CN214977473U - Mechanical automatic operation device based on ultra-high temperature forging processing - Google Patents

Abstract

The utility model belongs to the technical field of mechanical automation, especially, be a mechanical automation operating means based on ultra-temperature forging processing, the on-line screen storage device comprises a base, the top of base is provided with the support column, the top of support column is provided with the fixed block, the punching press groove has been seted up at the top of fixed block, one side of fixed block is provided with the connecting block. This mechanical automation operating device based on processing is forged to ultra-temperature, start electronic slide rail, make the sliding plate be close to the fixed block, start the second hydraulic pump, make the second hydraulic pump drive the second telescopic link at the during operation and stretch out and draw back, thereby make second telescopic link pulling pinion rack be close to the second hydraulic pump, the pinion rack is connected with the fluted roller meshing, thereby the fluted roller rotates, make the fluted roller be close to each other with the foundry goods centre gripping, start the third motor, make the third motor drive the second gear through the third gear and rotate, thereby drive fixture through the connecting plate and rotate, with foundry goods upset one hundred eighty degrees, be favorable to the forging of foundry goods reverse side.

Description

Mechanical automatic operation device based on ultra-high temperature forging processing

Technical Field

The utility model belongs to the technical field of mechanical automation, concretely relates to mechanical automation operating means based on ultra-temperature forges processing.

Background

Mechanical automation refers to a process in which a machine or an apparatus automatically operates or controls according to a predetermined program or instruction without human intervention, and mechanical automation refers to a process in which a machine or an apparatus is automatically controlled by a mechanical means.

Mechanical automation's realization has led mechanical production to a new field, really reached large-scale industrial production and reduction intensity of labour, improved labor efficiency, and each trade has all not left automatic system, especially forging trade, there are many forging spare in forging trade and need accomplish the obverse and reverse two sides through one set of mould and forge processing, in order to realize that one set of mould accomplishes the obverse and reverse side and forge processing, need overturn the foundry goods, the forging temperature is higher, the manual unable operation that can't operate, so need mechanical automation operating means to carry out this work, the mechanical automation operating means of current ultra-high temperature forging processing on the market can not overturn the foundry goods well.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a mechanical automation operating means based on ultra-temperature forges processing has solved the problem that can not overturn the foundry goods well.

In order to achieve the above object, the utility model provides a following technical scheme: a mechanical automatic operation device based on ultra-high temperature forging processing comprises a base, wherein a support column is arranged at the top of the base, a fixed block is arranged at the top of the support column, a stamping groove is formed in the top of the fixed block, a connecting block is arranged on one side of the fixed block, an L plate is arranged at the bottom of the connecting block, an inner rod is arranged at the bottom of the L plate, an outer rod is arranged on the surface of the inner rod, a first hydraulic pump is arranged at the top of the connecting block, a first telescopic rod is arranged at the output end of the first hydraulic pump, a limiting plate is arranged at one end of the first telescopic rod, a support frame is arranged at one end of the top of the base, a first bevel gear is arranged at the top of the support frame, a threaded rod is arranged inside the first bevel gear, a lifting plate is arranged at the bottom of the threaded rod, a stamping die is arranged at the bottom of the lifting plate, one side of support column is provided with electronic slide rail, the inside of electronic slide rail is provided with the sliding plate, one side of sliding plate is provided with the connecting plate, the one end of connecting plate is provided with the protecting crust, the inside of protecting crust is provided with the fluted roller, the surface of fluted roller is provided with splint, one side of fluted roller is provided with the pinion rack.

Preferably, one side of the outer rod is provided with a first motor, the output end of the first motor is provided with a first gear, and the first gear is meshed with the inner rod.

Preferably, the inside of the first bevel gear is in threaded connection with the threaded rod, one side of the first bevel gear is provided with a second motor, the output end of the second motor is provided with a second bevel gear, and the second bevel gear is in meshed connection with the first bevel gear.

