CN220853096U - High-efficient aluminium smelting furnace equipment - Google Patents

Abstract

The utility model discloses high-efficiency aluminum smelting furnace equipment which comprises a smelting furnace, an opening and closing assembly and a stirring assembly, wherein the smelting furnace is fixedly arranged on the upper surface of the ground, fixed plates are fixedly arranged on the outer surfaces of the two sides of the left end of the smelting furnace, the opening and closing assembly is fixedly connected to the outer surfaces of the fixed plates, a feeding hole is formed in the outer surface of the smelting furnace, a furnace starting melting zone is formed in one side of the feeding hole, a first drain hole is formed in the bottom of the furnace starting melting zone, an overflow hole is formed in the middle of the furnace starting melting zone, a partition plate is fixedly arranged in the middle of the interior of the smelting furnace, an immersed heating zone is arranged on the other side of the partition plate, a second drain hole is formed in the bottom of the immersed heating zone, and two heaters are fixedly arranged on the inner surfaces of the furnace starting melting zone and the immersed heating zone. Through the lifting of the electromagnetic stirrer, the effect of controlling the area inside the smelting furnace to stir and smelt is achieved, the smelting efficiency is improved, and the energy consumption is reduced.

Description

High-efficient aluminium smelting furnace equipment

Technical Field

The utility model belongs to the technical field of smelting furnaces, and particularly relates to efficient aluminum smelting furnace equipment.

Background

The smelting furnace is equipment for smelting metal ingot and some waste metals into required alloy through slag skimming, refining and other operations. For this purpose, the application number: CN202021182101.2 discloses an environment-friendly aluminum high-efficiency smelting furnace, including smelting furnace body, rose box, adsorption net, interior stove and intermediate layer, smelting furnace body lower surface welding has the supporting leg, and the inside embedding of smelting furnace body is fixed with interior stove, interior stove forms the intermediate layer with the smelting furnace body, interior stove upper surface is fixed with the second and seals up, and interior stove upper surface hinge connection has sealed lid, sealed lid upper surface welding has the handle, sealed lid's inner wall is fixed with first sealed the pad, the heat exchanger fin is installed to the interbedded inner wall, the draw-out groove has been seted up to interbedded inside, and draw-out groove and interior stove intercommunication, the rose box welding is at one side outer end face of smelting furnace body, and the inside embedding of rose box is fixed with the adsorption net, the inside of rose box is located the below embedding of adsorption net and is fixed with first filter screen, second filter screen and third filter screen, the upper surface intercommunication of rose box has the outlet duct. The utility model has higher heating efficiency and avoids heat waste.

The problems of the prior art are: the existing smelting furnace needs to manually put the metal block into the interior of the smelting furnace for smelting in the use process, and most of the smelting furnaces are not provided with furnace doors, but only have discharge ports, so that when the metal is smelted, if the solution splashes, the damage to workers can be caused, and the liquid in the smelting process can not be stirred in the smelting process of the existing smelting furnace, so that the slow and uneven heating of the smelting process can be caused, and the problem of low working efficiency is caused.

Disclosure of utility model

Aiming at the problems existing in the prior art, the utility model provides high-efficiency aluminum smelting furnace equipment, which is provided with lifting rods movably arranged on the outer surface of a first connecting rod, the first connecting rods are fixedly arranged at the two ends of the lifting rods, the first pulleys are movably arranged at the two ends of the two first connecting rods, so that the effect that when the first connecting rod on the right side is driven to move by a push plate, the lifting rods move inwards to be higher by the other side pushing against one end of the second sliding grooves, when the lower end of the lifting rods move inwards, the two sides of the upper end of the lifting rods are also driven to shrink inwards, when the lifting rods shrink, the four second pulleys arranged on the two sides of the upper end are driven to move on the inner surface of the third sliding groove in a limiting way, the third sliding groove provides a movable space for the shrinkage lifting rods, and when the lifting rods lift, the two third sliding grooves are driven to lift simultaneously, through two runner fixed mounting in electromagnetic stirrer lower surface No. three to reached the effect that two runner drive electromagnetic stirrer goes up and down No. three, through electromagnetic stirrer's lift, thereby reached the inside region of control smelting furnace and stirred the effect of smelting, improved the advantage that melts efficiency reduction energy consumption, it needs the manual work to put into the smelting furnace with the metal piece and smelt in the smelting furnace inside to have solved current smelting furnace, and most smelting furnace all do not set up the furnace gate and only have the relief hole, so when smelting the metal if the solution splashes can cause the injury to the workman, can not lead to smelting process slow heating inhomogeneous to the liquid stirring in the smelting process in current smelting furnace smelting process, caused the problem of work efficiency low.

