CN209077733U - Heat resisting cast steel ingot mould - Google Patents

Abstract

The utility model relates to the technical fields of casting mould, specifically disclose a kind of heat resisting cast steel ingot mould, including ingot mould ontology, the periphery wall and exterior bottom wall of the ingot mould ontology are equipped with equally distributed stiffener, cooling duct is offered in each stiffener, adjacent cooling duct is interconnected, and the cooling duct on ingot mould ontology bottom wall is communicated with the first siphunculus, and the cooling duct at the top of ingot mould ontology peripheral wall is communicated with the second siphunculus.Ingot mould in the utility model increases due to being additionally arranged stiffener, the structural strength of ingot mould, that is, improves the heat resistance of ingot mould.In addition, cooling duct is opened up in stiffener, heat is taken away using coolant liquid, it can accelerate the cooling velocity of liquid molten steel in ingot mould, shorten cooling time, and then shorten the time of contact of ingot mould and molten steel, to reduce influence and shortening molten steel of the heat to ingot mould to the etching time of ingot mould, extend the service life of ingot mould.

Description

Heat resisting cast steel ingot mould

Technical field

The utility model relates to the technical fields of casting mould, specifically disclose a kind of heat resisting cast steel ingot mould.

Background technique

Ingot mould refers to for holding molten metal and the container or mold that are cooled and shaped convenient for molten metal.In steel ingot Casting process in, ingot mould is indispensable equipment, also, ingot mould affects the quality of steel ingot and the production cost of steel ingot.? In the casting process of steel ingot, first the molten steel of liquid is added into ingot mould, until molten steel is cooled and shaped, forms the steel ingot of solid, Then just steel ingot is processed.

However, ingot mould currently on the market is poor to the cooling effect of liquid molten steel, mainly due to being contained in existing ingot Molten steel in mould can only exchange heat with contacting external air by molten steel surface to be cooled down, and the time of natural cooling is long, The period of entire steel ingot production and processing correspondingly extends.Also, ingot mould with industry situation steel contacts, not only there is heat transfer for a long time Cause ingot mould that slow thermal deformation occurs to ingot mould, can also there are problems that molten steel gradually corrodes ingot mould, shortens making for ingot mould Use the service life.

Utility model content

The utility model is intended to provide a kind of heat resisting cast steel ingot mould, to solve existing ingot mould to the cooling effect of liquid molten steel The problem of difference.

In order to achieve the above object, the embodiment of the utility model are as follows: heat resisting cast steel ingot mould, including ingot mould ontology, the ingot The periphery wall and exterior bottom wall of mould body are equipped with equally distributed stiffener, offer cooling duct in each stiffener, Adjacent cooling duct is interconnected, and the cooling duct on ingot mould ontology bottom wall is communicated with the first siphunculus, close to ingot mould ontology week Cooling duct at the top of wall is communicated with the second siphunculus.

The working principle and beneficial effect of this programme is: 1, due to being additionally arranged stiffener, the structural strength of ingot mould It increases, and then improves the heat resistance of ingot mould, extend the service life of ingot mould.2, cooling duct is opened up in stiffener, The heat for taking away molten steel is contacted with cooling duct using coolant liquid, accelerates the cooling velocity of liquid molten steel in ingot mould, shortens molten steel Cooling time, and then shorten ingot mould and molten steel time of contact, to reduce influence and molten steel of the heat to ingot mould to ingot The etching time of mould further extends the service life of ingot mould.3, coolant liquid is inputted from the first siphunculus to cooling duct, so as to cold But liquid can leave full of can just carry heat behind the cooling duct in all stiffeners from the second siphunculus, it is ensured that the benefit of coolant liquid With rate.

Further, the top side wall of the ingot mould ontology offers anti-overflow slot.

During ingot mould ontology is added in liquid molten steel, molten steel can ripple in ingot mould ontology, may swing ingot mould sheet out Body causes the waste of molten steel or operator that accidentally excessive molten steel is added in ingot mould ontology, molten steel is caused to overflow Ingot mould ontology and cause to waste.Therefore, anti-overflow slot is opened up in the top side wall of ingot mould ontology, the molten steel for overflowing ingot mould ontology will It flows into anti-overflow slot, facilitates recycling, avoid the waste of molten steel.

Further, the bottom of the anti-overflow slot is placed with backing plate, and backing plate is fixedly connected with vertical bar, and the top of vertical bar is stretched out anti- The slot that overflows is arranged.

