CN220892919U - Lead alloy smelting device - Google Patents

Abstract

The utility model discloses a lead alloy smelting device, which relates to the technical field of alloy smelting equipment, in particular to a lead alloy smelting device, comprising a smelting box, a supporting component for supporting the smelting box, and a driving component for driving the smelting box to overturn and pour alloy melt on the supporting component, wherein a feed inlet is formed in the smelting box, a cover plate is arranged at the feed inlet of the smelting box, and a discharge opening is formed in one side wall of the smelting box; through the cooperation setting of supporting part and drive part, make this lead alloy smelting device possess and drive smelting case inclination and realized the effect of empting the lead alloy fuse-element, through utilizing first motor drive first threaded rod rotatory, first threaded rod drives the slide and slides, and the slide is stirred the slide displacement to make the lower part that smelts the case, smelt the case and regard the pivot as axle center rotation angle, reached and drive smelting case inclination and realized empting the purpose of lead alloy fuse-element.

Description

Lead alloy smelting device

Technical Field

The utility model relates to the technical field of alloy smelting equipment, in particular to a lead alloy smelting device.

Background

The smelting furnace is a metal hot working device which melts metal ingots and some waste metals, adds necessary alloy components, and melts raw materials into required alloy through operations such as slag skimming, refining and the like. The heating energy source can be classified into a fuel heating type and an electric heating type; the heating mode can be divided into direct heating and indirect heating; the operation modes can be divided into continuous type and periodic type. Because the smelting furnace has the advantages of light equipment, high heating speed, high efficiency, power saving and the like, the smelting furnace is widely applied to various occasions needing to heat metal.

At present, when a high-strength aluminum alloy is smelted in a factory, a large amount of various metal raw materials are required to be smelted. When discharging, the lifting device is required to be controlled to adjust the angle of the smelting furnace, and molten metal in the smelting furnace is poured out, so that the discharging operation of the molten metal is realized.

In published chinese patent application, publication No.: CN218846857U, patent name: an aluminum alloy smelting device with an automatic discharging function realizes automatic driving and discharging of a smelting furnace body through mutual matching of a bottom plate, the smelting furnace body, a support plate, a discharging pipe, a rotating assembly and a first driving piece, and has the effect of improving the discharging efficiency of the smelting furnace; but this rotating assembly of prior art realizes the slope of smelting furnace body through the cooperation of first motor, first gear, because first motor passes through the slide rod and installs in one side of smelting furnace body, because the temperature of smelting furnace body is higher, and the smelting furnace body high temperature extremely easily leads to first motor high temperature to burn to lead to the unable realization of smelting furnace body by drive inclination, liquid in the smelting furnace also can't pour.

In published chinese patent application, publication No.: CN219264970U, patent name: stainless steel smelting device, though, through starting flexible air pump, because flexible air pump and telescopic link are two sets of, when flexible air pump operation, make the telescopic link flexible, and then can adjust the height of backup pad, through starting the second motor, make the connecting rod rotate, and then make the puddler rotate, when smelting the stainless steel, synchronous start flexible air pump and second motor, make the height of backup pad can descend, thereby make connecting rod and puddler can stir in the inside of inner bag, accelerate the smelting of stainless steel, after smelting, through flexible air pump, make the backup pad rise, start first motor, and then drive the smelting case and rotate, and then can make the stainless steel solution flow from the discharge gate, collect the stainless steel solution. But this prior art can't rotate through first motor direct drive smelting case, and first motor is not having auxiliary assembly cooperation condition such as reduction gear, and the output shaft of first motor rotates faster and direct drive smelting case causes the emergence of incident easily.

The application is provided for solving the problem that the driving piece in the prior art can not effectively drive the smelting furnace to incline by a certain angle so as to realize pouring of alloy melt.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a lead alloy smelting device, which solves the problems in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the lead alloy smelting device comprises a smelting box, a supporting component for supporting the smelting box, and a driving component for driving the smelting box to overturn and pour alloy melt on the supporting component, wherein a feed port is formed in the smelting box, a cover plate is arranged at the feed port of the smelting box, and a discharge port is formed in one side wall of the smelting box; the support component comprises a bottom plate and two support plates, the two support plates are respectively positioned at two sides of the smelting box, the lower ends of the two support plates are fixedly connected with the bottom plate, two side walls of the smelting box are fixedly connected with rotating shafts, and the two side walls of the smelting box are rotatably connected with the support plates through the rotating shafts; the driving part comprises a first motor, and the first motor is in transmission connection with the smelting box.

