CN118162589A - Aluminium alloy ex-trusions casting is with aluminium bar casting equipment - Google Patents

Abstract

The invention discloses aluminum bar pouring equipment for aluminum alloy profile casting, which relates to the technical field of profile casting and comprises a frame-shaped seat, wherein a pouring cylinder is arranged above the frame-shaped seat, a supporting component is arranged between the outer wall of the pouring cylinder and the frame-shaped seat, the aluminum bar pouring equipment also comprises a demoulding component and a transmission component, the demoulding component comprises hydraulic rods arranged on two sides of the pouring cylinder, and side rods are fixedly arranged at the extending ends of the two hydraulic rods; before demolding, the six-edge rotary column rotates, and the sliding column and the pouring arc plate can be pulled to move away from the pouring die cavity by using the extension rod and the push-pull rod, so that the contact area between the cylindrical die cavity and the aluminum rod is reduced, and the convenience of demolding is further improved; meanwhile, when the supporting column coated with the release agent on the surface is used for carrying out interference demolding on the aluminum bar, the supporting column can vertically reciprocate through the inner side walls of the casting mold cavity and the casting arc plate, so that the release agent is coated on the inner walls of the casting mold cavity and the casting arc plate, and the next rapid demolding is facilitated.

Description

Aluminium alloy ex-trusions casting is with aluminium bar casting equipment

Technical Field

The invention relates to the technical field of section casting, in particular to aluminum bar casting equipment for aluminum alloy section casting.

Background

Aluminum bar casting is a common metal casting process and is mainly used for manufacturing aluminum bars with various specifications; aluminum bars are widely used in various fields due to their good electrical conductivity, thermal conductivity and corrosion resistance; such as industries of electricity, transportation, construction, and machinery.

Through searching, the Chinese patent document with the publication number of CN213104356U discloses aluminum bar casting equipment for casting aluminum alloy sections, which comprises a casting template, wherein a cavity is formed in the casting template, two ends of the cavity are of an opening structure, the cavity is of a vertical long tube structure, a supporting ring is vertically arranged on the bottom surface of the casting template, the inside of the supporting ring is in sliding connection with a chassis, the chassis is arranged at the bottom of the casting template at intervals in parallel, filling columns are arranged on the surface of the chassis, and the filling columns are distributed relative to the cavity; the outer wall of the pouring template is provided with a lifting part; the lifting part can drive the filling column to vertically move up and down so as to change the length of the cavity, and meanwhile, the upper cavity is not required to be formed in the sealing cover in a demolding mode, so that the aluminum bar is formed in the cavity in the pouring template in the molding process, and pouring residues at the interface of the upper cavity and the lower cavity are eliminated.

However, the above invention has the following disadvantages: above-mentioned patent is mainly contradicted cast's aluminium bar through elevating component and is in order to carry out the drawing of patterns, and this kind of drawing of patterns mode is comparatively single, and has more abundant contact all the time with the aluminium bar in the drawing of patterns, simultaneously, the cylindric pouring chamber of an organic whole in the above-mentioned patent can't convenient spraying release agent to lead to holistic drawing of patterns operation not convenient enough, it is great to need elevating component's conflict dynamics, produces the trace at aluminium bar tip easily, so has the limitation.

Disclosure of Invention

The invention aims to provide aluminum bar casting equipment for aluminum alloy profile casting, which aims to solve the problems in the background technology.

The technical scheme of the invention is as follows: the aluminum bar pouring equipment for aluminum alloy section casting comprises a frame-shaped seat, a pouring cylinder is arranged above the frame-shaped seat, a supporting component is arranged between the outer wall of the pouring cylinder and the frame-shaped seat, and the aluminum bar pouring equipment also comprises a demoulding component and a transmission component;

The demolding assembly comprises hydraulic rods arranged on two sides of the pouring cylinder, side rods are fixedly arranged at the extending ends of the two hydraulic rods, a triangular underframe is fixedly arranged on the two side rods together, and vertically arranged supporting columns are fixedly arranged at the corners of the triangular underframe;

