CN212350307U - Mould for ingot casting forming - Google Patents

Abstract

The utility model provides a mould for ingot casting shaping, relates to the mould field of making, includes: the mould subassembly, the mould subassembly includes cope match-plate pattern and rather than complex lower bolster, still includes: two fixing frames are arranged and are respectively connected to two sides of the upper template; the supporting seat is connected with the lower part of the upper template, two ends of the lower template are respectively connected with a sliding block, and the two sliding blocks are arranged in the slideways arranged on the two sides of the supporting seat in a sliding way; the lifting mechanism comprises a driving part arranged outside the supporting seat, a transmission part rotationally arranged in the supporting seat and an execution part slidably arranged in the supporting seat, a power output end of the driving part is connected with a power input end of the transmission part through an eccentric shaft, a power output end of the transmission part is connected with a power input end of the execution part, and a power output end of the execution part is connected with the two sliding blocks; the driving part enables the transmission part to eccentrically rotate through the eccentric shaft, so that the lower template and the upper template can be matched to realize casting, and the demolding operation can be simply and conveniently realized.

Description

Mould for ingot casting forming

Technical Field

The utility model relates to a mould field of making, concretely relates to mould for ingot casting shaping.

Background

The process of pouring molten aluminum into an aluminum ingot mold through an aluminum containing barrel and condensing the molten aluminum into an aluminum ingot, also called die casting, is the last procedure of aluminum product molding. The qualified molten aluminum smelted by the aluminum smelting furnace is cast into aluminum ingots or casting blanks with certain section shapes and sizes, and then the aluminum materials with various purposes can be obtained through plastic processing. The ingot casting comprises a series of processes from aluminum discharging of an aluminum smelting furnace (or finishing of external refining) to demolding and conveying of the aluminum ingot to a soaking furnace of a primary rolling mill, namely preparation before casting, demolding, finishing or hot conveying of the aluminum ingot and the like.

The ingot casting need use the mould when the shaping, and the mould that current ingot casting was used when the shaping through cope match-plate pattern and lower bolster cooperation, forms the required shape of ingot casting between two templates, then through aluminium water casting shaping, but cope and drag template weight is very big, and the unable drawing of patterns of manpower, consequently need use the crane to demold, and operating personnel need operate the crane and carry out the hoist and mount operation for drawing of patterns operation process is complicated, uses the crane in-process comparatively dangerous moreover.

SUMMERY OF THE UTILITY MODEL

The utility model discloses according to current ingot casting mould drawing of patterns trouble for the shaping, the problem that dangerous degree is high, the utility model discloses a following technical scheme:

a mold for forming an ingot, comprising: the mould subassembly, the mould subassembly includes cope match-plate pattern and rather than complex lower bolster, still includes:

two fixing frames are arranged and are respectively connected to two sides of the upper template;

the supporting seat is connected with the lower part of the upper template, two ends of the lower template are respectively connected with a sliding block, and the two sliding blocks are arranged in sliding ways arranged on two sides of the supporting seat in a sliding way; and

the lifting mechanism comprises a driving part arranged outside the supporting seat, a transmission part rotationally arranged in the supporting seat and an execution part slidably arranged in the supporting seat, wherein the power output end of the driving part is connected with the power input end of the transmission part through an eccentric shaft, the power output end of the transmission part is connected with the power input end of the execution part, and the power output end of the execution part is connected with the two sliding blocks; the driving part enables the transmission part to eccentrically rotate through the eccentric shaft, and then the execution part drives the sliding block to move up and down.

Compared with the prior art, the utility model discloses following beneficial effect has: when the ingot casting needs to be cast, the driving part is driven by the driving part, the driving part drives the executing part through the eccentric shaft to lift the lower template and form a casting cavity in cooperation with the upper template, and after the casting is completed, the driving part is operated again, so that the driving part drives the executing part through the eccentric shaft to drop the lower template, the ingot casting is completed, the demolding operation is not required to be performed through a crane, the demolding operation is simple and convenient, and the risk in the demolding process is reduced.

Preferably, the transmission part comprises a first eccentric gear, the eccentric shaft penetrates through the first eccentric gear to be connected with the supporting seat in a rotating mode, and the first eccentric gear is connected with the execution part.

Preferably, the executing part comprises a second eccentric gear, the second eccentric gear is positioned right above the first eccentric gear, the second eccentric gear is meshed with the first eccentric gear, and the second eccentric gear is rotationally connected with the two sliding blocks.

Preferably, the eccentric shaft is installed in the supporting seat, and one end of the eccentric shaft penetrates through the supporting seat to be connected with the driving part.

Preferably, the driving part comprises a motor, and an output end of the motor is connected with the eccentric shaft.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a top view of an embodiment of the present invention.

Fig. 2 is a side view of an embodiment of the present invention.

Fig. 3 is a sectional view taken along a-a in fig. 1 in a casting state.

Fig. 4 is a sectional view in the direction of a-a in fig. 1 in a mold-released state.

Fig. 5 is a sectional view taken in the direction B-B of fig. 1 in a casting state.

Fig. 6 is a sectional view taken in the direction B-B in fig. 1 in a mold-released state.

The numbers in the figures are in order: 1. a mold assembly; 11. mounting a template; 12. a lower template; 2. a fixed mount; 3. a supporting seat; 4. A lifting mechanism; 41. an eccentric shaft; 42. a first eccentric gear; 43. a second eccentric gear; 44. an electric motor.

