Temperature displacement coupling device for real-time monitoring of crystallizer copper plate in on-line mode

A technology for crystallizer copper plate and real-time monitoring, which is applied in the configuration of indicating equipment/measuring equipment, manufacturing tools, metal processing equipment, etc. The effect of equipment reliability and stability, reduction of breakout rate, and simple installation

Active Publication Date: 2015-08-12
DALIAN HUARUI HEAVY IND GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Since the copper plate of the crystallizer has a certain thickness and the installation space is limited, the thermocouple installation holes already have a certain density distribution on it. It will be difficult to add additional holes for the displacement monitoring device to the copper plate.
And adding a displacement monitoring device to the repair of the old mold copper plate will increase the processing capacity of the copper plate and reduce the performance of the copper plate

Method used

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  • Temperature displacement coupling device for real-time monitoring of crystallizer copper plate in on-line mode
  • Temperature displacement coupling device for real-time monitoring of crystallizer copper plate in on-line mode

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Experimental program
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Embodiment Construction

[0017] The present invention will be further described below in conjunction with accompanying drawing. like Figure 1-2 As shown, a temperature-displacement coupling device for real-time monitoring of an online crystallizer copper plate, including a temperature-sensing probe 1, a displacement probe 2, a spring slide 3, a guide rod 4, a ferrule device 5, a displacement compensation wire 6, and a screw sleeve 7. Fasteners 8 and temperature compensating wires 9; there are four displacement probes 2 connected to the lower ends of the respective guide rods 4, the spring slides 3 are set on the guide rods 4, and the guide rods 4 The upper ends of the rods 4 are respectively connected to the respective displacement compensation wires 6, the temperature sensing probe 1 is connected to the temperature compensation wires 9, the screw sleeve 7 has connecting threads on the outside, and there are five through holes in the inner cavity, each of which is a The temperature probe through hol...

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PUM

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Abstract

The invention discloses a temperature displacement coupling device for real-time monitoring of a crystallizer copper plate in an on-line mode. The temperature displacement coupling device comprises a temperature sensing probe, displacement probes, a spring sliding channel, a guide rod, a clamping sleeve device, displacement compensating lead wires, a swivel nut, a fastener and a temperature compensating lead wire. Due to the fact that the thermocouple and displacement couple measures are taken, temperature variation and displacement variation under the condition that the crystallizer copper plate is heated can be monitored at the same time, the equipment reliability and stability of the crystallizer device are guaranteed, the overall breakout ratio of a continuous casting machine is lowered, and the economic benefits of a steel mill are increased. For the reason that the temperature sensing probe and the four displacement probes are adopted, the monitoring purpose can be achieved to the greatest extent under the condition that space is definite. The temperature displacement coupling device for the crystallizer copper plate and a crystallizer breakout prediction PLC system of the continuous casting control system are connected, so that timely monitoring of the on-line crystallizer copper plate is achieved, and the purpose of on-line control over the crystallizer copper plate is achieved.

Description

technical field [0001] The invention belongs to the field of metallurgical machinery and equipment, in particular to a temperature displacement coupling device used for real-time monitoring of an online crystallizer copper plate. Background technique [0002] The mold is the heart of the steel continuous casting machine. It has been working in a harsh environment with limited space, continuous vibration, ambient temperature between -20 and 200 °C, a large amount of water vapor and a small amount of oil. [0003] The failure form of the mold copper plate is mainly manifested in two aspects: one is the denaturation of the copper plate material due to overheating and uneven temperature distribution of the mold copper plate, and the other is the deformation of the mold copper plate in the continuous casting environment (stress and thermal stress). Under the action, the copper plate is seriously deformed under stress. These two aspects will directly determine the material proper...

Claims

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Application Information

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IPC IPC(8): B22D11/16B22D2/00
Inventor 刘利娜董连俊
Owner DALIAN HUARUI HEAVY IND GROUP
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