KR102106635B1 - Experimental equipment with continuous heat treatment of steel plates - Google Patents

Abstract

The present invention is to release the steel sheet (A) in the form of a coil to supply the steel sheet supply unit 110 to the first pinch roll unit 120; A first pinch roll unit 120 for flatly spreading and moving the steel plate A passing through the steel plate supply unit 110; A preheating unit 130 for preheating the surface of the steel sheet A passing through the pinch roll unit 120; A heating unit 140 for heating the surface of the steel plate A passing through the preheating unit 130 to a target temperature; A cracking unit 150 for uniformly maintaining the surface of the steel plate A passing through the heating unit 140 at a constant temperature; A second pinch roll unit 160 for flatly spreading and moving the steel plate A passing through the crack unit 150; Steel plate winding unit 170 for winding and storing the steel plate (A) passing through the second pinch roll unit 160 to provide experimental equipment by continuous heat treatment of the steel plate, the present invention provides a series of configurations Through this, it has the effect of controlling and measuring the conditions of the temperature change of the steel sheet and creating and experimenting the environment for the temperature change.

Description

Experimental equipment with continuous heat treatment of steel plates}

The present invention relates to a test equipment for continuous heat treatment of a steel sheet, and more specifically, a test equipment for continuous heat treatment of a steel sheet that enables to test in advance the performance and operating state of the continuous heat treatment furnace for temperature changes of the steel sheet through a series of configurations. It is about.

In general, the continuous heat treatment is used to increase or decrease the temperature of the steel sheet according to physical and chemical properties in order to remove and reduce the internal stress of the steel sheet.

However, in the related art, there has been a limitation that it is impossible to test in advance the detailed operation conditions and effects such as performance and temperature changes for a continuous heat treatment furnace, which is a large structure.

In particular, since it is impossible to practically experiment with changes in the temperature of the steel sheet and production quality with time, it has a problem of limiting the working efficiency and utilization range.

Japanese Patent Publication No. 08-013044 (January 16, 1996) Korean Registered Patent No. 10-0421128 (2004.03.04.) Korean Patent Publication No. 10-2006-0029460 (2006.04.06.) Japanese Patent Publication No. 2012-021688 (2012.02.02.) Korean Registered Patent No. 10-1480895 (2015.01.12.) Korean Patent Publication No. 10-2015-0008544 (2015.01.23.)

Therefore, the present invention is to solve the conventional problems as described above,

An object of the present invention is to provide experimental equipment with continuous heat treatment of a steel sheet that can control and measure conditions for temperature change of a steel sheet and create an environment for temperature change.

In order to achieve the above object, the present invention steel sheet continuous heat treatment furnace test equipment 100,

A steel plate supply unit 110 that releases the coil-shaped steel plate A and supplies it to the first pinch roll unit 120; A first pinch roll unit 120 for flatly spreading and moving the steel plate A passing through the steel plate supply unit 110; A preheating unit 130 for preheating the surface of the steel sheet A passing through the pinch roll unit 120; A heating unit 140 for heating the surface of the steel plate A passing through the preheating unit 130 to a target temperature; A cracking unit 150 for uniformly maintaining the surface of the steel plate A passing through the heating unit 140 at a constant temperature; A second pinch roll unit 160 for flatly spreading and moving the steel plate A passing through the crack unit 150; It characterized in that it comprises; a steel sheet winding unit 170 for winding and storing the steel sheet (A) passing through the second pinch roll unit 160.

Here, the steel plate supply unit 110 includes a body 111; A plurality of support holes 112 formed radially to support and rotate one side or both sides of the steel plate A wound on the upper portion of the body 111; A width adjustment hole 113 formed to adjust the width of the support hole 112; A length adjuster 114 formed to adjust the length of the support 112; A cylinder 115 formed on an upper side of the body 111; It is formed on the upper portion of the shopping mall body 111 and rotates up and down about the rotation shaft 116 by the operation of the cylinder 115 to provide a close contact with the outer diameter of the steel plate (A) 117; It is characterized by.

In addition, the first pinch roll unit 120 is a body 121; A support roller 122 formed on a middle side of the body 121 to be in contact with the lower surface of the steel plate A and rotate in a support state; An adhesion roller 123 formed to rotate in close contact with an upper surface of the steel plate A on one upper side of the body 121; A cylinder 124 for moving the contact roller 123 up and down; A meandering adjustment roller 125 for controlling meandering of the steel sheet A passing through the body 121; It characterized in that it comprises a; adjustment mechanism 126 for adjusting the position of the meandering adjustment roller 125 left and right.

