CN216989826U - Ferroalloy cooling hoisting accessory - Google Patents

Abstract

The utility model discloses a ferroalloy cooling and hoisting device, which comprises an ingot mould bottom plate, an ingot mould side wall, travelling wheels, a bottom plate water inlet pipe, a bottom plate water outlet pipe, a heat insulation ring, a heat insulation water inlet pipe and a heat insulation water outlet pipe, wherein the bottom plate is provided with a bottom plate water inlet pipe; the device comprises a back plate, a hydraulic rod, a rail, a hot water tank, a cold water tank, a first submersible pump and a second submersible pump; the bottom plate of the ingot mould is provided with a slot; the side wall of the ingot mould is inserted into the slot; a waterway channel is encircled in the edge of the bottom plate of the ingot mold, and a bottom plate water inlet pipe and a bottom plate water outlet pipe are respectively connected to the waterway channels on the two sides of the bottom plate of the ingot mold; one end of the bottom plate water inlet pipe extending into the cold water tank is connected with a first submersible pump; walking wheels are arranged on two sides of the ingot mold bottom plate; a heat insulation ring is arranged above the side wall of the ingot mold; the bottom of one side of the heat insulation ring is connected with one end of the heat insulation water inlet pipe; the bottom of the other side of the heat insulation ring is connected with one end of a heat insulation water outlet pipe; a hydraulic rod is fixed on the back plate; and the telescopic end of the hydraulic rod is fixed with the side wall of the ingot mold.

Description

Ferroalloy cooling hoisting accessory

Technical Field

The utility model relates to the technical field of ferroalloy smelting, in particular to a ferroalloy cooling and hoisting device.

Background

The ferroalloy adopts different smelting methods according to the product variety and quality requirements, mainly comprising a carbon reduction method, a metallothermic reduction method and an electrolytic method; and refining by desiliconizing refining, oxygen blowing, vacuum solid decarburization and other methods. Some alloying elements are present in very low amounts in the ore and must be concentrated first, including beneficiation and hydrometallurgical or pyrometallurgical treatment, extraction of pure oxides or other intermediate products, and then smelting. Pouring the smelted ferroalloy; pouring refers to a process of pouring liquid ferroalloy (commonly referred to as molten iron) into a mold to solidify the ferroalloy into an ingot. In many domestic ferrosilicon smelting plants, after the ferrosilicon is discharged from the furnace, the ferrosilicon is directly poured into a metal ingot mold.

Because the existing metal ingot mold needs to bear poured molten iron, the ingot can be transported only by presetting a lifting piece before cooling and forming, otherwise, the ingot does not have a position capable of being hung with a crane, and cannot be transferred through the crane, and after the lifting piece is pre-buried in the poured molten iron, the integrity of the original ingot is damaged by the transferring mode.

The utility model has the following contents:

according to the defects of the prior art, the utility model provides the ferroalloy cooling and hoisting device, the metal ingot mold and the mold are transferred through a more common rail, the influence of the high temperature of the metal ingot mold on the rail is solved, and the transfer of the ingot mold and the ingot is facilitated.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

a ferroalloy cooling and lifting device comprises an ingot mould bottom plate, an ingot mould side wall, travelling wheels, a bottom plate water inlet pipe, a bottom plate water outlet pipe, a heat insulation ring, a heat insulation water inlet pipe, a heat insulation water outlet pipe, a back plate, a hydraulic rod, a rail, a hot water tank, a cold water tank, a first submersible pump and a second submersible pump; the ingot mould bottom plate is provided with a slot; the side wall of the ingot mould is inserted into the slot; a waterway channel is encircled in the edge of the bottom plate of the ingot mold, and a bottom plate water inlet pipe and a bottom plate water outlet pipe are respectively connected to the waterway channels on the two sides of the bottom plate of the ingot mold; the bottom plate water inlet pipe and the bottom plate water outlet pipe respectively extend into the cold water tank and the hot water tank; one end of the bottom plate water inlet pipe extending into the cold water tank is connected with a first submersible pump; walking wheels are arranged on two sides of the ingot mold bottom plate; a track is arranged below the travelling wheel; a heat insulation ring is arranged above the side wall of the ingot mold, and one side of the heat insulation ring is fixedly connected with the top of the back plate; the bottom of the back plate is fixed with the ground; the heat insulation ring is of a hollow square tube structure; the bottom of one side of the heat insulation ring is connected with one end of the heat insulation water inlet pipe; the bottom of the other side of the heat insulation ring is connected with one end of a heat insulation water outlet pipe; the other end of the heat-insulation water inlet pipe is connected with a second submersible pump and extends into the cold water tank; the other end of the heat insulation water outlet pipe extends into the hot water tank; a hydraulic rod is fixed on the back plate; and the telescopic end of the hydraulic rod is fixed with the side wall of the ingot mold.

