CN114131485B

CN114131485B - Automatic aluminum liquid flow distribution disc blocking removing device for aluminum ingot casting production line and construction method

Info

Publication number: CN114131485B
Application number: CN202111486723.3A
Authority: CN
Inventors: 李坤; 李晓庆; 李海峰; 曹新虎; 苏会朋; 许利华; 荣志强; 冯宝新; 陈元兵
Original assignee: Henan Zhongfu Technology Center Co ltd
Current assignee: Henan Zhongfu Technology Center Co ltd
Priority date: 2021-12-07
Filing date: 2021-12-07
Publication date: 2024-02-06
Anticipated expiration: 2041-12-07
Also published as: CN114131485A

Abstract

The invention discloses an automatic blockage removing device for an aluminum liquid flow distribution disc of an aluminum ingot casting production line and a construction method, wherein: the device includes base, first pillar and cylinder, and the base is two, and the distribution is provided with first pillar and second pillar on every base, has set gradually first stop collar, spring and second stop collar from supreme down on first pillar, sets up clear hole subassembly in the second stop collar top, sets up the cylinder in clear hole subassembly top, is provided with on the second pillar and drags for the sediment subassembly. The invention solves the problem that the aluminum outlet of the flow distribution disc in the aluminum ingot production line is easy to be blocked, and by utilizing the construction method, the burden of staff is lightened, the uniformity of the aluminum output is ensured, the quality of aluminum ingot production is improved, the use is convenient, the operation is simple, and the popularization is easy.

Description

Automatic aluminum liquid flow distribution disc blocking removing device for aluminum ingot casting production line and construction method

Technical Field

The invention relates to an anti-blocking device for an aluminum outlet of an aluminum liquid distributor, in particular to an automatic blocking cleaning device for an aluminum liquid distribution plate of an aluminum ingot casting production line and a construction method.

Background

The aluminum liquid distribution plate is used on an aluminum ingot casting production line without separation, the existing aluminum liquid distribution plates are distributed in lotus shape, and a plurality of aluminum outlets are uniformly distributed on the outer wall of the aluminum liquid distribution plate; because the aluminum liquid flow distribution disc is in use, in the process that the aluminum liquid enters the flow distribution disc and flows into the ingot mould through the rotating aluminum outlet, part of the aluminum liquid can be solidified at the aluminum outlet of the flow distribution disc, so that the aluminum output of the flow distribution disc is uneven, and the quality of an aluminum ingot is seriously influenced; and the blockage of the aluminum liquid flow distribution disc is caused seriously.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the automatic aluminum liquid flow distribution disc blocking removing device and the construction method for the aluminum ingot casting production line overcome the defects of the prior art, avoid the blocking of an aluminum outlet of the aluminum liquid flow distribution disc, and improve the production quality of aluminum ingots.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the automatic blockage removing device for the aluminum liquid flow distribution disc of the aluminum ingot casting production line comprises two bases, first support columns and air cylinders, wherein the two bases are symmetrically distributed on supports on two sides of the aluminum liquid flow distribution disc, a second guide frame is arranged at the front end of each base, a second plugboard is inserted into the second guide frame, a first guide frame is arranged at the rear end of each base, and a first plugboard is inserted into each first guide frame; the front end of the first plugboard is vertically provided with a first support, a first limit sleeve, a spring and a second limit sleeve are sequentially arranged on the first support from bottom to top, the top of the second limit sleeve is provided with a hole cleaning assembly, the hole cleaning assembly consists of a displacement sleeve, a plugboard, an arc-shaped plate, an electric drill and a steel wire ball, and an air cylinder is arranged above the electric drill tightening assembly; the rear end of the second plugboard is provided with a second support column, and a slag dragging assembly is arranged on the second support column.

The upper end of the first limit sleeve and the lower end of the second limit sleeve are respectively provided with a limit plate, the first limit sleeve is fixed with the first support column through threads, and the lower end of the spring is fixedly connected with the limit plate at the upper end of the first limit sleeve; the second limiting sleeve is connected with the first support in a sliding mode, a limiting nut is arranged above the second limiting sleeve, and the limiting nut is fixed with the first support through threads.