The lower part of the pouring cylinder is provided with bucket-shaped ends with the number matched with that of the supporting columns, the bucket-shaped ends are coaxially arranged with the supporting columns, the inner side walls of the bucket-shaped ends are fixedly provided with sponge linings, the outer side of each bucket-shaped end is coaxially provided with an annular cavity pipe, a plurality of communicating inner pipes which are distributed equidistantly are fixedly communicated between the inner side of each annular cavity pipe and the inner wall of the bucket-shaped end, and communicating pipes are fixedly communicated between the annular cavity pipes;

the inner peripheral wall of the pouring cylinder is provided with pouring die cavities with the number matched with that of the supporting columns, one side of each pouring die cavity is provided with a pouring arc plate, and the pouring die cavities and the pouring arc plates form a cylindrical die cavity.

Preferably, a prismatic cylinder is arranged in the pouring cylinder, a connecting plate is fixedly arranged between the outer wall of the prismatic cylinder and the inner wall of the pouring cylinder, and a six-prismatic rotating column is arranged in the prismatic cylinder.

Preferably, a plurality of one side both ends of pouring arc board are all fixedly connected with traveller, and the one end and the prismatic section of thick bamboo sliding connection of traveller, the equal fixed mounting in both ends of six arriss revolving posts has a plurality of equidistance extension bars that distribute, and is connected with the push-and-pull rod through the loose axle rotation between the tip of extension bar and the traveller.

Preferably, the support assembly comprises a hoop frame fixedly mounted on the outer peripheral wall of the pouring cylinder, two pairs of extension struts are fixedly mounted on the outer peripheral wall of the hoop frame, connection struts are fixedly arranged between the end parts of the extension struts and the frame type seat, and a supporting rod is fixedly connected between the outer sides of the two annular cavity tubes and the adjacent connection struts.

Preferably, an angle-shaped frame is fixedly connected between each pair of the extending struts, and the bottom side of the angle-shaped frame is fixedly connected with the hydraulic rod.

Preferably, the frame-shaped seat is provided with a through slot for the triangular underframe and the side rod to penetrate.

Preferably, one side of one of the annular cavity pipes is fixedly communicated with a feed hopper.

Preferably, an annular groove is formed in one end, close to the top, of each supporting column, and bristles which are uniformly distributed are fixedly arranged on the inner side wall of the annular groove and are made of heat-resistant materials.

Preferably, the transmission assembly comprises a mounting frame, two ends of the mounting frame are fixedly connected with adjacent connecting supporting columns, one side of the mounting frame is rotationally provided with a short shaft, one end of the outer wall of the top of the mounting frame is fixedly provided with a driving motor, an output shaft of the driving motor is fixedly provided with a worm, the other side of the top of the mounting frame is fixedly provided with a supporting block which is rotationally connected with the worm, the top of the short shaft is fixedly provided with a worm wheel which is meshed with the worm, the bottom ends of the short shaft and the six-edge rotating columns are fixedly provided with transmission gears, and the two transmission gears are sleeved with meshed chains together.

Preferably, a stand is fixedly arranged at one end of the outer wall of the top of the frame-shaped seat, and a control panel is fixedly arranged at one end of the stand, which is close to the top.

Compared with the prior art, the aluminum bar casting equipment for casting the aluminum alloy section provided by the invention has the following improvement and advantages:

The method comprises the following steps: before demolding, the six-edge rotary column rotates, and the sliding column and the pouring arc plate can be pulled to move away from the pouring die cavity by using the extension rod and the push-pull rod, so that the contact area between the cylindrical die cavity and the aluminum rod is reduced, and the convenience of demolding is further improved;

And two,: when the mold release agent is added into the annular cavity pipe by the hopper, the communicating pipe and the communicating inner pipe can be utilized to wet the sponge lining, and when the propping column passes through the sponge lining, a layer of mold release agent can be smeared on the surface of the propping column; when the aluminum bar is in interference demolding, the support column with the surface coated with the release agent can vertically reciprocate through the pouring die cavity and the inner side wall of the pouring arc plate, so that the release agent is coated on the pouring die cavity and the inner wall of the pouring arc plate, and the next quick demolding is facilitated;