The utility model discloses high-efficiency aluminum smelting furnace equipment, which comprises a smelting furnace, an opening and closing assembly and a stirring assembly, wherein the smelting furnace is fixedly arranged on the upper surface of the ground, fixed plates are fixedly arranged on the outer surfaces of two sides of the left end of the smelting furnace, the opening and closing assembly is fixedly connected with the outer surfaces of the fixed plates, a feeding hole is formed in the outer surface of the smelting furnace, a furnace starting melting zone is formed in one side of the feeding hole, a first drain hole is formed in the bottom of the furnace starting melting zone, an overflow hole is formed in the middle of the furnace starting melting zone, a partition plate is fixedly arranged in the middle of the interior of the smelting furnace, an immersed heating zone is arranged on the other side of the partition plate, a second drain hole is formed in the bottom of the immersed heating zone, and two heaters are fixedly arranged on the inner surfaces of the furnace starting melting zone and the immersed heating zone.

As the preferable mode of the utility model, the lower surface of the inside of the ground and the underground is fixedly provided with the sliding rail, the inner surface of the sliding rail is provided with the stirring component, and the upper surface of the inside of the ground and the underground is fixedly provided with the frame.

As the preferable mode of the utility model, the opening and closing component comprises a motor base, the motor base is fixedly arranged on the upper surface of the smelting furnace, a motor is fixedly arranged on the upper surface of the motor base, the motor is fixedly connected with a transmission shaft through a central shaft, a first sprocket is fixedly arranged on the outer surface of the transmission shaft, a first chain is sleeved on the outer surface of the first sprocket, and a second sprocket is arranged in a transmission manner of the first chain.

As the preferable mode of the utility model, the inner surface of the second sprocket is fixedly provided with a rotating shaft, two ends of the rotating shaft are movably arranged on the inner surfaces of two rotating shaft bases, two rotating shaft bases are fixedly arranged on the outer surfaces of two sides of a rotating shaft support, the rotating shaft support is fixedly arranged on the upper surfaces of two first sliding grooves, the first sliding grooves are fixedly arranged on the outer surfaces of two sides of a feed inlet of a smelting furnace, two third sprockets are fixedly arranged on two sides of the outer surface of the rotating shaft, the outer surfaces of the third sprockets are fixedly provided with a fixer, the fixer is fixedly connected with the outer surface of one end of the second chain, the other end of the second chain is fixedly arranged on the inner surface of the chain base, the two chain bases are fixedly arranged on two sides of the upper surface of the furnace door, and the furnace door is movably arranged on the inner surface of the first sliding grooves through two sliding blocks.

As the preferable mode of the utility model, the stirring component comprises a vehicle plate, the lower surface of the vehicle plate is fixedly provided with a wheel drive, two sides of the inner surface of the wheel drive are fixedly provided with two wheel shafts, two ends of the outer surfaces of the two wheel shafts are fixedly provided with two wheels, the two wheels are movably arranged on the inner surface of a third sliding groove, the outer surface of the vehicle plate is fixedly provided with an extension plate, the upper surface of the extension plate is fixedly provided with a cylinder base, the upper surface of the cylinder base is fixedly provided with a cylinder support, the inner surface of the cylinder support is fixedly provided with a cylinder, the cylinder is fixedly connected with a push rod through a central shaft, the outer surface of the push rod is fixedly provided with a push plate, the push plate is movably arranged on the outer surface of a first connecting rod, the outer surfaces of the two ends of the first connecting rod are movably provided with a first pulley, and the first pulley is movably arranged on the inner surface of a second sliding groove arranged on two sides of the vehicle plate.

