CN115301903A

CN115301903A - Do benefit to refrigerated aluminium ingot mould

Info

Publication number: CN115301903A
Application number: CN202211078769.6A
Authority: CN
Inventors: 廖光明
Original assignee: JIANGXI WANTAI ALUMINUM CO Ltd
Current assignee: JIANGXI WANTAI ALUMINUM CO Ltd
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2022-11-08

Abstract

The utility model provides a do benefit to refrigerated aluminium ingot mould, belongs to aluminium bar production technical field, includes mould, apron and control part, and the apron lid closes the front end lower part at the mould, and the control part is installed inside the mould and is connected with the apron. The mould comprises a mould cavity, a vertical runner, a horizontal runner, a plug, a liquid storage bin, a thread boss, a partition plate boss and an end face groove, wherein the mould cavity is arranged in the middle of the mould, the vertical runner and the horizontal runner are arranged around the mould cavity on the mould, and the liquid storage bins are respectively arranged at the lower parts of two sides of the mould. The lower part of the front end of the die is provided with an end surface groove. The lower side of the middle part of the cover plate is provided with a square groove, the inner side of the cover plate is provided with two hollow bosses, and the hollow bosses correspond to the axis of the liquid storage bin. The middle of the inner side of the cover plate is also provided with a middle boss, and the middle boss is used for installing the control part. The control part comprises a rotating shaft, a first bevel gear, a transmission part and a driving wheel, the rotating shaft is installed along the axis of the liquid storage bin, a plurality of helical blades are uniformly distributed on the rotating shaft, the rotating shaft rotates to drive the helical blades to rotate, and the helical blades push the cooling liquid to flow.

Description

Do benefit to refrigerated aluminium ingot mould

Technical Field

The invention belongs to the technical field of aluminum ingot production, and particularly relates to an aluminum ingot mold beneficial to cooling.

Background

The most important and most direct equipment needed in the production process of the aluminum ingot is a mold, and molten aluminum liquid is poured into a cavity of the mold and then is cooled and molded to obtain the aluminum ingot. The cooling of the molten aluminum after being injected into the mold has been an important process link for casting aluminum ingots, and it is naturally desired in the industry that the molten aluminum can be rapidly cooled to obtain high-quality aluminum ingots and improve the production efficiency. Therefore, it is necessary to design an aluminum ingot production mold which facilitates cooling.

Disclosure of Invention

The invention provides an aluminum ingot mold beneficial to cooling, which solves the problems in the background art.

The technical problem solved by the invention is realized by adopting the following technical scheme:

the utility model provides a do benefit to refrigerated aluminium ingot mould, includes mould, apron and control part, and the apron lid closes in the front end lower part of mould, and the control part is installed inside the mould and is connected with the apron.

The mould includes the die cavity, vertical runner, horizontal runner, the end cap, the stock solution storehouse, the screw thread boss, baffle boss and terminal surface recess, the mould middle part has the die cavity, vertical runner and horizontal runner have around the die cavity on the mould, the vertical runner and the horizontal runner of homonymy are linked together, form the runner of coolant liquid, the both sides lower part of mould respectively has a stock solution storehouse, pour into the coolant liquid into in the stock solution storehouse, vertical runner downward with the stock solution storehouse intercommunication, installation control part in the stock solution storehouse, the coolant liquid in the control part promotion stock solution storehouse flows in the runner. The lower part of the front end of the die is provided with an end surface groove which is communicated to the end surface of the liquid storage bin. The apron includes step hole, square groove, hollow boss, baffle, middle part boss and connection boss, and apron middle part downside has the square groove, and the apron internally mounted action wheel that the square groove corresponds, apron inboard have two hollow bosses, and hollow boss corresponds to the axis in stock solution storehouse. The middle of the inner side of the cover plate is also provided with a middle boss, and the middle boss is used for installing the control part. The control part includes pivot, first bevel gear, driving medium and action wheel, and the axis installation in stock solution storehouse is followed in the pivot, and the one end of pivot is erect on hollow boss, and the other end is erect on the inside shaft hole in stock solution storehouse, a plurality of helical blade of equipartition in the pivot, and the pivot is rotated and is driven helical blade and rotate, and helical blade promotes the coolant liquid and flows. The front end fixed mounting of pivot first bevel gear, first bevel gear drives the pivot and rotates. The driving medium is installed on the inboard baffle of apron, the driving medium includes second bevel gear, transmission shaft and third bevel gear, second bevel gear and the meshing transmission of first bevel gear, the transmission shaft arranges with pivot mutually perpendicular, transmission shaft one end fixed mounting second bevel gear other end fixed mounting third bevel gear, third bevel gear is articulated with the action wheel, the axle of action wheel is vertical to be installed on the middle part boss of apron, the first half of action wheel is the bevel gear with third bevel gear meshing, the lower half of action wheel is the friction pulley, a small part periphery of friction pulley exposes the apron from the square groove.

