KR101473745B1 - Cover heat resistant for steelmaking plant - Google Patents

Abstract

The present invention provides a thermal resistant cover for a steelmaking plant which comprises a coating layer (110); a thermal insulation material (120) formed on a top of the coating layer (110); a refractory material (130) formed on a top of the thermal insulation material (120); an outer cover (140) formed on a top of the refractory material (130); an insertion part (150) formed on a bottom of the refractory material (120) while ensuring a certain space upwardly; an insertion hole (151) passing from a top of the insertion unit (150) to a top of the refractory material (130); a hollow fixing socket (160) inserted inside the insertion part (150), a top of the fixing socket being provided with a supporting part (161) inserted inside the insertion hole (151) and a center of the fixing socket is hollow in a vertical direction; a fixing part (180) configured to fix simultaneously a central upper inner surface of the supporting part (161) and the outer cover (140); a refractory substance (170) formed inside a central portion of the insertion part (150) and the fixing socket (160). The present invention can enhance thermal resistance to a high temperature generated in a steelmaking plant such as ladle or blast furnace. In particular, the present invention can minimize damage and breakage by a high temperature to enhance service life and durability. Further, the present invention can securely couple components with each other to prevent detachment due to thermal deformation.

Description

{Cover heat resistant for steelmaking plant}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-resistant cover for a steel making facility, and more particularly, to a heat-resistant cover for a steel making facility, which maximizes heat resistance against high temperatures generated in steel making facilities such as a ladle or a blast furnace, will be.

Generally, as shown in Figs. 1 and 2, the heat-resistant cover for a steelmaking facility is installed on the upper side of the blast furnace (B) or the ladle (C) of the blast furnace (A) .

Conventionally, however, the heat-resistant cover for a steel making plant has been cooled by circulating cooling water inside, but this has caused a problem that the temperature of the cooling water rises and the heat-resistant function can not be performed.

Particularly, when the surface of the heat-resistant cover for a steel making plant is damaged or broken, the cooling water inside the cover falls to the tile, resulting in a problem of production quality deterioration and safety accident.

In addition, the conventional heat-resistant cover for a steel making plant has a problem that the cooling function can not be performed when the cooling water passage circulating inside is clogged by thermal deformation.

In addition, conventional heat-resistant covers for steel-making facilities have problems in that they are easily separated by thermal deformation and shorten durability and service life.

Japanese Patent Application Laid-Open No. 63-076809 (April 4, 1988) Korean Patent No. 10-0665512 (2007.01.09) Korean Patent No. 10-0746573 (Aug. 2007) Korean Patent No. 10-0971979 (Jul. 23, 2010) Korean Patent No. 10-0930972 (December 10, 2009)

The present invention has been made to solve the above-mentioned problems occurring in the prior art,

An object of the present invention is to provide a heat-resistant cover for a steel making plant which can sequentially fix heat insulating material and refractory between a coating layer and an outer skin and securely fix them to each other using a fixing socket.

Another object of the present invention is to provide a heat-resistant cover for a steel making plant which can maximize the heat resistance against high temperature generated in a steel making facility such as a ladle or a blast furnace, thereby improving service life and durability.

To achieve the above object, the present invention provides a heat resistant cover for a steel making machine,

A coating layer 110; A heat insulating material 120 formed on the coating layer 110; A refractory material 130 formed on the heat insulating material 120; A cover 140 formed on the refractory 130; An inserting portion 150 formed at a lower portion of the heat insulating material 120 to have a predetermined space in the upward direction; An insertion hole 151 extending from an upper portion of the insertion portion 150 to an upper portion of the refractory 130; A hollow fixing socket 160 which is inserted into the insertion part 150 and has a support part 161 inserted into the insertion hole 151 at its upper part and is vertically hollowed at the center; A fixing part 180 for simultaneously fixing the central upper inner surface of the supporting part 161 and the outer covering 140; And a refractory 170 formed in the center of the inserting portion 150 and the fixing socket 160. [

Here, the reinforcing cap 190 may be disposed on the inner lower portion of the insertion portion 150.

The lower portion of the fixing socket 160 is formed to be larger than the supporting portion 161 so that the lower portion of the fixing socket 160 can be inserted and inserted into the insertion portion 150.

INDUSTRIAL APPLICABILITY The present invention has an effect of improving the heat resistance to high temperatures generated in iron making facilities such as ladle or blast furnace.

Particularly, the present invention has the effect of minimizing damage and breakage due to high temperature, thereby increasing service life and durability.

In addition, the present invention has the effect of preventing the separation phenomenon caused by thermal deformation in advance by firmly fixing the components to each other.

FIG. 1 and FIG. 2 are reference views for showing a state of use of a conventional heat-resistant cover for a steel making plant.
3 is a cross-sectional view illustrating an embodiment of a heat-resistant cover for a steel making plant of the present invention.
4 is a cross-sectional view illustrating another embodiment of a heat-resistant cover for a steel making plant of the present invention.
FIG. 5 and FIG. 6 are reference views showing the use state of the heat-resistant cover for a steel making plant of the present invention.