And thirdly,: when the support column passes through the wetted sponge lining, the annular groove is used for facilitating the accumulation of the release agent in the support column, and the arranged bristles can improve the coating effect on the casting mold cavity and the inner wall of the casting arc plate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an overall first perspective view of the present invention;

FIG. 2 is a schematic view of the overall second perspective of the present invention;

FIG. 3 is a schematic view of a ferrule holder perspective construction according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is a schematic view of the semi-sectional structure of the casting cylinder of the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5B according to the present invention;

FIG. 7 is a schematic perspective view of a prismatic cylinder and abutment according to the present invention;

FIG. 8 is a schematic perspective view of a transmission assembly according to the present invention;

FIG. 9 is a schematic perspective view of a bucket end and annular lumen of the present invention;

FIG. 10 is a schematic cross-sectional view of the bucket end and annular lumen of the present invention.

Reference numerals:

1. A frame-type seat; 101. a through slot; 2. a casting cylinder; 201. casting a die cavity; 202. a six-edge rotating column; 203. an extension rod; 204. a push-pull rod; 205. a spool; 206. casting an arc plate; 207. a prismatic barrel; 208. a connecting plate; 3. a hoop frame; 301. an extension strut; 302. connecting a stay; 4. an angular frame; 401. a hydraulic rod; 402. a side bar; 403. a triangular underframe; 404. abutting the column; 5. a vertical frame; 501. a control panel; 6. a hopper; 601. a bucket end; 602. a sponge liner; 603. an annular lumen; 604. a communicating pipe; 605. a supporting rod; 606. the inner tube is communicated; 607. an annular groove; 608. brushing; 7. a mounting frame; 701. a worm; 702. a driving motor; 703. a worm wheel; 704. a short shaft; 705. a transmission gear; 706. and (3) a chain.

Detailed Description

The following detailed description of the present invention clearly and fully describes the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides aluminum bar casting equipment for aluminum alloy section casting through improvement, and the technical scheme of the invention is as follows:

as shown in fig. 1 to 10, an embodiment of the invention provides aluminum bar casting equipment for casting aluminum alloy sections, which comprises a frame-shaped seat 1, a casting cylinder 2 is arranged above the frame-shaped seat 1, a supporting component is arranged between the outer wall of the casting cylinder 2 and the frame-shaped seat 1, and the equipment also comprises a demoulding component and a transmission component;

the demolding assembly comprises hydraulic rods 401 arranged on two sides of the pouring cylinder 2, side rods 402 are fixedly arranged at the extending ends of the two hydraulic rods 401, a triangular underframe 403 is fixedly arranged on the two side rods 402 together, and vertically arranged supporting columns 404 are fixedly arranged at the corners of the triangular underframe 403; through the structure, when two hydraulic rods 401 are drawn back, the support columns 404 can be pulled to move upwards by the side rods 402 and the triangular underframe 403, and the support columns 404 are utilized to support the formed aluminum bars so as to facilitate demolding of the aluminum bars.

The lower part of the pouring cylinder 2 is provided with bucket-shaped ends 601 with the number matched with that of the supporting columns 404, the bucket-shaped ends 601 and the supporting columns 404 are coaxially arranged, the inner side walls of the bucket-shaped ends 601 are fixedly provided with sponge linings 602, the outer side of each bucket-shaped end 601 is coaxially provided with an annular cavity 603, a plurality of communicating inner pipes 606 distributed at equal distance are fixedly communicated between the inner side of the annular cavity 603 and the inner wall of the bucket-shaped end 601, and communicating pipes 604 are fixedly communicated between the annular cavity 603; through the above structure, when the release agent is added to the annular cavity 603 by using the subsequent hopper 6, the sponge liner 602 is wetted by using the communicating pipe 604 and the communicating inner pipe 606, and when the support column 404 passes through the sponge liner 602, a layer of release agent can be smeared on the surface of the support column 404.

The inner peripheral wall of the pouring cylinder 2 is provided with pouring die cavities 201 with the quantity matched with that of the supporting columns 404, one side of each pouring die cavity 201 is provided with a pouring arc plate 206, and the pouring die cavities 201 and the pouring arc plates 206 form a cylindrical die cavity; through the structure, when the aluminum bar is in contact with the support column 404 coated with the release agent, the support column can vertically reciprocate through the inner side walls of the casting mold cavity 201 and the casting arc plate 206, so that the release agent is coated on the inner walls of the casting mold cavity 201 and the casting arc plate 206, and the next rapid demoulding is facilitated.

