CN220239766U - Stamping die of quick replacement machined part - Google Patents

Abstract

The utility model belongs to the technical field of stamping dies, in particular to a stamping die capable of quickly replacing a workpiece, which aims at the problems that the existing stamped workpiece is embedded in the die and is inconvenient to take out, and the continuous processing is inconvenient to stop in the replacement process, and the processing efficiency is reduced.

Description

Stamping die of quick replacement machined part

Technical Field

The utility model relates to the technical field of stamping dies, in particular to a stamping die capable of rapidly replacing a machined part.

Background

A stamping die is a special process equipment for processing a material (metal or nonmetal) into a part (or a semi-finished product) in cold stamping processing, and is called a cold stamping die (commonly called a cold stamping die). Stamping is a press working method in which a material is pressed at room temperature by a die attached to a press to be separated or plastically deformed, thereby obtaining a desired part.

The existing stamping die is usually fixed on a stamping machine table, stamping parts are required to be manually taken out after each processing, then workpieces are placed in the stamping die, the stamped workpieces are inconvenient to take out due to the fact that the stamped workpieces are embedded in the stamping die, and the stamping die is inconvenient to continuously process due to the fact that the stamping die is required to be stopped in the replacing process, so that the processing efficiency is reduced, and the stamping die capable of rapidly replacing the workpieces is provided for solving the problems.

Disclosure of Invention

The utility model provides a stamping die capable of rapidly replacing a machined part, which solves the defects that the machined part after stamping is embedded in the die and is inconvenient to take out, and the continuous machining is inconvenient because the machine is stopped in the replacement process, so that the machining efficiency is reduced in the prior art.

The utility model provides the following technical scheme:

a stamping die for quick change of a workpiece, comprising:

the base is fixedly connected with a supporting frame at the top of the base, a first loop bar is fixedly connected with the top of the supporting frame in a penetrating mode, an inner screw rod is arranged on the inner wall of the first loop bar in a sliding mode, a second rotating disc is connected with the top of the inner screw rod in a rotating mode, and a plurality of dies matched with the upper die block in use are fixedly connected with the top of the second rotating disc;

the bottom plate is arranged on the inner wall of the die in a sliding manner, the top parts of the die and the second rotating disc penetrate through the same sliding rod in a sliding manner, and the sliding rod is fixedly connected with the bottom plate and is used for being matched with the bottom plate to eject a machined part;

the transmission mechanism is arranged on the support frame and used for driving the second rotating disc to lift so that the sliding rod is matched with the support frame to drive the bottom plate to eject the workpiece, and meanwhile, the die is driven to rotate to change the station.

In one possible design, the transmission mechanism comprises a T-shaped frame fixedly connected to the inner wall of the support frame, a second electromagnetic clutch is fixedly connected to the top of the T-shaped frame, a motor is fixedly connected to the top of the base, the input end of the second electromagnetic clutch extends to the bottom of the T-shaped frame and is in transmission connection with the output end of the motor, an outer screw is connected to the inner wall of the inner screw in a threaded manner, and the outer screw is fixedly connected to the output end of the second electromagnetic clutch.

In one possible design, the outer wall of the first loop bar is rotatably sleeved with a first rotating disc, the top of the first rotating disc is fixedly connected with a plurality of second loop bars, the inner wall of the second loop bar is slidably provided with a guide bar, and the guide bar is fixedly connected to the bottom of the second rotating disc.

In one possible design, the top fixedly connected with first electromagnetic clutch of T shape frame, the input of first electromagnetic clutch extends to the bottom of T shape frame and is connected with the output transmission of motor, the output of first electromagnetic clutch extends to the top of support frame and fixed cover is equipped with the gear, the fixed cover of outer wall of first rolling disc is equipped with the ring gear that meshes with the gear.

In one possible embodiment, the output of the electric motor is connected in a driving manner to the inputs of the second electromagnetic clutch and the first electromagnetic clutch via a synchronous wheel and a synchronous belt, respectively.

In one possible design, the outer wall of the sliding rod is sleeved with a spring, and two ends of the spring are fixedly connected with the outer wall of the sliding rod and the bottom of the second rotating disc respectively.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the utility model as claimed.

