CN102287850A - Low-oxygen copper-rod continuous-casting continuous-rolling combustion-control system - Google Patents

Abstract

The invention discloses a low-oxygen copper-rod continuous-casting continuous-rolling combustion-control system, which comprises a vertical-furnace combustion-control system, an upper-lower flow-slot combustion-control system, a heat-preserving furnace combustion-control system, a tundish combustion-control system and a cast-wheel heating combustion-control system, wherein each part of the combustion-control system respectively comprises a wind-supply pipeline, an air-supply pipeline, a burner and a wind-combustion proportional regulator; air and fuel gas are automatically regulated to an optimal state according to the proportion of 10:1 after being premixed through the wind-combustion proportional regulator; and when the mixed gas enters a combustion area, the atmosphere is stable, the combustion is sufficient, and the oxygen content of a finished-product copper rod is stable. The combustion-control system disclosed by the invention has the advantages of convenience in operation, uniform atmosphere and sufficiency in combustion, the optimum oxygen content of the finished-product copper rod reaches more than 75 percent, and the quality of a product is markedly improved.

Description

A kind of low-oxygen copper pole continuous casting and rolling combustion control system

Technical field

The invention belongs to combustion control system technical field in the low-oxygen copper pole continuous casting and rolling production line.

Background technology

The low-oxygen copper pole continuous casting and rolling production line comprises combustion system, continuous casting and continuous-rolling system, combustion system comprises shaft furnace, last chute, holding furnace, downtand and tundish again, wherein 13 burners of shaft furnace (as Fig. 1), last 3 burners of chute, 4 burners of holding furnace, 4 burners of downtand and 2 burners of tundish.After cathode copper melted in shaft furnace, copper water flowed into chute, holding furnace, downtand and tundish successively, entered later process processing again.Combustion system takes following mode to control: the wind of each burner is controlled blast by different butterfly valves, and regulates gaseous-pressure automatically by the zero balance valve, regulates mixed proportion by mixing valve again.Method of operating: at first connect power supply, next opens gate valve, manual magnetic valve, the dish valve control burner pressure of each burner of manual adjustments is controlled mixing valve again and is regulated atmosphere, watches burner flame and controls the needed atmosphere of each pouring mouth according to the CO analysis result by observation window at last.Because burner wind, combustion gas are respectively by butterfly valve, balanced valve and mixing valve control, the atmosphere detection obtains CO analysis data by the sample tap of each burner respectively, each burner blast is different like this, atmosphere is unbalanced, poor stability, finished product copper bar oxygen content control instability causes containing oxygen control can not be low excessively, and whole oxygen content is higher.

Summary of the invention

At the deficiencies in the prior art, the invention provides a kind of low-oxygen copper pole continuous casting and rolling combustion control system, this control system air feed is stable, flame combustion is abundant, shaft furnace, holding furnace copper water oxygen content are controlled in certain scope, the excellent oxygen rate that contains of finished product copper bar reaches more than 75%, properties of product be improved significantly.

For solving the problems of the technologies described above, the technical solution used in the present invention is:

A kind of low-oxygen copper pole continuous casting and rolling combustion control system, by the shaft furnace combustion control system, last downtand combustion control system, the holding furnace combustion control system, tundish combustion control system and cast wheel heating flame control system are formed, the each several part combustion control system comprises air-supply pipeline 6 respectively, supply air line 7, burner 8, this combustion control system also comprises wind combustion proportional controller 9, described wind combustion proportional controller 9 is connected between air-supply pipeline 6 supply air lines 7 and burner 8 and with them, comprise stop valve 11, filter 12, magnetic valve 13, motor-driven valve 14, proportioning valve 15, air-supply pipeline 6, supply air line 7, hybrid chamber 16, motor-driven valve 17, check-valves 18, gate valve 19, described stop valve 11, filter 12, magnetic valve 13, motor-driven valve 14, proportioning valve 15 connects successively along fuel gas inlet direction pipeline arranges, gate valve 19, check-valves 18, motor-driven valve 17 connects successively along wind inlet direction pipeline arranges, and 15 another outlets of described proportioning valve are communicated with by the pipeline series connection and with air-supply pipeline 6 between motor-driven valve 17 and the hybrid chamber 16.