As the preferable mode of the utility model, the outer surface of the first connecting rod is movably provided with a lifting rod, the two ends of the lifting rod are fixedly provided with first connecting rods, the two ends of the first connecting rod are movably provided with first pulleys, the left inner surface of the upper end of the lifting rod is movably provided with second connecting rods, the two sides of the second connecting rod are movably provided with second pulleys, the right two sides of the upper end of the lifting rod are fixedly provided with second connecting rods, the outer surfaces of the second connecting rods are movably provided with second pulleys, the fourth connecting rods are movably arranged on the inner surfaces of the second sliding grooves, and the second sliding grooves are fixedly arranged on the lower surface of the electromagnetic stirrer.

Compared with the prior art, the utility model has the following beneficial effects:

1. The transmission shaft is fixedly connected with the central shaft of the motor, so that the effect that the motor drives the transmission shaft to rotate when rotating is achieved, the first sprocket fixedly arranged on the outer surface is driven to rotate together when the transmission shaft rotates, and the first sprocket and the second sprocket are arranged in a transmission manner due to the fact that the first sprocket is driven to rotate by the first chain, and the second sprocket is driven to rotate together by the first sprocket connected with the first chain.

2. According to the utility model, the rotating shaft is fixedly arranged on the inner surface of the second sprocket, so that the effect of driving the rotating shaft to rotate when the second sprocket rotates is achieved, the rotating shaft base plays a role of limiting movement and supporting the rotating shaft, when the rotating shaft rotates, the two third sprockets fixedly arranged on the outer surface of the rotating shaft are driven to rotate together, the fixing device is fixedly arranged on the outer surface of the two third sprockets, the fixing device is fixedly connected with the outer surface of one end of the second chain, the other end of the second chain is fixedly arranged on the inner surface of the chain base, the effect of driving the second chain to wind or release when the third sprocket rotates is achieved, the second chain drives the chain base to lift and move when the second chain is driven to wind by the third sprocket, the two chain bases are fixedly arranged on two sides of the upper surface of the furnace door, the furnace door is movably arranged on the inner surface of the first chute through the two side sliding blocks, the effect of driving the furnace door to perform limiting lifting and moving in the first chute when the third sprocket rotates, the furnace door is automatically lifted and opened when a worker places materials in the smelting furnace, and the furnace door is automatically splashed and the solution is prevented from being closed when the worker is in the smelting furnace.

3. According to the utility model, the sliding rail is fixedly arranged on the lower surface of the underground part of the ground, when the smelting furnace is placed, an interlayer is required to be drawn out from the ground at the bottom of the smelting furnace, the sliding rail is fixedly arranged on the lower surface of the interlayer, the sliding rail provides a space for limiting movement for the stirring assembly, the frame is fixedly arranged on the interlayer under the ground right below the smelting furnace, the frame performs the function of isolating and partitioning the stirring assembly, two areas are arranged in the smelting furnace, a cross rod in the middle of the frame separates the two areas, and the stirring assembly descends to the immersed heating area and ascends to stir after the stirring of the melting area of the starting furnace is completed.

4. According to the utility model, the wheel drive is fixedly arranged on the lower surface of the vehicle plate, so that the effect of driving four wheels to move in the third sliding groove is achieved, when the wheels move, the electromagnetic stirrer is driven to move to stir two areas in the smelting furnace respectively, the ejector rod is fixedly connected with the central shaft of the air cylinder, so that the effect of driving the ejector rod to move in a telescopic manner by the air cylinder is achieved, when the ejector rod moves, the push plates fixedly arranged on the outer surfaces of the ejector rod are driven to move in a telescopic manner together, the push plates are movably arranged on the outer surfaces of the first connecting rod, so that the effect of driving the first connecting rod to move by the push plates is achieved, the first pulleys are movably arranged on the outer surfaces of the two ends of the first connecting rod, and the first pulleys are movably arranged on the inner surfaces of the second sliding grooves arranged on the two sides of the vehicle plate, so that when the push plates move in a telescopic manner, the first connecting rod is driven to move in a limiting manner on the inner surfaces of the second sliding groove.

