KR101204851B1 - Apparatus for measuring temperature of material - Google Patents

Abstract

PURPOSE: A material temperature measuring apparatus is provided to accurately measure the temperature of a material by preventing vapor produced by evaporation of cleaning water from flowing between a temperature measuring unit and the material. CONSTITUTION: A material temperature measuring apparatus comprises a transfer roller unit(10), a descaler unit(20) which is arranged above the transfer roller unit and sprays cleaning water to the transfer roller unit, a temperature measuring unit(30) which is arranged behind the descaler unit to measure the temperature of a material(S), a discharge duct unit(40) which houses the temperature measuring unit and draws in and sprays exterior air to the transfer roller unit in order to prevent vapor from flowing between the temperature measuring unit and the material, and a suction duct unit(50) which is arranged at the side of the transfer path of the material and draws in vapor.

Description

Material temperature measuring device {APPARATUS FOR MEASURING TEMPERATURE OF MATERIAL}

The present invention relates to a material temperature measuring apparatus, and more particularly, to prevent water vapor generated by evaporation of the washing water sprayed from the descaler from flowing between the temperature measuring unit and the material, thereby improving the temperature measuring accuracy of the material. It relates to a material temperature measuring device.

In general, steel production consists of a steelmaking process for producing molten iron, a steelmaking process for removing impurities from molten iron, a regeneration process in which iron in a liquid state becomes a solid, and a rolling process in which iron is made of steel or wire.

The rolling process refers to a process in which intermediate materials such as slabs and blooms produced in the playing process are passed between several rotating rollers to be stretched or thinned by applying a continuous force, and are roughly divided into hot rolling and cold rolling.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

An object of the present invention is to provide a material temperature measuring apparatus that can improve the temperature measurement accuracy of the material by blocking the water vapor generated by evaporation of the washing water injected from the descaler portion between the temperature measuring unit and the material. .

The apparatus for measuring the temperature of a material according to the present invention includes: a feed roller part for transferring a material; A descaler part disposed above the feed roller part and configured to spray washing water toward the feed roller part; A temperature measuring unit disposed behind the descaler and measuring a temperature of the material; It is disposed behind the descaler, surrounds the temperature measuring unit so that the temperature measuring unit is located therein, and sucks outside air to prevent water vapor generated by evaporation of washing water from flowing between the temperature measuring unit and the material. A discharge duct part spraying toward the feed roller part; And a suction duct disposed on a side of the transfer path of the material and sucking water vapor generated by evaporation of the washing water.

Preferably, the discharge duct unit, the discharge duct surrounding the temperature measuring unit, communicating with the outside to form a movement path of the outside air, and formed in a hollow cylindrical shape; And a discharge fan installed in the discharge duct and sucking external air to discharge to the lower end of the discharge duct.

More preferably, the discharge duct unit further includes a bracket for fixing the temperature measuring unit to an inner central portion of the discharge duct.

More preferably, the discharge duct is provided with an expansion pipe in the lower end so that the outside air discharged to the lower end is diffused to the outside.

More preferably, the suction duct unit is provided on the roller support of the transfer roller unit, the suction port through which water vapor flows; A suction duct communicating with the suction port and discharging the introduced water vapor to the outside; And a suction fan provided in the suction duct to provide suction power in the suction duct.

According to the present invention, it is possible to accurately measure the temperature of the material by blocking the water vapor generated by the evaporation of the washing water sprayed from the descaler part between the temperature measuring part and the material.

1 is a perspective view showing a material temperature measuring apparatus according to an embodiment of the present invention.
2 is a side view showing a material temperature measuring apparatus according to an embodiment of the present invention.
3 is a front view showing a material temperature measuring apparatus according to an embodiment of the present invention.
4 is a view showing the flow of air and water vapor by the material temperature measuring apparatus according to an embodiment of the present invention.

Hereinafter, an embodiment of a material temperature measuring apparatus according to the present invention will be described with reference to the accompanying drawings. For convenience of explanation, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

Further, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, the definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view showing a material temperature measuring apparatus according to an embodiment of the present invention, Figure 2 is a side view showing a material temperature measuring apparatus according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention Figure 4 is a front view showing a material temperature measuring apparatus according to the present invention, Figure 4 is a view showing the flow of air and steam by the material temperature measuring apparatus according to an embodiment of the present invention.

