crown of the heated rolling roll R can be measured.

Then, the thermal expansion characteristics of the heated rolling rolls R, ie, the surface temperature distribution of the heated rolling rolls R and the surface shape of the heated rolling rolls R, can be used in the actual rolling process. Thereby, the raw material can be rolled to a desired thickness. And it can use for manufacture of a new rolling roll.

As described above, by using the apparatus for measuring thermal expansion characteristics of a rolling roll according to the present invention, the thermal expansion characteristic of the rolling roll can be measured, and the surface temperature distribution of the heated hot rolling roll can be measured, The thermal crown can be measured by measuring the surface shape of the rolling rolls, and the thermal expansion characteristics can be measured and used in the actual rolling process to roll the material to a desired thickness, and can be used for the production of new rolling rolls.

The apparatus for measuring thermal expansion characteristics of the rolling roll described above is not limited to the configuration of the above-described embodiments, but the embodiments may be configured by selectively combining all or some of the embodiments so that various modifications can be made. It may be.

100: measuring device for thermal expansion characteristics of the rolling roll 200: mounting portion
210: mounting base 220,220 ': lower mounting member
221,221 ', 231,231': Support roll 230,230 ': Upper mounting member
240: rolling roll drive motor 300: heating part
310: heating part base 320: support member
330: heating head 340: heating member
400: measuring unit 410: temperature measuring unit
411: connecting member 412, 422: sensor supporting member
413: temperature sensor 414: moving cylinder
415: moving guide member 420: shape measuring part
421: moving member 423: shape measuring sensor
424: sensor movement motor R: rolling roll

Claims (8)

Mounting unit 200 is configured to be rotatably mounted rolling roll (R); A heating part 300 positioned adjacent to the mounting part 200 and configured to heat a rolling roll R mounted on the mounting part 200; And a measuring unit 400 provided in the mounting unit 200 and configured to measure a thermal expansion property of the heated rolling roll R.
The heating unit 300, the heating unit base 310; A heating head 330 connected to the heating base 310 by a support member 320; And a heating member 340 provided in the heating head 330.
Apparatus for measuring thermal expansion characteristics of a rolling roll comprising a. According to claim 1, wherein the measuring unit 400 comprises a temperature measuring unit 410 configured to measure the surface temperature distribution of the heated rolling roll (R); Apparatus for measuring thermal expansion characteristics of a rolling roll comprising a. According to claim 1, wherein the measuring unit 400 comprises a shape measuring unit 420 configured to measure the surface shape of the heated rolling roll (R); Apparatus for measuring thermal expansion characteristics of a rolling roll comprising a. Mounting unit 200 is configured to be rotatably mounted rolling roll (R); A heating part 300 positioned adjacent to the mounting part 200 and configured to heat a rolling roll R mounted on the mounting part 200; And a measuring unit 400 provided in the mounting unit 200 and configured to measure a thermal expansion property of the heated rolling roll R.
The mounting portion 200, the mounting portion base 210; The lower mounting members 220 and 220 'are provided on the mounting base 210 so that both sides of the rolling roll R are mounted, respectively, and rotatably provided with support rolls 221 and 221' that support the rolling roll R to rotate. ; And one side is rotatably connected to one side of the lower mounting members 220 and 220 ', and the other side is separable and coupled to the other side of the lower mounting members 220 and 220' and supports the rolling roll R to rotate. Upper mounting members 230 and 230 'rotatably provided with 231 and 231';
Apparatus for measuring thermal expansion characteristics of a rolling roll comprising a. The method of claim 4, wherein the support rolls (221, 221 ') provided in the lower mounting member (220, 220') is a rolling roll characterized in that connected to the rolling roll drive motor 240 to rotate the rolling roll (R) Thermal expansion characteristic measuring device. delete The method of claim 2, wherein the temperature measuring unit 410
A connection member 411 provided between upper mounting members 230 and 230 'included in the mounting portion 200;
A sensor support member 412 movably connected to the connection member 411 by a movement guide member 415;
A plurality of temperature sensors 413 movably provided at the sensor support member 412; And
A moving cylinder 414 connected to the connection member 411 and the sensor support member 412 to move the sensor support member 412;
Apparatus for measuring thermal expansion characteristics of a rolling roll comprising a. The method of claim 3, wherein the shape measuring unit 420 is
A moving member 421 provided between the lower mounting members 220 and 220 'included in the mounting portion 200;
A sensor support member 422 movably connected to the movable member 421; And
A shape measuring sensor 423 connected to the sensor supporting member 422; And
A sensor moving motor 424 connected to the moving member 421 to move the sensor supporting member 422;
Apparatus for measuring thermal expansion characteristics of a rolling roll comprising a.

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