As a further scheme of the invention, a prismatic tube 207 is arranged in the pouring tube 2, a connecting plate 208 is fixedly arranged between the outer wall of the prismatic tube 207 and the inner wall of the pouring tube 2, and a six-edged rotary column 202 is arranged in the prismatic tube 207; the sliding columns 205 are fixedly connected to two ends of one side of each of the pouring arc plates 206, one end of each sliding column 205 is slidably connected with the prismatic cylinder 207, the extending rods 203 distributed at equal distances are fixedly installed at two ends of the six-edge rotating column 202, and the push-pull rods 204 are rotatably connected between the end parts of the extending rods 203 and the sliding columns 205 through movable shafts.

Through the structure, before demolding operation, the six-sided rotating column 202 rotates, and the sliding column 205 and the pouring arc plate 206 can be pulled to move away from the pouring die cavity 201 by utilizing the extension rod 203 and the push-pull rod 204, so that the contact area between the cylindrical die cavity and the aluminum bar is reduced, and the convenience of demolding is further improved; in addition, after demolding is completed, the hexagonal rotating column 202 rotates reversely, the pouring arc plate 206 can be pushed again by the extension rod 203 and the push-pull rod 204 and attached to the pouring mold cavity 201, and when the support column 404 resets downwards, the demolding agent is smeared on the pouring mold cavity 201 and the inner wall of the pouring arc plate 206.

Further, as shown in fig. 1-3, the support assembly includes a hoop frame 3 fixedly mounted on the peripheral wall of the pouring tube 2, two pairs of extension struts 301 are fixedly mounted on the peripheral wall of the hoop frame 3, connection struts 302 are fixedly arranged between the ends of the extension struts 301 and the frame-type seat 1, and a supporting rod 605 is fixedly connected between the outer sides of the two annular cavities 603 and the adjacent connection struts 302.

Through the structure, the connecting stay 302 and the extending support rod 301 are matched with each other, and the hoop frame 3 is utilized to support and fix the pouring cylinder 2; the supporting rod 605 can support and fix the annular cavity tube 603.

Further, the angle frame 4 is fixedly connected between each pair of extension struts 301, and the bottom side of the angle frame 4 is fixedly connected with the hydraulic rod 401; this arrangement allows the hydraulic lever 401 to be fixed by the horn 4.

As a further scheme of the invention, as shown in fig. 1-3, a through slot 101 for allowing a triangular underframe 403 and a side rod 402 to penetrate is formed on a frame type seat 1; this arrangement allows the abutment 404 to move downward a long distance when the hydraulic lever 401 is fully extended; specifically, when demolding is performed, the support column 404 is moved upward and then moved downward for a long distance as required; when the supporting column 404 is upwards firstly, the aluminum bar is supported, so that the aluminum bar is separated from the casting die cavity 201; when the support column 404 moves downwards, the aluminum bar can move downwards under the action of gravity, at this moment, the aluminum bar can pass through the bucket-shaped end 601 and the sponge lining 602, at this moment, the release agent can cool the aluminum bar, the cooling efficiency is improved, and the period of aluminum bar pouring production is shortened.

Further, one side of one of the annular cavity pipes 603 is fixedly communicated with a hopper 6; the addition of the liquid release agent is facilitated by the hopper 6.

As a further scheme of the invention, as shown in fig. 10, one end of each supporting column 404 near the top is provided with an annular groove 607, and the inner side wall of the annular groove 607 is fixedly provided with evenly distributed bristles 608, wherein the bristles 608 are made of heat-resistant materials; with the above structure, when the abutment 404 passes through the wetted sponge liner 602, the annular groove 607 is used to facilitate the accumulation of the release agent therein, and the bristles 608 are provided to enhance the coating effect on the inner walls of the casting cavity 201 and the casting arc 206.

