CN112620620A

CN112620620A - Multipurpose ingot casting distribution device for aluminum ingot production

Info

Publication number: CN112620620A
Application number: CN202011605087.7A
Authority: CN
Inventors: 高海涛; 李�浩; 孙玉刚
Original assignee: Longda Aluminum Industry Yantai Co ltd
Current assignee: Longda Aluminum Industry Yantai Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-04-09
Anticipated expiration: 2040-12-30
Also published as: CN112620620B

Abstract

The invention discloses a multipurpose ingot casting distribution device for aluminum ingot production, which comprises a supporting part, a liquid distribution part and a mold part, wherein the supporting part comprises a first transverse support and a second transverse support which are arranged at the bottom in parallel; the liquid separation part comprises a rotating shaft connected with a rotating bearing; the two ends of the rotating shaft are provided with a driving disc and a liquid distribution disc, and the outer side of the liquid distribution disc is provided with a liquid storage cavity; liquid distributors are radially arranged in the liquid distribution disc, and liquid distribution ports are formed in the joints of the outer sides of the liquid distributors and the liquid distribution disc; the mould part is arranged at the lower part of the liquid separation part and comprises a conveyor belt, and a mould is arranged on the conveyor belt through a mould connecting piece; and driving gears which are matched with the die at equal intervals are arranged on the outer side of the driving disc at intervals. This ingot casting distributor saves electric power, reduction in production cost, has improved aluminium ingot quality control precision and efficiency.

Description

Multipurpose ingot casting distribution device for aluminum ingot production

Technical Field

The invention belongs to the field of aluminum ingot processing equipment, and particularly relates to a multipurpose ingot casting distribution device for aluminum ingot production.

Background

The cast aluminum alloy is an aluminum alloy obtained by filling a casting mold with molten metal to form parts blanks in various shapes. The high-strength steel has the advantages of low density, high specific strength, good corrosion resistance and casting manufacturability, small limitation of part structural design and the like. Medium strength alloys based on Al-Si and Al-Si-Mg-Cu; Al-Cu based high strength alloys; corrosion resistant alloys based on Al-Mg; Al-Re-based hot strength alloys. Most of them need to be heat treated to achieve the aims of strengthening alloy, eliminating internal stress of casting, stabilizing structure and part size, etc. The method is used for manufacturing beams, gas turbine blades, pump bodies, hangers, hubs, air inlet lips, engine casings and the like. The method is also used for manufacturing parts such as a cylinder cover, a gearbox and a piston of an automobile, a shell of an instrument, a booster pump body and the like.

The cast aluminum alloy has good casting performance and can be made into parts with complex shapes; no bulky additional equipment is required; has the advantages of saving metal, reducing cost, reducing working hours and the like, and is widely applied to the aviation industry and the civil industry.

At present to the casting of aluminum alloy ingot, generally use to water the package and operate, water the slope degree of package through the operation and pour the mould and pour, the control of casting volume is realized through the scale mark on the mould, reaches the scale mark and stops the casting promptly, and the control of casting volume is totally by manual operation, and is higher to workman's operation proficiency requirement, and extravagant a large amount of manual works on the casting. Especially for the industry that requires higher to the accurate degree of aluminium ingot quality, prior art manual operation can not satisfy the demand of production, can only realize through reducing the casting speed to and more accurate operation, this has just further increased manufacturing cost. And many aluminum ingot demand enterprises have high requirements on aluminum ingot performance and matching processing, and for processing aluminum ingots by different matching parts in the same batch, the high consistency of the formula and the performance is guaranteed while differentiation is guaranteed, and the subsequent processing requirements are difficult to meet by batch processing.

Disclosure of Invention

The invention provides a multipurpose ingot casting distribution device for aluminum ingot production, which can overcome the defects of the prior art and achieve the effects of high efficiency, accuracy and production cost saving.