Preferably, one side of the heat insulation ring is nested with a protection plate; a flow guide support is fixed above the protection plate; the outer side of the diversion support is fixed with the ground outside the cold water tank through the support legs.

Preferably, the back plate is of an L-shaped structure, and the hydraulic rod is fixed on the inner side of the back plate.

Preferably, the positions of the heat insulation water inlet pipe and the heat insulation water outlet pipe corresponding to the positions of the walking wheels are provided with outward bends.

Preferably, the side wall of the ingot mould is provided with a groove corresponding to the positions of the heat-insulation water inlet pipe and the heat-insulation water outlet pipe.

Preferably, the front surface of the ingot mould bottom plate is fixed with a hook convenient for traction.

The beneficial effects of the utility model are as follows:

1. the bottom plate and the side wall of the ingot mold are inserted and pressed tightly and can be separated, and after the ingot is cooled, the side wall is separated, and the bottom plate and the ingot are directly transported.

2. The edge of the ingot mould bottom plate is provided with a water path for improving the cooling speed and isolating high temperature, so that the ingot mould bottom plate is prevented from transmitting the high temperature to the travelling wheels at two sides.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic side view of the present invention.

FIG. 3 is a schematic view of the side view of the bottom plate of the ingot mold moving outwards.

FIG. 4 is a schematic view of the outward moving front view structure of the bottom plate of the ingot mold of the present invention.

In the figure, an ingot mould bottom plate 1, an ingot mould side wall 2, walking wheels 3, a bottom plate water inlet pipe 4, a bottom plate water outlet pipe 5, a heat insulation ring 6, a heat insulation water inlet pipe 7 and a heat insulation water outlet pipe 8; the water-cooling type water-cooling tower comprises a back plate 9, a hydraulic rod 10, a rail 11, a hot water tank 12, a cold water tank 13, a first submersible pump 14, a second submersible pump 15, a hook 16, a protection plate 17 and a diversion support 18.

The specific implementation mode is as follows:

as shown in fig. 1-4, an iron alloy cooling and lifting device comprises an ingot mold bottom plate 1, an ingot mold side wall 2, traveling wheels 3, a bottom plate water inlet pipe 4, a bottom plate water outlet pipe 5, a thermal insulation ring 6, a thermal insulation water inlet pipe 7, a thermal insulation water outlet pipe 8, a back plate 9, a hydraulic rod 10, a track 11, a hot water tank 12, a cold water tank 13, a first submersible pump 14 and a second submersible pump 15; the bottom plate 1 of the ingot mould is provided with a slot; the side wall 2 of the ingot mould is inserted in the slot; a waterway channel is encircled in the edge of the ingot mould bottom plate 1, and a bottom plate water inlet pipe 4 and a bottom plate water outlet pipe 5 are respectively connected to the waterway channels on the two sides of the ingot mould bottom plate 1; the bottom plate water inlet pipe 4 and the bottom plate water outlet pipe 5 respectively extend into the cold water tank 13 and the hot water tank 12; one end of the bottom plate water inlet pipe 4 extending into the cold water tank 13 is connected with a first submersible pump 14; walking wheels 3 are arranged on two sides of the ingot mould bottom plate 1; a track 11 is arranged below the travelling wheel 3; the front surface of the ingot mould bottom plate 1 is fixed with a hook 16 convenient for traction, so that a tractor can conveniently pull the ingot mould bottom plate 1 and an ingot to transfer.

