CN214603054U - Processing and assembling integrated equipment applied to magnesium alloy bracket - Google Patents

Abstract

The utility model discloses a processing and assembling integrated device applied to a magnesium alloy bracket, which comprises a CNC (computer numerical control) processing center, a feeding vibration disc and an assembling part separating mechanism; the feeding vibration disc is provided with a disc-shaped flow passage for shaking and feeding materials through the vertical vibration of the pulse electromagnet; the assembly part separating mechanism comprises a positioning jig and a material taking assembly; the positioning jig moves from the position of the material taking assembly to the stamping station through the rail; the material taking assembly comprises a manipulator, and the manipulator clamps the workpiece from the feeding vibration disc to the positioning jig; the servo press comprises a stamping head driven by a servo motor; the stamping head stamps the workpiece transplanted to the stamping station to an installation position; the stamping head is assembled on the slide rail and moves to a stamping station along the slide rail in the horizontal direction; the sensing assembly comprises a press-in height sensor; the press-in height sensor is arranged on the punching head for detecting the punching stroke. This structure improves magnesium alloy support production efficiency, avoids the transportation and the cost of labor between different processes, also reduces its in-process quality risk simultaneously.

Description

Processing and assembling integrated equipment applied to magnesium alloy bracket

Technical Field

The utility model relates to a machining equipment field, especially an use processing assembly integrated equipment on magnesium alloy support.

Background

In the machining process of mechanical parts, the pressing pin is adopted for positioning, so that the reference unification in the technological process is easy to realize. The mutual position precision of each processing surface of the workpiece is ensured, and the device has the advantages of large supporting surface, good supporting rigidity, simple and reliable structure, convenience in workpiece loading and unloading and the like, so that the device is widely applied to the processing technology of parts such as a box body, a bracket, a cover plate and the like.

At present, when positioning pins on a magnesium alloy bracket are machined and assembled, a plurality of clamps need to be installed on a machine tool, and the clamps need to be installed and clamped for multiple times, so that the operation difficulty is increased, the cost of an enterprise is increased, the labor intensity is increased, and the production efficiency is reduced; some clamps have unreasonable structures and cannot effectively position the air chamber support. Improvements are needed to address these deficiencies.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is: the processing and assembling integrated equipment applied to the magnesium alloy bracket is provided, and the problems of positioning, mounting and assembling of a press pin on the magnesium alloy bracket are solved.

The technical scheme of the utility model is that: a machining and assembling integrated device applied to a magnesium alloy bracket is used for machining a press pin on the magnesium alloy bracket and installing the press pin on the magnesium alloy bracket through a series of automatic control structures, and comprises a main body, a main body and a main body, wherein the main body is in butt joint with a CNC (computer numerical control) machining center: a feeding vibration disc and an assembly part separating mechanism.

The CNC machining center is used for machining the press pin, the press pin is placed on a clamp of the CNC machining center, and machining is carried out on the press pin.

A feeding vibration disk configured as a spiral flow passage for shaking feeding by vertical vibration of a pulse electromagnet; and the pressing pin processed by the CNC machining center enters the feeding vibration disc, and is conveyed to the assembly part separating mechanism through the vibration of the feeding vibration disc.

The assembly part separating mechanism comprises a positioning jig and a material taking assembly; the material taking assembly clamps the pressing pin conveyed by the material loading vibration disc and conveys the pressing pin to the positioning jig. Specifically, the positioning jig is moved to a stamping station from the position of the material taking assembly through a rail; the material taking assembly comprises a manipulator for clamping a press pin, the manipulator clamps the press pin to the positioning jig from the feeding vibration disc, and the press pin falls into a runner cavity on the positioning jig.

The servo press comprises a stamping head driven by a servo motor; the stamping head stamps the pressing pin transplanted to the stamping station to an installation position; the stamping head is assembled on the sliding rail and moves to the stamping station along the sliding rail in the horizontal direction.

A sensing assembly including a press-in height sensor; the pressing height sensor is arranged on the stamping head and used for detecting the stamping stroke.

Preferably, the punching head comprises a punching rod inserted in the sleeve; the stamping rod is provided with a floating sleeve spring; the stamping rod is pressed downwards to enable the spring to deform, and the stamping rod resets and the spring recovers deformation.

Preferably, the punching head further comprises a guide rod; the guide rod and the stamping rod are arranged in parallel and are linked with each other; the guide rod is assembled in a guide sleeve to conduct telescopic guiding of the stamping head.

Preferably, the positioning jig comprises a runner cavity; the press pin falls into the runner cavity, and the press pin is pushed out of the runner cavity by the punching head.

Preferably, the material taking assembly comprises a material taking cylinder; the material taking cylinder extends out to drive the manipulator to descend, clamp and press the pin.

Preferably, the sensing assembly further comprises a scrap detecting sensor for detecting machining scrap at the stamping station.

The utility model has the advantages that: the production efficiency of the magnesium alloy bracket is improved, the transfer and labor cost among different processes is avoided, and meanwhile, the quality risk in the process is also reduced.

Drawings

The invention will be further described with reference to the following drawings and examples:

FIG. 1 is a structural diagram of a processing and assembling integrated device applied to a magnesium alloy bracket;

FIG. 2 is an assembly view of the structure at the punch head;

wherein: 1. CNC machining center; 2. a feeding vibration disc; 3. an assembly separation mechanism; 31. positioning a jig; 32. a material taking assembly; 4. a servo press; 41. punching a head; 42. a slide rail; 43. a spring; 44. a guide rod.