This combustion control system also comprises gas heater 10, described gas heater 10 is connected between air-supply pipeline 6 supply air lines 7 and wind combustion proportional controller 9 and with them, comprise hot-blast outlet pipe 20, hot blast inlet tube 21, surge tank 22, gas outlet pipe 23, fuel gas inlet pipe 24, the wind that blower fan produces flows to surge tank 22 through air-supply pipeline 6 hot blast inlet tubes 21, flow to wind combustion proportional controller 9 by hot-blast outlet pipe 20 again, gas supply pipeline 7 parts extend in the surge tank 22, shape in surge tank 22 can be the pipeline of straight bending, also can be spirality pipeline, combustion gas is flowed into by fuel gas inlet pipe 24, in surge tank 22, heated by hot blast, do not need other heater heating, and then flow to wind combustion proportional controller 9 by gas outlet pipe 23; Wind and combustion gas are flowed out after mixing in wind combustion proportional controller 9 by a certain percentage, enter each burner 8.

The burner quantity of described shaft furnace combustion control system is 13, the quantity of wind combustion proportional controller is 4, wherein 1#, 11#, shared 1 typhoon of 13# burner fire proportional controller, 2#, 4#, the shared 1 typhoon combustion of 5# burner proportional controller, 7#, 8#, the shared 1 typhoon combustion of 10# burner proportional controller, 3#, 6#, 9#, the shared 1 typhoon combustion of 12# burner proportional controller; The burner quantity of described upper and lower chute combustion control system is 8, the quantity of wind combustion proportional controller is 2, wherein go up chute 14#, 15#, 16#, the shared 1 typhoon combustion of 17# burner proportional controller, downtand 18#, 19#, 20#, the shared 1 typhoon combustion of 21# burner proportional controller; The holding furnace combustion control system is totally 5 burners, 1 typhoon combustion proportional controller, holding furnace 22#, 23#, 24#, 25#, the shared 1 typhoon combustion of 26# burner proportional controller, tundish, cast wheel heating flame control system be totally 3 burners, 1 wind combustion proportional controller, tundish 27#, 28# burner and the shared 1 typhoon combustion of cast wheel heating 29# burner proportional controller; Described each parameter of shaft furnace combustion control system is set to: blower pressure 14-15KPa, 1#, 11#, 13# burner mix atmospheric pressure 7-9KPa, CO4-6% (percent by volume), 2#, 4#, 5#, 7#, 8#, 10# burner mix atmospheric pressure 5-10KPa, CO1-2% (percent by volume), 3#, 6#, 9#, 12# burner mix atmospheric pressure 3-9KPa, CO1-2% (percent by volume); The described downtand combustion control system blower pressure 11-12KPa that goes up, last chute 14#, 15#, 16#, 17# burner mix atmospheric pressure 4-5KPa, CO5-7% (percent by volume), downtand 18#, 19#, 20#, 21# burner mix atmospheric pressure 3-4KPa, CO6-8% (percent by volume); Described holding furnace combustion control system blower pressure 11-12KPa, 22#, 23#, 24#, 25#, 26# burner mix atmospheric pressure 4-5KPa, CO4-6% (percent by volume); Described tundish, cast wheel heating flame control system blower pressure 11-12KPa, tundish combustion control system 27#, 28# burner mix atmospheric pressure 4-5KPa, CO5-7% (percent by volume), cast wheel heating flame control system 29# burner mixes atmospheric pressure 3-4KPa, CO6-8% (percent by volume).

Air, combustion gas are behind wind combustion proportional controller premix, and air and combustion gas are adjusted to optimum state in 10: 1 (volume ratio) ratios automatically, and when mixed gas entered the combustion zone, atmosphere was stable, sufficient combustion, and finished product copper bar oxygen content is stable.

The present invention is compared with prior art, and is easy to operate, and atmosphere is even, sufficient combustion, and the excellent oxygen rate that contains of finished product copper bar reaches more than 75%, and product quality obviously improves.

Description of drawings

Fig. 1 is a shaft furnace combustion system control chart in the prior art

Among the figure: the manual magnetic valve 5-of 1-butterfly valve 2-mixing valve 3-balanced valve 4-gate valve 6-air-supply pipeline 7-supply air line 8-burner

Fig. 2 is wind combustion proportional controller structural representation

Among the figure: 11-stop valve 12-filter 13-magnetic valve 14-motor-driven valve 15-proportioning valve 6-air-supply pipeline 7-supply air line 16-hybrid chamber 17-motor-driven valve 18-check-valves 19-gate valve

Fig. 3 is the gas heater structural representation

Among the figure: 20-hot-blast outlet pipe 21-hot blast inlet tube 22-surge tank 23-gas outlet pipe 24-fuel gas inlet pipe