Meanwhile, the preheating unit 130 includes a body 131 having a passage 133 to allow the steel plate A to pass therein; A refractory material 132 formed inside the body 131; An air supply unit 134 that supplies air to the inside of the passage 133; An air discharge unit (135) formed on one front side of the body (131) to discharge air and combustion oxides to the outside; It is characterized in that it is formed in front of the body 131 to open and close the opening 136 to open and close the passage 133.

In addition, the heating unit 140 is formed to move up and down the lower body 141; A first blocking film 141a formed vertically on both sides of the lower body 141; A storage unit 141b that induces the first blocking film 141a to be immersed in a liquid stored therein to secure water tightness; A first driving means 142 for moving the lower body 141 up and down; A plurality of heat source members 143 formed on the lower body 141; An upper body 144 formed to move up and down; A second blocking film 144a formed vertically on both sides of the upper body 144; A storage unit 144b that induces the second blocking film 144a to be immersed in the liquid stored therein to secure water tightness; A second driving means 145 for moving the upper body 144 up and down; And a plurality of heat source members 147 formed under the upper body 144.

And the crack unit 150 is a body 151; An induction roller 152 formed on the inside of the body 151 so as to make contact with the surface of the steel plate A and to rotate; An injection member 153 that is formed on an inner lower portion of the body 151 and sprays gas to the surface of the steel plate A passing therethrough; A blocking portion 154 formed on the lower portion of the body 151 to prevent foreign substances from flowing in; A refractory material 155 formed to pass through the steel plate A inside the body 151; An induction roller 158 that is located at the lower portion of the blocking portion 154 and stores a liquid therein so that the lower portion of the body 151 is immersed in the liquid, but induces a direction so that the steel plate A passes therethrough It is characterized by comprising a; tank (157) having a ;.

In particular, the second pinch roll unit 160 includes a body 161; A measuring roller 162 formed on the front side of the body 161 to contact the lower surface of the steel plate (A) and to measure the moving speed while rotating in a support state; A support roller 163 formed on a middle side of the body 161 to be in contact with the lower surface of the steel plate A and rotate in a support state; An adhesion roller 164 formed to rotate in close contact with an upper surface of the steel plate A on one upper side of the body 161; And a cylinder 165 for moving the contact roller 164 up and down.

And the steel plate winding unit 170 is a body 171; A plurality of support holes 172 formed radially to support and rotate one side or both sides of the steel plate A; A width adjuster 173 formed to adjust the width of the support 172; A length adjuster 174 formed to adjust the length of the support 172; A cylinder 175 formed on an upper side of the body 171; It is formed on the upper portion of the body 171, the contact hole (177) provided to be in close contact with the outer diameter of the steel plate (A) while rotating up and down about the rotation shaft 176 by the operation of the cylinder 175; It is characterized by.

The present invention has the effect of adjusting and measuring conditions to the temperature change of the steel sheet through a series of configurations, and to create and test the environment for the temperature change.

1 is a front view for showing the configuration of the experimental equipment by continuous heat treatment of the present invention steel sheet.
Figure 2 is a graph for showing the temperature change of the preheating unit (preheating zone) and the heating unit (heating zone) by the experimental equipment as a continuous heat treatment of the present invention steel sheet.

If described in detail by the accompanying drawings, the configuration of the present invention as described above are as follows.

1 is a front view for showing the configuration of the experimental equipment with continuous heat treatment of the steel sheet of the present invention, and FIG. 2 shows the temperature change of the preheating unit (preheating zone) and the heating unit (heating zone) by the experimental equipment of the present invention. It shows a graph for betting.

The present invention is to release the steel sheet (A) in the form of a coil to supply the steel sheet supply unit 110 to the first pinch roll unit 120; A first pinch roll unit 120 for flatly spreading and moving the steel plate A passing through the steel plate supply unit 110; A preheating unit 130 for preheating the surface of the steel sheet A passing through the pinch roll unit 120; A heating unit 140 for heating the surface of the steel plate A passing through the preheating unit 130 to a target temperature; A cracking unit 150 for uniformly maintaining the surface of the steel plate A passing through the heating unit 140 at a constant temperature; A second pinch roll unit 160 for flatly spreading and moving the steel plate A passing through the crack unit 150; It includes; a steel sheet winding unit 170 for winding and storing the steel sheet (A) passing through the second pinch roll unit 160.

