CN216027433U - Punch forming device for processing lap joint copper pipe - Google Patents

Abstract

The utility model provides a punch forming device for processing a lapped copper pipe, which comprises: a frame; a feeding device; a mold platform; a stamping power device; the feeding device and the die platform are arranged on the frame in a sliding mode; the feeding device is used for receiving the lapped copper pipes and driving the lapped copper pipes to slide, the die platform comprises at least two punching assemblies, the punching assemblies are used for receiving the end parts of the lapped copper pipes, and the die platform slides to enable the punching power device to be correspondingly connected with the punching assemblies respectively; the feeding device slides to drive the end part of the lap joint copper pipe to sequentially correspond to each punching assembly, and the punching power device is correspondingly connected with the punching assemblies and drives the punching assemblies to punch holes on the end parts of the lap joint copper pipes. By applying the technical scheme, the punch forming device has high processing efficiency and low requirement on the proficiency of operators and is suitable for large-scale processing.

Description

Punch forming device for processing lap joint copper pipe

Technical Field

The utility model relates to a punch forming device for processing a lapped copper pipe.

Background

The lap joint copper pipe is a wiring device used in the power industry and is mainly used for circuit connection with larger power. The lap joint copper pipe includes copper pipe body and the tip that is located copper pipe body both ends, and the tip is the flat, and has seted up a plurality of perforation that are used for the wiring on the tip. The perforation quantity of overlap joint copper pipe is more, add man-hour, the tip of overlap joint copper pipe need use a plurality of punching device to punch a hole, when punching a hole at every turn, operating personnel all need install overlap joint copper pipe on punching device and fixed, restart punching device afterwards punches a hole, take off again afterwards and install to another punching device on, under this kind of processing mode, low efficiency, and because the experience of different operating personnel and the difference of proficiency, the off normal probably appears in the hole site that the overlap joint copper pipe punched a hole, the defective rate is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides a punch forming device for processing an overlapped copper pipe.

In order to solve the technical problem, the utility model provides a punch forming device for processing a lapped copper pipe, which comprises:

a frame;

a feeding device;

a mold platform;

a stamping power device;

the feeding device and the die platform are arranged on the frame in a sliding mode;

the feeding device is used for receiving the lapped copper pipes and driving the lapped copper pipes to slide, the die platform comprises at least two punching assemblies, the punching assemblies are used for receiving the end parts of the lapped copper pipes, and the die platform slides to enable the punching power device to be correspondingly connected with the punching assemblies respectively;

the feeding device slides to drive the end part of the lap joint copper pipe to sequentially correspond to each punching assembly, and the punching power device is correspondingly connected with the punching assemblies and drives the punching assemblies to punch holes on the end parts of the lap joint copper pipes.

In a preferred embodiment, the die platform includes a sliding base and a receiving upper seat, the sliding base slides on the frame, the receiving upper seat is connected to the sliding base and defines a stamping space for receiving the end portion of the overlapped copper tube, and the punching assemblies are respectively arranged in the stamping space.

In a preferred embodiment, the punching assembly further includes a movable mold core slidably disposed on the upper receiving seat, and when the end of the overlapped copper pipe corresponds to the movable mold core, the punching power device correspondingly presses against the movable mold core to drive the movable mold core to punch the end of the overlapped copper pipe.

In a preferred embodiment, the punching assembly further includes an elastic member connected between the movable mold core and the upper receiving seat, and the elastic member accumulates a restoring force when the punching power device is correspondingly pressed against the movable mold core.

In a preferred embodiment, the feeding device slides on the frame in a first direction and a second direction, and the first direction is perpendicular to the second direction.

In a preferred embodiment, the feeding device comprises a first sliding seat sliding on the machine frame along a first direction, and the feeding device further comprises a second sliding seat sliding on the first sliding seat along a second direction, and the second sliding seat is used for receiving the lapping copper pipe.