Fig. 4 embodiment 1 shaft furnace combustion system control chart

Among the figure: 6-air-supply pipeline 7-supply air line 8-burner 9-wind combustion proportional controller

Downtand combustion system control chart on Fig. 5 embodiment 1

Among the figure: 6-air-supply pipeline 7-supply air line 8-burner 9-wind combustion proportional controller

Fig. 6 embodiment 1 holding furnace, tundish, cast wheel heating flame system control chart

Among the figure: 6-air-supply pipeline 7-supply air line 8-burner 9-wind combustion proportional controller

Fig. 7 embodiment 2 shaft furnace combustion system control charts

Among the figure: 6-air-supply pipeline 7-supply air line 8-burner 9-wind combustion proportional controller 10-gas heater

Downtand combustion system control chart on Fig. 8 embodiment 2

Among the figure: 6-air-supply pipeline 7-supply air line 8-burner 9-wind combustion proportional controller 10-gas heater

Fig. 9 embodiment 2 holding furnaces, tundish, cast wheel heating flame system control chart

Among the figure: 6-air-supply pipeline 7-supply air line 8-burner 9-wind combustion proportional controller 10-gas heater

The specific embodiment

Below in conjunction with drawings and Examples the present invention is described further.

Embodiment 1

As Fig. 2, Fig. 4, Fig. 5, Fig. 6, a kind of low-oxygen copper pole continuous casting and rolling combustion control system, by the shaft furnace combustion control system, last downtand combustion control system, the holding furnace combustion control system, tundish combustion control system and cast wheel heating flame control system are formed, the each several part combustion control system comprises air-supply pipeline 6 respectively, supply air line 7, burner 8, this combustion control system also comprises wind combustion proportional controller 9, described wind combustion proportional controller 9 is connected between air-supply pipeline 6 supply air lines 7 and burner 8 and with them, comprise stop valve 11, filter 12, magnetic valve 13, motor-driven valve 14, proportioning valve 15, air-supply pipeline 6, supply air line 7, hybrid chamber 16, motor-driven valve 17, check-valves 18, gate valve 19, described stop valve 11, filter 12, magnetic valve 13, motor-driven valve 14, proportioning valve 15 connects successively along fuel gas inlet direction pipeline arranges, gate valve 19, check-valves 18, motor-driven valve 17 connects successively along wind inlet direction pipeline arranges, and 15 another outlets of described proportioning valve are communicated with by the pipeline series connection and with air-supply pipeline 6 between motor-driven valve 17 and the hybrid chamber 16; Air and combustion gas are flowed out after mixing in wind combustion proportional controller 9 by a certain percentage, enter each burner 8; The burner quantity of described shaft furnace combustion control system is 13, the quantity of wind combustion proportional controller is 4, wherein 1#, 11#, shared 1 typhoon of 13# burner fire proportional controller, 2#, 4#, the shared 1 typhoon combustion of 5# burner proportional controller, 7#, 8#, the shared 1 typhoon combustion of 10# burner proportional controller, 3#, 6#, 9#, the shared 1 typhoon combustion of 12# burner proportional controller; The burner quantity of described upper and lower chute combustion control system is 8, the quantity of wind combustion proportional controller is 2, wherein go up chute 14#, 15#, 16#, the shared 1 typhoon combustion of 17# burner proportional controller, downtand 18#, 19#, 20#, the shared 1 typhoon combustion of 21# burner proportional controller; The holding furnace combustion control system is totally 5 burners, 1 typhoon combustion proportional controller, holding furnace 22#, 23#, 24#, 25#, the shared 1 typhoon combustion of 26# burner proportional controller, tundish, cast wheel heating flame control system be totally 3 burners, 1 wind combustion proportional controller, tundish 27#, 28# burner and the shared 1 typhoon combustion of cast wheel heating 29# burner proportional controller;

Be example to produce φ 8mm low-oxygen electro with the copper cash base below, the invention will be further described:

(1) should open blower fan before the igniting of shaft furnace combustion system and purge burner hearth 3-10 minute.

When (2) the shaft furnace combustion system was lighted a fire, point was gone up chute earlier, and holding furnace is put in the back, shaft furnace, last downtand; Should first brennschluss gas during blowing out, big then air quantity chilling shaft furnace.

When (3) producing, at first regulate the air feed valve, make shaft furnace, holding furnace, last downtand, tundish and heating cast wheel blower pressure parameter meet table 1-4.