The cylinder is fixed with the first pillar through the third stop collar, and the outside of third stop collar is provided with first end plate, the top of cylinder is fixed with the bottom surface of first end plate together, and the push rod and the second end plate fixed connection of cylinder together, the outside of second end plate and second stop collar is fixed together.

The number of the displacement sleeves is two, the top of each second limiting sleeve is provided with one displacement sleeve, and the outer ends of the displacement sleeves penetrate through the first support posts; the inner end of the displacement sleeve is inserted with an inserting rod, a spring is arranged between the rear end of the inserting rod and the displacement sleeve, a rectangular through hole is dug at the top of the displacement sleeve, a limiting block is arranged above the rear end of the inserting rod, penetrates through the rectangular through hole and is positioned above the rectangular through hole; the front end of the inserted link is provided with arc plates, two ends of each arc plate are respectively provided with a connecting plate, electric drills are fixed in the two arc plates, and the electric drills are clamped and fixed through bolts and nuts on the two connecting plates; the lower extreme of electric drill is provided with the steel wire ball, and the upper end of steel wire ball is cylindric distribution, and the lower extreme of steel wire ball is coning and distributes.

The second support column is sleeved with a cross arm and fixed through bolts; the cross arm is provided with a rectangular through hole in a digging mode, a vertical plate is inserted in the rectangular through hole, a limiting plate is arranged at the top of the vertical plate, a funnel is arranged at the bottom of the vertical plate, and the vertical plate and the cross arm are fixedly connected together through bolts.

The bottom of the funnel is distributed in an arc shape, and the middle is high and the two ends are low.

The construction method of the automatic aluminum liquid flow distribution disc blocking clearing device for the aluminum ingot casting production line comprises the following steps:

(1) welding the base on the brackets at two ends of the flow distribution plate, respectively inserting a first plugboard into the first guide frame, and inserting a second plugboard into the second guide frame;

(2) the position of the funnel is adjusted according to the position of the aluminum liquid distribution disc, so that the funnel is positioned in the aluminum liquid distribution disc and positioned below the aluminum outlet at the top;

(3) an electric drill is inserted into the arc-shaped plate, the lower ports of the electric drill are tightened through bolts on connecting plates at two ends of the arc-shaped plate, and meanwhile, according to the sizes of the lower ports of different electric drills, the inserted rod automatically contracts inwards the displacement sleeve;

(4) starting the air cylinder, enabling the steel wire ball at the lower end of the electric drill to penetrate into an aluminum outlet of the flow distribution disc, starting the electric drill again, cleaning an aluminum liquid flow distribution hole through rotation of the steel wire ball, enabling cleaned aluminum slag to fall into a re-funnel, enabling one part of aluminum slag to melt and flow into the flow distribution disc due to high temperature in the flow distribution disc, and enabling the other part of aluminum to stay in a re-leakage net;

(5) and (3) cleaning the funnel by staff at regular intervals.

The invention has the extremely beneficial effects that:

1. according to the invention, the electric drill is fixed between the two arc plates, the steel wire ball is arranged at the lower end of the electric drill, and the inner wall of the aluminum outlet on the flow distribution plate can be cleaned rapidly by matching with the use of the air cylinder, so that the situation of blocking the aluminum outlet is avoided.

2. According to the invention, the cross arm is sleeved on the second support column, the vertical plate with the funnel at the lower end is inserted in the cross arm, so that aluminum slag cleaned in the aluminum outlet is prevented from flowing into the ingot mould, part of aluminum solidification matters can be melted due to high temperature in the flow distribution disc and quickly flow into the flow distribution disc, and the aluminum slag casting device is convenient to use and simple to operate.

3. The invention reduces the burden of staff, solves the problem of difficult cleaning of the distribution plate, ensures the normal aluminum output of aluminum liquid, improves the production quality of aluminum ingots and is easy to popularize.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a part of the structure of the hole cleaning assembly of the present invention;

FIG. 3 is a schematic view of the structure of the funnel of the present invention;

FIG. 4 is a schematic diagram of the mechanism of the slag scooping assembly of the present invention;

fig. 5 is a schematic structural view of the wire ball of the present invention.

