CN219703496U - Discharging gate structure of ladle - Google Patents

Abstract

The utility model discloses a steel ladle discharging gate structure, wherein a fixed plate is arranged at the outer side end of a steel ladle, a discharging opening is arranged at the front end of the top of the steel ladle, a connecting plate is arranged at the bottom of a supporting beam, and a discharging device is arranged between the inside of the connecting plate and the top of the steel ladle; according to the utility model, the front and back motors are started to rotate to drive the threaded rods to rotate, the threaded rods rotate to drive the threaded blocks to move forwards in the grooves, the threaded blocks move forwards to enable the upper hinging seat to drive the hinging rod I to move, the hinging rod I moves to enable the lower hinging seat to drive the rear end of the ladle to move upwards, meanwhile, the threaded blocks move forwards to enable the upper hinging seat II to drive the hinging rod II to move, the hinging rod II moves to drive the lower hinging seat II to push the front end of the ladle to move downwards, molten steel is poured out from a discharge opening on the front end of the ladle, and the front end and the rear end of the ladle are respectively supported through the hinging rod II and the hinging rod I, so that the ladle is not easy to reverse in the overturning process.

Description

Discharging gate structure of ladle

Technical Field

The utility model relates to a casting melt container, in particular to a discharge gate structure of a ladle.

Background

The ladle discharge gate is an important component for connecting the ladle and the continuous casting machine, and is mainly used for controlling the flow and discharge of molten steel. In general, the structure of the ladle discharge gate should have characteristics of reliability, heat resistance, and easy operability, so as to ensure smooth discharge and safe transportation of molten steel.

The steel ladle discharging gate structure in the prior art has certain defects: because the existing ladle is unloaded mostly by directly driving the ladle to turn over to pour out the molten steel through motor rotation, the motor rotation drives the ladle to turn over in the process of only forcing in one direction, and the other direction has no supporting point, the ladle is easy to reverse turn over, so that molten steel in the ladle is splashed out, operators are easy to scald, and therefore, the problem is solved by providing a ladle unloading gate structure.

Disclosure of Invention

The utility model aims to solve the problems that in the prior art, a ladle is easy to reverse overturned to cause scalding to operators and the like, and provides a discharging gate structure of the ladle.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a steel ladle's discharge gate structure, includes the steel ladle, the outside end of steel ladle is provided with the fixed plate, the both ends are provided with the dead lever outward about the fixed plate, the outward surface of two dead levers is provided with the backup pad, be connected through setting up bearing one between backup pad and the dead lever, be provided with a supporting beam between the top of two backup pads, the top front end of steel ladle is provided with the discharge opening, the bottom of supporting beam transversely is provided with the connecting plate towards the discharge opening direction, be provided with discharge apparatus between the inside of connecting plate and the top of steel ladle.

Further, the discharging device comprises a groove which is transversely downwards arranged in the connecting plate, a threaded rod is arranged between two side ends of the groove, two side ends of the threaded rod are respectively provided with a bearing II in two side ends of the connecting plate, and one end of the threaded rod penetrates through and extends to the outer side of the connecting plate to be provided with a positive motor and a negative motor.

Further, threaded blocks are connected to the threaded rods in the grooves in a threaded mode on the surface, first hinge seats are arranged at one ends of the bottoms of the threaded blocks, one ends of first hinge rods are arranged on the first hinge seats, first lower hinge seats are arranged at the other ends of the first hinge rods, and the first lower hinge seats are fixedly arranged at the rear end of the top of the ladle.

Further, the bottom other end of screw thread piece is provided with articulated seat two, is provided with the one end of articulated rod two on the articulated seat two, and the other end of articulated rod two is provided with articulated seat two down, and the bottom of articulated seat two is provided with the bracing piece down, and the bracing piece is fixed to be set up in the discharge opening that is located ladle top front end.

Further, the both ends of recess have seted up the spout in the connecting plate, are provided with the slide bar between the inside both sides end of two spouts, and the surface of two slide bars is provided with the slider in two spouts respectively, and two sliders are connected with the both ends of screw thread piece respectively.