As a further scheme of the invention, the transmission assembly comprises a mounting frame 7, two ends of the mounting frame 7 are fixedly connected with adjacent connecting supporting columns 302, a short shaft 704 is rotatably mounted on one side of the mounting frame 7, a driving motor 702 is fixedly mounted on one end of the outer wall of the top of the mounting frame 7, a worm 701 is fixedly mounted on the output shaft of the driving motor 702, a supporting block which is rotatably connected with the worm 701 is fixedly mounted on the other side of the top of the mounting frame 7, a worm wheel 703 which is meshed with the worm 701 is fixedly mounted on the top of the short shaft 704, transmission gears 705 are fixedly mounted on the bottom ends of the short shaft 704 and the six-edge rotating column 202, and two transmission gears 705 are jointly sleeved with a meshed chain 706.

It should be noted that, the lift angle between the worm 701 and the worm wheel 703 is smaller than the friction angle, so that the transmission has a self-locking effect, so as to ensure the tight mold closing effect of the pouring arc 206 and the pouring mold cavity 201; specifically, when the driving motor 702 rotates, the short shaft 704 can be driven to rotate under the transmission action of the worm 701 and the worm wheel 703, and finally the six-edge rotary column 202 is driven to rotate under the transmission action of the transmission gear 705 and the chain 706.

Further, a stand 5 is fixedly arranged at one end of the outer wall of the top of the frame-shaped seat 1, and a control panel 501 is fixedly arranged at one end of the stand 5 close to the top; with the control panel 501, the hydraulic lever 401 and the driving motor 702 are facilitated to be switched.

The specific working method is as follows: when the casting arc plate 206 is in actual use and is attached to the casting mold cavity 201, the hydraulic rod 401 can be controlled to pull the supporting column 404 to move upwards, the supporting column 404 is attached to the cylindrical mold cavity, and meanwhile, the height of the supporting column 404 is controlled, so that the length of the aluminum bar after casting can be adjusted; after completion, molten metal aluminum is poured between the pouring arc 206 and the pouring cavity 201 by the pouring head;

After the aluminum bar is poured and cooled, the two hydraulic rods 401 are controlled to continue to be drawn back, the supporting columns 404 are pulled to move upwards by the side rods 402 and the triangular underframe 403, and the supporting columns 404 are utilized to abut against the formed aluminum bar, so that the aluminum bar and the cylindrical die cavity can be conveniently demoulded;

When the release agent is added to the annular cavity tube 603 by using the subsequent hopper 6, the sponge liner 602 is wetted by using the communicating pipe 604 and the communicating inner pipe 606, and when the support column 404 passes through the sponge liner 602, a layer of release agent is smeared on the surface of the support column 404; when the aluminum bar is in interference demolding, the support column 404 coated with the release agent vertically reciprocates through the inner side walls of the casting mold cavity 201 and the casting arc plate 206, so that the release agent is coated on the inner walls of the casting mold cavity 201 and the casting arc plate 206, and the next quick demolding is facilitated; the annular groove 607 facilitates the accumulation of release agent therein as the abutment 404 passes over the wetted sponge liner 602, while the bristles 608 enhance the coating of the casting cavity 201 and the inner walls of the casting arc 206;

When the driving motor 702 is controlled to rotate, the short shaft 704 is driven to rotate through the transmission action of the worm 701 and the worm wheel 703, finally, the six-edge rotary column 202 is driven to rotate through the transmission action of the transmission gear 705 and the chain 706, and the sliding column 205 and the pouring arc plate 206 are pulled to move in the direction away from the pouring die cavity 201 by utilizing the extension rod 203 and the push-pull rod 204, so that the contact area between the cylindrical die cavity and the aluminum bar is reduced, and the convenience of demoulding is further improved.