In order to achieve the purpose, the invention provides the following technical scheme: a multipurpose ingot casting distribution device for aluminum ingot production comprises a supporting part, a liquid separation part and a mold part, wherein the supporting part comprises a first transverse support and a second transverse support which are arranged at the bottom in parallel, a vertical support is arranged between the first transverse support and the second transverse support, and a rotary bearing is arranged at the upper part of the vertical support; the liquid separation part comprises a rotating shaft connected with a rotating bearing; the two ends of the rotating shaft are provided with a driving disc and a liquid distribution disc, and the outer side of the liquid distribution disc is provided with a liquid storage cavity; liquid distributors are radially arranged in the liquid distribution disc, and liquid distribution ports are formed in the joints of the outer sides of the liquid distributors and the liquid distribution disc; the mould part is arranged on the lower portion of the liquid separating part and comprises a conveying belt, and a mould is arranged on the conveying belt through a mould connecting piece. And driving gears which are matched with the die at equal intervals are arranged on the outer side of the driving disc at intervals.

Preferably, the vertical support is in contact connection with the second transverse support through a support plate, and the vertical support is connected with the first transverse support through a hinge.

Preferably, a handle is mounted on the upper portion of the supporting plate.

Preferably, the liquid separator comprises a liquid separating fixing piece arranged in the middle of the liquid separating disc, an upper liquid separating rod is mounted at the lower part of the liquid separating fixing piece, the upper liquid separating rod is of a hollow structure, and a lower liquid separating rod is movably sleeved at the lower part of the upper liquid separating rod; the lower part of the lower liquid distributing rod is connected with a liquid distributing tip, and a liquid distributing head is arranged outside the liquid distributing tip.

Preferably, a positioning cover is arranged at the joint of the upper liquid separating rod and the lower liquid separating rod; the positioning cover is fixed on the liquid separating disc.

Preferably, a balancing weight is installed between the lower liquid separating rod and the liquid separating tip through a balancing nut.

Preferably, a buffer spring is arranged at the joint of the liquid separating fixing piece and the liquid separating disc.

Preferably, a sealing ring is arranged at the contact position of the outer side of the liquid separating tip and the liquid separating head.

Preferably, the liquid separation head comprises a liquid separation side wall arranged on the outer side; the lower part of the liquid separation side wall is connected with a liquid separation collet through a liquid separation collet fastening nut arranged on the liquid separation connecting block; the middle part of the liquid separating base is provided with a liquid separating groove, and the lower part of the liquid separating groove is provided with a liquid separating nozzle; the bottom of the liquid separation bottom support is provided with a buffer layer.

Preferably, the upper part of the liquid separating side wall is provided with an inclined liquid inlet wide opening.

Compared with the prior art, the invention has the beneficial effects that:

1. the ingot casting operation is carried out by the movement driving of the die part, and no additional power is required, so that the electric power is saved, and the production cost is saved;

2. quantitative ingot casting operation is carried out by utilizing gravity through the liquid separator, additional power is not required, manpower and material resources are further saved, and the ingot casting cost is reduced;

3. ingot casting is carried out through the liquid separation head, different ingot casting amount adjustment can be realized by adjusting and replacing the liquid separation bottom support, and products of different types can be cast by one ingot casting line;

4. the aluminum ingots with different weights and shapes can be simultaneously cast at intervals by adjusting different liquid distributors, and a precondition guarantee is provided for accurate ingot casting operation and subsequent processing requirements.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or technical solutions in related arts, the drawings used in the description of the embodiments or related arts will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present disclosure, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a top view of the ingot distribution apparatus of the present invention;

FIG. 2 is a side cross-sectional view of the ingot distribution apparatus of the present invention;

FIG. 3 is a diagram showing the working state of the ingot distributing apparatus according to the present invention;

FIG. 4 is a view showing a modified working state of the ingot distributing apparatus according to the present invention;

FIG. 5 is a cross-sectional view of a dispenser of the ingot distribution apparatus of the present invention;