Optionally, the drive part still includes slide, first threaded rod, traveller, the slide passes through spout and backup pad sliding connection, install the motor support frame on the bottom plate, first motor is installed on the motor support frame, first threaded rod wears to establish in the slide and with slide threaded connection, the output axle head of first motor and the one end fixed connection of first threaded rod.

Optionally, the slide post is connected with the slide, the upper end of slide post passes through the swivel plate with the smelting case and articulates.

Optionally, the supporting component can also include L type backup pad, spacing pivot, two support columns respectively, two support column fixed mounting is in L type backup pad, spacing pivot fixed mounting is on two support columns, lower extreme one side of smelting case is articulated with two support columns through spacing pivot.

Optionally, the driving part can also include spacing frame, sliding frame, screw thread piece, spacing axle respectively, driving part fixed mounting is in the upper end of L type backup pad, sliding frame and L type backup pad fixed connection, be provided with the second threaded rod in the sliding frame, the one end fixed mounting of sliding frame has the second motor, the second motor is connected with the transmission of second threaded rod.

Optionally, screw thread piece and second threaded rod threaded connection, screw thread piece and sliding frame sliding connection, spacing axle fixed mounting is in the top of screw thread piece and rather than fixed connection, spacing frame and spacing axle swivelling joint, smelting case passes through stopper and spacing frame sliding connection.

(III) beneficial effects

The utility model provides a lead alloy smelting device, which has the following beneficial effects:

1. This lead alloy smelting device, through the cooperation setting of supporting part and drive part, make this lead alloy smelting device possess and drive smelting case inclination and realized the effect of empting the lead alloy fuse, through utilizing first threaded rod rotation of first motor drive, first threaded rod drives the slide and slides, and the slide is stirred the slide and is moved to the lower part that makes the smelting case to use the pivot to be axle center rotation angle, has reached the drive smelting case inclination and has realized empting the purpose of lead alloy fuse.

2. This lead alloy smelting device, cooperation through supporting part and drive component sets up, make this lead alloy smelting device possess the drive and smelt the effect that case inclination realized empting the lead alloy fuse, it is rotatory to drive the second threaded rod through the second motor, the second threaded rod drives the screw thread piece displacement, the screw thread piece drives spacing axle, spacing frame displacement, spacing frame promotes to smelt the case and uses spacing pivot as the axle center rotation inclination certain angle, smelt incasement lead alloy fuse and can follow the discharge opening outflow, reached the drive and smelt case inclination and realized empting the purpose of lead alloy fuse.

Drawings

FIG. 1 is a schematic diagram of a lead alloy smelting apparatus according to the present utility model;

FIG. 2 is a schematic cross-sectional view of a lead alloy melting apparatus according to the present utility model;

Fig. 3 is a schematic perspective view of a lead alloy melting apparatus according to the present utility model (second embodiment);

Fig. 4 is a schematic sectional view of a lead alloy melting apparatus according to the present utility model (second embodiment).

In the figure: 1. a support plate; 2. a bottom plate; 3. a universal wheel; 4. a cover plate; 5. a handle; 6. a discharge port; 7. a rotating shaft; 8. a first motor; 9. a spool; 10. a rotating plate; 11. a smelting tank; 12. a feed inlet; 13. a first threaded rod; 16. a chute; 17. a slide plate; 18. an L-shaped support plate; 19. a limiting rotating shaft; 20. a support column; 21. a sliding frame; 22. a trapezoidal chute; 23. a second motor; 24. a limit frame; 25. a limiting shaft; 26. a second threaded rod; 27. a screw block; 28. a limiting block; 29. and a motor supporting frame.

Detailed Description

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.

Example 1

Referring to fig. 1 to 2, the present utility model provides the following technical solutions: the lead alloy smelting device comprises a smelting box 11, a supporting component for supporting the smelting box 11, and a driving component for driving the smelting box 11 to overturn and pour alloy melt on the supporting component, wherein a feed inlet 12 is formed in the smelting box 11, a cover plate 4 is arranged at the feed inlet 12 of the smelting box 11, and a discharge opening 6 is formed in one side wall of the smelting box 11; the support component comprises a bottom plate 2 and two support plates 1, the two support plates 1 are respectively positioned at two sides of the smelting box 11, the lower ends of the two support plates are fixedly connected with the bottom plate 2, two side walls of the smelting box 11 are fixedly connected with rotating shafts 7, and the two side walls of the smelting box 11 are rotatably connected with the support plates 1 through the rotating shafts 7; the driving part comprises a first motor 8, and the first motor 8 is in transmission connection with a smelting box 11.