Detailed Description

The invention is further explained and illustrated below with reference to the drawings:

example 1: see fig. 1-5: the automatic block cleaning device for the aluminum liquid flow distribution disc of the aluminum ingot casting production line comprises two bases 1, first support columns 6 and air cylinders 15, wherein the two bases 1 are symmetrically distributed on supports on two sides of the aluminum liquid flow distribution disc, a second guide frame 3 is arranged at the front end of each base 1, a second inserting plate 5 is inserted into the second guide frame 3, a first guide frame 2 is arranged at the rear end of each base 1, and a first inserting plate 4 is inserted into each first guide frame 2; the front end of the first plugboard 4 is vertically provided with a first support column 6, a first limit sleeve 7, a spring 9 and a second limit sleeve 8 are sequentially arranged on the first support column 6 from bottom to top, the top of the second limit sleeve 8 is provided with a hole cleaning assembly, the hole cleaning assembly consists of a displacement sleeve 10, a plugboard 11, an arc-shaped plate 18, an electric drill 19 and a steel wire ball 191, and an air cylinder 15 is arranged above the electric drill tightening assembly; the rear end of the second plugboard 5 is provided with a second supporting column 17, a slag dragging component is arranged on the second supporting column 17, and the slag dragging component consists of a cross arm 20, a vertical plate 21 and a funnel 22.

The upper end of the first limit sleeve 7 and the lower end of the second limit sleeve 8 are respectively provided with a limit plate, the first limit sleeve 7 is fixed with the first support column 6 through threads, and the lower end of the spring 9 is fixedly connected with the limit plate at the upper end of the first limit sleeve 7; the second stop collar 8 is connected with the first support column 6 in a sliding way, a stop nut 12 is arranged above the second stop collar 8, and the stop nut 12 is fixed with the first support column 6 through threads.

The cylinder 15 is fixed with the first pillar 6 through the third stop collar 13, and the outside of third stop collar 13 is provided with first end plate 14, and the top of cylinder 15 is fixed with the bottom surface of first end plate 14 together, and the push rod of cylinder 15 is together fixed with second end plate 16, and second end plate 16 is together fixed with the outside of second stop collar 8.

The number of the displacement sleeves 10 is two, one displacement sleeve 10 is arranged at the top of each second limiting sleeve 8, and the outer end of each displacement sleeve 10 penetrates through the first support column 6; an inserting rod 11 is inserted into the inner end of the displacement sleeve 10, a spring is arranged between the rear end of the inserting rod 11 and the displacement sleeve 10, a rectangular through hole is dug at the top of the displacement sleeve 10, a limiting block 10a is arranged above the rear end of the inserting rod 11, and the limiting block 10a penetrates through the rectangular through hole and is positioned above the rectangular through hole; the front end of the inserted link 11 is provided with arc plates 18, two ends of each arc plate 18 are respectively provided with a connecting plate, electric drills 19 are fixed in the two arc plates 18, and the electric drills 19 are clamped and fixed through bolts and nuts on the two connecting plates; the lower end of the electric drill 19 is provided with steel wire balls 191, the upper ends of the steel wire balls 191 are cylindrically distributed, and the lower ends of the steel wire balls 191 are conically distributed.

The second support 17 is sleeved with a cross arm 20 and fixed by bolts; the cross arm 20 is dug and is provided with a rectangular through hole 20a, a vertical plate 21 is inserted into the rectangular through hole 20a, the top of the vertical plate 21 is provided with a limiting plate, the bottom of the vertical plate 21 is provided with a funnel 22, and the vertical plate 21 and the cross arm 20 are fixedly connected together through bolts.

The bottom of the funnel 22 is arcuately distributed with a high middle and low ends.

In the above description, the outer diameter of the conical bottom of the steel wire ball is smaller than the inner diameter of the aluminum liquid outlet, and the outer diameter of the cylindrical top of the steel wire ball is larger than the inner diameter of the aluminum liquid outlet.