After the molten steel in anti-overflow slot is cooled and shaped, only need to hold vertical bar proposes that backing plate can take steel after molding upwards Out, staff is facilitated to recycle.

Further, the side wall of second siphunculus is communicated with chamber, and the side wall of chamber is rotatably connected to shaft, the axis of shaft It is fixedly connected with several blades upwards, shaft has been fixedly and coaxially connected flabellum；The outer wall of the ingot mould ontology is fixedly connected with out Air hose, the flabellum are located in discharge pipe, and the one end of discharge pipe far from flabellum is arranged towards ingot mould ontology.

It is rotated using coolant liquid from the fluxion strap movable vane piece in the second siphunculus, and then drives shaft rotation, the coaxial company of fixation The fan blade rotating movable property anger stream in shaft is connect, air-flow is blown away by discharge pipe to ingot mould ontology, is accelerated above ingot mould ontology Air velocity shortens the cooling time of molten steel to accelerate the cooling velocity of molten steel.

Further, the central axes of the shaft and the central axes of the second siphunculus are vertically arranged.

When the central axes of the central axes of shaft and the second siphunculus are vertically arranged, in the blade and the second siphunculus that are connected in shaft Coolant liquid vertical contact area it is big, blade is cooled that the impact force that liquid applies it is larger, and the speed of shaft rotation increases Greatly, make flabellum generate stronger air-flow with this, accelerate the cooling velocity of molten steel.

Further, lifting lug is fixedly connected at left and right sides of the ingot mould body outer wall.

It after molten steel is cooled into steel ingot, needs integrally to move up ingot mould ontology, steel ingot is taken out from ingot mould ontology, Lifting lug can then facilitate staff to carry out moving operation to ingot mould ontology.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of heat resisting cast steel ingot mould in the utility model embodiment one；

Fig. 2 is the left view of Fig. 1；

Fig. 3 is the cross-sectional view of A-A in Fig. 1；

Fig. 4 is the structural schematic diagram of heat resisting cast steel ingot mould in the utility model embodiment two；

Fig. 5 is the left view longitudinal sectional view of the second siphunculus in Fig. 4；

Fig. 6 is the local left view longitudinal sectional view of discharge pipe in Fig. 4.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description includes: ingot mould ontology 1, anti-overflow slot 2, backing plate 3, vertical bar 4, lifting lug 5, stiffener 6, cooling duct 7, the first siphunculus 8, the second siphunculus 9, chamber 10, shaft 11, blade 12, discharge pipe 13, flabellum 14.

Embodiment one

The present embodiment is substantially as shown in Figure 1, Figure 2 and Figure 3, heat resisting cast steel ingot mould, including ingot mould ontology 1, ingot mould ontology 1 Top side wall offers anti-overflow slot 2, and the bottom of anti-overflow slot 2 is placed with backing plate 3, and backing plate 3 is fixedly connected with vertical bar 4, the top of vertical bar 4 Portion stretches out anti-overflow slot 2 and is arranged.It is fixedly connected to lifting lug 5 at left and right sides of 1 outer wall of ingot mould ontology, facilitates the mobile ingot of staff Mould body 1 is to take out the steel ingot being cooled and shaped.

The periphery wall and exterior bottom wall of ingot mould ontology 1 are equipped with equally distributed stiffener 6, offer in each stiffener 6 Cooling duct 7, adjacent cooling duct 7 are interconnected.Cooling duct 7 on 1 bottom wall of ingot mould ontology is communicated with the first siphunculus 8, Cooling duct 7 at the top of 1 peripheral wall of ingot mould ontology is communicated with the second siphunculus 9, and the first siphunculus 8 is communicated with water inlet pipe, and second is logical Pipe 9 is communicated with outlet pipe.

Specific implementation process is as follows: due to being additionally arranged stiffener 6 on the periphery wall and exterior bottom wall of ingot mould ontology 1, ingot The structural strength of mould body 1 is improved, and then improves the heat resistance of ingot mould ontology 1, extends the use of ingot mould ontology 1 Service life.

When molten steel being added into ingot mould ontology 1, molten steel can ripple in ingot mould ontology 1, may swing ingot mould ontology 1 out, Cause the waste of molten steel；Either accidentally excessive molten steel is added in ingot mould ontology 1 by operator, and molten steel is caused to overflow ingot Mould body 1 and cause to waste.If have molten steel to overflow ingot mould ontology 1, molten steel will not be dripped on the ground, but can flow into anti- It overflows in slot 2, avoids the waste of molten steel in this way.Also, after the molten steel in anti-overflow slot 2 is cooled and shaped, it is only necessary to which work people Member holds vertical bar 4 and lifts backing plate 3, can take out steel after molding, easy to operate.