As shown in fig. 1-4, a heat insulating ring 6 is arranged above the side wall 2 of the ingot mold, and one side of the heat insulating ring 6 is fixedly connected with the top of a back plate 9; the bottom of the back plate 9 is fixed with the ground; the heat insulating ring 6 is of a hollow square tube structure; the bottom of one side of the heat insulation ring 6 is connected with one end of a heat insulation water inlet pipe 7; the bottom of the other side of the heat insulation ring 6 is connected with one end of a heat insulation water outlet pipe 8; the other end of the heat insulation water inlet pipe 7 is connected with a second submersible pump 15 and extends into the cold water tank 13; the other end of the heat insulation water outlet pipe 8 extends into the hot water tank 12; the positions of the heat-insulation water inlet pipe 7 and the heat-insulation water outlet pipe 8, which correspond to the walking wheels 3, are bent outwards, the walking wheels 3 can be bypassed by bending, the moving track of the walking wheels 3 is prevented from being blocked, the heat-insulation water inlet pipe and the heat-insulation water outlet pipe are preferably respectively provided with three heat-insulation water inlet pipes, and the three heat-insulation water inlet pipes can share one second submersible pump. The side wall 2 of the ingot mould is provided with grooves corresponding to the positions of the heat insulation water inlet pipe 7 and the heat insulation water outlet pipe 8, and the grooves increase the contact area between the pipeline and the side wall 2 of the ingot mould. A hydraulic rod 10 is fixed on the back plate 9, the back plate 9 is of an L-shaped structure, and the hydraulic rod 10 is fixed on the inner side of the back plate 9. The telescopic end of the hydraulic rod 10 is fixed with the side wall 2 of the ingot mould. One side of the heat insulating ring 6 is nested with a protective plate 17, the protective plate 17 plays a protective role, and the falling point sputtering is prevented when liquid is fed; a diversion bracket 18 is fixed above the protection plate 17, and the ladle is injected from the position of the diversion bracket 18; the outer side of the diversion bracket 18 is fixed with the ground outside the cold water tank 13 through the support legs. The above-mentioned fixing methods are all welded or screwed by means of the common technical means of those skilled in the art, if they are not separately described.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A ferroalloy cooling and lifting device comprises an ingot mould bottom plate, an ingot mould side wall, travelling wheels, a bottom plate water inlet pipe, a bottom plate water outlet pipe, a heat insulation ring, a heat insulation water inlet pipe, a heat insulation water outlet pipe, a back plate, a hydraulic rod, a rail, a hot water tank, a cold water tank, a first submersible pump and a second submersible pump; the method is characterized in that: the ingot mould bottom plate is provided with a slot; the side wall of the ingot mould is inserted into the slot; a waterway channel is encircled in the edge of the ingot mould bottom plate, and a bottom plate water inlet pipe and a bottom plate water outlet pipe are respectively connected to the waterway channels on the two sides of the ingot mould bottom plate; the bottom plate water inlet pipe and the bottom plate water outlet pipe respectively extend into the cold water tank and the hot water tank; one end of the bottom plate water inlet pipe, which extends into the cold water tank, is connected with a first submersible pump; walking wheels are arranged on two sides of the ingot mold bottom plate; a track is arranged below the travelling wheel;

a heat insulation ring is arranged above the side wall of the ingot mold, and one side of the heat insulation ring is fixedly connected with the top of the back plate; the bottom of the back plate is fixed with the ground; the heat insulation ring is of a hollow square tube structure; the bottom of one side of the heat insulation ring is connected with one end of the heat insulation water inlet pipe; the bottom of the other side of the heat insulation ring is connected with one end of a heat insulation water outlet pipe; the other end of the heat-insulation water inlet pipe is connected with a second submersible pump and extends into the cold water tank; the other end of the heat insulation water outlet pipe extends into the hot water tank; a hydraulic rod is fixed on the back plate; and the telescopic end of the hydraulic rod is fixed with the side wall of the ingot mold.

2. A ferroalloy cooling and lifting apparatus according to claim 1, wherein: one side of the heat insulation ring is nested with a protection plate; a flow guide support is fixed above the protection plate; the outer side of the flow guide support is fixed with the ground outside the cold water tank through the support legs.

3. The ferroalloy cooling and hoisting device of claim 1, wherein: the back plate is of an L-shaped structure, and the hydraulic rod is fixed on the inner side of the back plate.

4. The ferroalloy cooling and hoisting device of claim 1, wherein: the bending positions of the heat insulation water inlet pipe and the heat insulation water outlet pipe corresponding to the walking wheels are provided with outward bends.

5. A ferroalloy cooling and lifting device as recited in claim 4, wherein: and grooves are formed in the side wall of the ingot mould corresponding to the positions of the heat-insulation water inlet pipe and the heat-insulation water outlet pipe.

6. A ferroalloy cooling and lifting apparatus according to claim 1, wherein: and a hook convenient for traction is fixed on the front surface of the ingot mold bottom plate.

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