CN217249386U

CN217249386U - Integrated hot aluminum slag treatment equipment

Info

Publication number: CN217249386U
Application number: CN202220403173.8U
Authority: CN
Inventors: 曾虎; 韩文杰; 张楠; 张红涛; 陈彬
Original assignee: Luoyang Wanji Aluminum Titanium Alloy New Material Co ltd
Current assignee: Luoyang Wanji Aluminum Titanium Alloy New Material Co ltd
Priority date: 2022-02-28
Filing date: 2022-02-28
Publication date: 2022-08-23
Anticipated expiration: 2032-02-28

Abstract

The utility model discloses an integrated hot aluminum slag treatment equipment, which comprises an ash frying machine for separating liquid metal and aluminum slag from the hot aluminum slag, wherein the discharge end of the ash frying machine is provided with a cooling component for cooling the aluminum slag, the discharge end of the cooling component is provided with a crushing component for grinding and crushing the cooled aluminum slag, the discharge end of the crushing component is provided with a screening component for screening tail ash and aluminum particles in the crushed aluminum slag, and the discharge end of the screening component is respectively provided with a tail ash conveying component for conveying the tail ash and an aluminum particle conveying component for conveying the aluminum particles; the utility model discloses can carry out efficient separation and refrigerated processing to hot aluminium sediment in succession to melt and remove the gred fast the aluminium granule of retrieving, make it become high-quality regeneration aluminium liquid, thereby throw material production once more.

Description

Integrated hot aluminum slag treatment equipment

Technical Field

The utility model relates to an aluminium sediment processing technology field especially relates to a processing equipment of integrative hot aluminium sediment.

Background

The most common equipment of current hot aluminium sediment processing is the ash frying machine, the aluminium sediment separates out fine particle (diameter <2 mm) through the ash frying machine processing back, well granule (diameter 2-15 mm) and three kinds of aluminium ashes of coarse grain (diameter > 15 mm), wherein fine particle aluminium ash need collect back innocent treatment, well granule and coarse grain aluminium ash are because of the aluminium content is more, need use solitary nodular machine to carry out breakage and screening once more, separate out aluminium granule and fine ash, because of impurity content is big in the aluminium granule, can not directly be used for producing high-end aluminium processed product after melting, need use solitary melting furnace melting edulcoration to become behind the secondary aluminium, just can regard as the main material, get into the stove of production line and use.

The aluminum ash and aluminum slag processing system disclosed in Chinese patent (CN 105886773A) is an ash frying machine which is commonly used at present, and the equipment is matched with an independent crushing and screening device and an independent melting furnace to separate aluminum in slag for reuse in a factory generating aluminum slag, so that the investment is large, the occupied area is large, and the production efficiency is low; chinese patent (CN 201810075265.6) discloses an aluminum slag recovery device and an aluminum slag recovery process, wherein aluminum slag in a slag pressing box is squeezed through a pressing plate, so that aluminum liquid in the aluminum slag is extruded out and flows into an aluminum liquid collecting box, the aluminum liquid in the aluminum liquid collecting box flows back to a smelting furnace for continuous use, the residual aluminum slag in the slag pressing box is conveyed into a heating furnace through a conveying device for heating, the heated aluminum slag is put into a centrifugal machine for separating the aluminum liquid from the aluminum slag, the separated aluminum liquid also flows back to the smelting furnace, and the residual aluminum slag is subjected to innocent treatment at the moment; therefore, in summary, an integrated hot aluminum slag treatment device is needed in the market at present, so that a factory generating hot aluminum slag can timely recycle aluminum in the slag, and the device is simple to operate and small in occupied space.