5. According to the utility model, the lifting rod is movably arranged on the outer surface of the first connecting rod, the first connecting rods are fixedly arranged at the two ends of the lifting rod, the first pulleys are movably arranged at the two ends of the first connecting rods, so that the effect that when the first connecting rod on the right side is driven to move by the push plate, the lifting rod is enabled to move inwards to be higher by the other side against one end of the second sliding groove, when the lower end of the lifting rod moves inwards, the two sides of the upper end of the lifting rod are also driven to shrink inwards, when the lifting rod shrinks, the four second pulleys arranged on the two sides of the upper end are driven to move in a limiting manner on the inner surface of the third sliding groove, a movable space is provided for shrinking and lifting of the lifting rod by the third sliding groove, and when the lifting rod lifts, the two third sliding grooves are also driven to lift by the lifting rod, the electromagnetic stirrer is driven to lift by the two third sliding grooves, and the electromagnetic stirrer is lifted by the electromagnetic stirrer, so that the melting efficiency is controlled to be melted by the area inside the melting furnace.

Drawings

FIG. 1 is a schematic view of the overall structure provided by an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of a smelting furnace provided by an embodiment of the utility model;

FIG. 3 is a schematic view of the internal structure of the ground according to an embodiment of the present utility model;

fig. 4 is a schematic front view of an opening and closing assembly according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a back structure of an opening and closing assembly according to an embodiment of the present utility model;

FIG. 6 is a schematic view of the overall structure of a stirring assembly according to an embodiment of the present utility model;

Fig. 7 is a schematic diagram of a detailed structure of a stirring assembly according to an embodiment of the present utility model.

In the figure: 1. ground surface; 2. a smelting furnace; 3. a fixing plate; 4. an opening and closing assembly; 401. a motor base; 402. a motor; 403. a transmission shaft; 404. a first sprocket; 405. a first chain; 406. a second sprocket; 407. a rotating shaft; 408. a rotating shaft base; 409. a rotating shaft bracket; 410. a first chute; 411. a third sprocket; 412. a holder; 413. a second chain; 414. a chain base; 415. a furnace door; 5. a furnace starting melting area; 6. a first drain port; 7. an overflow port; 8. an immersed heating zone; 9. a second drain port; 10. a heater; 11. a partition plate; 12. a slide rail; 13. a stirring assembly; 1301. a sweep; 1302. driving wheels; 1303. a wheel axle; 1304. a wheel; 1305. an extension plate; 1306. a cylinder base; 1307. a cylinder bracket; 1308. a cylinder; 1309. a push rod; 1310. a push plate; 1311. a first connecting rod; 1312. a first pulley; 1313. a second chute; 1314. a lifting rod; 1315. a second connecting rod; 1316. a third connecting rod; 1317. a second pulley; 1318. a third chute; 1319. an electromagnetic stirrer; 14. a frame; 15. and a feed inlet.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 7, the high-efficiency aluminum smelting furnace equipment provided by the embodiment of the utility model comprises a smelting furnace 2, an opening and closing assembly 4 and a stirring assembly 13, wherein the smelting furnace 2 is fixedly arranged on the upper surface of the ground 1, a fixed plate 3 is fixedly arranged on the outer surfaces of the two sides of the left end of the smelting furnace 2, the opening and closing assembly 4 is fixedly connected with the outer surface of the fixed plate 3, a feed inlet 15 is arranged on the outer surface of the smelting furnace 2, a furnace starting melting zone 5 is arranged on one side of the feed inlet 15, a first drain opening 6 is arranged at the bottom of the furnace starting melting zone 5, an overflow opening 7 is arranged in the middle of the furnace starting melting zone 5, a partition plate 11 is fixedly arranged in the middle of the interior of the smelting furnace 2, a submerged heating zone 8 is arranged on the other side of the partition plate 11, a second drain opening 9 is arranged at the bottom of the submerged heating zone 8, and two heaters 10 are fixedly arranged on the inner surfaces of the furnace starting melting zone 5 and the submerged heating zone 8.