In the present invention, the steel sheet supply unit 110 serves to unwind the steel sheet A wound in a coil form (circular shape) and supply it to the first pinch roll unit 120.

At this time, the steel sheet supply unit 110 can be safely supplied while supporting the steel sheet (A) so as not to be easily released during the unwinding process or to be bounced off by the elastic force of the steel sheet (A).

The steel sheet supply unit 110 includes a body 111; A plurality of support holes 112 formed radially to support and rotate one side or both sides of the steel plate A wound on the upper portion of the body 111; A width adjustment hole 113 formed to adjust the width of the support hole 112; A length adjuster 114 formed to adjust the length of the support 112; A cylinder 115 formed on an upper side of the body 111; It is formed on the upper portion of the shopping mall body 111, and rotates up and down about the rotation shaft 116 by the operation of the cylinder 115 to provide close contact with the outer diameter of the steel plate A. .

In particular, the support 112 can be supplied by releasing and stably fixing the steel plate A by adjusting the width and length according to the specification (diameter) of the steel plate.

At this time, the width adjustment hole 113 and the length adjustment hole 114 may adjust the width of the support 112 according to the rotation direction by a screw coupling method.

In addition, the contact hole 117 is guided to be smoothly released in a state in close contact with the outer diameter of the steel plate (A).

At this time, by including a roller at the end of the contact hole 117, it is possible to minimize the friction that may occur in the state of contact with the outer diameter of the steel sheet (A).

Here, the cylinder 115 can control the position where the contact hole 117 can be in close contact with the outer diameter of the steel plate A by up and down operation.

In the present invention, the first pinch roll unit 120 serves to move the steel sheet (A) passing through the steel sheet supply unit 110 flatly while maintaining tension.

The first pinch roll unit 120 includes a body 121; A support roller 122 formed on a middle side of the body 121 to be in contact with the lower surface of the steel plate A and rotate in a support state; An adhesion roller 123 formed to rotate in close contact with an upper surface of the steel plate A on one upper side of the body 121; A cylinder 124 for moving the contact roller 123 up and down; A meandering adjustment roller 125 for controlling meandering of the steel sheet A passing through the body 121; Consists of; the adjusting mechanism 126 for adjusting the position of the meandering roller 125 to the left and right.

In particular, the support roller 122 is idle so as to be able to move smoothly while supporting and supporting the lower surface of the steel plate (A).

In addition, the adhesion roller 123 induces the steel sheet (A) to move in a flat unfolded state by closely contacting the upper surface of the steel sheet (A) with a constant pressure.

In addition, the cylinder 124 performs a function of adjusting the adhesion force that the adhesion roller 123 closely adheres to the surface of the steel plate A.

At this time, one side of the contact roller 123 or the cylinder 124 may include a measurement sensor such as a load cell capable of measuring the adhesive force in close contact with the surface of the steel plate (A).

On the other hand, the meandering adjustment roller 125 is formed so as to be able to move from side to side in order to prevent the phenomenon that the steel plate (A) passing through the sideways meander.

Here, the adjusting tool 126 is screwed with the meandering adjusting roller 125 to adjust the meandering of the steel plate A while adjusting the position of the meandering adjusting roller 125 according to the rotation direction of the adjusting tool 126 You can.

In the present invention, the preheating unit 130 preheats the surface of the steel plate (A) passing through the pinch roll unit 120 in advance, and according to a rapid temperature change that may occur when entering the heating unit 140 directly. It serves to prevent deformation and damage.

The preheating unit 130 includes a body 131 having a passage 133 to allow the steel plate A to pass therein; A refractory material 132 formed inside the body 131; An air supply unit 134 that supplies air to the inside of the passage 133; An air discharge unit (135) formed on one front side of the body (131) to discharge air and combustion oxides to the outside; It is formed in front of the body 131 to open and close the passage 133, the opening 136.

Particularly, the passage 133 not only guides the steel sheet A to pass there, but also generates heat generated when the heating unit 140 is operated while connected to the passage 148 of the heating unit 140. The surface of the steel sheet (A) can be preheated in a state in which a separate heat source is not required while flowing into the body 131 through (133).

In addition, the refractory material 132 may be formed of a refractory material such as castable to secure heat resistance of the body 131.

In addition, the air supply unit 134 is a heat source of the preheating unit 130 by re-supplying separate air to the combustion oxide generated by mixing and burning air and LNG as a heat source of the heating unit 140 to induce natural combustion. Can be used as

Meanwhile, the opening / closing opening 136 adjusts the opening / closing range of the passage 133 to discharge the combustion gas inside the body 131 to the outside or the outside air flows into the body 131. Can be adjusted.