In the above description, the spring is arranged between the rear end of the inserted link and the displacement sleeve, when the spring is in a reset state, the two arc plates are combined to form a circular section, and the circular section is positioned right above the aluminum outlet at the top of the aluminum liquid flow distribution disc, that is, the steel wire ball is positioned right above the aluminum outlet at the top of the aluminum liquid flow distribution disc.

In the above description, during the use, first stop collar passes through the screw thread and is connected with first pillar, is provided with the limiting plate at the outer wall at first stop collar top, is provided with the limiting plate at the outer wall of second stop collar bottom, and the second stop collar can slide from top to bottom along first pillar.

In the above description, the third stop collar can be fixed with the first pillar through the bolt, also can directly weld together with the first pillar, but the third stop collar is located the top of stop nut, and when the cylinder resets, the push rod and the second end plate of cylinder are fixed, and when the cylinder motion, the push rod can make wire ball go deep into in the play aluminium mouth of flow divider.

In the above description, the bottom of the funnel is distributed in an arc shape, so that the solidification and melting in the funnel can flow into the flow distribution disc along the bottom, the bottom of the funnel is prevented from being blocked and filled with the solidification matters, and the falling solidification matters can fall in the middle of the bottom of the funnel, namely, at the highest position.

In the above description, the riser can move within the rectangular through hole according to the position of the diverter tray, and the funnel is positioned within the diverter tray by adjusting the height of the cross arm and the position of the riser within the rectangular through hole.

Example 2: the construction method of the automatic aluminum liquid flow distribution disc blocking removing device for the aluminum ingot casting production line comprises the following steps of:

(5) and (3) cleaning the funnel by staff at regular intervals.

In actual use, when the hopper is cleaned periodically, the cross arm needs to be drawn out of the second support post for cleaning.

In the above description, when in use, the aluminum outlets can be cleaned by matching with the rotation of the diverter tray.

The invention solves the problem that the aluminum outlet of the flow distribution disc in the aluminum ingot production line is easy to be blocked, and by utilizing the construction method, the burden of staff is lightened, the uniformity of the aluminum output is ensured, the quality of aluminum ingot production is improved, the use is convenient, the operation is simple, and the popularization is easy.

Claims

1. The utility model provides an automatic clear stifled device of aluminium ingot casting production line aluminium liquid flow divider, includes base (1), first pillar (6) and cylinder (15), its characterized in that: the two bases (1) are symmetrically distributed on the supports on two sides of the aluminum liquid distribution plate, a second guide frame (3) is arranged at the front end of each base (1), a second plugboard (5) is inserted into the second guide frame (3), a first guide frame (2) is arranged at the rear end of each base (1), and a first plugboard (4) is inserted into each first guide frame (2); the front end of the first plugboard (4) is vertically provided with a first support column (6), a first limit sleeve (7), a spring (9) and a second limit sleeve (8) are sequentially arranged on the first support column (6) from bottom to top, the top of the second limit sleeve (8) is provided with a hole cleaning component, the hole cleaning component consists of a displacement sleeve (10), a plugboard (11), an arc-shaped plate (18), an electric drill (19) and a steel wire ball (191), and an air cylinder (15) is arranged above the electric drill tightening component; the rear end of the second plugboard (5) is provided with a second support (17), a slag fishing assembly is arranged on the second support (17), the slag fishing assembly consists of a cross arm (20), a vertical plate (21) and a funnel (22), the upper end of the first limiting sleeve (7) and the lower end of the second limiting sleeve (8) are respectively provided with a limiting plate, the first limiting sleeve (7) is fixed with the first support (6) through threads, and the lower end of the spring (9) is fixedly connected with the limiting plate at the upper end of the first limiting sleeve (7); the second limiting sleeve (8) is connected with the first support column (6) in a sliding mode, a limiting nut (12) is arranged above the second limiting sleeve (8), and the limiting nut (12) is fixed with the first support column (6) through threads.