Detailed Description

The utility model discloses a preferred embodiment 1:

a machining and assembling integrated device applied to a magnesium alloy bracket is used for machining a press pin on the magnesium alloy bracket and installing the press pin on the magnesium alloy bracket through a series of automatic control structures, and comprises a main body, a main body and a main body, wherein the main body is in butt joint with a CNC (computer numerical control) machining center 1: a feeding vibration plate 2 and a fitting part separating mechanism 3.

The CNC machining center 1 is used for machining a press pin, the press pin is placed on a clamp of the CNC machining center 1, and machining is carried out on the press pin.

The feeding vibration disk 2 is configured into a spiral flow channel which is vibrated and fed by the vertical vibration of the pulse electromagnet; the pressing pin processed by the CNC machining center 1 enters the feeding vibration disc 2, and is conveyed to the assembly part separating mechanism 3 through the vibration of the feeding vibration disc 2.

The assembly part separating mechanism 3 comprises a positioning jig 31 and a material taking assembly 32; the material taking assembly 32 clamps the pressing pin conveyed by the feeding vibration disc 2 and conveys the pressing pin to the positioning jig 31. Specifically, the take-out assembly 32 includes a take-out cylinder that extends out to drive the robot down to clamp the press pin. The positioning jig 31 moves to a stamping station from the position of the material taking assembly 32 through a rail, the manipulator clamps and presses the pin to the positioning jig from the feeding vibration disc 2, and the positioning jig 31 comprises a flow channel cavity. The press pin falls into the runner cavity, and the press pin is pushed out of the runner cavity by the punching head.

The servo press 4 comprises a press head 41 driven by a servo motor; the stamping head 41 stamps the pressing pin transplanted to the stamping station to an installation position; the ram 41 is mounted on a slide rail 42, which is moved horizontally along the slide rail 42 to a ram station. The punch 41 includes a punch rod inserted in the sleeve; the stamping rod is provided with a floating sleeve spring 43; the stamping rod is pressed downwards to enable the spring to deform, and the stamping rod resets and the spring recovers deformation. The punch head further includes a guide rod 44; the guide rod 44 and the stamping rod are arranged in parallel and are linked with each other; the guide rod 44 is fitted in a guide sleeve for telescopic guidance of the ram.

A sensing assembly including a press-in height sensor; the pressing height sensor is arranged on the stamping head and used for detecting the stamping stroke. The sensing assembly further comprises a scrap detection sensor for detecting machining scraps on the stamping station.

The utility model discloses a preferred embodiment 2:

the utility model provides an use integrated equipment of processing assembly on magnesium alloy support, includes CNC numerical control machining center 1, servo press 4 and material loading vibration dish 2, 1 combination of CNC numerical control machining center servo press 4 with material loading vibration dish 2 forms integrated equipment, CNC numerical control machining center 1 with the part that material loading vibration dish 2 is connected is equipped with and assembles part separating mechanism 3.

The operation sequence is as follows:

the feeding vibration disc 2 vibrates to arrange the press pins to be assembled in order at the same posture and convey the press pins to the assembly part separating mechanism 3, and after the press pins are machined in the CNC machining center 1, the press pins are adjusted to be assembled through overturning.

The manipulator moves to the material taking position through the cylinder and takes materials by downward probing.

And returning after material taking, translating the servo press to a press-fitting position through the air cylinder, and downwards probing to press out the assembly part.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical concepts of the present invention be covered by the claims of the present invention.

Claims (6)

1. The utility model provides an use processing assembly integrated equipment on magnesium alloy support, includes with the CNC machining center butt joint: the feeding vibration disc and the assembly part separating mechanism; the method is characterized in that:

a feeding vibration disk configured as a spiral flow passage for shaking feeding by vertical vibration of a pulse electromagnet;

the assembly part separating mechanism comprises a positioning jig and a material taking assembly;

the positioning jig moves from the position of the material taking assembly to the stamping station through the rail; the material taking assembly comprises a manipulator for clamping a workpiece, and the manipulator clamps the workpiece from the feeding vibration disc to the positioning jig;

the servo press comprises a stamping head driven by a servo motor; the stamping head stamps the workpiece transplanted to the stamping station to an installation position; the stamping head is assembled on the slide rail and moves to a stamping station along the slide rail in the horizontal direction;

a sensing assembly including a press-in height sensor; the pressing height sensor is arranged on the stamping head and used for detecting the stamping stroke.

2. The integrated equipment for processing and assembling applied to the magnesium alloy bracket according to claim 1, wherein: the stamping head comprises a stamping rod inserted in the sleeve; the stamping rod is provided with a floating sleeve spring; the stamping rod is pressed downwards to enable the spring to deform, and the stamping rod resets and the spring recovers deformation.

3. The integrated equipment for processing and assembling applied to the magnesium alloy bracket according to claim 2, wherein: the stamping head also comprises a guide rod; the guide rod and the stamping rod are arranged in parallel and are linked with each other; the guide rod is assembled in a guide sleeve to conduct telescopic guiding of the stamping head.

4. The integrated equipment for processing and assembling applied to the magnesium alloy bracket according to claim 1, wherein: the positioning jig comprises a flow channel cavity; the workpiece falls into the runner cavity, and the stamping head pushes the workpiece out of the runner cavity.

5. The integrated equipment for processing and assembling applied to the magnesium alloy bracket according to claim 1, wherein: the material taking assembly comprises a material taking cylinder; the material taking cylinder stretches out to drive the manipulator to descend to clamp the workpiece.

6. The integrated equipment for processing and assembling applied to the magnesium alloy bracket according to claim 1, wherein: the sensing assembly further comprises a scrap detection sensor for detecting machining scraps on the stamping station.

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