At this time, the opening and closing opening 136 may be formed in the form of an opening and closing door that can be moved up and down by a screw coupling method.

In the present invention, the heating unit 140 serves to heat the surface of the steel sheet (A) passing through the preheating unit 130 to a target temperature required for the experiment, as shown in FIG. 2.

The heating unit 140 includes a lower body 141 formed to move up and down; A first blocking film 141a formed vertically on both sides of the lower body 141; A storage unit 141b that induces the first blocking film 141a to be immersed in a liquid stored therein to secure water tightness; A first driving means 142 for moving the lower body 141 up and down; A plurality of heat source members 143 formed on the lower body 141; An upper body 144 formed to move up and down; A second blocking film 144a formed vertically on both sides of the upper body 144; A storage unit 144b that induces the second blocking film 144a to be immersed in the liquid stored therein to secure water tightness; A second driving means 145 for moving the upper body 144 up and down; It consists of; a plurality of heat source member 147 formed on the lower portion of the upper body (144).

In particular, the lower body 141 and the upper body 144 moves up and down to adjust the temperature while moving closer to or farther from the surface of the steel plate A.

Here, the first driving means 142 and the second driving means 145 receives the driving force of the motor, such as a cylinder or a screw shaft 145b, a screw jack, and the like, the lower body 141 using the rotating shaft 145a and The upper body 144 can be smoothly moved up and down.

In this case, a support 146 may be formed on the upper portion of the upper body 144 so that the plurality of heat source members 147 can be moved up and down at the same time so as not to be twisted.

In addition, the first blocking film 141a and the second blocking film 144a are immersed in a liquid such as water inside the storage units 141b and 144b, and high-temperature combustion gas generated inside the heating unit 140 It plays a role of blocking the discharge from outside.

In addition, the heat source members 143 and 147 increase the temperature of the steel plate A by using heat generated by mixing and burning air and LNG therein.

In this case, the heat source members 143 and 147 can minimize heat deformation of the steel sheet A by transferring heat while inducing that the flame generated during combustion of air and LNG does not directly contact the steel sheet A with non-contact ventilation.

In the present invention, the crack unit 150 serves to uniformly maintain the surface of the steel plate (A) passing through the heating unit 140 at a constant temperature.

The crack unit 150 includes a body 151; An induction roller 152 formed on the inside of the body 151 so as to make contact with the surface of the steel plate A and to rotate; An injection member 153 that is formed on an inner lower portion of the body 151 and sprays gas to the surface of the steel plate A passing therethrough; A blocking portion 154 formed on the lower portion of the body 151 to prevent foreign substances from flowing in; A refractory material 155 formed to pass through the steel plate A inside the body 151; An induction roller 158 that is located at the lower portion of the blocking portion 154 and stores a liquid therein so that the lower portion of the body 151 is immersed in the liquid, but induces a direction so that the steel plate A passes therein. It is composed of; tank (157) having a.

Here, the support roller 156 in front of the body 151, including; to support the lower surface of the steel plate (A) passing through the heating unit 140 to assist in smooth movement.

Particularly, the induction rollers 152 and 158 guide the direction of the steel sheet A passing therethrough and assist in maintaining a constant tension.

In addition, the injection member 153 may spray the high-pressure gas to the surface of the steel sheet (A) to improve the cooling efficiency, as well as remove the remaining foreign matter.

At this time, the blocking portion 154 is formed in a shape that gradually decreases in width from the top to the bottom in order to prevent the phenomenon of foreign matter flowing into the body 151 inside.

In addition, the lower portion of the body 151 is provided so as to be immersed in the liquid stored in the tank 157 so that the high-temperature combustion gas generated inside the heating unit 140 passes through the body 151 to produce a steel sheet. It prevents the phenomenon of discharging to the outside while moving together with (A), and assists to maintain a constant pressure inside the heating unit 140 and the crack unit 150.

In the present invention, the second pinch roll unit 160 serves to flatten and move the steel plate A passing through the crack unit 150.

The second pinch roll unit 160 includes a body 161; A measuring roller 162 formed on the front side of the body 161 to contact the lower surface of the steel plate (A) and to measure the moving speed while rotating in a support state; A support roller 163 formed on a middle side of the body 161 to be in contact with the lower surface of the steel plate A and rotate in a support state; An adhesion roller 164 formed to rotate in close contact with an upper surface of the steel plate A on one upper side of the body 161; It consists of; a cylinder 165 for moving the contact roller 164 up and down.