Wherein the smelting tank 11 is for holding molten lead alloy melt. A plurality of universal wheels 3 are arranged below the bottom plate 2, so that the smelting box 11 can move. The feed port 12 is used for injecting lead alloy melt. The upper surface of the cover plate 4 is fixedly connected with a handle 5. Two support plates 1 are used to support the smelting tank 11. The smelting tank 11 is rotatably connected with the two support plates 1 through a rotating shaft 7. The discharge opening 6 is used to pour out the lead alloy melt.

Specifically, the driving part further comprises a sliding plate 17, a first threaded rod 13 and a sliding column 9, the sliding plate 17 is in sliding connection with the supporting plate 1 through a sliding groove 16, a motor supporting frame 29 is installed on the bottom plate 2, the first motor 8 is installed on the motor supporting frame 29, the first threaded rod 13 is arranged in the sliding plate 17 in a penetrating mode and is in threaded connection with the sliding plate 17, and the output shaft end of the first motor 8 is fixedly connected with one end of the first threaded rod 13. The sliding column 9 is connected with the sliding plate 17 in a sliding way, and the upper end of the sliding column 9 is hinged with the smelting box 11 through the rotating plate 10.

The first motor 8 can be a servo motor, the device also comprises a control board, the control board is electrically connected with the second motor 23, the control board can be one of a singlechip and an editable logic controller, and a logic control program and a timing program are loaded in the control board. The control board is used for controlling the start and stop of the first motor 8.

When the alloy smelting device is used, the handle 5 is twisted, so that the handle 5 drives the cover plate 4 to rotate, the handle 5 is separated from the smelting box 11, alloy is put into the smelting box 11 through the feed inlet 12, and then the cover plate 4 is meshed with the feed inlet 12, so that the effect of sealing the smelting box 11 is achieved. Starting the first motor 8, wherein the output end of the first motor 8 drives the first threaded rod 13 to rotate, the sliding plate 17 slides along the sliding groove 16 under the rotation of the first threaded rod 13, the sliding column 9 moves along with the sliding plate 17 under the action of the sliding plate 17, the rotating plate 10 pushes the smelting box 11 to rotate around the rotating shaft 7 along with the movement of the sliding column 9, so that the smelting box 11 tilts, and meanwhile, the sliding column 9 tilts along with the smelting box 11 under the action of the smelting box 11, and alloy liquid flows out through the discharge opening 6.

Example two

Referring to fig. 3 to 4, the difference between the present embodiment and the first embodiment is that: the supporting component can also respectively comprise an L-shaped supporting plate 18, a limiting rotating shaft 19 and two supporting columns 20, wherein the two supporting columns 20 are fixedly arranged on the L-shaped supporting plate 18, the limiting rotating shaft 19 is fixedly arranged on the two supporting columns 20, and one side of the lower end of the smelting box 11 is hinged (including rotating connection) with the two supporting columns 20 through the limiting rotating shaft 19. Wherein, one side of the lower end of the smelting box 11 is rotationally connected with a support column 20 through a limit rotating shaft 19.

The driving part can also respectively comprise a limiting frame 24, a sliding frame 21, a thread block 27 and a limiting shaft 25, the driving part is fixedly arranged at the upper end of the L-shaped supporting plate 18, the sliding frame 21 is fixedly connected with the L-shaped supporting plate 18, a second threaded rod 26 is arranged in the sliding frame 21, a second motor 23 is fixedly arranged at one end of the sliding frame 21, and the second motor 23 is in transmission connection with the second threaded rod 26. Wherein, the inside of the sliding frame 21 is a trapezoid sliding groove 22.

The thread block 27 is in threaded connection with the second threaded rod 26, the thread block 27 is in sliding connection with the sliding frame 21, the limiting shaft 25 is fixedly arranged above the thread block 27 and is fixedly connected with the thread block, the limiting frame 24 is in rotary connection with the limiting shaft 25, and the smelting box 11 is in sliding connection with the limiting frame 24 through the limiting block 28.

The second motor 23 can also be a servo motor, the device also comprises a control board, the control board is electrically connected with the second motor 23, the control board can be one of a singlechip and an editable logic controller, and a logic control program and a timing program are loaded in the control board. The control board is used for controlling the start and stop of the second motor 23.