Furthermore, exposed holes of the vertical flow channel and exposed holes of the horizontal flow channel are plugged by plugs, the vertical flow channel and the horizontal flow channel are processed by drilling from the outer surface of the mold, and an inner flow channel is formed after plugging by the plugs.

Furthermore, four thread bosses are arranged on the end face groove and used for being in butt joint with the cover plate.

Furthermore, still have a pair of baffle boss in the terminal surface recess, the baffle cooperation of baffle boss and apron realizes controlling the isolation of two stock solution storehouses and the installation of the driving medium of control part.

The beneficial effects of the invention are:

the invention provides an aluminum ingot production mold beneficial to cooling, wherein a cooling flow channel is formed in the mold, and a control part is arranged to push the flow of cooling liquid, so that the cooling speed of the mold is effectively increased, and the working efficiency is improved. The production line can be put into production and use only by replacing the die, and only the existing production line needs to be simply improved or even not improved.

Drawings

FIG. 1 is a schematic of the present invention;

FIG. 2 is a partial front view of the present invention;

FIG. 3 is a front exploded view of the present invention;

FIG. 4 is a rear exploded view of the present invention;

in the figure: 10. the die comprises a die body, 11 die cavities, 12 vertical runners, 13 horizontal runners, 14 plugs, 15 liquid storage bins, 16 threaded bosses, 17 partition bosses, 18 end face grooves, 20 cover plates, 21 step holes, 22 square grooves, 23 hollow bosses, 24 partition plates, 25 middle bosses, 26 connecting bosses, 30 control parts, 31 rotating shafts, 311 spiral blades, 32 first bevel gears, 33 transmission parts, 331 second bevel gears, 332 rotating shafts, 333 third bevel gears and 34 driving wheels.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1-4, the aluminum ingot mold facilitating cooling includes a mold 10, a cover plate 20 and a control part 30, the cover plate 20 covers the lower portion of the front end of the mold 20, and the control part 30 is installed inside the mold 10 and connected to the cover plate 20.

The mold 10 comprises a mold cavity 11, a vertical flow channel 12, a horizontal flow channel 13, a plug 14, a liquid storage bin 15, a thread boss 16, a partition plate boss 17 and an end face groove 18, the mold cavity 11 is arranged in the middle of the mold 10, aluminum liquid is injected into the mold cavity 11 to be cooled, solidified and molded into an aluminum ingot, the mold cavity 11 is designed according to the shape of the aluminum ingot as required, the vertical flow channel 12 and the horizontal flow channel 13 are arranged around the mold cavity 11 on the mold 10, the vertical flow channel 12 and the horizontal flow channel 13 on the same side are communicated with the horizontal flow channel 13 to form a flow channel of cooling liquid, namely a cooling channel of the mold, the exposed holes of the vertical flow channel 12 and the horizontal flow channel 13 are sealed by the plug 14, the vertical flow channel 12 and the horizontal flow channel 13 are drilled from the outer surface of the mold to form a machining hole, an inner flow channel is formed after the plug 14 is used for sealing, the liquid storage bins 15 are respectively arranged on the lower portions of the two sides of the mold 10, the cooling liquid storage bin 15 is injected with the cooling liquid, the vertical flow channel 12 is communicated with the liquid storage bin 15 downwards, a control portion 30 is arranged in the liquid storage bin 15, the control portion 30 pushes the cooling liquid storage bin 15 to flow in the cooling liquid storage channel, and promote heat exchange, and accelerate cooling of the mold. The lower part of the front end of the die 10 is provided with an end face groove 18, the end face groove 18 penetrates through the end face of the liquid storage bin 15, the end face groove 18 is provided with four threaded bosses 16, the threaded bosses 16 are used for being in butt joint with a cover plate 20, a pair of partition plate bosses 17 are further arranged in the end face groove 18, and the partition plate bosses 17 are matched with partition plates 24 of the cover plate 20 to realize the isolation of the left liquid storage bin 15 and the right liquid storage bin 15 and the installation of a transmission piece 33 of the control part 30.