Particularly, the measuring roller 162 includes a sensor such as an encoder on one side to measure the speed of the moving steel sheet A, thereby interlocking the steel sheet supply unit 110 and the steel sheet winding unit 170 so as to Movement speed can be adjusted.

On the other hand, the support roller 163 is idling so that it can move smoothly while supporting and supporting the lower surface of the steel plate (A).

In addition, the contact roller 164 induces the steel sheet (A) to move in a flat unfolded state by closely contacting the upper surface of the steel sheet (A) with a constant pressure.

Further, the cylinder 165 performs a function of adjusting the adhesion force that the adhesion roller 164 closely adheres to the surface of the steel plate A.

At this time, one side of the contact roller 164 or the cylinder 165 may include a measurement sensor such as a load cell that can measure the adhesive force in close contact with the surface of the steel plate (A).

In the present invention, the steel sheet winding unit 170 serves to wrap and store the steel sheet A passing through the second pinch roll unit 160 in a coil form.

The steel sheet winding unit 170 is a body 171; A plurality of support holes 172 formed radially to support and rotate one side or both sides of the steel plate A; A width adjuster 173 formed to adjust the width of the support 172; A length adjuster 174 formed to adjust the length of the support 172; A cylinder 175 formed on an upper side of the body 171; It is formed on the upper portion of the body 171, the contact hole (177) provided to be in close contact with the outer diameter of the steel plate (A) while rotating up and down about the rotation axis 176 by the operation of the cylinder 175; .

In particular, the support 172 can be wound in a coil form while rotating while stably fixing the steel plate A by adjusting the width and length according to the specification (diameter) of the steel plate.

Here, one side of the support 172 may include a driving means such as a motor to secure a driving force capable of smoothly winding the steel plate (A).

At this time, the width adjustment mechanism 173 and the length adjustment mechanism 174 can adjust the width of the support 172 according to the rotation direction by a screw coupling method.

In addition, the contact hole 177 induces to be smoothly wound in a state in close contact with the outer diameter of the steel plate (A).

At this time, by including a roller at the end of the contact (177), it is possible to minimize the friction that may occur in a state in contact with the outer diameter of the steel sheet (A).

Here, the cylinder 115 can control the position where the contact hole 117 can be in close contact with the outer diameter of the steel plate A by up and down operation.

As described above, the embodiments of the present invention have been described in detail as described above, but the scope of the present invention is not limited to this, and it is natural that the scope of the present invention is included in the scope of the present invention even in a substantially equivalent range with the embodiments of the present invention. Do.

100: Experimental equipment for continuous heat treatment of the steel sheet of the present invention
110: steel plate supply unit 111: body
112: support 113: width adjustment
114: length adjustment 115: cylinder
116: rotating shaft 117: close contact
120: first pinch roll unit 121: body
122: support roller 123: close contact roller
124: cylinder 125: meander adjustment roller
126: adjuster
130: preheating unit 131: body
132: refractory material 133: passage
134: air supply 135: air outlet
136: opening and closing
140: heating unit 141: lower body
141a: first blocking membrane 141b: storage unit
142: first driving means 143: heat source member
144: upper body 144a: second blocking membrane
144b: storage unit 145: second driving means
146: support 147: heat source member
150: crack unit 151: body
152: induction roller 153: injection member
154: block 155: refractory
156: support roller 157: tank
158: induction roller
160: second pinch roll unit 161: body
162: measuring roller 163: support roller
164: close contact roller 165: cylinder
170: steel plate winding unit 171: body
172: support 173: width adjustment
174: length adjuster 175: cylinder
176: rotating shaft 177: close contact
A: Steel plate

Claims (8)

