CN213645750U - Numerical control full-hydraulic die forging hammer for forging - Google Patents

Abstract

The utility model relates to a die forging hammer technical field specifically is a forge and use full-hydraulic die forging hammer of numerical control, comprising a main body, the main part left and right sides is provided with the crossbeam, the outside below of crossbeam and the top fixed connection of support column, the inside stamping device that is provided with of main part, stamping device runs through the main part from the top down, the stamping device below passes through iron column fixed connection with the die forging hammer body, at present, the full-hydraulic die forging hammer of majority numerical control is when beating, the die forging hammer body pushes down strength too strong, can harm die forging hammer main body frame, at the in-process of beating, the both sides of die forging hammer body are when pushing down, be provided with damping facility on the main body frame, crush main body frame easily, and the die forging hammer often needs artifical or arm to overturn the thing beating the in the beating in-process, very inconvenient.

Description

Numerical control full-hydraulic die forging hammer for forging

Technical Field

The utility model relates to a swage hammer technical field specifically is a forge and use full-hydraulic swage hammer of numerical control.

Background

The numerical control full hydraulic die forging hammer is high-precision and multifunctional die forging equipment with striking energy capable of being digitally controlled, leads the domestic technology, and is novel ideal equipment capable of replacing imported equipment. The intelligent numerical control system can realize the random adjustment of striking energy, not only does not waste energy, but also can control the oil temperature to rise, and simultaneously, the service life of key parts such as a hammer rod, a hammer head and a die is prolonged. The internal technical content of the product is high, the whole system is controlled by a digital system, and no special requirement is required on the skill of an operator.

At present, the full-hydraulic die forging hammer of majority's numerical control is when beating, the die forging hammer body pushes down the strength too strong, can damage die forging hammer main body frame, at the in-process of beating, the both sides of die forging hammer body are when pushing down, be provided with shock attenuation facility on the main body frame, crush main body frame easily, and the die forging hammer often needs artifical or arm to overturn the forging thing at the in-process of beating, very inconvenient, if adopt artifical upset not only the potential safety hazard appears easily and extravagant cost, adopt the arm upset then the cost of arm too high, not only the acquisition cost is high, and later maintenance's cost is also higher.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a forge and use full-hydraulic swage hammer of numerical control to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a numerical control full hydraulic die forging hammer for forging comprises a main body, wherein cross beams are arranged on the left side and the right side of the main body, the lower portion of the outer side of each cross beam is fixedly connected with the top of a supporting column, a stamping device is arranged in the main body and penetrates through the main body from top to bottom, the lower portion of the stamping device is fixedly connected with a die forging hammer body through an iron column, the lower portion of the die forging hammer body is fixedly connected with a die forging hammer head, a workbench is arranged below the main body, a die forging die is arranged above the workbench, the left side and the right side of the die forging die are hinged with a rotating frame, the rotating frame on the left side is hinged with a left rotating rod, the right side of a left rotating rod is fixedly connected with the left side of the die forging die, the left side of the left rotating rod is fixedly connected with a rotating shaft, the rotating frame on the right rotating rod is hinged with a, the lower part of the motor is fixedly connected with a motor base, the lower part of the motor base is connected with a second hydraulic cylinder through a shaft, the lower part of the rotating frame is fixedly connected with a pushing plate, and the bottom of the pushing plate is provided with a third hydraulic cylinder.

Preferably, the inside both sides of main part are provided with the slide, and the die forging hammer block is on the slide with main part sliding connection, main part slide bottom and the lower extreme fixed connection of spring, the upper end of spring and the lower extreme fixed connection of snubber block.

Preferably, the left side of the main body is provided with a chute which enables the rotating shaft to slide up and down, and the right side of the main body is provided with a hollow groove which enables the motor and the first hydraulic oil cylinder to move up and down.

Preferably, the workbench is provided with a through hole corresponding to the rotating frame, and the rotating frame penetrates through the workbench through the through hole.