Referring to fig. 3, a sliding rail 12 is fixedly installed on the lower surface of the underground inner part of the ground 1, a stirring assembly 13 is arranged on the inner surface of the sliding rail 12, and a frame 14 is fixedly installed on the upper surface of the underground inner part of the ground 1.

The scheme is adopted: through the fixed mounting of surface 1 underground inside lower surface has slide rail 12, need draw out an interlayer with smelting furnace 2 bottom ground after smelting furnace 2 is placed, fixed mounting slide rail 12 under the interlayer, slide rail 12 provides spacing removal's space for stirring subassembly 13, through the below interlayer fixed mounting of ground 1 under smelting furnace 2 has frame 14, make frame 14 carry out the effect of keeping apart subregion to stirring subassembly 13, there are two regions inside smelting furnace 2, the horizontal pole in the middle of frame 14 separates two regions, stirring subassembly 13 moves down to submerged heating zone 8 and rises again and stir submerged heating zone 8 after opening the stirring of stove melting zone 5.

Referring to fig. 4, the opening and closing assembly 4 comprises a motor base 401, the motor base 401 is fixedly mounted on the upper surface of the smelting furnace 2, a motor 402 is fixedly mounted on the upper surface of the motor base 401, the motor 402 is fixedly connected with a transmission shaft 403 through a central shaft, a first sprocket 404 is fixedly mounted on the outer surface of the transmission shaft 403, a first chain 405 is sleeved on the outer surface of the first sprocket 404, and a second sprocket 406 is mounted on the first chain 405 in a transmission manner.

The scheme is adopted: the transmission shaft 403 is fixedly connected with the central shaft of the motor 402, so that the motor 402 drives the transmission shaft 403 to rotate when rotating, the first sprocket 404 fixedly mounted on the outer surface is driven to rotate together when the transmission shaft 403 rotates, and the first sprocket 404 and the second sprocket 406 are mounted due to the transmission of the first chain 405 when the first sprocket 404 rotates, and the second sprocket 406 is driven to rotate together through the connection of the first chain 405 and the first sprocket 404.

Referring to fig. 5, the inner surface of the second sprocket 406 is fixedly provided with a rotating shaft 407, two ends of the rotating shaft 407 are movably mounted on the inner surfaces of the two rotating shaft bases 408, the two rotating shaft bases 408 are fixedly mounted on the outer surfaces of two sides of the rotating shaft bracket 409, the rotating shaft bracket 409 is fixedly mounted on the upper surfaces of the two first sliding grooves 410, the first sliding grooves 410 are fixedly mounted on the outer surfaces of two sides of the feeding hole 15 of the smelting furnace 2, two third sprockets 411 are fixedly mounted on the outer surfaces of the third sprockets 411, the fixing device 412 is fixedly connected with the outer surface of one end of the second chain 413, the other end of the second chain 413 is fixedly mounted on the inner surface of the chain base 414, the two chain bases 414 are fixedly mounted on the two sides of the upper surface of the furnace door 415, and the furnace door 415 is movably mounted on the inner surface of the first sliding grooves 410 through two side sliding blocks.