When the alloy smelting device is used, the handle 5 is twisted, so that the handle 5 drives the cover plate 4 to rotate, the handle 5 is separated from the smelting box 11, alloy is put into the smelting box 11 through the feed inlet 12, and then the cover plate 4 is meshed with the feed inlet 12, so that the effect of sealing the smelting box 11 is achieved.

Starting the second motor 23, the output end of the second motor 23 drives the second threaded rod 26 to rotate, under the action of the second threaded rod 26, the threaded block 27 slides along the trapezoid chute 22, along with the movement of the threaded block 27, under the action of the limiting frame 24 and the limiting block 28, the smelting box 11 rotates around the upper end of the supporting column 20 through the limiting rotating shaft 19, so that the smelting box 11 tilts, and meanwhile, along with the tilting of the smelting box 11, the limiting block 28 acts on the limiting frame 24, so that the limiting frame 24 rotates around the limiting shaft 25, and meanwhile, alloy liquid flows out through the discharge opening 6.

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 (6)

1. Lead alloy smelting device, including smelting case (11), its characterized in that: the device comprises a smelting box (11), a supporting component for supporting the smelting box (11), and a driving component for driving the smelting box (11) to overturn and pour alloy melt on the supporting component, wherein a feed port (12) is formed in the smelting box (11), a cover plate (4) is arranged at the feed port (12) of the smelting box (11), and a discharge port (6) is formed in one side wall of the smelting box (11); the supporting component comprises a bottom plate (2) and two supporting plates (1), wherein the two supporting plates (1) are respectively positioned at two sides of a smelting box (11) and the lower ends of the two supporting plates are fixedly connected with the bottom plate (2), two side walls of the smelting box (11) are fixedly connected with rotating shafts (7), and the two side walls of the smelting box (11) are rotatably connected with the supporting plates (1) through the rotating shafts (7); the driving part comprises a first motor (8), and the first motor (8) is in transmission connection with the smelting box (11).

2. A lead alloy melting apparatus as set forth in claim 1, wherein: the driving part further comprises a sliding plate (17), a first threaded rod (13) and a sliding column (9), the sliding plate (17) is in sliding connection with the supporting plate (1) through a sliding groove (16), a motor supporting frame (29) is installed on the bottom plate (2), the first motor (8) is installed on the motor supporting frame (29), the first threaded rod (13) is arranged in the sliding plate (17) in a penetrating mode and is in threaded connection with the sliding plate (17), and the output shaft end of the first motor (8) is fixedly connected with one end of the first threaded rod (13).

3. A lead alloy smelting apparatus according to claim 2, wherein: the sliding column (9) is in sliding connection with the sliding plate (17), and the upper end of the sliding column (9) is hinged with the smelting box (11) through the rotating plate (10).

4. A lead alloy melting apparatus as set forth in claim 1, wherein: the supporting component can also respectively comprise an L-shaped supporting plate (18), a limiting rotating shaft (19) and two supporting columns (20), wherein the two supporting columns (20) are fixedly arranged on the L-shaped supporting plate (18), the limiting rotating shaft (19) is fixedly arranged on the two supporting columns (20), and one side of the lower end of the smelting box (11) is hinged with the two supporting columns (20) through the limiting rotating shaft (19).

5. A lead alloy melting apparatus as set forth in claim 4 wherein: the driving part can also respectively comprise a limiting frame (24), a sliding frame (21), a thread block (27) and a limiting shaft (25), wherein the driving part is fixedly arranged at the upper end of the L-shaped supporting plate (18), the sliding frame (21) is fixedly connected with the L-shaped supporting plate (18), a second threaded rod (26) is arranged in the sliding frame (21), a second motor (23) is fixedly arranged at one end of the sliding frame (21), and the second motor (23) is in transmission connection with the second threaded rod (26).

6. A lead alloy melting apparatus as set forth in claim 5 wherein: the utility model discloses a smelting box, including screw thread piece (27), limiting shaft (25), screw thread piece (27) and second threaded rod (26) threaded connection, screw thread piece (27) and sliding connection of sliding frame (21), limiting shaft (25) fixed mounting is in the top of screw thread piece (27) and rather than fixed connection, limiting frame (24) rotate with limiting shaft (25) to be connected, smelting box (11) pass through stopper (28) and limiting frame (24) sliding connection.