The previous description is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The aluminum bar pouring equipment for aluminum alloy profile casting comprises a frame-shaped seat (1), wherein a pouring cylinder (2) is arranged above the frame-shaped seat (1), and a supporting component is arranged between the outer wall of the pouring cylinder (2) and the frame-shaped seat (1);

the demolding assembly comprises hydraulic rods (401) arranged on two sides of the pouring cylinder (2), side rods (402) are fixedly arranged at the extending ends of the two hydraulic rods (401), triangular underframe (403) is fixedly arranged on the two side rods (402), and vertically arranged supporting columns (404) are fixedly arranged at the corners of the triangular underframe (403);

The lower part of the pouring cylinder (2) is provided with bucket-shaped ends (601) with the number matched with that of the supporting columns (404), the bucket-shaped ends (601) are coaxially arranged with the supporting columns (404), sponge linings (602) are fixedly arranged on the inner side walls of the bucket-shaped ends (601), annular cavity pipes (603) are coaxially arranged on the outer sides of the bucket-shaped ends (601), a plurality of communicating inner pipes (606) distributed at equal intervals are fixedly communicated between the inner sides of the annular cavity pipes (603) and the inner walls of the bucket-shaped ends (601), and communicating pipes (604) are fixedly communicated between the annular cavity pipes (603);

Casting mold cavities (201) with the number matched with that of the supporting columns (404) are formed in the inner peripheral wall of the casting cylinder (2), casting arc plates (206) are arranged on one side of each casting mold cavity (201), and the casting mold cavities (201) and the casting arc plates (206) form a cylindrical mold cavity.

2. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 1, wherein: the inside of pouring section of thick bamboo (2) is provided with prismatic section of thick bamboo (207), and fixedly mounted connection board (208) between the outer wall of prismatic section of thick bamboo (207) and the inner wall of pouring section of thick bamboo (2), the inside of prismatic section of thick bamboo (207) is provided with six prismatic pillars (202).

3. An aluminum bar casting apparatus for aluminum alloy profile casting according to claim 2, wherein: a plurality of one side both ends of pouring arc board (206) are all fixedly connected with traveller (205), and the one end and the prismatic section of thick bamboo (207) sliding connection of traveller (205), the both ends of six prismatic revolving posts (202) are all fixedly mounted with a plurality of equidistance extension bars (203) that distribute, and are connected with push-and-pull rod (204) through loose axle rotation between the tip of extension bar (203) and traveller (205).

4. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 1, wherein: the support assembly comprises a hoop frame (3) fixedly mounted on the peripheral wall of the pouring barrel (2), two pairs of extension supporting rods (301) are fixedly mounted on the peripheral wall of the hoop frame (3), connecting supporting columns (302) are fixedly arranged between the end parts of the extension supporting rods (301) and the frame-type base (1), and supporting rods (605) are fixedly connected between the outer sides of the two annular cavity pipes (603) and the adjacent connecting supporting columns (302).

5. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 4, wherein: an angle-shaped frame (4) is fixedly connected between each pair of extending support rods (301), and the bottom side of the angle-shaped frame (4) is fixedly connected with a hydraulic rod (401).

6. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 1, wherein: the frame type seat (1) is provided with a through slot (101) for the triangular underframe (403) and the side rod (402) to penetrate.

7. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 1, wherein: one side of one annular cavity tube (603) is fixedly communicated with a feed hopper (6).

8. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 1, wherein: an annular groove (607) is formed in one end, close to the top, of each supporting column (404), and bristles (608) which are uniformly distributed are fixedly arranged on the inner side wall of the annular groove (607), and the bristles (608) are made of heat-resistant materials.

9. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 4, wherein: the transmission assembly comprises a mounting frame (7), two ends of the mounting frame (7) are fixedly connected with adjacent connecting supporting columns (302), a short shaft (704) is rotatably mounted on one side of the mounting frame (7), a driving motor (702) is fixedly mounted on one end of the outer wall of the top of the mounting frame (7), a worm (701) is fixedly mounted on the output shaft of the driving motor (702), a supporting block which is rotatably connected with the worm (701) is fixedly mounted on the other side of the top of the mounting frame (7), a worm wheel (703) which is meshed with the worm (701) is fixedly mounted on the top of the short shaft (704), transmission gears (705) are fixedly mounted on the bottom ends of the short shaft (704) and the six-edge rotating columns (202), and two transmission gears (705) are sleeved with meshed chains (706) jointly.

10. The aluminum bar casting apparatus for aluminum alloy profile casting according to claim 1, wherein: a vertical frame (5) is fixedly arranged at one end of the outer wall of the top of the frame-type seat (1), and a control panel (501) is fixedly arranged at one end, close to the top, of the vertical frame (5).