The beneficial effects are that: according to the steel ladle discharging gate structure, when molten steel in the steel ladle is required to be discharged, the positive and negative motor is started to rotate to drive the threaded rod to rotate, the threaded rod rotates to drive the threaded block to move forwards in the groove, the threaded block moves forwards to enable the upper hinge seat to drive the hinge rod I to move, the hinge rod I moves to enable the lower hinge seat to drive the rear end of the steel ladle to move upwards, meanwhile, the threaded block moves forwards to enable the upper hinge seat II to drive the hinge rod II to move, the hinge rod II moves to drive the lower hinge seat II to push the front end of the steel ladle to move downwards, so that molten steel is poured out from a discharging opening in the front end of the steel ladle, and the front end and the rear end of the steel ladle are respectively supported through the hinge rod II and the hinge rod I, so that reverse overturning of the steel ladle is not easy to occur in the overturning process, and molten steel splashing in the steel ladle is prevented.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a front view in cross section;

FIG. 3 is a schematic side sectional view of the present utility model;

fig. 4 is a schematic top view of the present utility model.

In the figure: 1 steel ladle, 2 fixed plates, 3 fixed rods, 4 bearings I, 5 support plates, 6 support beams, 7 discharge ports, 8 connection plates, 9 grooves, 10 threaded rods, 11 bearings II, 12 positive and negative motors, 13 threaded blocks, 14 upper hinging seats I, 15 hinging rods I, 16 lower hinging seats I, 17 upper hinging seats II, 18 hinging rods II, 19 lower hinging seats II, 20 support rods, 21 sliding grooves, 22 sliding rods and 23 sliding blocks.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 4, the present embodiment provides a ladle discharge gate structure, including a ladle 1, wherein the outside end of the ladle 1 is provided with a fixing plate 2, the left and right ends of the fixing plate 2 are provided with fixing rods 3 outwards, the outer surfaces of the two fixing rods 3 are provided with support plates 5 upwards, the support plates 5 are connected with the fixing rods 3 through a bearing 4, a support beam 6 is arranged between the tops of the two support plates 5, the front end of the top of the ladle 1 is provided with a discharge opening 7, the bottom of the support beam 6 is transversely provided with a connecting plate 8 towards the direction of the discharge opening 7, and a discharge device is arranged between the inside of the connecting plate 8 and the top of the ladle 1; preferably, conveniently place the molten steel through being provided with ladle 1, strengthen the stability of ladle 1 through being provided with fixed plate 2, make things convenient for ladle 1 to rotate between two backup pads 5 through being provided with dead lever 3 and bearing one 4, conveniently pour out the molten steel in the ladle 1 through being provided with discharge opening 7, conveniently support ladle 1 through supporting beam 6 and connecting plate 8, make things convenient for ladle 1 to overturn through discharge apparatus and unload.

Further, the discharging device comprises a groove 9 which is transversely and downwards arranged in the connecting plate 8, a threaded rod 10 is arranged between two inner side ends of the groove 9, two side ends of the threaded rod 10 are respectively provided with a bearing II 11 in two side ends of the connecting plate 8, and one end of the threaded rod 10 extends to the outer side of the connecting plate 8 in a penetrating way and is provided with a positive and negative motor 12; preferably, the threaded rod 10 is conveniently driven to rotate by starting the forward and reverse motor 12 to rotate, the threaded rod 10 is conveniently installed by being provided with the groove 9, and the threaded rod 10 is conveniently rotated in the groove 9 by being provided with the bearing 11.

Further, a thread block 13 is connected to the surface of the threaded rod 10 in a threaded manner in the groove 9, an upper hinge seat I14 is arranged at one end of the bottom of the thread block 13, one end of a hinge rod I15 is arranged on the upper hinge seat I14, a lower hinge seat I16 is arranged at the other end of the hinge rod I15, and the lower hinge seat I16 is fixedly arranged at the rear end of the top of the ladle 1; preferably, the threaded rod 10 rotates to drive the threaded block 13 to move in the groove 9, the threaded block 13 moves to enable the upper hinge seat 14 to drive the hinge rod 15 to move, and the hinge rod 15 moves to enable the lower hinge seat 16 to drive the rear end of the ladle 1 to move upwards.

Further, the other end of the bottom of the threaded block 13 is provided with an upper hinging seat II 17, one end of a hinging rod II 18 is arranged on the upper hinging seat II 17, the other end of the hinging rod II 18 is provided with a lower hinging seat II 19, the bottom of the lower hinging seat II 19 is provided with a supporting rod 20, and the supporting rod 20 is fixedly arranged in a discharge opening 7 positioned at the front end of the top of the ladle 1; preferably, the threaded rod 10 rotates to drive the threaded block 13 to move in the groove 9, the threaded block 13 moves to enable the upper hinge seat II 17 to drive the hinge rod II 18 to move, the hinge rod II 18 moves to drive the lower hinge seat II 19 to push the front end of the ladle 1 to move downwards, and molten steel is poured out from the discharge opening 7 in the front end of the ladle 1.

