CN216176471U - Novel continuous casting machine - Google Patents

Abstract

The utility model relates to the technical field of continuous casting machine equipment, in particular to a novel continuous casting machine, which comprises: pipeline, cooling ring, temperature control device, cooling device and coolant liquid recovery unit, equidistant cooling ring of installing in the pipeline, the cooling ring can stretch out and draw back in the pipeline, temperature control device fixed mounting is on cooling ring inside diameter face, cooling device fixed mounting extend on same route at pipeline outside diameter face and with pipeline, coolant liquid recovery unit fixed mounting is at the cooling device end and flow back to the coolant liquid input. The utility model has the beneficial effects that: through reforming the conticaster casting blank pipeline among the prior art for the molten steel temperature of flowing through the conticaster is controllable, has changed among the traditional art to the molten steel flow in the middle of only relying on the simple and easy temperature control technique of the cooling of watering, realizes energy-concerving and environment-protective simultaneously, has reduced manufacturing cost, has improved the product quality, has improved production work efficiency.

Description

Novel continuous casting machine

Technical Field

The utility model relates to a conticaster equipment technical field, concretely relates to novel conticaster.

Background

The continuous casting process of high temperature molten steel into casting blank with certain cross section and size is called continuous casting. The equipment required to accomplish this process is called a continuous casting plant. The electromechanical liquid integration of the steel casting equipment, the continuous casting machine body equipment, the cutting area equipment and the dummy bar collecting and conveying equipment forms the core part equipment of continuous casting steel, which is conventionally called a continuous casting machine. The production process of continuous casting machine is that high-temperature molten steel is continuously poured into one or a group of water-cooled copper crystallizers, the molten steel is gradually solidified into blank shells along the peripheries of the crystallizers, after the molten steel level rises to a certain height, the blank shells are solidified to a certain thickness, the blank is pulled out by a withdrawal and straightening machine, the casting blank is completely solidified by water spray cooling in a secondary cooling area, and the casting blank is cut into fixed length by a cutting device according to the steel rolling requirement. This process of directly casting high temperature molten steel into steel billets is known as continuous casting. The emergence of the technology fundamentally changes the one-pass rolling technology of the steel nails which dominate over a century. Because the method simplifies the production process, improves the production efficiency and the metal yield, saves the energy consumption, greatly reduces the production cost, has good billet quality and the like, and is developed rapidly. In the current steel-making enterprises, the allocation of continuous casting machines is almost inevitable no matter long-flow steel-making or short-flow steel-making.

In the prior art, the temperature directly influences the quality of the finished casting blank product in the middle of the continuous casting process, however, in the prior art, the continuous casting machine cannot control the optimal temperature when the molten steel flows out, so that the quality of the finished casting blank product cannot reach the standard due to supercooling and overheating of the temperature, the working efficiency and the working process are influenced, a lot of resources are wasted, and certain fund loss is caused.

In view of this, need urgently to design a novel conticaster through the conticaster casting blank pipeline among the reform prior art for the molten steel temperature of flowing through the conticaster is controllable, has changed among the traditional art to the molten steel flow process in the middle of only relying on the refrigerated simple and easy accuse temperature technique of watering, realizes energy-concerving and environment-protective simultaneously, has reduced manufacturing cost, has improved the product quality, has improved production work efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model aims to provide a novel continuous casting machine, which can control the temperature of molten steel flowing through the continuous casting machine by reforming a casting blank pipeline of the continuous casting machine in the prior art, change the simple temperature control technology of cooling by watering in the flowing process of the molten steel in the traditional technology, realize energy conservation and environmental protection, reduce the production cost, improve the product quality and improve the production work efficiency.

In order to achieve the above object, the technical solution of the present invention is: a novel continuous casting machine comprising: pipeline, cooling ring, temperature control device, cooling device and coolant liquid recovery unit, equidistant cooling ring of installing in the pipeline, the cooling ring can stretch out and draw back in the pipeline, temperature control device fixed mounting be in on the cooling ring internal diameter face, cooling device fixed mounting be in pipeline outside diameter face and with pipeline extends on same route, coolant liquid recovery unit fixed mounting be in cooling device is terminal and flow back extremely the coolant liquid input.

Further, the delivery conduit comprises: the main part pipe, graphite heat-conducting layer and cooling ring mounting groove, main part intraductal footpath face fixed mounting has the graphite heat-conducting layer, cooling ring mounting groove equidistance is seted up main part intraductal footpath face.

Further, the cooling ring includes: graphite heat-conducting ring and telescoping cylinder, graphite heat-conducting ring with cooling ring mounting groove cooperatees, the telescoping cylinder fixed mounting be in between cooling ring mounting groove and the graphite heat-conducting ring.

