VENTILATING STOPPER ROD WITH TEMPERATURE MEASUREMENT FUNCTION

Abstract

A ventilating stopper rod has a temperature measurement function and is used for continuous casting. The stopper rod has a rod body, a rod head, a temperature measurement unit, a connecting pipe and exhaust passages; the rod body is a hollow structure; the upper end of the rod body is connected with the connecting pipe; the lower end of the rod body is connected with the rod head; the temperature measurement unit is used for measuring the temperature of the molten steel; the open end of the temperature measurement unit is connected with the rod head and communicates with the inner cavity of the rod body; the closed end of the temperature measurement unit extends out from the lower end of the rod head and is exposed from the rod head.

Claims

1. A ventilating stopper rod with a temperature measurement function, characterized in that the stopper rod comprises a rod body (3), a rod head (2), a temperature measurement unit (1), a connecting pipe (5) and exhaust passages (6); wherein the rod body (3) is a hollow structure; the upper end of the rod body is connected with the connecting pipe (5); the lower end of the rod body (3) is connected with the rod head (2); the temperature measurement unit (1) is used for measuring the temperature of the molten steel and is a tubular structure with a closed end and an open end; the open end of the temperature measurement unit (1) is connected with the rod head (2) and communicated with the inner cavity of the rod body (3); the closed end of the temperature measurement unit (1) extends out from the lower end of the rod head (2) and is exposed from the rod head (2); a plurality of exhaust passages (6) are arranged; inlet ends of the exhaust passages (6) are communicated with the inner cavity of the rod body (3) or the rod head (2); and outlet ends of the exhaust passages (6) are connected with the outer surface of the rod head (2) and communicated with the outside.

2. The ventilating stopper rod with the temperature measurement function according to claim 1, characterized in that the exhaust passages (6) are distributed around the temperature measurement unit (1); the inlet ends of the exhaust passages (6) are located above the open end of the temperature measurement unit (1), i.e., a distance L.sub.2 from the inlet ends of the exhaust passages (6) to the open end of the temperature measurement unit (1) is greater than 0 mm, and L.sub.2 is preferably 20-250 mm.

3. The ventilating stopper rod with the temperature measurement function according to claim 1, characterized in that a distance L.sub.3 from the outlet ends of the exhaust passages (6) to the outer surface of the temperature measurement unit (1) is greater than or equal to 5 mm.

4. The ventilating stopper rod with the temperature measurement function according to claim 1, characterized in that the temperature measurement unit (1) is a blackbody cavity type temperature measurement sensor; the wall thickness of the temperature measurement unit (1) is 2.0-10.0 mm, and an inner diameter is 10.0-30.0 mm; the ratio of the length L.sub.1 of the exposed part of the rod head (2) of the temperature measurement unit (1) to the inner diameter Φ.sub.0 of the temperature measurement unit (1) is L.sub.1/Φ.sub.0=1.0-15.0, preferably 1.0-10.0; the temperature measurement unit is inserted into the molten steel as a temperature sensor; and when the temperature measurement unit is heated by the molten steel and achieves heat balance, the temperature of the molten steel can be sensed based on a blackbody cavity principle and stable heat radiation energy can be emitted.

5. The ventilating stopper rod with the temperature measurement function according to claim 1, characterized in that the length of the exposed rod head (2) of the temperature measurement unit (1) is 10.0 mm-150.0 mm, preferably 20.0 mm-100.0 mm.

6. The ventilating stopper rod with the temperature measurement function according to claim 1, characterized in that the temperature measurement unit (1) is a cermet tube made of Mo—ZrO.sub.2, W—ZrO.sub.2 or Mo—W—ZrO.sub.2.

7. The ventilating stopper rod with the temperature measurement function according to claim 1, characterized in that the connecting mode of the rod body (3) and the connecting pipe (5) is: the connecting pipe extends into the upper part of the inner cavity of the rod body, and the connecting pipe is fixedly connected with the rod body through a positioning connecting nut (4).

8. The ventilating stopper rod with the temperature measurement function according to claim 1, characterized in that the temperature measurement unit (1), the rod body (3), the rod head (2) and the connecting pipe (5) are coaxial, and the connecting pipe (5), the inner part of the rod body (3), the inner part of the rod head (2) and the exhaust passages (6) form a ventilation structure.