FIG. 6 is an enlarged view of a portion of the lower portion of the dispenser of the ingot dispensing apparatus of the present invention;

in the figure: 1. a support portion, 2, a liquid separation portion, 3, a mold portion, 101, a first transverse support, 102, a second transverse support, 103, a vertical support, 104, a rotary bearing, 105, a support plate, 106, a hinge, 107, a handle, 201, a rotating shaft, 202, a driving disk, 203, a liquid separation disk, 204, a liquid storage cavity, 205, a liquid separator, 206, a liquid separation port, 301, a conveyor belt, 302, a mold connector, 303, a mold, 2021, a driving gear, 2051, a liquid separation fixing piece, 2052, an upper liquid separation rod, 2053, a positioning cover, 2054, a lower liquid separation rod, 2055, a counterweight nut, 2056, a counterweight, 2057, a liquid separation tip, 2058, a liquid separation head, 2059, a buffer spring, 20571, a sealing ring, 20581, a liquid separation side wall, 20582, a liquid separation connecting block, 20583, a liquid separation groove, a mounting 84, a liquid separation groove, 20585, a liquid separation nozzle, 20586, a buffer layer, 87, a liquid separation fastening nut.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Referring to fig. 1-6, the present invention provides a technical solution: a multipurpose ingot casting distribution device for aluminum ingot production comprises a supporting part 1, a liquid separation part 2 and a mould part 3, wherein the supporting part 1 comprises a first transverse support 101 and a second transverse support 102 which are arranged at the bottom in parallel, a vertical support 103 is arranged between the first transverse support 101 and the second transverse support 102, and a rotary bearing 104 is arranged at the upper part of the vertical support 103; the liquid separation part 2 comprises a rotating shaft 201 connected with the rotating bearing 104; a driving disc 202 and a liquid distribution disc 203 are arranged at two ends of the rotating shaft 201, and a liquid storage cavity 204 is arranged at the outer side of the liquid distribution disc; liquid distributors 205 are radially arranged in the liquid distribution disc 203, and liquid distribution ports 206 are formed at the joints of the outer sides of the liquid distributors and the liquid distribution disc; the mould part 3 is arranged below the dispensing part and comprises a conveyor belt 301 on which moulds 303 are arranged by means of mould connections 302. And driving gears 2021 which are matched with the die 303 at equal intervals are arranged at the outer side of the driving disc 202 at intervals.

The die part 3 moves under the action of external power, the dies 303 on the die part are connected in parallel, the width of a single die 303 is the same as the distance between the two driving gears 2021, the dies have certain transverse length, one end in the length direction is clamped with the driving gears 2021, and the other end in the length direction is butted with the outlet of the liquid separating port 206. When the mold 303 moves, the driving disc 202 is driven to rotate by the driving gear 2021 being clamped with the mold 303, the rotating power of the driving disc 202 drives the liquid distribution disc 203 and the liquid storage cavity 204 to rotate through the rotating shaft 201, the rotating liquid distribution disc 203 divides the liquid of the liquid storage cavity 204 by the liquid distributor 205 arranged therein, and the divided liquid flows into the mold 303 through the liquid distribution port 206 to complete the ingot casting operation.

The vertical bracket 103 is in contact connection with the second transverse bracket 102 through a supporting plate 105, and the vertical bracket 103 is connected with the first transverse bracket 101 through a hinge 106.

The first and second

horizontal brackets

101 and 102 are placed side by side, and a vertical bracket 103 is installed at the upper part, wherein one end of the vertical bracket is connected by a hinge 106, and the other end of the vertical bracket is overlapped on the horizontal bracket by a support plate 105 installed thereon.

A handle 107 is mounted on the upper portion of the support plate 105. The side of the vertical support 103 with the support plate 105 can be lifted by means of the handle 107 to adjust the position of the entire tapping section in order to fit it to the mould section 3 according to different processing requirements.