(4) regulate the Gas mixing valve door, make 8 wind combustion proportional controller outlet pressures and mixed gas firing after the carbon monoxide content parameter meet table 1-4.

(5) each wind combustion proportional controller outlet is provided with the gaseous mixture sample tap, makes gaseous mixture flow into muffle furnace, delivers to carbonyl analyzer after the burning and detects, according to the automatic or manual adjusting wind combustion of testing result proportional controller air rate example, till qualified.

Table 1 shaft furnace combustion system control parameter value

Table 2 holding furnace combustion system control parameter value

Downtand combustion system control parameter value on the table 3

Table 4 tundish and heating cast wheel combustion system control parameter value

Embodiment 2

As Fig. 2, Fig. 3, Fig. 7, Fig. 8, Fig. 9, substantially with embodiment 1, difference is that this combustion control system also comprises gas heater 10, described gas heater 10 is connected between air-supply pipeline 6 supply air lines 7 and wind combustion proportional controller 9 and with them, comprise hot-blast outlet pipe 20, hot blast inlet tube 21, surge tank 22, gas outlet pipe 23, fuel gas inlet pipe 24, the wind that blower fan produces flows to surge tank 22 through air-supply pipeline hot blast inlet tube 21, flow to wind combustion proportional controller 9 by outlet air-supply pipeline hot-blast outlet pipe 21 again, gas supply pipeline 7 parts extend in the surge tank, shape in surge tank can be the pipeline of straight bending, combustion gas is heated by hot blast in surge tank, do not need other heater heating, and then flow to wind combustion proportional controller 9 by gas outlet pipe 24; Wind and combustion gas are flowed out after mixing in wind combustion proportional controller 9 by a certain percentage, enter each burner 8.

Claims (7)

1. low-oxygen copper pole continuous casting and rolling combustion control system, by the shaft furnace combustion control system, last downtand combustion control system, the holding furnace combustion control system, tundish combustion control system and cast wheel heating flame control system are formed, the each several part combustion control system comprises air-supply pipeline 6 respectively, supply air line 7, burner 8, it is characterized in that: this combustion control system also comprises wind combustion proportional controller 9, described wind combustion proportional controller 9 is connected between air-supply pipeline 6 supply air lines 7 and burner 8 and with them, comprise stop valve 11, filter 12, magnetic valve 13, motor-driven valve 14, proportioning valve 15, air-supply pipeline 6, supply air line 7, hybrid chamber 16, motor-driven valve 17, check-valves 18, gate valve 19, described stop valve 11, filter 12, magnetic valve 13, motor-driven valve 14, proportioning valve 15 connects successively along fuel gas inlet direction pipeline arranges, gate valve 19, check-valves 18, motor-driven valve 17 connects successively along wind inlet direction pipeline arranges, and 15 another outlets of described proportioning valve are communicated with by the pipeline series connection and with air-supply pipeline 6 between motor-driven valve 17 and the hybrid chamber 16.

2. combustion control system according to claim 1, it is characterized in that: this combustion control system also comprises gas heater 10, described gas heater 10 is connected between air-supply pipeline 6 supply air lines 7 and wind combustion proportional controller 9 and with them, comprise hot-blast outlet pipe 20, hot blast inlet tube 21, surge tank 22, gas outlet pipe 23, fuel gas inlet pipe 24, the wind that blower fan produces flows to surge tank 22 through air-supply pipeline 6 hot blast inlet tubes 21, flow to wind combustion proportional controller 9 by hot-blast outlet pipe 20 again, gas supply pipeline 7 parts extend in the surge tank 22, combustion gas is flowed into by fuel gas inlet pipe 24, and then flows to wind combustion proportional controller 9 by gas outlet pipe 23.

3. combustion control system as claimed in claim 2 is characterized in that: the pipeline that be shaped as straight bending or the spirality pipeline of described gas supply pipeline 7 in surge tank 22.