2. The automatic aluminum liquid distribution disc blocking removing device for the aluminum ingot casting production line according to claim 1, wherein the automatic aluminum liquid distribution disc blocking removing device is characterized in that: the cylinder (15) is fixed with the first support column (6) through the third limit sleeve (13), a first end plate (14) is arranged outside the third limit sleeve (13), the top of the cylinder (15) is fixed with the bottom surface of the first end plate (14), the push rod of the cylinder (15) is fixedly connected with the second end plate (16), and the second end plate (16) is fixed with the outside of the second limit sleeve (8).

3. The automatic aluminum liquid distribution disc blocking removing device for the aluminum ingot casting production line according to claim 1, wherein the automatic aluminum liquid distribution disc blocking removing device is characterized in that: the number of the displacement sleeves (10) is two, the top of each second limit sleeve (8) is provided with one displacement sleeve (10), and the outer ends of the displacement sleeves (10) penetrate through the first support posts (6); an inserting rod (11) is inserted into the inner end of the displacement sleeve (10), a spring is arranged between the rear end of the inserting rod (11) and the displacement sleeve (10), a rectangular through hole is dug at the top of the displacement sleeve (10), a limiting block (10 a) is arranged above the rear end of the inserting rod (11), and the limiting block (10 a) penetrates through the rectangular through hole and is positioned above the rectangular through hole; the front end of the inserted link (11) is provided with arc plates (18), two ends of each arc plate (18) are respectively provided with a connecting plate, electric drills (19) are fixed in the two arc plates (18), and the electric drills (19) are clamped and fixed through bolts and nuts on the two connecting plates; the lower extreme of electric drill (19) is provided with wire ball (191), and the upper end of wire ball (191) is cylindric distribution, and the lower extreme of wire ball (191) is coniform distribution.

4. The automatic aluminum liquid distribution disc blocking removing device for the aluminum ingot casting production line according to claim 1, wherein the automatic aluminum liquid distribution disc blocking removing device is characterized in that: the second support column (17) is sleeved with a cross arm (20) and fixed through bolts; the cross arm (20) is provided with a rectangular through hole (20 a) in a digging mode, a vertical plate (21) is inserted into the rectangular through hole (20 a), a limiting plate is arranged at the top of the vertical plate (21), a funnel (22) is arranged at the bottom of the vertical plate (21), and the vertical plate (21) and the cross arm (20) are fixedly connected together through bolts.

5. The automatic aluminum liquid distribution plate blocking removing device for the aluminum ingot casting production line according to claim 4, wherein the automatic aluminum liquid distribution plate blocking removing device is characterized in that: the bottom of the funnel (22) is distributed in an arc shape, and the middle is high and the two ends are low.

6. The construction method of the automatic aluminum liquid flow dividing disc blocking removing device for the aluminum ingot casting production line according to any one of claims 1 to 5, which is characterized by comprising the following steps:

(1) welding the base (1) on the brackets at two ends of the flow distribution plate, respectively inserting a first plugboard (4) into the first guide frame (2), and inserting a second plugboard (5) into the second guide frame (3);

(2) the position of the funnel (22) is adjusted according to the position of the aluminum liquid flow distribution disc, so that the funnel (22) is positioned in the aluminum liquid flow distribution disc and at the position below the aluminum outlet at the top;

(3) an electric drill (19) is inserted into the arc-shaped plate (18), the lower ports of the electric drill are tightened through bolts on connecting plates at two ends of the arc-shaped plate (18), and meanwhile, according to the sizes of the lower ports of different electric drills, the inserting rod (11) automatically contracts inwards towards the displacement sleeve (10);

(4) starting the air cylinder (15), enabling a steel wire ball (191) at the lower end of the electric drill (19) to extend into an aluminum outlet of the flow distribution disc, restarting the electric drill (19), cleaning an aluminum liquid flow distribution hole through rotation of the steel wire ball (191), enabling cleaned aluminum slag to fall into a re-funnel, enabling one part of aluminum slag to melt and flow into the flow distribution disc due to high temperature in the flow distribution disc, and enabling the other part of aluminum to stay in a re-leakage net;

(5) and (3) cleaning the funnel by staff at regular intervals.