SUMMERY OF THE UTILITY MODEL

In order to overcome not enough in the background art, the utility model discloses an integrative hot aluminium sediment treatment facility, the utility model discloses can carry out efficient separation and refrigerated processing to the hot aluminium sediment in succession to melt and remove the gred fast the aluminium granule of retrieving, make it become high-quality regeneration aluminium liquid, thereby throw material production once more.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an integrated hot aluminum slag treatment device comprises an ash frying machine for separating liquid metal and aluminum slag from the hot aluminum slag, wherein a cooling component for cooling the aluminum slag is arranged at the discharge end of the ash frying machine, a crushing component for grinding and crushing the cooled aluminum slag is arranged at the discharge end of the cooling component, a screening component for screening tail ash and aluminum particles in the crushed aluminum slag is arranged at the discharge end of the crushing component, tail ash conveying components for conveying the tail ash are respectively arranged at the discharge ends of the screening components, and an aluminum particle conveying component for conveying the aluminum particles is arranged at the discharge end of the screening component, the aluminum particle conveying component comprises an aluminum particle storage box, a rotary chute, an automatic feeder and a screw elevator B, the screw elevator B is used for conveying the aluminum particles screened by the screening component and conveying the aluminum particles into the aluminum particle storage box, an automatic feeder is arranged at a discharge port at the lower part of the aluminum particle storage box, the feed opening of the automatic feeder is provided with a rotary launder for conveying aluminum particles to the melting furnace, and the ash frying machine, the cooling assembly, the crushing assembly, the screening assembly, the tail ash conveying assembly, the aluminum particle conveying assembly and the melting furnace are electrically connected through a control system.

Further, cooling unit includes base A cooling cylinder, water cooling tower, shell and drive rotating electrical machines A, and base A upper portion rotates and is connected with the cooling cylinder, and base one side is equipped with drive cooling cylinder pivoted drive rotating electrical machines A, and cooling cylinder upper portion is equipped with the shower head group that is used for carrying out the water-cooling to the aluminium sediment in the cooling cylinder and sprays, and shower head group upper portion is equipped with the water cooling tower, and the cooling cylinder lower part is equipped with receives the pond.

Further, broken subassembly includes base B, cylinder, grinds piece and drive rotating electrical machines B, and base B upper portion rotates and is connected with the cylinder, and base B one side is equipped with drive roller pivoted drive rotating electrical machines B, and the inside grinding piece that is used for grinding broken aluminium sediment that is equipped with of cylinder.

Further, divide the sieve subassembly to include screening cylinder and screen cloth, the screening cylinder is netted round platform shape structure, the small-bore end of screening cylinder is connected with the cylinder discharge end in the broken subassembly, and rotate along with the rotation of cylinder in step, the screening cylinder outside is equipped with the screen cloth of cladding screening cylinder, and the mesh diameter of screening cylinder is greater than the mesh diameter of screen cloth, divide the sieve subassembly still to include and cross the tail ash discharge gate that filters out the tail ash from the screen cloth to and cross the aluminium granule discharge gate that filters out from the screening cylinder.

Further, tail ash conveying component includes the tail ash collecting box, scrape trigger B, the tail ash discharge valve, screw elevator A, scrape trigger A and tail ash transfer box, screw elevator A's feed inlet and the sealed intercommunication of the tail ash discharge gate of branch sieve subassembly, scrape trigger A's feed inlet and the sealed intercommunication of screw elevator A's discharge gate, it is equipped with the tail ash transfer box that is used for saving the tail ash to scrape trigger A's discharge gate, tail ash transfer bottom of the case portion is equipped with the tail ash discharge valve, scrape trigger B's feed inlet and the sealed intercommunication of tail ash transfer box, scrape trigger B's discharge gate and the sealed intercommunication of tail ash collecting box.

Further, tail ash conveying assembly still includes notes material pipe and vibration mechanism, and tail ash collecting box bottom is equipped with the notes material pipe that is used for carrying the tail ash, and the other end of annotating the material pipe is linked together with the slag box of ash frying machine, annotates the material pipe downside and is equipped with the vibration mechanism that is used for supplementary notes material pipe vibration unloading.

Further, rotatory chute lower part is equipped with the support, and rotatory chute is connected with support upper portion through the several spring, and the contained angle of rotatory chute and horizontal plane is greater than 5, and the both sides wall of rotatory chute is equipped with vibrating motor, and vibrating motor is close to the inclination high level of rotatory chute.