Description

DESCRIPTION OF DRAWINGS

[0023] FIG. 1 is a structural schematic diagram of a ventilating stopper rod with a temperature measurement function in the present invention; and

[0024] FIG. 2 is a schematic diagram of a use process of a ventilating stopper rod with a temperature measurement function in the present invention.

[0025] In the figures: 1—temperature measurement unit; 2—rod head; 3—rod body; 4—positioning connecting nut; 5—connecting pipe; 6—exhaust passage; 7—tundish; 8—water inlet; 9—molten steel.

DETAILED DESCRIPTION

[0026] The present invention will be further described below in combination with the drawings and embodiments. Apparently, the described embodiments are merely part of the embodiments of the present invention, not all of the embodiments.

[0027] The present invention discloses a ventilating stopper rod with a temperature measurement function, as shown in FIG. 1. The stopper rod comprises a rod body 3, a rod head 2, a temperature measurement unit 1, a connecting pipe 5 and exhaust passages 6; the rod body 3 is a hollow structure; the connecting pipe 5 extends into the upper end of the rod body and is fixedly connected with the rod body through a positioning connecting nut 4; the lower end of the rod body 3 is connected with the rod head 2; the temperature measurement unit 1 is a tubular structure with a closed end and an open end; the open end of the temperature measurement unit 1 is connected with the rod head 2 and communicated with the inner cavity of the rod body; the closed end of the temperature measurement unit 1 extends out from the lower end of the rod head and is exposed from the rod head; in temperature measurement, the temperature measurement unit 1 is heated by the molten steel which emits stable heat radiation energy based on the blackbody cavity temperature measurement principle.

[0028] The structure of the rod head is shown in FIG. 1. The upper part of the rod head is provided with an inner cavity. The open end of the temperature measurement unit 1 is communicated with the inner cavity of the rod body through the inner cavity of the rod head.

[0029] The temperature measurement unit 1 is a blackbody cavity type temperature measurement sensor. The temperature measurement unit is inserted into the molten steel as a temperature sensor. When the temperature measurement unit is heated by the molten steel and achieves heat balance, the temperature of the molten steel can be sensed based on the blackbody cavity principle and stable heat radiation energy can be emitted. The heat radiation is received by a photoelectric detector system and converted into an electrical signal which is amplified by a preamplifier and sent to a signal processor. The signal processor using a single chip computer as a core determines the actual temperature of the molten steel according to an online blackbody theory and displays the actual temperature.

[0030] In the prior art, the rod head and the blackbody cavity type temperature measurement sensor of the molten steel are generally made of carbon containing refractory materials such as aluminum carbon, magnesium carbon or zirconium carbon. The rod head in the present invention is still made of carbon containing refractory materials such as aluminum carbon, magnesium carbon or zirconium carbon; the temperature measurement unit 1 is a tubular structure made of cermet; and the material can be selected from Mo—ZrO.sub.2, W—ZrO.sub.2 or Mo—W—ZrO.sub.2, wherein the volume ratio of metal to ceramic content is 0.6-1.5. Compared with the carbon containing refractory materials such as aluminum carbon, magnesium carbon and zirconium carbon used in the rod head, the temperature measurement unit made by the material of the present invention has higher strength, higher compactability and higher anti-scouring performance, and can satisfy the life requirement of long-term scouring and corrosion resistance at the water inlet of the outlet of the tundish through thinner wall thickness. The thin-walled structure of the temperature measurement unit 1 is the basis of rapid and continuous temperature measurement.

[0031] The wall thickness of the temperature measurement unit in the present invention is preferably 2.0-10.0 mm, and preferably 2.5-7.0 mm, such as 2.5 mm, 3.0 mm, 6.0 mm and 7.0 mm.

[0032] The rod head 2 and the rod body 3 can be made of the same material or different materials. For example, the rod head and the rod body are made of aluminum carbon material, or the rod head is made of magnesium carbon material and the rod body is made of aluminum carbon material.

[0033] The rod head 2 and the rod body 3 can be formed integrally.

[0034] A plurality of exhaust passages are distributed around the temperature measurement unit 1, and preferably uniformly distributed. Preferably, the quantity of the exhaust passages 6 may be 2, 5, 9, 30, 100, 150 and the like.