In the utility model, a motor and a first electromagnetic clutch are started, the motor can drive the first electromagnetic clutch to rotate through a synchronous wheel synchronous belt, the first electromagnetic clutch can drive a gear to rotate, the gear can drive an outer tooth ring to rotate, thereby driving a first rotating disc to rotate, and the first rotating disc can drive a second rotating disc to rotate through a second loop bar and a guide bar to change the position of a die;

in the utility model, the motor and the first electromagnetic clutch are started to drive the second rotating disc to rotate, so that the punched workpiece moves to the upper part of the supporting frame, at the moment, the motor and the second electromagnetic clutch can be started to drive the outer screw to rotate, the outer screw can drive the inner screw to move downwards in the first sleeve rod to drive the second rotating disc to move downwards, and when the sliding rod contacts the supporting frame, the bottom plate can be driven to move upwards, so that the stamping part in the die can be pushed out;

according to the utility model, the motor, the first electromagnetic clutch and the second electromagnetic clutch are started to drive the die to change positions, the die can be driven to move downwards, and a machined piece in the die can be taken out through the cooperation of the sliding rod and the supporting frame, so that the machined piece can be replaced conveniently and quickly, and the machining efficiency is improved.

Drawings

Fig. 1 is a schematic three-dimensional structure of a stamping die for rapidly replacing a workpiece according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a cross-sectional structure of a stamping die for rapidly replacing a workpiece according to an embodiment of the present utility model;

fig. 3 is a schematic cross-sectional structure of a sleeve of a stamping die for rapidly replacing a workpiece according to an embodiment of the present utility model.

Reference numerals:

1. a base; 2. a support frame; 3. a first rotating disc; 4. a second rotating disc; 5. a mold; 6. a bottom plate; 7. a slide bar; 8. a spring; 9. a motor; 10. an inner screw; 11. a guide rod; 12. a T-shaped frame; 13. a first electromagnetic clutch; 14. a second electromagnetic clutch; 15. a first loop bar; 16. an outer screw; 17. a second loop bar; 18. an outer toothed ring; 19. a gear.

Detailed Description

Embodiments of the present utility model will be described below with reference to the accompanying drawings in the embodiments of the present utility model.

In describing embodiments of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "coupled" and "mounted" should be interpreted broadly, and for example, "coupled" may or may not be detachably coupled; may be directly connected or indirectly connected through an intermediate medium. In addition, "communication" may be direct communication or may be indirect communication through an intermediary. Wherein, "fixed" means that the relative positional relationship is not changed after being connected to each other. References to orientation terms, such as "inner", "outer", "top", "bottom", etc., in the embodiments of the present utility model are merely to refer to the orientation of the drawings and, therefore, the use of orientation terms is intended to better and more clearly illustrate and understand the embodiments of the present utility model, rather than to indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the embodiments of the present utility model.

Example 1

Referring to fig. 1-3, a stamping die for quick change of workpieces, comprising:

the base 1, the top fixedly connected with support frame 2 of base 1, the top of support frame 2 runs through fixedly connected with first loop bar 15, the inner wall of first loop bar 15 slides and is equipped with the internal screw rod 10, the top of internal screw rod 10 rotates and is connected with second rolling disc 4, the top of second rolling disc 4 fixedly connected with a plurality of moulds 5 that cooperate with the upper module to use;

the bottom plate 6 is arranged on the inner wall of the die 5 in a sliding manner, the top parts of the die 5 and the second rotating disc 4 are provided with the same sliding rod 7 in a penetrating and sliding manner, and the sliding rod 7 is fixedly connected with the bottom plate 6 and is used for being matched with the bottom plate 6 to eject a machined part;

the drive mechanism is arranged on the support frame 2 and used for driving the second rotating disc 4 to lift so that the sliding rod 7 is matched with the support frame 2 to drive the bottom plate 6 to eject a workpiece, and meanwhile, the die 5 is driven to rotate to change a station.

Referring to fig. 1 and 3, the transmission mechanism includes a T-shaped frame 12 fixedly connected to an inner wall of the supporting frame 2, a second electromagnetic clutch 14 is fixedly connected to the top of the T-shaped frame 12, a motor 9 is fixedly connected to the top of the base 1, an input end of the second electromagnetic clutch 14 extends to the bottom of the T-shaped frame 12 and is in transmission connection with an output end of the motor 9, an outer screw 16 is in threaded connection with an inner wall of the inner screw 10, the outer screw 16 is fixedly connected to an output end of the second electromagnetic clutch 14, the outer screw 16 can be driven to rotate by starting the motor 9 and the second electromagnetic clutch 14, the outer screw 16 can be driven to slide in the first sleeve rod 15 by rotating, so that the second rotating disk 4 can be driven to lift, and the second rotating disk 4 is driven to move downwards to cooperate with the sliding rod 7 and the supporting frame 2 to drive the bottom plate 6 to move upwards.