Furthermore, a rotating shaft is arranged at the lower part of the support, a transmission motor for driving the rotating shaft to rotate is arranged on one side of the rotating shaft, and the upper part of the rotating shaft is fixedly connected with the support.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a processing equipment of integrative hot aluminium sediment, through the processing of broken subassembly and branch sieve subassembly to the aluminium sediment, output tail ash and aluminium granule, the tail ash is partly used for cooling the hot sediment after frying, and the relevant container of putting into is deposited to another part tail ash discharge valve, and the aluminium granule is sent into corresponding melting furnace through transport assembly in proper order, after melting and slagging-off through the melting furnace, becomes the regeneration aluminium liquid that can directly use; the utility model discloses can carry out efficient separation and refrigerated processing to the hot-aluminum sediment in succession to melt and remove the gred fast the aluminium granule of retrieving, make it become high-quality regeneration aluminium liquid, thereby throw material production once more, control system can carry out centralized control to each relevant subassembly, but this equipment full automatic operation also can artifical control operation on the operation panel in proper order, this equipment has the degree of automation height that integrates, the aluminium in the recovery hot-aluminum sediment is efficient, and easy operation practices thrift artifically, and area is little etc. advantage.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the conveying assembly of the present invention.

In the figure: 1. a lime frying machine; 2. a cooling assembly; 2.1, driving a rotating motor A; 3. a crushing assembly; 3.1, driving a rotating motor B; 4. a screening assembly; 5. a tail ash conveying assembly; 5.1, a tail ash discharge valve; 5.2, a tail ash collecting box; 5.3, a tail ash transfer box; 5.4, a spiral elevator A; 5.5, a scraper A; 5.6, a scraper B; 5.7, a material injection pipe; 6. an aluminum particle transport assembly; 6.1, an aluminum particle storage box; 6.2, a rotary launder 6.2.1 and a vibration motor; 6.2.2, a spring; 6.2.3, a support; 6.2.4, a rotating shaft; 6.3, automatic blanking; 6.4, a spiral elevator B; 7. a melting furnace; 8. and (5) controlling the system.

Detailed Description

In the following description, the technical solutions of the present invention will be described with reference to the drawings in the embodiments of the present invention, it should be understood that, if there are the orientations or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", etc., it only corresponds to the drawings of the present invention, and for convenience of description, it is not intended to indicate or imply that the indicated device or element must have a specific orientation.

Referring to the attached drawings 1-2 of the specification, the utility model provides a technical scheme:

embodiment one, an integrated hot aluminum slag treatment device, including a ash frying machine 1 for separating liquid metal and aluminum slag from hot aluminum slag, a cooling component 2 for cooling aluminum slag is arranged at the discharge end of the ash frying machine 1, the cooling component 2 includes a base A, a cooling cylinder, a water cooling tower, a shell and a driving rotating motor A2.1, the upper part of the base A is rotatably connected with the cooling cylinder with a hollow structure, the outer part of the cooling cylinder is provided with the shell, the top of the shell is longitudinally connected with a spray head group for water-cooling and spraying the aluminum slag in the cooling cylinder, the upper part of the spray head group is provided with the water cooling tower, the lower part of the cooling cylinder is provided with a water receiving tank, one side of the base A is provided with the driving rotating motor A2.1 for driving the cooling cylinder to rotate, two ends of the cooling cylinder are in friction connection with bearings arranged at corresponding positions of the two ends of the base, the driving rotating motor A2.1 is arranged at the side of a discharge port, a gear is arranged on a shaft head of the driving rotating motor A2.1, the cooling cylinder is in transmission connection with teeth circumferentially arranged on a cylinder body of the cooling cylinder through a chain, when aluminum ash treated by the ash frying machine 1 enters the cooling cylinder, the cooling cylinder starts to rotate under the driving of a driving rotating motor A2.1, ash is not discharged when the cooling cylinder rotates clockwise, a spray header group is automatically started at the moment, water is sprayed to the outer wall of the cooling cylinder, cooling of the aluminum ash is accelerated, ash is discharged when the cooling cylinder rotates anticlockwise, the cooling cylinder can also be designed in a reverse mode, a water receiving pool is provided with a liquid level detection switch, and a water replenishing pump automatically starts replenishing water when the liquid level is lower than a set depth;