1 to 3, a material temperature measuring apparatus according to an embodiment of the present invention includes a feed roller unit 10, a descaler unit 20, a temperature measuring unit 30, an exhaust duct unit 40, It comprises a suction duct 50.

The conveying roller unit 10 includes a plurality of conveying rollers 11 for conveying the raw material S in a later process, and a roller support 12 for rotatably supporting both ends of the conveying rollers 11. According to the present embodiment, the feed roller unit 10 is disposed at the rear of the roughing mill. The rough rolling mill rolls the raw material S to a target thickness and width so that the finish rolling is easily performed in the finishing rolling process.

A plurality of feed rollers 11 are provided at regular intervals from the outlet side of the roughing mill to the inlet side of the next rolling mill. The roller support 12 is formed so that the top end is higher than the top of the feed roller 11 so that the material (S) conveyed by the feed roller 11 is not separated to the outside.

The descaler portion 20 is disposed above the feed roller portion 10. The descaler unit 20 removes the scale formed on the surface of the material S transported by the conveying roller unit 10 by spraying high-pressure washing water toward the conveying roller unit 10.

The descaler 20 is disposed in front of the temperature measuring unit 30 (see FIG. 2). Therefore, since the scale formed on the surface of the material S before passing through the temperature measuring part 30 is removed by the descaler 20, the measurement of the temperature measuring part 30 by the scale surrounding the material S is performed. It is possible to prevent the loss of accuracy.

The temperature measuring unit 30 is disposed above the feed roller unit 10. The temperature measuring unit 30 measures the temperature of the raw material S transferred by the feed roller unit 10. The temperature measuring unit 30 may be an infrared thermometer.

The temperature measuring unit 30 transmits the measured temperature of the raw material S to a control unit (not shown). The control unit then controls the rolling process based on the temperature information of the received material (S).

The discharge duct portion 40 is disposed above the feed roller portion 10 at the rear of the descaler portion 20. The exhaust duct part 40 surrounds the temperature measuring part 30 so that the temperature measuring part 30 is located at the inner center part. As a result, water vapor that may lower the measurement accuracy of the temperature measuring unit 30 is blocked from flowing between the temperature measuring unit 30 and the material S.

The washing water sprayed from the descaler 20 is vaporized after contacting with the high temperature material S and phase changes into water vapor. The discharge duct part 40 includes the temperature measurement part 30 and the material S. To prevent ingress.

The discharge duct part 40 includes an discharge duct 41, a discharge fan 42, and a bracket 43.

The discharge duct 41 is formed in a hollow cylindrical shape so as to surround the temperature measuring part 30. Discharge duct 41 is the upper end is in communication with the outside and the lower end is disposed close to the material (S), thereby forming a movement path for guiding the air introduced from the outside to the material (S). Here, "external" means the outside of a facility in which a material temperature measuring device is installed. In the present embodiment, the air introduced from the outside refers to air in the atmosphere.

The discharge duct 41 is provided with an expansion pipe portion 41a at the lower end thereof. Expansion portion 41a refers to a portion where the diameter gradually increases at the lower end of the discharge duct 41. The expansion pipe portion 41a induces the external air discharged to the lower end of the discharge duct 41 to diffuse outward. That is, since the diameter of the discharge duct 41 constituting the movement path of the air is gradually enlarged, the air flowing along it is easily diffused to the outside compared to the case. Due to the diffusion of air, water vapor existing under the discharge duct 41 can be further dispersed to the outside.

The discharge fan 42 is installed in the discharge duct 41. By the operation of the discharge fan 42, the outside air is introduced into the discharge duct 41, and then moved along the discharge duct 41 and then discharged through the lower end of the discharge duct 41. Since the configuration and operation principle of the discharge fan 42 will be general matter to those skilled in the art, detailed description thereof will be omitted.

One side of the bracket 43 is coupled to the inner peripheral surface of the discharge duct 41, the other side is coupled to the temperature measuring unit 30. The bracket 43 fixes the temperature measuring part 30 to the inner central portion of the discharge duct 41. As a result, even when the air moves at a high speed along the discharge duct 41, the temperature measuring unit 30 may be firmly fixed to the center portion of the discharge duct 41.

3 and 4, the suction duct unit 50 includes a suction port 51, a suction duct 52, and a suction fan 53, and sucks water vapor A and discharges it to the outside. Since the suction duct part 50 sucks the steam A before the steam A is dispersed in all directions, the suction duct 50 can minimize the steam A remaining inside the facility.