Example 2

Referring to fig. 1-3, a stamping die for quick change of workpieces, comprising:

the base 1, the top fixedly connected with support frame 2 of base 1, the top of support frame 2 runs through fixedly connected with first loop bar 15, the inner wall of first loop bar 15 slides and is equipped with the internal screw rod 10, the top of internal screw rod 10 rotates and is connected with second rolling disc 4, the top of second rolling disc 4 fixedly connected with a plurality of moulds 5 that cooperate with the upper module to use;

the bottom plate 6 is arranged on the inner wall of the die 5 in a sliding manner, the top parts of the die 5 and the second rotating disc 4 are provided with the same sliding rod 7 in a penetrating and sliding manner, and the sliding rod 7 is fixedly connected with the bottom plate 6 and is used for being matched with the bottom plate 6 to eject a machined part;

the drive mechanism is arranged on the support frame 2 and used for driving the second rotating disc 4 to lift so that the sliding rod 7 is matched with the support frame 2 to drive the bottom plate 6 to eject a workpiece, and meanwhile, the die 5 is driven to rotate to change a station.

Referring to fig. 1 and 3, the transmission mechanism includes a T-shaped frame 12 fixedly connected to an inner wall of the supporting frame 2, a second electromagnetic clutch 14 is fixedly connected to the top of the T-shaped frame 12, a motor 9 is fixedly connected to the top of the base 1, an input end of the second electromagnetic clutch 14 extends to the bottom of the T-shaped frame 12 and is in transmission connection with an output end of the motor 9, an outer screw 16 is in threaded connection with an inner wall of the inner screw 10, the outer screw 16 is fixedly connected to an output end of the second electromagnetic clutch 14, the outer screw 16 can be driven to rotate by starting the motor 9 and the second electromagnetic clutch 14, the outer screw 16 can be driven to slide in the first sleeve rod 15 by rotating, so that the second rotating disk 4 can be driven to lift, and the second rotating disk 4 is driven to move downwards to cooperate with the sliding rod 7 and the supporting frame 2 to drive the bottom plate 6 to move upwards.

Referring to fig. 1 and 3, the outer wall rotation cover of first loop bar 15 is equipped with first rolling disc 3, and the top fixedly connected with of first rolling disc 3 is a plurality of second loop bars 17, and the inner wall slip of second loop bar 17 is equipped with guide bar 11, and guide bar 11 fixed connection is in the bottom of second rolling disc 4, can lead spacing to second rolling disc 4 through the cooperation of second loop bar 17 and guide bar 11 in the above-mentioned technical scheme to rotate first rolling disc 3 and can drive slide bar 7 through second loop bar 17 and guide bar 11 and rotate, adjust the position of mould 5.

Referring to fig. 3, a first electromagnetic clutch 13 is fixedly connected to the top of a T-shaped frame 12, an input end of the first electromagnetic clutch 13 extends to the bottom of the T-shaped frame 12 and is in transmission connection with an output end of a motor 9, an output end of the first electromagnetic clutch 13 extends to the top of a supporting frame 2 and is fixedly sleeved with a gear 19, an outer wall of a first rotating disc 3 is fixedly sleeved with an outer tooth ring 18 meshed with the gear 19, and in the technical scheme, the gear 19 can drive the gear 19 to rotate through a starting motor 9 and the first electromagnetic clutch 13, and the gear 19 can drive the outer tooth ring 18 to rotate, so that a second rotating disc 4 can be driven to rotate through the first rotating disc 3 to drive a die 5 to change positions.

Referring to fig. 3, the output end of the motor 9 is respectively connected with the input ends of the second electromagnetic clutch 14 and the first electromagnetic clutch 13 through a synchronous wheel and a synchronous belt in a transmission way, and in the above technical scheme, the first electromagnetic clutch 13 and the second electromagnetic clutch 14 can be driven simultaneously through the synchronous wheel and the synchronous belt.

Referring to fig. 1 and 2, the outer wall of the sliding rod 7 is sleeved with a spring 8, two ends of the spring 8 are fixedly connected with the outer wall of the sliding rod 7 and the bottom of the second rotating disc 4 respectively, and the sliding rod 7 can be driven to quickly reset through setting of the spring 8 in the technical scheme, so that continuous processing is facilitated.

However, as well known to those skilled in the art, the working principles and wiring methods of the motor 9, the first electromagnetic clutch 13 and the second electromagnetic clutch 14 are well known, which are all conventional means or common general knowledge, and will not be described herein in detail, and any choice can be made by those skilled in the art according to their needs or convenience.