the discharge end of the cooling component 2 is provided with a crushing component 3 for grinding and crushing cooled aluminum slag, the crushing component 3 comprises a base B, a roller, a grinding part and a driving rotating motor B3.1, the upper part of the base B is rotatably connected with the roller, the outer surface of the roller is screwed with an anechoic tile for reducing noise, the inner part of the roller is screwed with a lining plate which is made of wear-resistant metal and can be replaced by abrasion, the inner part of the roller is provided with the grinding part for grinding and crushing the aluminum slag, the grinding part is made of wear-resistant metal and can be in a spherical shape, a bar shape or other shapes with good grinding effect, one side of the base B is provided with the driving rotating motor B3.1 for driving the roller to rotate, the roller starts to rotate under the driving of the driving rotating motor B3.1, the aluminum slag, the grinding part and the lining plate collide and rub with each other to achieve the crushing effect, the material is not discharged when the roller rotates clockwise, the material is discharged when the roller rotates anticlockwise, and can also be designed reversely, a driving rotating motor B3.1 is arranged at the middle side part of the roller base, and a gear carried by a shaft head of the driving rotating motor B3.1 is in tooth connection with teeth circumferentially arranged at a corresponding position in the middle of a roller body of the roller;

the discharge end of the crushing component 3 is provided with a screening component 4 for screening tail ash and aluminum particles in the crushed aluminum slag, the screening component 4 comprises a screening roller and a screen, the screening roller is of a reticular circular truncated cone structure, the small-diameter end of the screening roller is connected with the discharge end of the roller in the crushing component 3 and synchronously rotates along with the rotation of the roller, the screen for coating the screening roller is arranged outside the screening roller, the diameter of the meshes of the screening roller is larger than that of the meshes of the screen, the screening component 4 further comprises a tail ash discharge port for filtering the tail ash from the screen and an aluminum particle discharge port for filtering the tail ash from the screening roller;

the discharge end of the separating screen assembly 4 is respectively provided with a tail ash conveying assembly 5 which is hermetically communicated with a tail ash discharge port, and an aluminum particle conveying assembly 6 which is connected with an aluminum particle discharge port, specifically, the tail ash conveying assembly 5 comprises a tail ash collecting box 5.2, a scraper B5.6, a tail ash discharge valve 5.1, a screw elevator A5.4, a scraper A5.5 and a tail ash transfer box 5.3, a feed port of the screw elevator A5.4 is hermetically communicated with the tail ash discharge port of the separating screen assembly 4, a feed port of the scraper A5.5 is hermetically communicated with a discharge port of the screw elevator A5.4, a discharge port of the scraper A5.5 is provided with the tail ash transfer box 5.3 for storing tail ash, the bottom of the tail ash transfer box 5.3 is provided with a tail ash valve 5.1, a feed port of the scraper B5.6 is hermetically communicated with the tail ash transfer box 5.3, a discharge port of the scraper B5.6 is hermetically communicated with the tail ash collecting box 5.2, when the separating screen assembly 4 discharges tail ash, a tail ash discharge command control system 8 for controlling the tail ash discharge, the screw elevator A5.4 and the scraper conveyor A5.5 start to convey tail ash to the tail ash collecting box 5.2, at the moment, a tail ash discharge valve 5.1 arranged at the bottom of the tail ash transfer box 5.3 is in a closed state, a material level detector is arranged in the tail ash collecting box 5.2, when the material level reaches a set value, the scraper conveyor B5.6 stops working, the tail ash discharge valve 5.1 is opened, and the tail ash in the tail ash transfer box 5.3 starts to be discharged; when the material level detector in the tail ash collecting box 5.2 sends a low signal to the control system 8, the scraper conveyor B5.6 is started, the tail ash discharge valve 5.1 is closed, and the next working cycle is started;

the aluminum particle conveying assembly 6 comprises an aluminum particle storage box 6.1, a rotary flow groove 6.2, an automatic blanking device 6.3 and a spiral elevator B6.4, the spiral elevator B6.4 is used for conveying aluminum particles screened by the screening assembly 4 and conveying the aluminum particles into the aluminum particle storage box 6.1, an automatic blanking device 6.3 is arranged at a discharge port at the lower part of the aluminum particle storage box 6.1, a rotary flow groove 6.2 used for conveying the aluminum particles to the melting furnace 7 is arranged at a discharge port of the automatic blanking device 6.3, the ash frying machine 1, the cooling assembly 2, the crushing assembly 3, the screening assembly 4, the tail ash conveying assembly 5, the aluminum particle conveying assembly 6 and the melting furnace 7 are electrically connected through a control system 8.