A steel plate supply unit 110 that releases the coil-shaped steel plate A and supplies it to the first pinch roll unit 120; A first pinch roll unit 120 for flatly spreading and moving the steel plate A passing through the steel plate supply unit 110; A preheating unit 130 for preheating the surface of the steel sheet A passing through the pinch roll unit 120; A heating unit 140 for heating the surface of the steel plate A passing through the preheating unit 130 to a target temperature; A cracking unit 150 for uniformly maintaining the surface of the steel plate A passing through the heating unit 140 at a constant temperature; A second pinch roll unit 160 for flatly spreading and moving the steel plate A passing through the crack unit 150; Including the steel plate winding unit 170 for winding and storing the steel plate (A) passing through the second pinch roll unit 160; but, the heating unit 140 is formed to move up and down the lower body (141) ); A first blocking film 141a formed vertically on both sides of the lower body 141; A storage unit 141b that induces the first blocking film 141a to be immersed in a liquid stored therein to secure water tightness; A first driving means 142 for moving the lower body 141 up and down; A plurality of heat source members 143 formed on the lower body 141; An upper body 144 formed to move up and down; A second blocking film 144a formed vertically on both sides of the upper body 144; A storage unit 144b that induces the second blocking film 144a to be immersed in the liquid stored therein to secure water tightness; A second driving means 145 for moving the upper body 144 up and down; Experimental equipment for continuous heat treatment of a steel sheet, comprising: a plurality of heat source members 147 formed under the upper body 144. The method according to claim 1, The steel plate supply unit 110 is a body 111; A plurality of support holes 112 formed radially to support and rotate one side or both sides of the steel plate A wound on the upper portion of the body 111; A width adjustment hole 113 formed to adjust the width of the support hole 112; A length adjuster 114 formed to adjust the length of the support 112; A cylinder 115 formed on an upper side of the body 111; It is formed on the upper portion of the shopping mall body 111 and rotates up and down about the rotation shaft 116 by the operation of the cylinder 115 to provide a close contact with the outer diameter of the steel plate (A) 117; Experimental equipment for continuous heat treatment of steel sheet, characterized in that. The method according to claim 1, The first pinch roll unit 120 is a body 121; A support roller 122 formed on a middle side of the body 121 to be in contact with the lower surface of the steel plate A and rotate in a support state; An adhesion roller 123 formed to rotate in close contact with an upper surface of the steel plate A on one upper side of the body 121; A cylinder 124 for moving the contact roller 123 up and down; A meandering adjustment roller 125 for controlling meandering of the steel sheet A passing through the body 121; Experimental equipment for continuous heat treatment of a steel sheet, characterized in that it comprises a; adjusting mechanism (126) for adjusting the position of the meandering adjustment roller (125) left and right. The method according to claim 1, The preheating unit 130 is a body 131 having a passage 133 to pass through the steel plate (A) therein; A refractory material 132 formed inside the body 131; An air supply unit 134 that supplies air to the inside of the passage 133; An air discharge unit (135) formed on one front side of the body (131) to discharge air and combustion oxides to the outside; It is formed in front of the body 131, the opening and closing opening 136 for opening and closing the passage 133; Steel plate continuous heat treatment furnace experimental equipment, characterized in that consisting of. delete The method according to claim 1, The crack unit 150 is a body 151; An induction roller 152 formed on the inside of the body 151 so as to make contact with the surface of the steel plate A and to rotate; An injection member 153 that is formed on an inner lower portion of the body 151 and sprays gas to the surface of the steel plate A passing therethrough; A blocking portion 154 formed on the lower portion of the body 151 to prevent foreign substances from flowing in; A refractory material 155 formed to pass through the steel plate A inside the body 151; An induction roller 158 that is located at the lower portion of the blocking portion 154 and stores a liquid therein so that the lower portion of the body 151 is immersed in the liquid, but induces a direction so that the steel plate A passes therethrough ) (Tank 157); a continuous steel plate heat treatment furnace test equipment, characterized in that consisting of. The method according to claim 1, The second pinch roll unit 160 is a body 161; A measuring roller 162 formed on the front side of the body 161 to contact the lower surface of the steel plate (A) and to measure the moving speed while rotating in a support state; A support roller 163 formed on a middle side of the body 161 to be in contact with the lower surface of the steel plate A and rotate in a support state; An adhesion roller 164 formed to rotate in close contact with an upper surface of the steel plate A on one upper side of the body 161; Steel plate continuous heat treatment furnace testing equipment, characterized in that consisting of; cylinder (165) for moving the contact roller 164 up and down. The method according to claim 1, The steel sheet winding unit 170 is a body 171; A plurality of support holes 172 formed radially to support and rotate one side or both sides of the steel plate A; A width adjuster 173 formed to adjust the width of the support 172; A length adjuster 174 formed to adjust the length of the support 172; A cylinder 175 formed on an upper side of the body 171; It is formed on the upper portion of the body 171, the contact hole (177) provided to be in close contact with the outer diameter of the steel plate (A) while rotating up and down about the rotation shaft 176 by the operation of the cylinder 175; Experimental equipment for continuous heat treatment of steel sheet, characterized in that.

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