In a better embodiment, the feeding device comprises a first motor, a first screw rod, a second motor and a second screw rod, the first motor and the first screw rod are connected to the frame, the second motor and the second screw rod are connected to the first sliding seat, the first screw rod is linked with the first motor and the first sliding seat so as to drive the first sliding seat to slide along a first direction, and the second screw rod is linked with the second motor and the second sliding seat so as to drive the second sliding seat to slide along a second direction.

In a preferred embodiment, the second sliding seat comprises two clamping seats respectively connected to two ends of the lapped copper pipe, each clamping seat comprises a fixed clamping seat, a sliding clamping seat and a driving cylinder, and the driving cylinder is linked with the sliding clamping seats to enable the ends of the lapped copper pipe to be clamped between the fixed clamping seats and the sliding clamping seats.

In a better embodiment, the mold platform comprises a mold changing motor, the mold changing motor and a mold changing screw rod are connected to the frame, and the mold changing screw rod is linked with the mold changing motor and the sliding base so as to drive the sliding base to slide.

Compared with the prior art, the technical scheme of the utility model has the following beneficial effects:

the punch forming device comprises a frame, a feeding device, a die platform and a punching power device. The feeding device and the die platform are arranged on the rack in a sliding mode, the feeding device is used for receiving the lap joint copper pipes and driving the lap joint copper pipes to slide, the die platform comprises at least two punching assemblies, the punching assemblies are used for receiving the end portions of the lap joint copper pipes, the die platform slides to enable the punching power devices to respectively correspond to and connect the punching assemblies, the feeding device slides to enable the end portions of the lap joint copper pipes to sequentially correspond to each punching assembly, and the punching power devices correspondingly connect the punching assemblies and drive the punching assemblies to punch holes in the end portions of the lap joint copper pipes. The stamping forming device is high in machining efficiency, low in requirement on proficiency of operators and suitable for large-scale machining.

Drawings

FIG. 1 is a perspective view of a press molding apparatus in a preferred embodiment of the present invention;

FIG. 2 is a perspective view of a feeding device in accordance with a preferred embodiment of the present invention;

FIG. 3 is a schematic perspective view of a die platform and a stamping power unit in accordance with a preferred embodiment of the present invention;

figure 4 is a perspective view of a punch assembly in accordance with a preferred embodiment of the present invention.

Detailed Description

The utility model is further described with reference to the following figures and detailed description.

Certain directional terms used hereinafter to describe the drawings, such as "inner", "outer", "above", "below", and other directional terms, will be understood to have their normal meaning and refer to those directions as they normally relate to when viewing the drawings. Unless otherwise indicated, the directional terms described herein are generally in accordance with conventional directions as understood by those skilled in the art.

The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

Referring to fig. 1 to 4, a stamping forming apparatus 100 for processing an overlapped copper pipe 200, the stamping forming apparatus 100 includes a frame 10, a feeding device 20, a die platform 30 and a stamping power device 40. The feeding device 20 and the die platform 30 are respectively arranged on the frame 10 in a sliding manner. The feeding device 20 is used for receiving the overlapped copper pipe 200 and driving the overlapped copper pipe 200 to slide, the die platform 30 comprises at least two punching assemblies 31, the punching assemblies 31 are used for receiving the end portions 210 of the overlapped copper pipe 200, the die platform 30 slides to enable the punching power device 40 to be respectively and correspondingly connected with the punching assemblies 31, the feeding device 20 slides to drive the end portions 210 of the overlapped copper pipe 200 to sequentially correspond to each punching assembly 31, and the punching power device 40 is correspondingly connected with the punching assemblies 31 and drives the punching assemblies 31 to punch holes in the end portions 210 of the processed overlapped copper pipe 200.

During the machining process, the overlapped copper tube 200 is driven by the feeding device 20 to correspond to each punching assembly 31 in turn, and each punching assembly 31 punches holes with different positions and different hole diameters on the overlapped copper tube 200. The die platform 30 slides to make each punching assembly 31 correspondingly connected to the punching power device 40 in sequence, and the punching power device 40 is an air pressure device, which is not described herein. In this embodiment, the end portion 210 of the lap copper tube 200 has been flattened in advance, and the hole locations arranged on the end portion 210 of the lap copper tube 200 may be punched by different punching assemblies 31, in this embodiment, the die platform 30 includes three punching assemblies 31, and in some simple alternatives, other numbers of punching assemblies 31 may also be arranged, which is not described herein again.