Compared with the prior art, the beneficial effects of the utility model are that: the inboard both sides slide of main part is provided with snubber block and spring structure, make and beat the in-process, even the die forging hammer block beat on the main body frame also can effectively reduce the decurrent power that the die forging hammer block applyed, double-deck buffer structure is provided, the effectual power that the main body frame receives of having alleviated, the life of equipment has been increased, the function of the automatic upset of die forging mould has been set up, make this utility model very big saving the cost, the link of artifical upset has been rejected, the potential safety hazard that probably takes place has greatly reduced, and the cost of labor has been reduced, the utility model discloses also save the produced expense of using the upset of arm, the cost of purchasing the arm has been saved, and the cost of later maintenance, and simultaneously, the utility model discloses simple structure, be convenient for operate.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is the schematic view of the connection structure of the die forging die of the present invention.

In the figure: 1. the hydraulic forging machine comprises a main body, 2, a cross beam, 3, a supporting column, 4, a punching device, 5, a forging hammer body, 6, a forging hammer head, 7, a slide rail, 8, a damping block, 9, a spring, 10, a forging die, 11, a left-handed rotating rod, 111, a rotating shaft, 12, a right-handed rotating rod, 121, a fixed block, 13, a first hydraulic oil cylinder, 14, a motor, 141, a motor base, 15, a second hydraulic oil cylinder, 16, a third hydraulic oil cylinder, 161, a propelling plate, 162, a rotating frame, 17 and a workbench.

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 to 2, the present invention provides a technical solution: a numerical control full hydraulic die forging hammer for forging comprises a main body 1, wherein cross beams 2 are arranged on the left side and the right side of the main body 1, the lower portion of the outer side of each cross beam 2 is fixedly connected with the top of a supporting column 3, a stamping device 4 is arranged inside the main body 1, the stamping device 4 penetrates through the main body 1 from top to bottom, the lower portion of the stamping device 4 is fixedly connected with a die forging hammer body 5 through an iron column, the lower portion of the die forging hammer body 5 is fixedly connected with a die forging hammer head 6, a workbench 17 is arranged below the main body 1, a die forging die 10 is arranged above the workbench 17, the left side and the right side of the die forging die 10 are hinged with a rotating frame 162, a rotating frame 162 on the left side is hinged with a left rotary rod 11, the right side of a left rotary rod 11 is fixedly connected with the left side of the die forging die 10, the left side of the left rotary rod 11 is fixedly connected with a rotating shaft, the right side of the first hydraulic oil cylinder 13 is fixedly connected with the motor 14 through a shaft, the lower part of the motor 14 is fixedly connected with the motor base 141, the lower part of the motor base 141 is connected with the second hydraulic oil cylinder 15 through a shaft, the lower part of the rotating frame 162 is fixedly connected with the pushing plate 161, and the bottom of the pushing plate 161 is provided with a third hydraulic oil cylinder 16.

The inside both sides of main part 1 are provided with the slide, and die forging hammer block 5 is on the slide with main part 1 sliding connection, 1 slide bottom of main part and the lower extreme fixed connection of spring 9, the upper end of spring 9 and the lower extreme fixed connection of snubber block 8.

The left side of the main body 1 is provided with a chute for sliding the rotating shaft 111 up and down, and the right side of the main body 1 is provided with a hollow groove for moving the motor 14 and the first hydraulic cylinder 13 up and down.

The table 17 is provided with a through hole corresponding to the rotary frame 162, and the rotary frame 162 penetrates the table 17 through the through hole.