When cooling molten steel, coolant liquid is inputted into the first siphunculus 8 using water inlet pipe, coolant liquid flows through the entrance of the first siphunculus 8 In cooling duct 7, due to cooling duct 7 be it is interconnected, coolant liquid will be from the cooling of the bottom of ingot mould ontology 1 Channel 7 is gradually filled with to the cooling duct 7 at the top of ingot mould ontology 1, in this way, coolant liquid will sufficiently with ingot mould ontology 1 Cooling duct 7 can just be left after contacting through the second siphunculus 9.In the process, coolant liquid contacts with each other with cooling duct 7, and coolant liquid will The heat absorption of molten steel is taken away, and the cooling velocity of molten steel is accelerated, and shortens the cooling time of molten steel, and then shortens molten steel and ingot mould sheet The time of contact of 1 inner wall of body, to reduce influence and shortening molten steel of the heat to ingot mould ontology 1 to 1 inner wall of ingot mould ontology Etching time further extends the service life of ingot mould ontology 1.

Embodiment two

The present embodiment and embodiment one the difference is that: as shown in Figure 4, Figure 5 and Figure 6, the top side of the second siphunculus 9 Wall is communicated with chamber 10, and the side wall of chamber 10 is rotatably connected to shaft 11, and eight blades are fixedly connected in the axial direction of shaft 11 12, shaft 11 has been fixedly and coaxially connected flabellum 14.The outer wall of ingot mould ontology 1 is fixedly connected with discharge pipe 13, and flabellum 14 is located at In air hose 13, the one end of discharge pipe 13 far from flabellum 14 is arranged towards ingot mould ontology 1.

Specific implementation process is as follows: when coolant liquid flows through the second siphunculus 9, it will applies impact force to blade 12, to make It obtains 12 turns of blade to rotate counterclockwise, then shaft 11 is driven to rotate counterclockwise, be fixedly and coaxially connected the flabellum 14 in shaft 11 It rotates counterclockwise, generates air-flow, air-flow blows to ingot mould ontology 1 by the changed course of discharge pipe 13, so that the air of 1 top of ingot mould ontology Flow velocity is accelerated, and then accelerates the cooling velocity of molten steel, shortens the cooling time of molten steel, so as to shorten in molten steel and ingot mould ontology 1 The time of contact of wall extends the service life of ingot mould ontology 1.

Above-described is only the embodiments of the present invention, and the common sense such as well known specific structure and characteristic are herein in scheme It does not describe excessively.It should be pointed out that for those skilled in the art, in the premise for not departing from the utility model structure Under, several modifications and improvements can also be made, these also should be considered as the protection scope of the utility model, these all will not influence The effect and patent practicability that the utility model is implemented.

Claims (6)

1. heat resisting cast steel ingot mould, including ingot mould ontology, it is characterised in that: the periphery wall and exterior bottom wall of the ingot mould ontology are equipped with Equally distributed stiffener offers cooling duct in each stiffener, and adjacent cooling duct is interconnected, ingot mould sheet Cooling duct on body bottom wall is communicated with the first siphunculus, and it is logical that the cooling duct at the top of ingot mould ontology peripheral wall is communicated with second Pipe.

2. heat resisting cast steel ingot mould according to claim 1, it is characterised in that: the top side wall of the ingot mould ontology offers Anti-overflow slot.

3. heat resisting cast steel ingot mould according to claim 2, it is characterised in that: the bottom of the anti-overflow slot is placed with backing plate, Backing plate is fixedly connected with vertical bar, and anti-overflow slot setting is stretched out at the top of vertical bar.

4. heat resisting cast steel ingot mould according to claim 1 or 2, it is characterised in that: the side wall of second siphunculus is communicated with Chamber, the side wall of chamber are rotatably connected to shaft, several blades are fixedly connected in the axial direction of shaft, and shaft is fixedly and coaxially connected There is flabellum；The outer wall of the ingot mould ontology is fixedly connected with discharge pipe, and the flabellum is located in discharge pipe, and discharge pipe is far from flabellum One end towards ingot mould ontology be arranged.

5. heat resisting cast steel ingot mould according to claim 4, it is characterised in that: the central axes of the shaft and the second siphunculus Central axes are vertically arranged.

6. heat resisting cast steel ingot mould according to claim 5, it is characterised in that: the left and right sides of the ingot mould body outer wall is equal It is fixedly connected with lifting lug.