Detailed Description

In order to make the utility model realize that technical means, creation characteristics, achievement purpose and effect are clearer and easily understand, it is right to combine below the figure and the detailed implementation mode the utility model discloses do further explanation:

as shown in fig. 1 to 4, an embodiment of the present invention provides a mold for ingot casting, including: the mould subassembly 1, mould subassembly 1 includes cope match-plate pattern 11 and forms the lower bolster 12 of casting cavity with the cooperation of cope match-plate pattern 11, still includes:

two fixing frames 2 are arranged, and are respectively connected to two sides of the upper template 11 and used for fixing the upper template 11 on a wall or other mounting mechanisms;

the supporting seat 3 is connected with the lower part of the upper template 11 and is used for supporting the upper template 11; two ends of the lower template 12 are respectively connected with a sliding block, and the two sliding blocks are arranged in the slide ways arranged at two sides of the supporting seat 3 in a sliding manner, so that the lower template 12 can move up and down in the slide ways of the supporting seat 3; and

the lifting mechanism 4 comprises a driving part arranged outside the supporting seat, a transmission part rotatably arranged in the supporting seat 3 and an execution part arranged in the supporting seat 3 in a sliding manner, wherein the power output end of the driving part is connected with the power input end of the transmission part through an eccentric shaft 41, the power output end of the transmission part is connected with the power input end of the execution part, and the power output end of the execution part is connected with the two sliding blocks; the driving part enables the transmission part to eccentrically rotate through the eccentric shaft 41, so that when the lower template 12 slides upwards in the supporting seat 3, the lower template 12 can be matched with the upper template 11 to form a casting cavity, and casting operation can be carried out; when the lower template 12 slides downwards in the supporting seat 3, the lower template 12 is separated from the upper template 11, so that the demoulding operation is realized.

As shown in fig. 4, preferably, the eccentric shaft 41 is installed in the supporting seat 3, and one end of the eccentric shaft 41 penetrates through the supporting seat 3 to be connected to the driving portion.

As shown in fig. 4 to 6, according to another embodiment of the present invention, the structure of the driving portion, the transmission portion and the execution portion included in the mold for forming an ingot is further optimized, and preferably, the driving portion includes a motor 44, and an output end of the motor 44 is connected to the eccentric shaft 41; the transmission part comprises a first eccentric gear 42, the eccentric shaft 41 penetrates through the first eccentric gear 42 to be connected with the supporting seat 3 in a rotating way, and the first eccentric gear 42 is connected with the execution part; the executing part comprises a second eccentric gear 43, the second eccentric gear 43 is positioned right above the first eccentric gear 42, the second eccentric gear 43 is meshed with the first eccentric gear 42, the second eccentric gear 43 is rotationally connected with the two sliding blocks, the first eccentric gear 42 drives the second eccentric gear 43 to rotate when rotating, the axial distance between the two eccentric gears can be changed periodically, when the axial distance is maximum, the second eccentric gear 43 drives the lower template 12 to lift, and when the axial distance is minimum, the lower template 12 falls along with the second eccentric gear 43.

The utility model discloses an application principle does: the utility model discloses during the use, it drives eccentric shaft 41 and rotates to open motor 44, make first eccentric gear 42 and second eccentric gear 43 rotate, second eccentric gear 43 drives lower bolster 12 and rises in supporting seat 3, and form the casting chamber with the cooperation of cope match-plate pattern 11, stop motor 44, cast through the casting hole on the cope match-plate pattern 11, need the drawing of patterns after the casting is accomplished, it drives eccentric shaft 41 and rotates to open motor 44, make first eccentric gear 42 and second eccentric gear 43 rotate, second eccentric gear 43 drives lower bolster 12 and descends in supporting seat 3, take out the ingot casting from the casting intracavity, accomplish drawing of patterns work.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (5)

1. A mold for forming an ingot, comprising: mould subassembly (1), mould subassembly (1) includes cope match-plate pattern (11) and rather than complex lower bolster (12), its characterized in that still includes:

two fixing frames (2), wherein the two fixing frames (2) are respectively connected to two sides of the upper template (11);

the supporting seat (3) is connected with the lower part of the upper template (11), two ends of the lower template (12) are respectively connected with a sliding block, and the two sliding blocks are arranged in sliding ways arranged on two sides of the supporting seat (3) in a sliding way; and

the lifting mechanism (4) comprises a driving part arranged outside the supporting seat (3), a transmission part rotatably arranged in the supporting seat (3) and an execution part arranged in the supporting seat (3) in a sliding manner, a power output end of the driving part is connected with a power input end of the transmission part through an eccentric shaft (41), a power output end of the transmission part is connected with a power input end of the execution part, and a power output end of the execution part is connected with the two sliding blocks; the driving part enables the transmission part to eccentrically rotate through an eccentric shaft (41), and then the execution part drives the sliding block to move up and down.

2. An ingot forming mold according to claim 1, wherein the transmission part comprises a first eccentric gear (42), the eccentric shaft (41) passes through the first eccentric gear (42) and the supporting seat (3), the eccentric shaft (41) is fixedly connected with the first eccentric gear (42), the eccentric shaft (41) is rotatably connected with the supporting seat (3), and the first eccentric gear (42) is connected with the execution part.

3. An ingot forming mold according to claim 2, wherein the actuating portion comprises a second eccentric gear (43), the second eccentric gear (43) is positioned right above the first eccentric gear (42), the second eccentric gear (43) is meshed with the first eccentric gear (42), and the second eccentric gear (43) is rotatably connected with the two sliding blocks.

4. An ingot forming mold according to claim 2, wherein the eccentric shaft (41) is mounted in the supporting base (3), and one end of the eccentric shaft (41) penetrates the supporting base (3) and is connected to the driving part.

5. An ingot forming mold according to claim 4, wherein the driving part comprises a motor (44), and an output end of the motor (44) is connected with the eccentric shaft (41).

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