In order to facilitate the ash stir-frying operation of the aluminum slag in the ash stir-frying machine 1, the tail ash conveying assembly 5 further comprises an injecting pipe 5.7 and a vibrating mechanism, the bottom of the tail ash collecting box 5.2 is provided with the injecting pipe 5.7 for conveying the tail ash, the other end of the injecting pipe 5.7 is communicated with the slag box of the ash stir-frying machine 1, the lower side of the injecting pipe 5.7 is provided with the vibrating mechanism for assisting the injecting pipe 5.7 to vibrate and discharge, the vibrating mechanism can adopt a vibrating motor, the injecting pipe 5.7 injects cold tail ash into the slag box under the action of the vibrating mechanism, and a stirring knife of the ash stir-frying machine 1 continues to stir in the slag box.

Third embodiment, in order to facilitate the rotatory chute 6.2 can effectual transport aluminum particles, rotatory chute 6.2 lower part is equipped with support 6.2.3, rotatory chute 6.2's both sides wall is corresponding to the silk and is connected with vibrating motor 6.2.1, vibrating motor 6.2.1 is close to rotatory chute 6.2's inclination high-order, with the cell shell fixed connection of chute, rotatory chute 6.2 is connected with support 6.2.3 upper portion through several spring 6.2.2, and the contained angle of rotatory chute 6.2 and horizontal plane is greater than 5.

In the fourth embodiment, in order to facilitate adjustment of the horizontal angle of the rotary launder 6.2, the rotary launder can convey aluminum particles to the melting furnaces 7 at different positions, the middle part of the bottom plate of the support 6.2.3 is of a hollow structure, the middle part of the rotary shaft 6.2.4 is connected with a gear chain of a shaft head of a transmission motor through a gear, bearings with seats are arranged on the upper part and the lower part of the rotary shaft 6.2.4, the upper bearing seat is connected with the bottom plate of the support 6.2.3 in a threaded manner, the shaft head of the rotary shaft 6.2.4 is arranged in the hollow part of the bottom plate of the support 6.2.3, and the lower bearing seat is connected with embedded bolts on the buttress in a threaded manner.

In the fifth embodiment, two melting furnaces 7 can be arranged, the melting furnaces 7.1 and 7.2 are symmetrically arranged at two side portions of the aluminum particle storage box 6.1, the types of the melting furnaces include, but are not limited to, all current small gas furnaces and electric furnaces for melting solid metals, the melting furnaces 7.1 and the melting furnaces 7.2 are provided with hydraulic tipping devices, so that regenerated aluminum liquid can be led out, the two furnaces share one set of hydraulic station, when the rotary launder 6.2 injects aluminum particles into the melting furnace 7.1 and the melting furnace 7.2, the vibrating motors 6.2.1 at two side portions of the rotary launder 6.2 vibrate in the horizontal direction, so that the aluminum particles flow in the launder, an included angle between a discharge port of the rotary launder 6.2 and a horizontal plane is 5-30 launder, so that the aluminum particles flow more smoothly in the rotary launder 6.2;

the upper parts of the melting furnace 7 and the aluminum particle storage box 6.1 are respectively provided with a walkway plate, wherein the walkway plate at the upper part of the aluminum particle storage box 6.1 is close to the liquid outlet side of the melting furnace, the walkway plate of the melting furnace 7 is provided with a step which is convenient to be arranged on the walkway plate of the aluminum particle storage box 6.1, the discharge port of the rotary launder 6.2 is higher than the walkway plate at the upper part of the melting assembly 7, the edge parts of the walkway plates are respectively provided with a railing, the design is convenient for workers to operate and can ensure safety;

the operation panel of the control system 8 is integrally arranged on the workbench of the ash frying machine 1, is provided with an automatic mode and a manual mode, is internally provided with a preset program, and controls the actions of all the components through a PLC.