The scheme is adopted: the rotary shaft 407 is fixedly arranged on the inner surface of the second sprocket 406, so that the effect of driving the rotary shaft 407 to rotate when the second sprocket 406 rotates is achieved, the rotary shaft base 408 plays a role of limiting movement and supporting the rotary shaft 407, two third sprockets 411 fixedly arranged on the outer surface of the rotary shaft 407 are driven to rotate together when the rotary shaft 407 rotates, a fixing device 412 is fixedly arranged on the outer surface of the two third sprockets 411, the fixing device 412 is fixedly connected with the outer surface of one end of the second chain 413, the other end of the second chain 413 is fixedly arranged on the inner surface of the chain base 414, the effect of driving the second chain 413 to wind or release when the third sprocket 411 rotates is achieved, the second chain 413 drives the chain base 414 to move upwards when the second chain 413 is driven to wind by the third sprocket 411, the furnace door 415 is fixedly arranged on two sides of the upper surface of the furnace door 415 through two side sliding blocks, the effect of limiting lifting movement of the chain base 414 on the inner surface of the first chute 410 is achieved when the third sprocket 411 rotates, the furnace door 415 is automatically moved to automatically open the interior of the furnace 2 when the furnace door is automatically placed, and the solution is automatically stirred to be prevented from being splashed inside the furnace 2 when the furnace door is automatically placed inside the furnace door is opened.

Referring to fig. 6, the stirring assembly 13 includes a vehicle plate 1301, a wheel driving 1302 is fixedly mounted on the lower surface of the vehicle plate 1301, two wheel shafts 1303 are fixedly mounted on two sides of the inner surface of the wheel driving 1302, two wheels 1304 are fixedly mounted on two ends of the outer surfaces of the two wheel shafts 1303, the two wheels 1304 are movably mounted on the inner surface of a third sliding groove 1318, an extension plate 1305 is fixedly mounted on the outer surface of the vehicle plate 1301, a cylinder base 1306 is fixedly mounted on the upper surface of the extension plate 1305, a cylinder support 1307 is fixedly mounted on the upper surface of the cylinder base 1306, a cylinder 1308 is fixedly mounted on the inner surface of the cylinder support 1307, a push rod 1309 is fixedly connected with a push plate 1310 through a central shaft, the push plate 1310 is movably mounted on the outer surface of a first connecting rod 1311, a first pulley 1312 is movably mounted on the outer surfaces of two ends of the first connecting rod 1311, and a first pulley 1312 is movably mounted on the inner surface of a second sliding groove 1313 provided on two sides of the vehicle plate 1301.

The scheme is adopted: the wheel drive 1302 is fixedly arranged on the lower surface of the vehicle plate 1301, so that the effect that the wheel drive 1302 drives four wheels 1304 to move in the third sliding groove 1318 is achieved, when the wheels 1304 move, the electromagnetic stirrer 1319 is driven to move to stir two areas inside the smelting furnace 2 respectively, the ejector rod 1309 is fixedly connected with the central shaft of the air cylinder 1308, the effect that the ejector rod 1309 is driven to move in a telescopic manner by the air cylinder 1308 is achieved, when the ejector rod 1309 moves, the push plate 1310 fixedly arranged on the outer surface of the ejector rod 1309 is driven to move in a telescopic manner, the push plate 1310 is movably arranged on the outer surface of the first connecting rod 1311, the effect that the push plate 1310 drives the first connecting rod 1311 to move is achieved, the first pulleys 1312 are movably arranged on the inner surfaces of the second sliding grooves 1313 arranged on the two sides of the vehicle plate 1301, and therefore the first connecting rod 1311 is driven to move in a limiting manner on the inner surface of the second sliding groove 1313 when the push plate 1310 moves in a telescopic manner.

Referring to fig. 7, a lifting rod 1314 is movably mounted on the outer surface of a first connecting rod 1311, a first connecting rod 1311 is fixedly mounted at two ends of the lifting rod 1314, a first pulley 1312 is movably mounted at two ends of the first connecting rod 1311, a second connecting rod 1315 is movably mounted on the inner surface of the left side of the upper end of the lifting rod 1314, two second pulleys 1317 are movably mounted on two sides of the second connecting rod 1315, two third connecting rods 1316 are fixedly mounted on two sides of the right side of the upper end of the lifting rod 1314, a second pulley 1317 is movably mounted on the outer surface of the two third connecting rods 1316, four second pulleys 1317 are movably mounted on the inner surfaces of the two third sliding grooves 1318, and the two third sliding grooves 1318 are fixedly mounted on the lower surface of the electromagnetic stirrer 1319.