The working principle and the using flow of the technical scheme are as follows: when the die 5 is used, the die 5 is moved to the punching machine, one of the dies 5 corresponds to the upper die, a workpiece is placed in the die 5, then the motor 9 and the first electromagnetic clutch 13 are started, the motor 9 can drive the first electromagnetic clutch 13 to rotate through the synchronous wheel synchronous belt, the first electromagnetic clutch 13 can drive the gear 19 to rotate, the gear 19 can drive the outer toothed ring 18 to rotate, thereby the first rotating disc 3 can be driven to rotate, the first rotating disc 3 can drive the second rotating disc 4 to rotate the position for exchanging the die 5 through the second sleeve rod 17 and the guide rod 11, workpieces are placed in the die 5 in sequence, when the workpiece is located below the upper die, the punching machine is started to perform punching action, after punching is completed, the motor 9 and the first electromagnetic clutch 13 are continuously started to drive the second rotating disc 4 to rotate, so that the punched workpiece moves to the upper side of the supporting frame 2, at the moment, the motor 9 and the second electromagnetic clutch 14 can drive the outer screw 16 to rotate, the inner screw 10 can be driven to move downwards in the first sleeve rod 15, the second rotating disc 4 is driven to move downwards, the second rotating disc 7 is driven to move upwards, the second rotating disc 4 is driven to move the second rotating disc 4, the workpiece is driven to move the second rotating disc 6, and the inner screw rod 4 can be conveniently moved upwards, the workpiece is driven to change the position for moving the inner screw rod 4 to rotate, and the workpiece is pushed upwards through the second rotating disc is driven to rotate, and the inner screw rod 4 is driven to change the position to rotate, and the inner screw rod 4 is simultaneously to move the workpiece to rotate.

The present utility model is not limited to the above embodiments, and any person skilled in the art can easily think about the changes or substitutions within the technical scope of the present utility model, and the changes or substitutions are intended to be covered by the scope of the present utility model; embodiments of the utility model and features of the embodiments may be combined with each other without conflict. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (6)

1. A stamping die for quick replacement of a workpiece, comprising:

the base (1), the top fixedly connected with support frame (2) of base (1), the top of support frame (2) runs through fixedly connected with first loop bar (15), the inner wall of first loop bar (15) slides and is equipped with interior screw rod (10), the top of interior screw rod (10) rotates and is connected with second rolling disc (4), the top fixedly connected with of second rolling disc (4) a plurality of moulds (5) that use with last module cooperation;

the bottom plate (6) is arranged on the inner wall of the die (5) in a sliding manner, the tops of the die (5) and the second rotating disc (4) are provided with the same sliding rod (7) in a penetrating and sliding manner, and the sliding rod (7) is fixedly connected with the bottom plate (6) and is used for being matched with the bottom plate (6) to eject a workpiece;

the transmission mechanism is arranged on the support frame (2) and used for driving the second rotating disc (4) to lift so that the sliding rod (7) is matched with the support frame (2) to drive the bottom plate (6) to eject out a workpiece, and simultaneously, the die (5) is driven to rotate to change a station.

2. The stamping die for quickly replacing machined parts according to claim 1, wherein the transmission mechanism comprises a T-shaped frame (12) fixedly connected to the inner wall of the supporting frame (2), a second electromagnetic clutch (14) is fixedly connected to the top of the T-shaped frame (12), a motor (9) is fixedly connected to the top of the base (1), the input end of the second electromagnetic clutch (14) extends to the bottom of the T-shaped frame (12) and is in transmission connection with the output end of the motor (9), an outer screw (16) is connected to the inner wall of the inner screw (10) in a threaded manner, and the outer screw (16) is fixedly connected to the output end of the second electromagnetic clutch (14).

3. The stamping die for quickly replacing machined parts according to claim 2, wherein the outer wall of the first sleeve rod (15) is rotatably sleeved with a first rotating disc (3), the top of the first rotating disc (3) is fixedly connected with a plurality of second sleeve rods (17), the inner wall of the second sleeve rods (17) is slidably provided with guide rods (11), and the guide rods (11) are fixedly connected to the bottom of the second rotating disc (4).

4. A stamping die for quickly replacing machined parts according to claim 3, characterized in that a first electromagnetic clutch (13) is fixedly connected to the top of the T-shaped frame (12), the input end of the first electromagnetic clutch (13) extends to the bottom of the T-shaped frame (12) and is in transmission connection with the output end of the motor (9), the output end of the first electromagnetic clutch (13) extends to the top of the supporting frame (2) and is fixedly sleeved with a gear (19), and an outer tooth ring (18) meshed with the gear (19) is fixedly sleeved on the outer wall of the first rotating disc (3).

5. The stamping die for rapid workpiece replacement according to claim 4, characterized in that the output end of the motor (9) is in transmission connection with the input ends of the second electromagnetic clutch (14) and the first electromagnetic clutch (13) through a synchronizing wheel and a synchronizing belt, respectively.

6. The stamping die for rapidly replacing machined parts according to any one of claims 1 to 5, wherein a spring (8) is sleeved on the outer wall of the sliding rod (7), and two ends of the spring (8) are fixedly connected with the outer wall of the sliding rod (7) and the bottom of the second rotating disc (4) respectively.