When the integrated hot aluminum slag treatment equipment of the utility model is implemented, firstly, the limit position of the feeding hole of the slag box ash frying machine 1 filled with hot aluminum slag is carried out through a forklift, the automatic mode of the control system 8 is started, the manual mode can also be operated step by step, the full-flow treatment of the hot slag is started, the ash frying is carried out for 2-4 minutes, the liquid-slag separation is finished, the material injection pipe 5.7 injects cold tail ash into the slag box under the action of the vibration mechanism, the stirring knife of the ash frying machine 1 is continuously stirred in the slag box, after 1-3 minutes, the stirring knife is lifted, the aluminum slag in the slag box is guided into the cooling component 2 by the transmission device of the ash frying machine 1, the cooling cylinder, the cooling tower and the driving rotating motor I2.1 of the cooling component 2 begin to carry out cooling work, no slag is discharged at the moment, the cooling component 2 automatically stops in 2-5 minutes, after 3-5 boxes of slag are cooled, the cooling component 2 reversely discharges the ash into the crushing component 3, the crushing component 3 is started to work, the aluminum slag entering the crushing component is crushed without discharging slag for 5-15 minutes during crushing, the slag and the aluminum are separated completely, the crushing component 3 is reversed, tail ash and aluminum particles generated by crushing are discharged into the screening component 4, at the moment, the tail ash conveying component 5 and the aluminum particle conveying component 6 are started to work, part of the tail ash separated and screened out enters the tail ash collecting box 5.2 through the combined conveying of the spiral elevator A5.4, the scraper A5.5, the tail ash transfer box 5.3 and the scraper B5.6, the rest part of the tail ash enters the collecting container through the spiral elevator A5.4, the scraper A5.5, the tail ash transfer box 5.3 and the tail ash discharge valve 5.1 to be treated, the aluminum particles separated and screened out enter the melting furnace 7 through the spiral elevator B6.4, the aluminum particle storage box 6.1, the automatic feeder 6.3 and the rotary chute 6.2 to be conveyed, and enter the melting furnace 7 to be melted, and hot aluminum slag generated by the melting furnace 7 is fished out manually, the hot aluminum slag is transferred to the ash frying machine 1 by a forklift for treatment, and the regenerated aluminum liquid generated by the melting furnace 7 is respectively poured into aluminum water bags and is transferred to a smelting furnace of a production line by a transfer trolley for direct use.

The details of the present invention not described in detail are prior art, and it will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the scope of the claims.

Claims

1. The utility model provides an integrative hot aluminium sediment treatment facility which characterized in that: comprises an ash frying machine (1) used for separating liquid metal and aluminum slag from hot aluminum slag, wherein a cooling component (2) used for cooling the aluminum slag is arranged at the discharge end of the ash frying machine (1), a crushing component (3) used for grinding and crushing the cooled aluminum slag is arranged at the discharge end of the cooling component (2), a screening component (4) used for screening tail ash and aluminum particles in the crushed aluminum slag is arranged at the discharge end of the crushing component (3), tail ash conveying components (5) used for conveying the tail ash and aluminum particle conveying components (6) used for conveying the aluminum particles are respectively arranged at the discharge ends of the screening components (4), the aluminum particle conveying components (6) comprise aluminum particle storage tanks (6.1), rotary material tanks (6.2), automatic material feeders (6.3) and screw elevators B (6.4), and the screw elevators B (6.4) are used for conveying the aluminum particles screened by the screening component (4), and carry the aluminium granule to in aluminium granule storage box (6.1), aluminium granule storage box (6.1) lower part discharge gate is equipped with automatic glassware (6.3) down, the feed opening of automatic glassware (6.3) down is equipped with and is used for carrying the aluminium granule to rotatory chute (6.2) of melting furnace (7), fries grey machine (1), cooling module (2), broken subassembly (3), divide sieve subassembly (4), tail ash conveying component (5), aluminium granule conveying component (6) and melting furnace (7) carry out the electricity through control system (8) and connect.