Preferably, one side of the support frame is provided with a limiting block, the surface of the limiting block is provided with a sliding block, and the sliding block is connected with the lifting plate.

Preferably, one end of the connecting plate extends to the inside of the sliding plate and is provided with a second gear, one side of the sliding plate is provided with a third motor, the output end of the third motor is provided with a third gear, and the third gear is meshed with the second gear.

Preferably, the inside of connecting plate is provided with the second hydraulic pump, the output of second hydraulic pump is provided with the second telescopic link, and the one end of second telescopic link extends to the inside of protecting crust and is connected with the pinion rack, and the pinion rack is connected with the meshing of fluted roller.

Compared with the prior art, the beneficial effects of the utility model are that:

this mechanical automation operating device based on processing is forged to ultra-temperature, start electronic slide rail, make the sliding plate be close to the fixed block, start the second hydraulic pump, make the second hydraulic pump drive the second telescopic link at the during operation and stretch out and draw back, thereby make second telescopic link pulling pinion rack be close to the second hydraulic pump, the pinion rack is connected with the fluted roller meshing, thereby the fluted roller rotates, make the fluted roller be close to each other with the foundry goods centre gripping, start the third motor, make the third motor drive the second gear through the third gear and rotate, thereby drive fixture through the connecting plate and rotate, with foundry goods upset one hundred eighty degrees, be favorable to the forging of foundry goods reverse side.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a first three-dimensional structure diagram of the present invention;

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

FIG. 3 is a perspective view of the limiting plate of the present invention;

fig. 4 is a three-dimensional structure diagram of the first gear of the present invention;

FIG. 5 is a perspective view of the slider of the present invention;

fig. 6 is a perspective structural view of a second gear of the present invention;

fig. 7 is a three-dimensional structure view of the splint of the present invention.

In the figure: 1, a base; 2, supporting columns; 3, fixing blocks; 4, punching a groove; 5, connecting blocks; a 6L plate; 7, an outer rod; 8, an inner rod; 9 a first motor; 10 a first gear; 11 a first hydraulic pump; 12 a first telescoping rod; 13 a limiting plate; 14, a support frame; 15 a second hydraulic pump; 16 a second telescoping rod; 17 a first bevel gear; 18 a second motor; 19 a second bevel gear; 20 a threaded rod; 21 a lifting plate; 22 a stamping die; 23 a limit block; 24 sliding blocks; 25 electric slide rail; 26 a sliding plate; 27 a connecting plate; 28 a second gear; 29 a third motor; 30 a third gear; 31 a protective shell; a 32-tooth roller; 33, clamping the plate; 34 toothed plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides the following technical solutions: a mechanical automatic operation device based on ultra-high temperature forging processing comprises a base 1, wherein a support column 2 is arranged at the top of the base 1, a fixed block 3 is arranged at the top of the support column 2, a stamping groove 4 is formed in the top of the fixed block 3, the stamping groove 4 is matched with the size of a stamping die 22, a casting is conveniently forged by the stamping die 22, a connecting block 5 is arranged on one side of the fixed block 3, an L plate 6 is arranged at the bottom of the connecting block 5, the L plate 6 is sleeved on the surface of the support column 2, the stability in lifting is improved, an inner rod 8 is arranged at the bottom of the L plate 6, an outer rod 7 is arranged on the surface of the inner rod 8, a first hydraulic pump 11 is arranged at the top of the connecting block 5, a first telescopic rod 12 is arranged at the output end of the first hydraulic pump 11, a limiting plate 13 is arranged at one end of the first telescopic rod 12, and the first hydraulic pump 11 is driven to extend and retract by the first hydraulic pump 12, so that the limiting plate 13 can clamp and fix the casting, the casting can be conveniently taken out from the interior of the stamping groove 4, the clamping of the clamping plate 33 is facilitated, the supporting frame 14 is arranged at one end of the top of the base 1, the first bevel gear 17 is arranged at the top of the supporting frame 14, the threaded rod 20 is arranged inside the first bevel gear 17, the lifting plate 21 is arranged at the bottom of the threaded rod 20, the stamping die 22 is arranged at the bottom of the lifting plate 21, the electric slide rail 25 is arranged at one side of the supporting column 2, the sliding plate 26 is arranged inside the electric slide rail 25, the sliding plate 26 can slide inside the electric slide rail 25, the position distance between the clamping plate 33 and the casting can be conveniently adjusted, the connecting plate 27 is arranged at one side of the sliding plate 26, the protective shell 31 is arranged at one end of the connecting plate 27, the internal equipment can be conveniently protected, the damage to be avoided being exposed outside, and the service life is prolonged, a toothed roller 32 is arranged inside the protective shell 31, a clamping plate 33 is arranged on the surface of the toothed roller 32, and a toothed plate 34 is arranged on one side of the toothed roller 32.