Further, the cooling device includes: the cooling liquid water conservancy diversion ring road and temperature monitoring sensor, cooling liquid water conservancy diversion ring road fixed mounting be in pipeline outside diameter face, the equidistant fixed mounting of temperature monitoring sensor is in cooling liquid water conservancy diversion ring road inside diameter face.

Further, the temperature control device includes: the system comprises a host, an environment temperature sensor and a water temperature monitoring sensor, wherein the environment temperature sensor is fixedly installed on the graphite heat conduction ring, the host is electrically connected with the environment temperature sensor and the water temperature monitoring sensor, and the host is electrically connected with the telescopic cylinder and the cooling liquid recovery device.

Further, the coolant recovery apparatus includes: cooling tank, backwash pump, water injection pump and water tank for use, the cooling tank with the terminal intercommunication of coolant liquid water conservancy diversion loop, the cooling tank pass through the backwash pump with water tank for use intercommunication, water tank for use pass through the water injection pump with coolant liquid water conservancy diversion loop input is linked together.

Has the advantages that:

according to the novel continuous casting machine provided by the utility model, the casting blank pipeline of the continuous casting machine in the prior art is reformed, so that the temperature of the molten steel flowing through the continuous casting machine is controllable, a simple temperature control technology of only watering and cooling in the flowing process of the molten steel in the traditional technology is changed, energy conservation and environmental protection are realized, the production cost is reduced, the product quality is improved, and the production work efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of a novel continuous casting machine of the present invention;

FIG. 2 is a schematic cross-sectional view of a novel continuous casting machine of the present invention;

the labels in the figure are: 1-conveying pipeline, 2-cooling ring, 3-temperature control device, 4-cooling device, 5-cooling liquid recovery device, 11-main pipe, 12-graphite heat conduction layer, 13-cooling ring installation groove, 21-graphite heat conduction ring, 22-telescopic cylinder, 31-main machine, 32-ambient temperature sensor, 33-water temperature monitoring sensor, 41-cooling liquid guide loop, 42-water temperature monitoring sensor, 51-cooling tank, 52-reflux pump, 53-water injection pump and 54-standby water tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments disclosed herein are intended to be within the scope of the present invention.

As shown in the figures, the utility model discloses a novel continuous casting machine, comprising: pipeline 1, cooling ring 2, temperature control device 3, cooling device 4 and coolant liquid recovery unit 5, equidistant cooling ring 2 of installing in pipeline 1, cooling ring 2 can stretch out and draw back in pipeline 1, 3 fixed mounting of temperature control device on the 2 internal diameter faces of cooling ring, cooling device 4 fixed mounting be in pipeline 1 external diameter face and with pipeline 1 extends on same route, 5 fixed mounting of coolant liquid recovery unit 4 is terminal and flow back extremely the coolant liquid input.

In this embodiment, the delivery pipe 1 includes: main part pipe 11, graphite heat-conducting layer 12 and cooling ring mounting groove 13, 11 internal diameter face fixed mounting of main part pipe have graphite heat-conducting layer 12, cooling ring mounting groove 13 equidistance is seted up 11 internal diameter faces of main part pipe.

In this embodiment, the cooling ring 2 includes: graphite heat-conducting ring 21 and telescoping cylinder 22, graphite heat-conducting ring 21 with cooling ring mounting groove 13 cooperatees, telescoping cylinder 22 fixed mounting be in between cooling ring mounting groove 13 and the graphite heat-conducting ring 21.

In this embodiment, the cooling device 4 includes: coolant liquid water conservancy diversion ring road 41 and water temperature monitoring sensor 42, coolant liquid water conservancy diversion ring road 41 fixed mounting in pipeline 1 outer diametral plane, water temperature monitoring sensor 42 equidistant fixed mounting in coolant liquid water conservancy diversion ring road 41 inner diametral plane.

In this embodiment, the temperature control device 3 includes: the cooling system comprises a host 31, an environment temperature sensor 32 and a water temperature monitoring sensor 42, wherein the environment temperature sensor 32 is fixedly installed on the graphite heat conduction ring 21, the host 31 is electrically connected with the environment temperature sensor 32 and the water temperature monitoring sensor 42, and the host 31 is electrically connected with the telescopic cylinder 22 and the cooling liquid recovery device 5.

In this embodiment, the coolant recovery device 5 includes: cooling tank 51, return pump 52, water injection pump 53 and water tank 54 for standby, cooling tank 51 with coolant water conservancy diversion return circuit 41 end intercommunication, cooling tank 51 through return pump 52 with water tank 54 for standby communicates, water tank 54 for standby through water injection pump 53 with coolant water conservancy diversion return circuit 41 input communicates.