The cover plate 20 comprises step holes 21, square grooves 22, hollow bosses 23, partition plates 24, middle bosses 25 and connecting bosses 26, the outer end face of the cover plate 20 is provided with four step holes 21, the inner sides of the step holes 21 correspond to the connecting bosses 26, the connecting bosses 26 are in butt joint with the threaded bosses 16, the cover plate 20 is installed on the mold 10 through screws, the square grooves 22 are formed in the lower side of the middle of the cover plate 20, driving wheels 34 are installed inside the cover plate 20 corresponding to the square grooves 22, two hollow bosses 23 are formed in the inner side of the cover plate 20, the hollow bosses 23 correspond to the axes of the liquid storage bins 25, rotating shafts 31 are installed on the hollow bosses 23, a pair of partition plates 24 are arranged on the inner side of the cover plate 20, and the partition plates 24 are matched with the partition plate bosses 17 to realize the isolation of the left and right liquid storage bins 15 and the installation of transmission pieces 33 of the control part 30. The cover plate 20 also has a middle boss 25 in the middle of the inner side, and the middle boss 25 is used for installing the control part 30.

The control part 30 comprises a rotating shaft 31, a first bevel gear 32, a transmission part 33 and a driving wheel 34, wherein the rotating shaft 31 is installed along the axis of the liquid storage bin 15, one end of the rotating shaft 31 is erected on the hollow boss 23, the other end of the rotating shaft is erected on an internal shaft hole (not shown) of the liquid storage bin 15, a plurality of spiral blades 311 are uniformly distributed on the rotating shaft 31, the rotating shaft 31 rotates to drive the spiral blades 311 to rotate, and the spiral blades 311 push cooling liquid to flow. The front end of the rotating shaft 31 is fixedly provided with a first bevel gear 32, and the first bevel gear 32 drives the rotating shaft 31 to rotate. The transmission member 33 is installed on the partition plate 24 on the inner side of the cover plate 20, the transmission member 33 includes a second bevel gear 331, a transmission shaft 332 and a third bevel gear 333, the second bevel gear 331 is in meshing transmission with the first bevel gear 32, the transmission shaft 332 is perpendicular to the rotation shaft 31, the third bevel gear 333 is fixedly installed at the other end of the second bevel gear 331 at one end of the transmission shaft 332, the third bevel gear 333 is hinged with the driving wheel 34, the shaft of the driving wheel 34 is vertically installed on the middle boss 25 of the cover plate 20, the upper half part of the driving wheel 34 is a bevel gear meshed with the third bevel gear 333, the lower half part of the driving wheel 34 is a friction wheel, a small part of the circumference of the friction wheel is exposed out of the cover plate 20 from the square groove 22, and when the mold 10 is transferred on the conveyor belt, the friction wheel rotates under the friction of the side portion of the guide rail, so as to drive the control portion inside thereof to rotate, and further push the cooling liquid to flow.

It should be added that the implementation of this technical solution requires adding friction strips to the side of the guide rail where the mold 10 is flowing, where the friction strips may be the simplest side baffles, or some guide rails with side limiting function may implement the rotation of the friction wheel by themselves. The technical content of this part is relatively simple, and this embodiment is not described again.

The working principle of the invention is as follows: the driving wheel 34 rotates to drive the transmission member 33 to rotate through the bevel gear structure, the transmission member 33 drives the rotating shaft 31 to rotate through the first bevel gear 32, the helical blade 311 on the rotating shaft 31 pushes the cooling liquid to flow in the liquid storage bin 15, and then the cooling liquid flows to the vertical flow channel 12 and the horizontal flow channel 13 from the liquid storage bin 15, so that the cooling liquid on the same side flows in a circulating manner, and the cooling liquid flowing in the circulating manner accelerates the cooling of the mold 10.