Technical features of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a cross-sectional view showing an embodiment of a heat-resistant cover for a steel making plant according to the present invention, FIG. 4 is a cross-sectional view showing another embodiment of a heat- And shows a reference diagram for indicating the use state of the heat-resistant cover for the facility.

The present invention provides a coating composition comprising: a coating layer (110); A heat insulating material 120 formed on the coating layer 110; A refractory material 130 formed on the heat insulating material 120; A cover 140 formed on the refractory 130; An inserting portion 150 formed at a lower portion of the heat insulating material 120 to have a predetermined space in the upward direction; An insertion hole 151 extending from an upper portion of the insertion portion 150 to an upper portion of the refractory 130; A hollow fixing socket 160 which is inserted into the insertion part 150 and has a support part 161 inserted into the insertion hole 151 at its upper part and is vertically hollowed at the center; A fixing part 180 for simultaneously fixing the central upper inner surface of the supporting part 161 and the outer covering 140; And a refractory 170 formed in the center of the inserting portion 150 and the fixing socket 160.

The coating layer 110 is made of aluminum oxide (Al 2 O 3) or the like so as to ensure heat resistance against high temperature generated in a steel making facility such as a ladle or a blast furnace, ) Or magnesium oxide (MgO) and titanium (TiN) nitride.

The heat insulating material 120 shields the heat transmitted through the coating layer 110 and minimizes the thermal shock. The material of the heat insulating material 120 is lightweight than the refractory 130, Can be minimized.

In particular, the refractory 130 can prevent heat conduction or heat radiation and ensure heat resistance.

At this time, a polyamide-based or ceramic-based adhesive layer 121 or 131 is formed between the heat insulating material 120 and the refractory 130 and between the refractory 130 and the sheath 140 so as to withstand high temperatures, Respectively.

In addition, the outer cover 140 is disposed on the outer side of the heat-resistant cover and is made of a metal material.

In addition, the inserting portion 150 inserts and supports the lower portion of the fixing socket 160 therein.

At this time, the insertion portion 150 is formed to be larger than the diameter of the insertion hole 151, so that the lower portion of the fixing socket 160 can be hooked and supported.

Particularly, the insertion hole 151 can be penetrated by inserting the support portion 161 therein.

In addition, thermal deformation of the refractory 170, which is generated due to high temperature, can be minimized by including the reinforcing cap 190 in the inner lower portion of the inserting portion 150.

At this time, the reinforcing cap 190 is made of a ceramic material.

The fixing socket 160 is fixed at the same time through the heat insulating material 120 and the refractory 130 and is inserted into the center of the fixing socket 160 with a fixing member such as a welding rod, 140).

Particularly, the lower portion of the fixing socket 160 is preferably formed to be larger than the diameter of the support portion 161 so that the lower portion of the fixing socket 160 can be inserted and inserted into the insertion portion 150.

Meanwhile, the refractory 170 fills the center of the fixed socket 160 to minimize thermal deformation of the fixed socket 160 and ensure heat resistance.

The fixing portion 180 adopts a welding method for fixing the inner upper surface of the upper portion of the support portion 161 and the outer surface 140.

At this time, in the state where the welding rod having a predetermined length is inserted into the support portion 161, the fixing portion 180 welds the central upper inside surface of the support portion 161 and the outer surface 140 to securely fix .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

100: Heat-resistant cover for iron making facilities of the present invention
110: Coating layer 120: Insulation
121: Adhesive layer 130: Refractory material
131: Adhesive layer
140: envelope
150: insertion part 151: insertion hole
160: Fixed socket 161: Support
170: refractory 180:
190: reinforcement cap

Claims (3)

A coating layer 110; A heat insulating material 120 formed on the coating layer 110; A refractory material 130 formed on the heat insulating material 120; A cover 140 formed on the refractory 130; An inserting portion 150 formed at a lower portion of the heat insulating material 120 to have a predetermined space in the upward direction; An insertion hole 151 extending from an upper portion of the insertion portion 150 to an upper portion of the refractory 130; A hollow fixing socket 160 which is inserted into the insertion part 150 and has a support part 161 inserted into the insertion hole 151 at its upper part and is vertically hollowed at the center; A fixing part 180 for simultaneously fixing the central upper inner surface of the supporting part 161 and the outer covering 140; And a lower portion of the fixing socket 160 is inserted into the inserting portion 150 so that the inserting portion 150 can be inserted into the inserting portion 150. [ 161) is larger than the size of the heat-radiating cover (161). The heat-resistant cover for a steel making equipment according to claim 1, wherein a reinforcing cap (190) is provided at an inner lower portion of the inserting portion (150). delete

Images