2. The integrated hot aluminum slag treatment apparatus according to claim 1, wherein: cooling module (2) include base A, cooling cylinder, water cooling tower, shell and drive rotating electrical machines A (2.1), and base A upper portion is rotated and is connected with the cooling cylinder, and base one side is equipped with drive cooling cylinder pivoted drive rotating electrical machines A (2.1), and cooling cylinder upper portion is equipped with the shower head group that is used for carrying out the water-cooling to the aluminium sediment in the cooling cylinder and sprays, and shower head group upper portion is equipped with the water cooling tower, and the cooling cylinder lower part is equipped with receives the pond.

3. The integrated hot aluminum slag treatment facility of claim 1, wherein: broken subassembly (3) include base B, cylinder, grind piece and drive rotating electrical machines B (3.1), and base B upper portion is rotated and is connected with the cylinder, and base B one side is equipped with drive roller pivoted drive rotating electrical machines B (3.1), and the inside mill piece that is used for grinding broken aluminium sediment that is equipped with of cylinder.

4. The integrated hot aluminum slag treatment apparatus according to claim 1, wherein: divide screen assembly (4) including screening cylinder and screen cloth, the screening cylinder is netted round platform shape structure, the small-bore end of screening cylinder is connected with the cylinder discharge end in broken subassembly (3), and rotate in step along with the rotation of cylinder, the screening cylinder outside is equipped with the screen cloth of cladding screening cylinder, and the mesh diameter of screening cylinder is greater than the mesh diameter of screen cloth, divide screen assembly (4) still including filtering out the tail ash discharge gate of tail ash from the screen cloth, and filter out the aluminium particles discharge gate of crossing out from the screening cylinder.

5. The integrated hot aluminum slag treatment apparatus according to claim 4, wherein: tail ash conveying component (5) includes tail ash collecting box (5.2), scrape trigger B (5.6), tail ash discharge valve (5.1), screw elevator A (5.4), scrape trigger A (5.5) and tail ash transfer box (5.3), the feed inlet of screw elevator A (5.4) and the sealed intercommunication of the tail ash discharge gate of branch sieve subassembly (4), the feed inlet of scraping trigger A (5.5) and the sealed intercommunication of the discharge gate of screw elevator A (5.4), the discharge gate of scraping trigger A (5.5) is equipped with tail ash transfer box (5.3) that are used for saving the tail ash, tail ash transfer box (5.3) bottom is equipped with tail ash discharge valve (5.1), the feed inlet of scraping trigger B (5.6) and tail ash transfer box (5.3) sealed intercommunication, the discharge gate of scraping trigger B (5.6) and the sealed intercommunication of tail ash collecting box (5.2).

6. The integrated hot aluminum slag treatment apparatus according to claim 5, wherein: the tail ash conveying assembly (5) further comprises an injection pipe (5.7) and a vibrating mechanism, the bottom of the tail ash collecting box (5.2) is provided with the injection pipe (5.7) for conveying tail ash, the other end of the injection pipe (5.7) is communicated with a slag box of the ash frying machine (1), and the lower side of the injection pipe (5.7) is provided with the vibrating mechanism for assisting the injection pipe (5.7) in vibrating and discharging.

7. The integrated hot aluminum slag treatment apparatus according to claim 1, wherein: support (6.2.3) are equipped with to rotatory chute (6.2) lower part, and rotatory chute (6.2) is connected with support (6.2.3) upper portion through several spring (6.2.2), and the contained angle of rotatory chute (6.2) and horizontal plane is greater than 5, and the both sides wall of rotatory chute (6.2) is equipped with vibrating motor (6.2.1), and vibrating motor (6.2.1) is close to the high position of the inclination of rotatory chute (6.2).

8. The integrated hot aluminum slag treatment apparatus according to claim 7, wherein: the lower part of the support (6.2.3) is provided with a rotating shaft (6.2.4), one side of the rotating shaft (6.2.4) is provided with a transmission motor for driving the rotating shaft (6.2.4) to rotate, and the upper part of the rotating shaft (6.2.4) is fixedly connected with the support (6.2.3).