In this embodiment, the die platform 30 includes a sliding base 32 and a receiving upper seat 33, the sliding base 32 slides on the frame 10, the receiving upper seat 33 is connected to the sliding base 32 and defines a stamping space 34 for receiving the end 210 of the overlapped copper tube 200, the feeding device 20 drives the end 210 of the overlapped copper tube 200 into and out of the stamping space 34, and the punching assemblies 31 are respectively disposed in the stamping space 34. In this embodiment, the mold platform 30 includes a mold changing motor 35 and a mold changing screw 36, the mold changing motor 35 and the mold changing screw 36 are connected to the frame 10, and the mold changing screw 36 links the mold changing motor 35 and the slide base 32 to drive the slide base 32 to slide. In this embodiment, the punching assemblies 31 are arranged at intervals along a straight line, and the die-changing motor 35 can drive the die-changing screw 36 to rotate so as to drive the sliding base 32 to slide relative to the frame 10.

The punching assembly 31 further includes a movable mold core 311 slidably disposed on the upper receiving seat 33, and when the end portion 210 of the overlapped copper tube 200 corresponds to the movable mold core 311, the punching power device 40 correspondingly presses the movable mold core 311 to drive the movable mold core 311 to punch and process the end portion 210 of the overlapped copper tube 200. The punching assembly 31 further includes an elastic member 312 connected between the movable mold core 311 and the upper receiving seat 33, and when the punching power device 40 is correspondingly pressed against the movable mold core 311, the elastic member 312 accumulates a restoring force.

When the punching power device 40 is not started, the elastic member 312 drives the movable mold core 311 to move upward so as to enable the end 210 of the lap joint copper pipe 200 to extend into the punching space 34, after the punching is completed, the punching power device 40 leaves the movable mold core 311, and the elastic member 312 releases the elastic force so as to move the movable mold core 311 upward.

The feeding device 20 slides on the frame 10 in a first direction and a second direction, the first direction being perpendicular to the second direction. The feeding device 20 can drive the overlapped copper tube 200 to displace on the plane, and the end 210 of the overlapped copper tube 200 moves to extend into the punching space 34, in this embodiment, the second direction is coincident with the axial direction of the overlapped copper tube 200. In this embodiment, the feeding device 20 includes a first sliding seat 21 sliding on the frame 10 along a first direction, and the feeding device 20 further includes a second sliding seat 22 sliding on the first sliding seat 21 along a second direction, wherein the second sliding seat 22 is used for receiving the overlapping copper tube 200. The feeding device 20 includes a first motor 23, a first screw 24, a second motor 25 and a second screw 26, the first motor 23 and the first screw 24 are connected to the frame 10, the second motor 25 and the second screw 26 are connected to the first sliding seat 21, the first screw 24 links the first motor 23 and the first sliding seat 21 to drive the first sliding seat 21 to slide along the first direction, and the second screw 26 links the second motor 25 and the second sliding seat 22 to drive the second sliding seat 22 to slide along the second direction. The second sliding seat 22 includes two clamping seats 221 respectively connected to the two end portions 210 of the lap joint copper pipe 200, the clamping seat 221 includes a fixed clamping seat 2211, a sliding clamping seat 2212 and a driving cylinder 2213, and the driving cylinder 2213 is linked with the sliding clamping seat 2212 so as to enable the end portion 210 of the lap joint copper pipe 200 to be clamped between the fixed clamping seat 2211 and the sliding clamping seat 2212.

When the copper pipe is processed, the two end portions 210 of the overlapped copper pipe 200 are connected to the clamping seats 221 of the second sliding seat 22, the punch forming device 100 is started, the die platform 30 slides to enable one of the punching assemblies 31 to correspond to the punching power device 40, the feeding device 20 slides to drive the end portion 210 of the overlapped copper pipe 200 to extend into the punching space 34 and correspond to the movable die core 311, the punching power device 40 presses down to drive the movable die core 311 to punch the end portion 210 of the overlapped copper pipe 200, after the punching is completed, the punching power device 40 moves upwards, the movable die core 311 is driven by the elastic piece 312 to move upwards, and the feeding device 20 slides again to enable the end portion 210 of the overlapped copper pipe 200 to correspond to the other punching assembly 31 to continue the punching process until the punching is completed.