The working principle is as follows: the iron blank is placed into a die forging grinding tool 10, a die forging hammer is started, a die forging hammer body 5 and a die forging hammer head 6 are beaten towards the die forging mould 10, the die forging hammer body 5 contacts with a damping facility formed by a damping block 8 and a spring 9 in the downward beating process, downward force applied to two sides of a main body 1 by the die forging hammer body 5 is reduced, the damping block 8 extrudes the spring 9, the spring 9 provides upward force, after the spring 9 is compressed to the limit, the damping block 8 plays a role of buffering, the downward force is effectively reduced, the main body 1 is prevented from being damaged, the service life of the die forging hammer is effectively prolonged, after the die forging hammer head 6 beats the iron blank once, a third hydraulic cylinder 16 is started, the model of the third hydraulic cylinder 16 is PY497-30/15, the third hydraulic cylinder 16 pushes a pushing plate 161 to move upwards, the pushing plate 161 drives a rotating frame 162 to move upwards, and the die forging mould 10 moves upwards to a certain height, the second hydraulic cylinder 15 is started simultaneously, the model of the second hydraulic cylinder 15 is PY497-20/10, the motor base 141 is pushed to move upwards together with the motor 14, the model of the motor 14 is 60M-01930C5-E, the right rotary rod 12 and the die forging die 10 are kept horizontal, the motor 14 is started, the motor 14 drives the first hydraulic cylinder 13 to rotate together with the right rotary rod 12, the die forging die 10 rotates 180 degrees, the first hydraulic oil 13 is started simultaneously when the motor rotates, the model of the first hydraulic oil 13 is PY497-15/5, the first hydraulic cylinder 13 pushes the right rotary rod 12 to move leftwards, the right rotary rod 12 pushes the fixing block 121 to clamp an iron blank, the iron blank is prevented from falling off in the overturning process of the die forging die 10, the third hydraulic cylinder 16 is recovered after the overturning is completed, the die forging die 10 is reset, and the die forging hammer body 5 and the die forging hammer head 6 continue to forge the iron blank.

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 (4)

1. The utility model provides a forge and use full-hydraulic die forging hammer of numerical control, includes main part (1), its characterized in that: the left side and the right side of the main body (1) are provided with crossbeams (2), the outer side lower part of the crossbeams (2) is fixedly connected with the top of a support column (3), a stamping device (4) is arranged in the main body (1), the stamping device (4) penetrates through the main body (1) from top to bottom, the lower part of the stamping device (4) is fixedly connected with a die forging hammer body (5) through an iron column, the lower part of the die forging hammer body (5) is fixedly connected with a die forging hammer head (6), a workbench (17) is arranged below the main body (1), a die forging die (10) is arranged above the workbench (17), the left side and the right side of the die forging die (10) are hinged with a rotating frame (162), the left rotating frame (162) is hinged with a left rotating rod (11), the right side of the left rotating rod (11) is fixedly connected with the left side of the die forging die (10), the left side of the left rotating rod (11) is fixedly connected with, the left side of right-handed lever (12) is provided with fixed block (121), the right side of right-handed lever (12) is provided with first hydraulic cylinder (13), the right side of first hydraulic cylinder (13) is through axle and motor (14) fixed connection, the below and motor cabinet (141) fixed connection of motor (14), the below of motor cabinet (141) is connected with second hydraulic cylinder (15) through the axle, the below and propulsion plate (161) fixed connection of swivel mount (162), the bottom of propulsion plate (161) is provided with third hydraulic cylinder (16).

2. The numerical control full hydraulic die forging hammer for forging as claimed in claim 1, wherein: the inside both sides of main part (1) are provided with the slide, and die forging hammer block (5) are on the slide with main part (1) sliding connection, main part (1) slide bottom and the lower extreme fixed connection of spring (9), the upper end of spring (9) and the lower extreme fixed connection of snubber block (8).

3. The numerical control full hydraulic die forging hammer for forging as claimed in claim 1, wherein: the left side of the main body (1) is provided with a chute which enables the rotating shaft (111) to slide up and down, and the right side of the main body (1) is provided with a hollow groove which enables the motor (14) and the first hydraulic oil cylinder (13) to move up and down.

4. The numerical control full hydraulic die forging hammer for forging as claimed in claim 1, wherein: the workbench (17) is provided with a through hole corresponding to the rotating frame (162), and the rotating frame (162) penetrates through the workbench (17) through the through hole.

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