The suction port 51 is disposed on the side of the conveyance path of the raw material S. FIG. According to this embodiment, the plurality of suction ports 51 are arranged along the conveying path of the material S in the roller support 12. The plurality of suction ports 51 are arranged in a line where the lower end of the discharge duct 41 is located. Thereby, the water vapor A dispersed by the air B discharged from the discharge duct 41 can be sucked.

The suction port 51 is formed in a funnel shape so that suction of the water vapor A is easily made, and is disposed at a height corresponding to the transport path of the raw material S. Since the suction port 51 is disposed below the discharge duct 41, the steam A can be sucked in before the steam A is dispersed in all directions.

The suction port 51 communicates with the suction duct 52 forming a hollow cylindrical shape. The suction duct 52 discharges water vapor A sucked through the suction port 51 to the outside, and a suction fan 53 is provided therein. The suction fan 53 provides a suction force in the suction duct 52 such that water vapor A is sucked through the suction port 51.

One end of the suction port 51 and the suction duct 52 in contact with the suction port 51 is formed through the roller support 12. The suction port 51 may be formed to be concave inside the roller support 12 so as not to be exposed to the inner surface of the roller support 12. Accordingly, the collision between the material S and the suction port 51 is prevented when the material S is moved.

Hereinafter, a method of measuring a temperature of a material using a material temperature measuring device according to an embodiment of the present invention will be described.

When the raw material S is sent out from the roughing mill, the descaler 20 is operated first. As a result, since the scale formed on the surface of the material S is removed, it is possible to prevent the temperature measurement accuracy of the material S from being degraded by the scale.

At the same time as the operation of the descaler 20 or after the operation of the descaler 20, the discharge duct 40 and the suction duct 50 are operated. As a result, the water vapor A is dispersed by the air B discharged from the discharge duct part 40 so as not to remain between the temperature measuring part 30 and the material S. In addition, since the water vapor (A) is introduced into the suction duct unit 50 by the suction force generated in the suction duct unit 50, the water vapor A dispersed by the discharge duct unit 40 does not remain in the facility. It is discharged to the outside through the suction duct 50. As a result, the temperature measuring unit 30 can accurately measure the temperature of the material S while not being affected by the water vapor (A).

The temperature measuring unit 30 transmits the measured temperature of the material S to the controller. The control unit controls the operation of various devices installed behind the temperature measuring unit 30 based on the temperature information of the transmitted material (S). Therefore, according to the present invention, it is possible to accurately measure the temperature of the material (S) by the temperature unit 30, it is possible to control the subsequent rolling process based on this, it is possible to achieve an improvement in product quality and production yield.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: feed roller portion 20: descaler portion
30: temperature measuring part 40: discharge duct part
41: exhaust duct 42: exhaust fan
43: bracket 50: suction duct portion
51: suction port 52: suction duct
53: suction fan

Claims (5)

Feed roller unit for transferring the material;
A descaler part disposed above the feed roller part and configured to spray washing water toward the feed roller part;
A temperature measuring unit disposed behind the descaler and measuring a temperature of the material;
It is disposed behind the descaler, surrounds the temperature measuring unit so that the temperature measuring unit is located therein, and sucks outside air to prevent water vapor generated by evaporation of washing water from flowing between the temperature measuring unit and the material. A discharge duct part spraying toward the feed roller part; And
And a suction duct part disposed at a side of the conveyance path of the material and sucking water vapor generated by evaporation of the washing water.
The method of claim 1,
The discharge duct unit, the discharge duct surrounding the temperature measuring unit, communicating with the outside to form a movement path of the outside air, and formed in a hollow cylindrical shape; And
And a discharge fan installed in the discharge duct and sucking external air to discharge to the lower end of the discharge duct.
The method of claim 2,
The discharge duct unit, the material temperature measuring apparatus further comprises a bracket for fixing the temperature measuring unit to the inner central portion of the discharge duct.
The method of claim 3,
The discharge duct is a material temperature measuring device, characterized in that the lower end is provided with an expansion pipe so that the outside air discharged to the lower end to the outside.
5. The method of claim 4,
The suction duct unit, the suction port is provided on the roller support of the feed roller portion along the conveyance path of the material, the water inlet;
A suction duct communicating with the suction port and discharging the introduced water vapor to the outside; And
And a suction fan provided in the suction duct to provide a suction force in the suction duct.

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