[0035] In the process of continuous casting, the inner cavity of the stopper rod can generate smoke gas under the action of high temperature and the generated smoke gas blocks the temperature measurement light path. In the structural design of the stopper rod in the present invention, the temperature measurement unit 1, the rod head 2, the rod body 3 and the connecting pipe 5 are designed to be coaxial to ensure alignment of the temperature measurement light path, and the connecting pipe 5, the exhaust passages 6, the inner part of the rod body 3 and the inner part of the rod head 2 are communicated to form a ventilation structure. In the design, while blowing argon to prevent blockage and remove slag inclusions, the smoke gas generated in the inner cavity of the stopper rod can be removed to clean the temperature measurement light path.

[0036] The arrangement of the exhaust passages of the present invention needs to consider minimizing the influence of argon blowing on the temperature field of the temperature measurement unit.

Based on the above purpose, specific measures adopted in the present invention are as follows:

[0037] Inlet ends of the exhaust passages 6 are communicated with the inner cavity of the rod body 3 or the inner cavity of the rod head 2; and outlet ends of the exhaust passages 6 are connected with the outer surface of the rod head 2 and communicated with the outside. The exhaust passages are preferably arranged radially.

[0038] The inlet ends of the exhaust passages 6 are located above the open end of the temperature measurement unit 1, i.e., a distance L.sub.2 from the inlet ends of the exhaust passages 6 to the open end of the temperature measurement unit 1 is greater than 0 mm, and L.sub.2 is preferably 20-250 mm, such as 20 mm, 50 mm, 80 mm, 150 mm and 200 mm. In a preferred solution, a certain distance is kept between the inlet ends of the exhaust passages 6 and the open end of the temperature measurement unit 1 to reduce the influence of argon blowing on the temperature field of the temperature measurement unit.

[0039] A distance L.sub.3 from the outlet ends of the exhaust passages 6 to the outer surface of the temperature measurement unit 1 is greater than or equal to 5 mm, such as 5 mm, 10 mm, 15 mm and 30 mm. A certain distance is kept between the outlet ends of the exhaust passages 6 and the temperature measurement unit 1 to reduce the influence of argon blowing through the exhaust passages on the temperature field of the temperature measurement unit 1.

[0040] The length of the exposed rod head 2 of the temperature measurement unit 1 in the present invention is 10.0 mm-150.0 mm, preferably 20.0 mm-100.0 mm, such as 20.0 mm, 30.5 mm, 50.7 mm, 80.0 mm and 100.0 mm.

[0041] To further ensure the accuracy of temperature measurement, the ratio of length to diameter of the temperature measurement unit 1 needs to satisfy certain conditions to satisfy the isothermal sealing conditions of the blackbody cavity temperature measurement principle. In the present invention, the ratio of the length L.sub.1 of the exposed part of the rod head 2 of the temperature measurement unit 1 to the inner diameter Φ.sub.0 of the temperature measurement unit 1 is L.sub.1/Φ.sub.0=1.0-15.0, preferably 1.0-10.0, such as L.sub.1/Φ.sub.0: 1.5, 2.1, 2.8, 6.5, 8.3, 9.1 and 10.0.

[0042] The inner diameter of the temperature measurement unit is 10-30 mm, preferably 15 mm-25 mm, such as 15.0 mm, 17.5 mm, 22.0 mm and 25.0 mm.

[0043] The use process of the above stopper rod in the present invention is shown in FIG. 2. In the use process, the stopper rod with the temperature measurement function is installed above the water inlet 8 at the outlet of the continuous casting tundish 7. A temperature measurement probe (not shown) obtains the temperature of the molten steel after calculation and analysis by receiving the heat radiation energy emitted by the temperature measurement unit 1. The flow rate of the molten steel is controlled by controlling the distance between the rod head 2 and the water inlet 8. Ar is blown out from the exhaust passages 6 arranged on the rod body 3 and rod head 2 to prevent the slag inclusions from being accumulated at the water inlet to prevent blockage, promote the floating of the inclusions in the molten steel and remove the smoke gas generated in the inner cavity of the stopper rod to clean the temperature measurement light path.