It is specific, one side of outer pole 7 is provided with first motor 9, the output of first motor 9 is provided with first gear 10, and first gear 10 is connected with interior pole 8 meshing, restriction board 13 is fixed the back with the foundry goods centre gripping, through starting first motor 9, make first motor 9 drive first gear 10 and rotate at the during operation, thereby make interior pole 8 go up and down in the inside of outer pole 7, thereby it is convenient in the position altitude mixture control to connecting block 5 to make the foundry goods be higher than fixed block 3 through L board 6, be favorable to splint 33 can carry out the centre gripping to the foundry goods.

Specifically, the inside and the threaded rod 20 threaded connection of first bevel gear 17, one side of first bevel gear 17 is provided with second motor 18, the output of second motor 18 is provided with second bevel gear 19, and second bevel gear 19 is connected with first bevel gear 17 meshing, start second motor 18, second motor 18 drives second bevel gear 19 and rotates, and then drive first bevel gear 17 and rotate, first bevel gear 17 and threaded rod 20 threaded connection, make threaded rod 20 reciprocate, conveniently adjust the position height of lifter plate 21, be favorable to stamping die 22 can forge the foundry goods.

Specifically, one side of the supporting frame 14 is provided with a limiting block 23, the surface of the limiting block 23 is provided with a sliding block 24, the sliding block 24 is connected with the lifting plate 21, the sliding block 24 slides on the surface of the limiting block 23, the limiting block 23 limits the sliding block 24, the stability of the lifting plate 21 during up-down movement is improved, the sliding of the stamping die 22 is avoided, and the casting forging effect is enhanced.

Specifically, one end of the connecting plate 27 extends to the inside of the sliding plate 26 and is provided with a second gear 28, one side of the sliding plate 26 is provided with a third motor 29, the output end of the third motor 29 is provided with a third gear 30, the third gear 30 is meshed with the second gear 28 and is connected with the second gear, the casting is clamped and fixed by the clamping plate 33, the third motor 29 is started, the third motor 29 is enabled to drive the second gear 28 to rotate through the third gear 30, the clamping mechanism is driven to rotate through the connecting plate 27, the casting is overturned by one hundred eighty degrees, and forging of the reverse side of the casting is facilitated.

Specifically, the inside of connecting plate 27 is provided with second hydraulic pump 15, the output of second hydraulic pump 15 is provided with second telescopic link 16, and the one end of second telescopic link 16 extends to the inside of protecting crust 31 and is connected with pinion rack 34, and pinion rack 34 is connected with the meshing of fluted roller 32, start electronic slide rail 25, make sliding plate 26 be close to fixed block 3, start second hydraulic pump 15, make second hydraulic pump 15 drive second telescopic link 16 at the during operation and stretch out and draw back, thereby make second telescopic link 16 pulling pinion rack 34 be close to second hydraulic pump 15, pinion rack 34 is connected with the meshing of fluted roller 32, thereby fluted roller 32 rotates, make splint 33 be close to each other with the foundry goods centre gripping.