Further, two ends of the groove 9 are provided with sliding grooves 21 in the connecting plate 8, sliding rods 22 are arranged between two inner side ends of the two sliding grooves 21, sliding blocks 23 are respectively arranged on the surfaces of the two sliding rods 22 in a sliding manner in the two sliding grooves 21, and the two sliding blocks 23 are respectively connected with two ends of the thread block 13; preferably, the two sliding blocks 23 are driven to slide on the two sliding rods 22 respectively by moving the threaded block 13 in the groove 9, so that the stability of the movement of the threaded block 13 on the threaded rod 10 is enhanced, and the two sliding blocks 23 are conveniently slid by being provided with the two sliding grooves 21.

In the utility model, when molten steel in the ladle 1 is required to be discharged, the front and back motor 12 is started to rotate to drive the threaded rod 10 to rotate, the threaded rod 10 rotates to drive the threaded block 13 to move forwards in the groove 9, the threaded block 13 moves forwards to drive the first hinge seat 14 to drive the first hinge rod 15 to move, the first hinge seat 16 moves the first hinge rod 15 to drive the rear end of the ladle 1 to move upwards, the second hinge seat 17 moves the second hinge rod 18 simultaneously, the second hinge rod 18 moves to drive the second hinge seat 19 to push the front end of the ladle 1 to move downwards, molten steel is poured out from the discharge opening 7 at the front end of the ladle 1, and the second hinge rod 18 and the first hinge rod 15 support the front end and the rear end of the ladle 1 respectively, so that the ladle 1 is not easy to reverse overturn in the overturning process, and molten steel in the ladle 1 is prevented from splashing.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (5)

1. The utility model provides a steel ladle's discharge gate structure, includes steel ladle (1), its characterized in that: the outside end of ladle (1) is provided with fixed plate (2), both ends are provided with dead lever (3) outward about fixed plate (2), the outward surface of two dead levers (3) is provided with backup pad (5) upwards, be connected through setting up bearing one (4) between backup pad (5) and dead lever (3), be provided with between the top of two backup pads (5) and prop up supporting beam (6), the top front end of ladle (1) is provided with discharge opening (7), the bottom of prop up supporting beam (6) transversely is provided with connecting plate (8) towards discharge opening (7) direction, be provided with discharge apparatus between the inside of connecting plate (8) and the top of ladle (1).

2. The steel ladle discharging gate structure according to claim 1, wherein the discharging device comprises a groove (9) transversely arranged downwards in the connecting plate (8), a threaded rod (10) is arranged between two inner side ends of the groove (9), two side ends of the threaded rod (10) are respectively provided with a bearing two (11) in two side ends of the connecting plate (8), and one end of the threaded rod (10) penetrates through and extends to the outer side of the connecting plate (8) to be provided with a positive motor (12).

3. The steel ladle discharging gate structure according to claim 2, wherein a threaded block (13) is connected to the surface of the threaded rod (10) through threads in the groove (9), an upper hinge seat (14) is arranged at one end of the bottom of the threaded block (13), one end of a hinge rod (15) is arranged on the upper hinge seat (14), a lower hinge seat (16) is arranged at the other end of the hinge rod (15), and the lower hinge seat (16) is fixedly arranged at the rear end of the top of the steel ladle (1).

4. A ladle discharge gate structure according to claim 3, wherein the other end of the bottom of the screw block (13) is provided with an upper hinge seat two (17), one end of a hinge rod two (18) is arranged on the upper hinge seat two (17), the other end of the hinge rod two (18) is provided with a lower hinge seat two (19), the bottom of the lower hinge seat two (19) is provided with a support rod (20), and the support rod (20) is fixedly arranged in the discharge opening (7) positioned at the front end of the top of the ladle (1).

5. The steel ladle discharging gate structure according to claim 4, wherein the two ends of the groove (9) are provided with sliding grooves (21) in the connecting plate (8), sliding rods (22) are arranged between two inner side ends of the two sliding grooves (21), sliding blocks (23) are respectively arranged on the surfaces of the two sliding rods (22) in a sliding manner in the two sliding grooves (21), and the two sliding blocks (23) are respectively connected with two ends of the threaded block (13).