The above examples mainly illustrate the aluminum ingot mold of the present invention facilitating cooling. While only a limited number of embodiments and features have been described, those skilled in the art will recognize that the invention can be embodied in many other forms without departing from the spirit or scope thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, and various modifications and alternative arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims

1. The utility model provides a do benefit to refrigerated aluminium ingot mould, including mould (10), apron (20) and control part (30), a serial communication port, apron (20) lid closes the front end lower part at mould (20), control part (30) are installed and are connected at mould (10) inside and with apron (20), mould (10) are including die cavity (11), vertical runner (12), horizontal runner (13), stock solution storehouse (15) and terminal surface recess (18), mould (10) middle part has die cavity (11), vertical runner (12) and horizontal runner (13) have around die cavity (11) on mould (10), vertical runner (12) and horizontal runner (13) of homonymy are linked together, the both sides lower part of mould (10) respectively have one stock solution storehouse (15), pour into the coolant liquid into in stock solution storehouse (15), vertical runner (12) communicate with stock solution storehouse (15) downwards, installation control part (30) in stock solution storehouse (15), mould (10) front end lower part has terminal surface recess (18), terminal surface recess (18) link up to apron (15) of apron (18), terminal surface recess (20) correspond boss (22), the boss (20) of apron (20), the boss (22) of boss (20), the boss (22) are corresponding boss (22), the boss (20), the boss of boss (20) of boss in the inside boss (20), the boss (22) of boss (20), the boss of boss (20), the boss (20) of the boss is installed ) The inner side of the cover plate (20) is provided with two hollow bosses (23), the hollow bosses (23) correspond to axes of the liquid storage bin (25), the middle of the inner side of the cover plate (20) is provided with a middle boss (25), the middle boss (25) is used for mounting a control part (30), the control part (30) comprises a rotating shaft (31), a first bevel gear (32), a transmission part (33) and a driving wheel (34), the rotating shaft (31) is mounted along the axes of the liquid storage bin (15), one end of the rotating shaft (31) is erected on the hollow bosses (23), the other end of the rotating shaft is erected on an internal shaft hole of the liquid storage bin (15), a plurality of spiral blades (311) are uniformly distributed on the rotating shaft (31), the first bevel gear (32) is fixedly mounted at the front end of the rotating shaft (31), the transmission part (33) is mounted on the inner side of the cover plate (20), the transmission part (33) comprises a second bevel gear (331), the transmission shaft (332) and a third bevel gear (333), the second bevel gear (331) is meshed with the first bevel gear (32), the transmission shaft (332) and the transmission shaft (31), the transmission shaft (332) and the driving wheel (31) are arranged perpendicular to each other end of the cover plate (332), one end of the third bevel gear (332) is fixedly mounted on the third bevel gear (34), the vertical boss (20), the vertical boss (34) and the vertical boss (34), the vertical boss (34) of the cover plate (20), the third bevel gear (34) are mounted on the cover plate (332), the driving wheel (34), the driving wheel (332), the cover plate (332), the driving wheel (34) and the driving wheel (34), the driving wheel (332), the driving wheel (34) are mounted on the driving wheel (34), the cover plate (31), the driving wheel (332), the driving wheel (33) are mounted on the driving wheel (33) The upper half part of the driving wheel (34) is a bevel gear meshed with the third bevel gear (333), the lower half part of the driving wheel (34) is a friction wheel, and a small part of the circumference of the friction wheel is exposed out of the cover plate (20) from the square groove (22).

2. An aluminium ingot mould facilitating cooling as claimed in claim 1, characterised in that the exposed holes of the vertical runners (12) and the horizontal runners (13) are blocked with plugs (14).

3. The aluminum ingot mold facilitating cooling as recited in claim 1, wherein the end face groove (18) is provided with four threaded bosses (16), the outer end face of the cover plate (20) is provided with four stepped holes (21), the inner sides of the stepped holes (21) correspond to the connecting bosses (26), and the connecting bosses (26) are butted against the threaded bosses (16).

4. An aluminum ingot mold facilitating cooling as recited in claim 1, wherein the end face groove (18) is further provided with a pair of partition bosses (17), the cover plate (20) is provided with a pair of partitions (24) inside, and the partition bosses (17) are matched with the partitions (24) of the cover plate (20) to realize the isolation of the left and right liquid storage bins (15) and the installation of the transmission member (33) of the control part (30).