The liquid distributor 205 comprises a liquid distribution fixing piece 2051 arranged in the middle of the liquid distribution disc 203, an upper liquid distribution rod 2052 is arranged at the lower part of the liquid distribution fixing piece, the upper liquid distribution rod is of a hollow structure, and a lower liquid distribution rod 2054 is movably sleeved at the lower part of the upper liquid distribution rod 2052; the lower part of the lower liquid-separating rod is connected with a liquid-separating tip 2057, and a liquid-separating head 2058 is arranged outside the liquid-separating tip.

The liquid distributor 205 is radially arranged in the liquid distribution disc 203 of the liquid distribution part 2, the upper part of the liquid distributor is arranged at the central position of the liquid distribution disc and is fixed through a liquid distribution fixing piece 2051, the lower part of the liquid distribution fixing piece is connected with a hollow rod-shaped upper liquid distribution rod 2052, the lower part of the upper liquid distribution rod 2052 is inserted with a lower liquid distribution rod 2054 through the hollow of the upper liquid distribution rod, and the lower liquid distribution rod 2054 can freely move up and down in the hollow of the upper liquid distribution rod 2052. The lower portion of the lower dispensing stem 2054 is configured to slide up and down within the dispensing head 2058 via the dispensing tip 2057, i.e., the dispensing tip 2057 moves downward within the dispensing head 2058 when the lower dispensing stem 2054 moves downward within the hollow interior of the upper dispensing stem 2052, and the dispensing tip 2057 moves upward within the dispensing head 2058 when the lower dispensing stem 2054 moves upward.

A positioning cover 2053 is arranged at the joint of the upper liquid separating rod 2052 and the lower liquid separating rod 2054; the positioning cover is fixed on the liquid distribution plate 203.

In order to prevent the activity dislocation of the upper liquid separating rod 2052 and the lower liquid separating rod 2054 or the activity range is too large, a positioning cover 2053 is installed at the position between the upper liquid separating rod 2052 and the lower liquid separating rod 2054, the positioning cover body is of a hollow cover structure, a hole is formed in the middle of the positioning cover body to fix the liquid separating rod, the outer side of the cover body is fixed with the liquid separating disc 203, and the limiting effect is realized.

A balancing weight 2056 is mounted between the lower dispensing rod 2054 and the dispensing tip 2057 by a balancing nut 2055.

When the liquid distributor 205 runs, the liquid distributor can move up and down by means of the gravity of the liquid distributor, in order to ensure the moving effect and ensure that the liquid distributor cannot slide difficultly due to overlarge friction between the upper liquid distributing rod and the lower liquid distributing rod in the moving process, a balancing weight 2056 is arranged between the lower liquid distributing rod 2054 and the liquid distributing tip 2057, and the balancing weight is connected with the liquid distributing tip 2057 through a balancing weight nut 2055. Depending on the process or use requirements, dispensing tip 2057 may be replaced by removing weighted nut 2055.

A buffer spring 2059 is arranged at the joint of the liquid separation fixing piece 2051 and the liquid separation disc 203.

In order to ensure that the whole liquid distributor runs stably, the liquid distributor realizes liquid distribution by means of gravity, and the liquid distributor can collide during running, and a buffer spring 2059 is sleeved on the outer side of the liquid distribution fixing piece 2051, so that the liquid distributor runs stably and the service life of the liquid distributor is prolonged.

A sealing ring 20571 is arranged at the contact part of the outer side of the liquid separation tip 2057 and the liquid separation head 2058.

The space below the liquid separation tip 2057 is sealed through the sealing ring 20571, namely the volume is fixed, the purpose of quantitatively separating liquid and casting ingots is achieved, wherein the melting point of the sealing ring is higher than the temperature of molten aluminum cast ingots during liquid separation, and the sealing ring is guaranteed not to melt and deform.

The liquid separation head 2058 includes a liquid separation sidewall 20581 disposed on the outside; the lower part of the liquid separation side wall is connected with a liquid separation bottom support 20583 through a liquid separation bottom support fastening nut 20587 arranged on the liquid separation connecting block 20582; a liquid separating groove 20584 is formed in the middle of the liquid separating bottom support, and a liquid separating nozzle 20585 is formed in the lower part of the liquid separating groove; a buffer layer 20586 is mounted at the bottom of the liquid separating tray.