The utility model discloses a theory of operation and use flow: the utility model discloses install the back, L board 6 through setting up, outer pole 7, interior pole 8, first motor 9, first gear 10 is convenient in rising the foundry goods, first bevel gear 17 through setting up, second motor 18, second bevel gear 19, threaded rod 20 is convenient in stamping die 22 forges the foundry goods, second hydraulic pump 15 through setting up, second telescopic link 16, fluted roller 32, splint 33, pinion rack 34 is convenient in pressing from both sides the foundry goods and getting, second gear 28 through setting up, third motor 29, third gear 30 is convenient in overturning the foundry goods, all consumer all supply power through external power supply in this device.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a mechanical automation operating means based on processing is forged to superhigh temperature, includes base (1), its characterized in that: the hydraulic support is characterized in that a support column (2) is arranged at the top of the base (1), a fixed block (3) is arranged at the top of the support column (2), a stamping groove (4) is formed in the top of the fixed block (3), a connecting block (5) is arranged on one side of the fixed block (3), an L plate (6) is arranged at the bottom of the connecting block (5), an inner rod (8) is arranged at the bottom of the L plate (6), an outer rod (7) is arranged on the surface of the inner rod (8), a first hydraulic pump (11) is arranged at the top of the connecting block (5), a first telescopic rod (12) is arranged at the output end of the first hydraulic pump (11), a limiting plate (13) is arranged at one end of the first telescopic rod (12), a support frame (14) is arranged at one end of the top of the base (1), and a first bevel gear (17) is arranged at the top of the support frame (14), the inside of first bevel gear (17) is provided with threaded rod (20), the bottom of threaded rod (20) is provided with lifter plate (21), the bottom of lifter plate (21) is provided with stamping die (22), one side of support column (2) is provided with electronic slide rail (25), the inside of electronic slide rail (25) is provided with sliding plate (26), one side of sliding plate (26) is provided with connecting plate (27), the one end of connecting plate (27) is provided with protecting crust (31), the inside of protecting crust (31) is provided with fluted roller (32), the surface of fluted roller (32) is provided with splint (33), one side of fluted roller (32) is provided with pinion rack (34).

2. The mechanical automatic operation device based on the ultrahigh-temperature forging processing according to claim 1, characterized in that: one side of the outer rod (7) is provided with a first motor (9), the output end of the first motor (9) is provided with a first gear (10), and the first gear (10) is meshed with the inner rod (8).

3. The mechanical automatic operation device based on the ultrahigh-temperature forging processing according to claim 1, characterized in that: the inside and threaded rod (20) threaded connection of first bevel gear (17), one side of first bevel gear (17) is provided with second motor (18), the output of second motor (18) is provided with second bevel gear (19), and second bevel gear (19) and first bevel gear (17) meshing connection.

4. The mechanical automatic operation device based on the ultrahigh-temperature forging processing according to claim 1, characterized in that: one side of the support frame (14) is provided with a limiting block (23), the surface of the limiting block (23) is provided with a sliding block (24), and the sliding block (24) is connected with the lifting plate (21).

5. The mechanical automatic operation device based on the ultrahigh-temperature forging processing according to claim 1, characterized in that: one end of the connecting plate (27) extends to the inside of the sliding plate (26) and is provided with a second gear (28), one side of the sliding plate (26) is provided with a third motor (29), the output end of the third motor (29) is provided with a third gear (30), and the third gear (30) is meshed with the second gear (28).

6. The mechanical automatic operation device based on the ultrahigh-temperature forging processing according to claim 1, characterized in that: the inside of connecting plate (27) is provided with second hydraulic pump (15), the output of second hydraulic pump (15) is provided with second telescopic link (16), and the inside that the one end of second telescopic link (16) extended to protecting crust (31) is connected with pinion rack (34), and pinion rack (34) are connected with tooth roller (32) meshing.

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