The scheme is adopted: the lifting rod 1314 is movably arranged on the outer surface of the first connecting rod 1311, the first connecting rods 1311 are fixedly arranged at two ends of the lifting rod 1314, the first pulleys 1312 are movably arranged at two ends of the first connecting rod 1311, therefore, the effect that when the right first connecting rod 1311 is driven to move by the push plate 1310, the other side props against one end of the second sliding groove 1313 to enable the lifting rod 1314 to move inwards to be high is achieved, when the lower end of the lifting rod 1314 moves inwards, two sides of the upper end of the lifting rod 1314 are also driven to shrink inwards, when the lifting rod 1314 shrinks, four second pulleys 1317 arranged on two sides of the upper end are driven to move in the inner surfaces of the third sliding grooves 1318 in a limited mode, movable space is provided for shrinkage lifting of the lifting rod 1314 by the third sliding grooves 1318, the effect that when the lifting rod 1314 lifts and simultaneously drives the two third sliding grooves 1318 to lift is achieved, the effect that the two third sliding grooves 1318 drive the electromagnetic stirrer 1319 to lift is achieved, and the efficiency of smelting furnace 1319 is controlled to be high, and the energy consumption of the smelting furnace 1312 is reduced.

The working principle of the utility model is as follows:

When in use, the two chain bases 414 are fixedly arranged on two sides of the upper surface of the furnace door 415, the furnace door 415 is movably arranged on the inner surface of the first chute 410 through the two side sliding blocks, so that the effect that the chain bases 414 drive the furnace door 415 to conduct limiting lifting movement on the inner surface of the first chute 410 when the third chain wheel 411 rotates is achieved, the lifting movement of the furnace door 415 is achieved, the effect that the furnace door automatically rises and opens when a worker places materials inside the smelting furnace 2 is achieved, when the materials enter the melting zone 5 of the melting furnace 2 for conducting first-step smelting, molten aluminum enters the submerged heating zone 8 through a channel below the partition plate 11 for conducting second-wave smelting, the lifting rod 1314 is lifted when entering the submerged heating zone 8, meanwhile, the lifting rod 1318 is driven to conduct lifting, the electromagnetic stirrer 1319 is driven to drive the electromagnetic stirrer 1319 to conduct lifting movement on the lower surface of the first chute 1319, the electromagnetic stirrer is driven by the electromagnetic stirrer 1318 to conduct lifting, the melting efficiency of the molten aluminum in the melting zone is lowered to enable the melting zone 5 to conduct automatic closing of the furnace door 415, and the inner side of the melting zone 5 is prevented from conducting the melting zone 5 to be more thoroughly driven by the lifting of the electromagnetic stirrer when the inner side of the melting zone is driven by the electromagnetic stirrer 1319 to move down when the inner side of the wheel is driven by the lifting rod is driven by the electromagnetic stirrer 1319 to enable the wheel lifting rod 1315 to move down inside the wheel lifting zone 1304 to completely to move down.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a high-efficient aluminium smelting furnace equipment, includes smelting furnace (2), opening and shutting subassembly (4) and stirring subassembly (13), its characterized in that: smelting stove (2) fixed mounting is in ground (1) upper surface, smelting stove (2) left end both sides surface fixed mounting has fixed plate (3), fixed plate (3) surface fixedly connected with opening and closing subassembly (4), smelting stove (2) surface is equipped with feed inlet (15), feed inlet (15) one side is equipped with opens stove melting zone (5), it is equipped with first drain mouth (6) to open stove melting zone (5) bottom, it is equipped with overflow mouth (7) to open stove melting zone (5) middle part, fixed mounting has baffle (11) in the middle of smelting stove (2) inside, baffle (11) opposite side is equipped with immersion heating zone (8), immersion heating zone (8) bottom is equipped with second drain mouth (9), open stove melting zone (5) and the equal fixed mounting of immersion heating zone (8) internal surface have two heaters (10).