According to different liquid separation ingot casting requirements, a liquid separation bottom support 20583 is fixed on the liquid separation side wall 20581 through a liquid separation bottom support fastening nut 20587, so that a relatively closed space is formed. The dispensing tip 2057 moves downward, and the molten aluminum extruded therein by gravity is discharged through the dispensing slot 20584 and the dispensing nozzle 20585 at the lower part thereof into the mold 303.

An inclined liquid inlet wide opening 20588 is arranged at the upper part of the liquid separating side wall 20581.

In order to ensure that the aluminum liquid can flow into the liquid separation head 2058 quickly, the flow speed of the aluminum liquid is accelerated by the arrangement of the liquid inlet wide opening 20588.

Example 1:

the mold part 3 is started to move horizontally or obliquely under the action of external power, the space between the parallel molds 303 is utilized to clamp the driving gear 2021, so that the driving gear 202 is driven to rotate, meanwhile, the rotating shaft 201 rotates on the rotating bearing 104 to drive the liquid distribution disc 203 to rotate, the aluminum liquid in the liquid distribution disc enters through the liquid storage cavity 204, and one end of the liquid storage cavity is opened, so that the aluminum liquid can be continuously supplemented into the liquid storage cavity.

When the liquid distributor 205 moves to the topmost end, the distance of the lower liquid distributing rod 2054 inserted into the upper liquid distributing rod 2052 is the largest, the liquid distributing tip 2057 is completely separated from the liquid distributing head 2058 at this time, the liquid level height of the aluminum liquid in the liquid distributing disc 203 and the liquid storing cavity 204 is controlled, so that the aluminum liquid can completely fill the liquid distributing head 2058 when the liquid distributor 205 moves downwards to the state that the liquid distributing tip 2057 is completely contacted with the liquid distributing head 2058 under the action of gravity, and the size of the liquid distributing nozzle 20585 just utilizes the action of the surface tension and the atmospheric pressure of the aluminum liquid to prevent the aluminum liquid from leaking when the liquid distributor 205 reaches the bottom.

When the liquid separating head 2058 filled with the molten aluminum moves to the liquid separating port 206 and reaches the oblique upper part or the right upper part of the mold 303, the liquid separating tip 2057 moves downwards under the action of gravity to compress a sealed space in the liquid separating head, a certain amount of molten aluminum is extruded into the mold 303, when the bottom of the liquid separating tip 2057 reaches the liquid separating groove 20584, the molten aluminum in the liquid separating tip is completely extruded, so that the ingot casting operation is completed, and at the moment, the lower liquid separating rod 2054 has the shortest length in the upper liquid separating rod 2052 but cannot be separated from the upper liquid separating rod.

With the rotation of the liquid separating disc 203, the liquid separator 205 moves upwards, and when the topmost liquid separating rod 2052 is reached, the longest lower liquid separating rod 2054 is inserted into the upper liquid separating rod 2052, and the next round of ingot casting operation can be performed again.

Example 2:

other operation modes are unchanged, the liquid separating tips 2057 in different shapes are replaced, or the liquid separating bottom supports 20583 in different thicknesses are replaced, so that the enclosed spaces surrounded by the liquid separating tips 2057 and the liquid separating heads 2058 are different, the corresponding molds 303 in different models are replaced, aluminum alloy ingots in different shapes and/or different weights are simultaneously cast in the same batch during ingot casting operation, the requirements on subsequent processing and different weights are met, and the complete consistency of the formula components of different parts of the same equipment can be met.

Example 3:

by replacing a plurality of different liquid separating tips 2057 and/or liquid separating heads 2058 and matching different molds 303, aluminum alloy ingots with different weights and shapes can be cast simultaneously in one batch, and different aluminum alloy ingots with the number capable of being cast by one circle of rotation of the liquid separating disc can be realized at most.