The working principle is as follows:

in the process of working, firstly, the molten steel flows to the output port in the conveying pipeline 1, the temperature of the molten steel is required to be reduced and controlled in the flowing process, because the graphite heat-conducting layer 12 is arranged in the conveying pipeline 1, the graphite heat-conducting layer 12 is directly contacted with the molten steel in the flowing process of the molten steel, the temperature of the molten steel is conducted to the cooling device 4, because the cooling ring installation grooves 13 are arranged in the main body pipe 11 at equal intervals, the graphite heat-conducting rings 21 are telescopically arranged in the cooling ring installation grooves 13, the environment temperature sensor 32 is arranged on the graphite heat-conducting rings 21, when the environment temperature sensor 32 detects that the temperature is higher than a set value, the telescopic cylinder 22 drives the graphite heat-conducting rings 21 to protrude out of the inner diameter surface of the conveying pipeline 1, the graphite heat-conducting rings 21 reduce the inner diameter of the conveying pipeline 1 relative to the conveying pipeline 1, the molten steel inevitably spans the graphite heat-conducting rings 21 in the flowing process and conducts the temperature of the molten steel to the graphite heat-conducting layer arranged on the inner diameter surface of the conveying pipeline 1 through the graphite heat-conducting rings 21 12, the overall heat conduction efficiency is enhanced.

Wherein, because fixed mounting has coolant liquid water conservancy diversion ring 41 on the pipeline 1 external diameter face, it has the coolant liquid to flow in the coolant liquid water conservancy diversion ring 41, and the coolant liquid is the heat absorption of whole equipment cooling to flow to coolant liquid water conservancy diversion ring 41 end and retrieve through backwash pump 52 the coolant liquid that has heated, the coolant liquid is retrieved and is flowed into in the standby water tank 54 after cooling in the middle of the cooling tank 51, waits to be poured into in the coolant liquid water conservancy diversion ring 41 by water injection pump 53 again and cools down.

Wherein, because the water temperature monitoring sensor 42 is arranged in the cooling liquid guide loop 41, the water temperature monitoring sensor 42 detects the temperature of the cooling liquid, so as to reflect the temperature to the host 31, and the host 31 synthesizes the environmental temperature sensor 32 and the water temperature monitoring sensor 42 to control the cooling loop 2 at the proper position to be started to enhance the heat conduction efficiency and the cooling efficiency of the whole device.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, but rather as the intention of all modifications, equivalents, improvements, and equivalents falling within the spirit and scope of the utility model.

Claims (6)

1. A novel continuous casting machine comprising: pipeline (1), cooling ring (2), temperature control device (3), cooling device (4) and coolant liquid recovery unit (5), its characterized in that, equidistant cooling ring (2) of installing in pipeline (1), cooling ring (2) can stretch out and draw back in pipeline (1), temperature control device (3) fixed mounting be in on cooling ring (2) inside diameter face, cooling device (4) fixed mounting be pipeline (1) outside diameter face and with pipeline (1) extends on same route, coolant liquid recovery unit (5) fixed mounting be in cooling device (4) end and flow back extremely the coolant liquid input.

2. The new continuous casting machine according to claim 1, characterized in that the conveying pipe (1) comprises: main part pipe (11), graphite heat-conducting layer (12) and cooling ring mounting groove (13), main part pipe (11) inside diameter face fixed mounting has graphite heat-conducting layer (12), cooling ring mounting groove (13) equidistance is seted up main part pipe (11) inside diameter face.

3. The new continuous casting machine according to claim 2, characterized in that the cooling ring (2) comprises: graphite heat-conducting ring (21) and telescoping cylinder (22), graphite heat-conducting ring (21) with cooling ring mounting groove (13) cooperate, telescoping cylinder (22) fixed mounting be in between cooling ring mounting groove (13) and graphite heat-conducting ring (21).

4. The new continuous casting machine according to claim 3, characterized in that the cooling device (4) comprises: coolant liquid water conservancy diversion ring road (41) and water temperature monitoring sensor (42), coolant liquid water conservancy diversion ring road (41) fixed mounting be in pipeline (1) outer diametral plane, equidistant fixed mounting in water temperature monitoring sensor (42) coolant liquid water conservancy diversion ring road (41) inner diametral plane.

5. The new continuous casting machine according to claim 4, characterized in that the temperature control device (3) comprises: host computer (31), ambient temperature sensor (32) and temperature monitoring sensor (42), ambient temperature sensor (32) fixed mounting be in on graphite heat-conducting ring (21), host computer (31) with ambient temperature sensor (32) and temperature monitoring sensor (42) electric connection, host computer (31) with telescoping cylinder (22) and coolant liquid recovery unit (5) electric connection.

6. The new continuous casting machine according to claim 5, characterized in that the coolant recovery device (5) comprises: cooling tank (51), backwash pump (52), water injection pump (53) and water tank (54) for use, cooling tank (51) with coolant liquid water conservancy diversion circuit (41) end intercommunication, cooling tank (51) through backwash pump (52) with water tank (54) for use intercommunication, water tank (54) for use through water injection pump (53) with coolant liquid water conservancy diversion circuit (41) input is linked together.

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