2. A high efficiency aluminium smelting furnace apparatus as claimed in claim 1, wherein: the stirring device is characterized in that a sliding rail (12) is fixedly arranged on the lower surface of the underground interior of the ground (1), a stirring assembly (13) is arranged on the inner surface of the sliding rail (12), and a frame (14) is fixedly arranged on the upper surface of the underground interior of the ground (1).

3. A high efficiency aluminium smelting furnace apparatus as claimed in claim 1, wherein: the opening and closing assembly (4) comprises a motor base (401), the motor base (401) is fixedly arranged on the upper surface of the smelting furnace (2), a motor (402) is fixedly arranged on the upper surface of the motor base (401), a transmission shaft (403) is fixedly connected to the motor (402) through a central shaft, a first chain wheel (404) is fixedly arranged on the outer surface of the transmission shaft (403), a first chain (405) is sleeved on the outer surface of the first chain wheel (404), and a second chain wheel (406) is arranged in transmission of the first chain (405).

4. A high efficiency aluminium smelting furnace apparatus according to claim 3, wherein: the utility model discloses a smelting furnace, including two sprocket (406) and furnace door (415), including two sprocket (411) and furnace door (415), sprocket (411) and furnace door (415) are located, no. two sprocket (411) are located in feed inlet (15) department of smelting furnace (2) internal surface fixed mounting, no. two sprocket (407) both ends movable mounting in two pivot base (408) internal surface, two pivot base (408) fixed mounting in pivot support (409) both sides surface, pivot base (409) are located in two spout (410) upper surfaces, spout (410) upper surface both sides are located in spout (415) fixed mounting in two spout (15), no. three sprocket (411) external surface fixed mounting has fixer (412), no. two sprocket (412) fixed connection and No. two chain (413) one end external surfaces, no. two chain (413) other end fixed mounting in chain base (414) internal surface, two slider movable mounting in No. 410) internal surface through both sides.

5. A high efficiency aluminium smelting furnace apparatus as claimed in claim 1, wherein: the stirring assembly (13) comprises a vehicle plate (1301), a wheel drive (1302) is fixedly arranged on the lower surface of the vehicle plate (1301), two wheel shafts (1303) are fixedly arranged on two sides of the inner surface of the wheel drive (1302), two wheels (1304) are fixedly arranged at two ends of the outer surface of each wheel shaft (1303), and the two wheels (1304) are movably arranged on the inner surface of a third chute (1318).

6. A high efficiency aluminium smelting furnace apparatus according to claim 5, wherein: the automobile plate (1301) surface fixed mounting has extension board (1305), fixed surface installs cylinder base (1306) on extension board (1305), fixed surface installs cylinder support (1307) on cylinder base (1306), fixed surface installs cylinder (1308) in cylinder support (1307), cylinder (1308) are through center pin fixedly connected with ejector pin (1309), ejector pin (1309) surface fixed mounting has push pedal (1310), push pedal (1310) movable mounting is in connecting rod (1311) surface No. one, connecting rod (1311) both ends surface movable mounting has pulley (1312) No. one, pulley (1312) movable mounting is in No. two spout (1313) internal surfaces that are equipped with in automobile plate (1301) both sides.

7. The high-efficiency aluminum smelting furnace apparatus as recited in claim 6, wherein: the utility model discloses a lifting device for a magnetic stirrer, including connecting rod (1311), lifter (1314), connecting rod (1311) is all fixed mounting in lifter (1314) both ends, two equal movable mounting in connecting rod (1311) both ends has pulley (1312), lifter (1314) upper end left side internal surface movable mounting has No. two connecting rods (1315), no. two connecting rod (1315) both sides movable mounting has two pulley (1317), lifter (1314) upper end right side both sides fixed mounting has two No. three connecting rods (1316), two No. three connecting rods (1316) surface equal movable mounting has No. two pulley (1317), four No. two pulley (1317) equal movable mounting in No. three spout (1318) internal surfaces, two No. three spout (1318) fixed mounting in electromagnetic stirrer (1319) lower surface.