The above description is only a preferred embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any person skilled in the art can make insubstantial changes in the technical scope of the present invention within the technical scope of the present invention, and the actions infringe the protection scope of the present invention are included in the present invention.

Claims (9)

1. The utility model provides a stamping forming device for processing overlap joint copper pipe which characterized in that includes:

a frame;

a feeding device;

a mold platform;

a stamping power device;

the feeding device and the die platform are arranged on the frame in a sliding mode;

the feeding device is used for receiving the lapped copper pipes and driving the lapped copper pipes to slide, the die platform comprises at least two punching assemblies, the punching assemblies are used for receiving the end parts of the lapped copper pipes, and the die platform slides to enable the punching power device to be correspondingly connected with the punching assemblies respectively;

the feeding device slides to drive the end part of the lap joint copper pipe to sequentially correspond to each punching assembly, and the punching power device is correspondingly connected with the punching assemblies and drives the punching assemblies to punch holes on the end parts of the lap joint copper pipes.

2. A press forming apparatus for processing overlapping copper tubes as defined in claim 1, wherein: the die platform comprises a sliding base and a bearing upper seat, the sliding base slides on the rack, the bearing upper seat is connected with the sliding base and defines a punching space for receiving the end part of the lapped copper pipe, and the punching assemblies are respectively arranged in the punching space.

3. A press forming apparatus for processing overlapping copper tubes as defined in claim 2, wherein: the punching assembly further comprises a movable die core which is arranged on the bearing upper seat in a sliding mode, and when the end portion of the lap joint copper pipe corresponds to the movable die core, the punching power device correspondingly presses the movable die core to drive the movable die core to punch and process the end portion of the lap joint copper pipe.

4. A press forming apparatus for processing overlapping copper tubes as defined in claim 3, wherein: the punching assembly further comprises an elastic piece connected between the movable die core and the bearing upper seat, and when the punching power device correspondingly presses against the movable die core, the elastic piece accumulates reset force.

5. A press forming apparatus for processing overlapping copper tubes as defined in claim 1, wherein: the feeding device slides on the frame along a first direction and a second direction, and the first direction is perpendicular to the second direction.

6. A punch forming apparatus for processing overlapping copper tubes as defined in claim 5, wherein: the feeding device comprises a first sliding seat sliding on the rack along a first direction, and the feeding device further comprises a second sliding seat sliding on the first sliding seat along a second direction, wherein the second sliding seat is used for receiving and overlapping the copper pipe.

7. A press forming apparatus for processing overlapping copper tubes as defined in claim 6, wherein: the feeding device comprises a first motor, a first screw rod, a second motor and a second screw rod, the first motor and the first screw rod are connected to the frame, the second motor and the second screw rod are connected to a first sliding seat, the first screw rod is linked with the first motor and the first sliding seat to enable the first sliding seat to slide along a first direction, and the second screw rod is linked with the second motor and the second sliding seat to enable the second sliding seat to slide along a second direction.

8. A press forming apparatus for processing overlapping copper tubes as defined in claim 6, wherein: the second sliding seat comprises two clamping seats which are respectively connected to two end portions of the lap joint copper pipe, each clamping seat comprises a fixed clamping seat, a sliding clamping seat and a driving cylinder, and the driving cylinders are linked with the sliding clamping seats to enable the end portions of the lap joint copper pipe to be clamped between the fixed clamping seats and the sliding clamping seats.

9. A press forming apparatus for processing overlapping copper tubes as defined in claim 2, wherein: the die platform comprises a die changing motor, the die changing motor and a die changing screw rod are connected to the frame, and the die changing screw rod is linked with the die changing motor and the sliding base so as to drive the sliding base to slide.

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