4. combustion control system as claimed in claim 1, it is characterized in that: the burner quantity of described shaft furnace combustion control system is 13, the quantity of wind combustion proportional controller is 4, wherein 1#, 11#, shared 1 typhoon of 13# burner fire proportional controller, 2#, 4#, the shared 1 typhoon combustion of 5# burner proportional controller, 7#, 8#, the shared 1 typhoon combustion of 10# burner proportional controller, 3#, 6#, 9#, the shared 1 typhoon combustion of 12# burner proportional controller; The burner quantity of described upper and lower chute combustion control system is 8, the quantity of wind combustion proportional controller is 2, wherein go up chute 14#, 15#, 16#, the shared 1 typhoon combustion of 17# burner proportional controller, downtand 18#, 19#, 20#, the shared 1 typhoon combustion of 21# burner proportional controller; The holding furnace combustion control system is totally 5 burners, 1 typhoon combustion proportional controller, holding furnace 22#, 23#, 24#, 25#, the shared 1 typhoon combustion of 26# burner proportional controller, tundish, cast wheel heating flame control system be totally 3 burners, 1 wind combustion proportional controller, tundish 27#, 28# burner and the shared 1 typhoon combustion of cast wheel heating 29# burner proportional controller.

5. combustion control system as claimed in claim 4, it is characterized in that: described each parameter of shaft furnace combustion control system is set to: blower pressure 14-15KPa, 1#, 11#, 13# burner mix atmospheric pressure 7-9KPa, CO4-6%, 2#, 4#, 5#, 7#, 8#, 10# burner mix atmospheric pressure 5-10KPa, CO1-2%, 3#, 6#, 9#, 12# burner mix atmospheric pressure 3-9KPa, CO1-2%; The described downtand combustion control system blower pressure 11-12KPa that goes up, last chute 14#, 15#, 16#, 17# burner mix atmospheric pressure 4-5KPa, CO5-7%, downtand 18#, 19#, 20#, 21# burner mix atmospheric pressure 3-4KPa, CO6-8%; Described holding furnace combustion control system blower pressure 11-12KPa, 22#, 23#, 24#, 25#, 26# burner mix atmospheric pressure 4-5KPa, CO4-6%; Described tundish, cast wheel heating flame control system blower pressure 11-12KPa, tundish combustion control system 27#, 28# burner mix atmospheric pressure 4-5KPa, CO5-7%, cast wheel heating flame control system 29# burner mixes atmospheric pressure 3-4KPa, CO6-8%.

6. as claim 2 or 3 described combustion control systems, it is characterized in that: the burner quantity of described shaft furnace combustion control system is 13, the quantity of wind combustion proportional controller is 4, wherein 1#, 11#, shared 1 typhoon of 13# burner fire proportional controller, 2#, 4#, the shared 1 typhoon combustion of 5# burner proportional controller, 7#, 8#, the shared 1 typhoon combustion of 10# burner proportional controller, 3#, 6#, 9#, the shared 1 typhoon combustion of 12# burner proportional controller; The burner quantity of described upper and lower chute combustion control system is 8, the quantity of wind combustion proportional controller is 2, wherein go up chute 14#, 15#, 16#, the shared 1 typhoon combustion of 17# burner proportional controller, downtand 18#, 19#, 20#, the shared 1 typhoon combustion of 21# burner proportional controller; The holding furnace combustion control system is totally 5 burners, 1 typhoon combustion proportional controller, holding furnace 22#, 23#, 24#, 25#, the shared 1 typhoon combustion of 26# burner proportional controller, tundish, cast wheel heating flame control system be totally 3 burners, 1 wind combustion proportional controller, tundish 27#, 28# burner and the shared 1 typhoon combustion of cast wheel heating 29# burner proportional controller.

7. combustion control system as claimed in claim 6, it is characterized in that: described each parameter of shaft furnace combustion control system is set to: blower pressure 14-15KPa, 1#, 11#, 13# burner mix atmospheric pressure 7-9KPa, CO4-6%, 2#, 4#, 5#, 7#, 8#, 10# burner mix atmospheric pressure 5-10KPa, CO1-2%, 3#, 6#, 9#, 12# burner mix atmospheric pressure 3-9KPa, CO1-2%; The described downtand combustion control system blower pressure 11-12KPa that goes up, last chute 14#, 15#, 16#, 17# burner mix atmospheric pressure 4-5KPa, CO5-7%, downtand 18#, 19#, 20#, 21# burner mix atmospheric pressure 3-4KPa, CO6-8%; Described holding furnace combustion control system blower pressure 11-12KPa, 22#, 23#, 24#, 25#, 26# burner mix atmospheric pressure 4-5KPa, CO4-6%; Described tundish, cast wheel heating flame control system blower pressure 11-12KPa, tundish combustion control system 27#, 28# burner mix atmospheric pressure 4-5KPa, CO5-7%, cast wheel heating flame control system 29# burner mixes atmospheric pressure 3-4KPa, CO6-8%.

Images