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

Claims

1. The utility model provides a multi-purpose ingot casting distributor of aluminium ingot production, includes supporting part (1), divides liquid portion (2), mould portion (3), its characterized in that: the supporting part (1) comprises a first transverse support (101) and a second transverse support (102) which are arranged at the bottom in parallel, a vertical support (103) is arranged between the first transverse support (101) and the second transverse support (102), and a rotary bearing (104) is arranged at the upper part of the vertical support (103); the liquid separation part (2) comprises a rotating shaft (201) connected with the rotary bearing (104); a driving disc (202) and a liquid distribution disc (203) are mounted at two ends of the rotating shaft (201), and a liquid storage cavity (204) is mounted on the outer side of the liquid distribution disc; liquid distributors (205) are radially arranged in the liquid distribution disc (203), and liquid distribution ports (206) are formed at the joints of the outer sides of the liquid distributors and the liquid distribution disc; the mould part (3) is arranged at the lower part of the liquid separation part and comprises a conveyor belt (301), and a mould (303) is arranged on the conveyor belt through a mould connecting piece (302); and driving gears (2021) which are matched with the die (303) at equal intervals are arranged on the outer side of the driving disc (202) at intervals.

2. The multi-purpose ingot casting distribution device for aluminum ingot production according to claim 1, wherein: the vertical support (103) is in contact connection with the second transverse support (102) through a support plate (105), and the vertical support (103) is connected with the first transverse support (101) through a hinge (106).

3. The multi-purpose ingot casting distribution device for aluminum ingot production according to claim 2, characterized in that: and a handle (107) is arranged at the upper part of the supporting plate (105).

4. The multi-purpose ingot casting distribution device for aluminum ingot production according to claim 1, wherein: the liquid distributor (205) comprises a liquid distribution fixing piece (2051) arranged in the middle of the liquid distribution disc (203), an upper liquid distribution rod (2052) is mounted at the lower part of the liquid distribution fixing piece, the upper liquid distribution rod is of a hollow structure, and a lower liquid distribution rod (2054) is movably sleeved at the lower part of the upper liquid distribution rod (2052); the lower part of the lower liquid separating rod is connected with a liquid separating tip (2057), and a liquid separating head (2058) is arranged outside the liquid separating tip.

5. The multipurpose ingot casting distribution device for aluminum ingot production according to claim 4, wherein: a positioning cover (2053) is arranged at the joint of the upper liquid dividing rod (2052) and the lower liquid dividing rod (2054); the positioning cover is fixed on the liquid distribution plate (203).

6. The multipurpose ingot casting distribution device for aluminum ingot production according to claim 4, wherein: a balancing weight (2056) is arranged between the lower liquid separating rod (2054) and the liquid separating tip (2057) through a balancing weight nut (2055).

7. The multipurpose ingot casting distribution device for aluminum ingot production according to claim 4, wherein: a buffer spring (2059) is arranged at the joint of the liquid separating fixing piece (2051) and the liquid separating disc (203).

8. The multipurpose ingot casting distribution device for aluminum ingot production according to claim 4, wherein: and a sealing ring (20571) is arranged at the contact position of the outer side of the liquid separation tip (2057) and the liquid separation head (2058).

9. The multipurpose ingot casting distribution device for aluminum ingot production according to claim 4, wherein: the liquid separation head (2058) comprises a liquid separation side wall (20581) arranged on the outer side; the lower part of the liquid separation side wall is connected with a liquid separation bottom support (20583) through a liquid separation bottom support fastening nut (20587) arranged on the liquid separation connecting block (20582); a liquid separating groove (20584) is formed in the middle of the liquid separating bottom support, and a liquid separating nozzle (20585) is formed in the lower part of the liquid separating groove; the bottom of the liquid separation bottom support is provided with a buffer layer (20586).

10. The multi-purpose ingot casting distribution device for aluminum ingot production according to claim 9, wherein: an inclined liquid inlet wide opening (20588) is arranged at the upper part of the liquid separating side wall (20581).