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CN-224222942-U - Modularized guiding mechanism

CN224222942UCN 224222942 UCN224222942 UCN 224222942UCN-224222942-U

Abstract

The utility model belongs to the technical field of machining, and particularly relates to a modularized guiding mechanism; the utility model provides a modularized guiding mechanism, which comprises a driving assembly, a guiding assembly and a processing assembly, wherein the guiding assembly comprises a mounting plate and a connecting plate, the mounting plate is arranged on the connecting plate, one end part of the connecting plate is arranged on the driving assembly, and the processing assembly is movably arranged on the mounting plate.

Inventors

  • HE WEI
  • XU LU
  • FENG YAOQIANG

Assignees

  • 森德莱焊接技术(广州)有限公司

Dates

Publication Date
20260512
Application Date
20250516

Claims (10)

  1. 1. A modularized guiding mechanism, characterized by comprising the following steps: the driving assembly is used for driving and controlling the guide assembly to work; the guide assembly is used for driving the processing assembly to move under the control of the driving assembly; the processing assembly is used for moving to a processing position to finish processing under the drive of the guide assembly; The guide assembly comprises a mounting plate and a connecting plate, wherein the mounting plate is mounted on the connecting plate, one end of the connecting plate is mounted on the driving assembly, and the processing assembly is movably mounted on the mounting plate.
  2. 2. A modular guide mechanism as claimed in claim 1 wherein the mounting plate is provided with a movable member by which the processing assembly is movably connected to the mounting plate.
  3. 3. A modular guide mechanism as claimed in claim 2, wherein the mounting plate is provided with a limit slot, the movable member is provided with a limit structure, and the limit member is mounted in the limit structure and extends into the limit slot.
  4. 4. A modular guide mechanism as claimed in claim 3 wherein said movable member includes a guide rail and a slide, said limit structure being disposed on said slide, said slide being movably coupled to said guide rail, said tooling assembly being mounted on said slide.
  5. 5. A modular guide mechanism as claimed in claim 4 wherein said drive assembly includes an output end, said output end being connected to said slider.
  6. 6. A modular guide mechanism as claimed in claim 4 wherein said slider is provided with fasteners by which said tooling assembly is removably mounted to said slider.
  7. 7. A modular guide mechanism as claimed in claim 1, wherein the connection plate includes a mounting portion for connecting to the mounting plate and a connection portion for connecting to the drive assembly.
  8. 8. A modular guide mechanism as claimed in claim 7 wherein fasteners are provided on both the mounting portion and the connecting portion, the mounting portion being connected to the mounting plate by the fasteners on the mounting portion, the connecting portion being connected to the drive assembly by the fasteners on the connecting portion.
  9. 9. A modular guide mechanism as claimed in claim 1 wherein said tooling assembly includes an electrode assembly block mounted on said guide assembly, an electrode rod mounted on said electrode assembly block, and an electrode cap at the end of said electrode rod.
  10. 10. A modular guide mechanism as claimed in claim 1, wherein the drive assembly includes an end housing provided with mounting slots for mounting the connection plates.

Description

Modularized guiding mechanism Technical Field The utility model belongs to the technical field of machining, and particularly relates to a modularized guiding mechanism. Background With the rapid development of manufacturing industry, the market has increasingly demanded diversification and personalization of products. In the industries of automobile manufacture, electronic equipment manufacture and the like, parts with different models, sizes and shapes need to be processed on a production line. Traditional fixed guiding mechanism is because its structure is fixed, and the parameter is difficult to adjust, can't adapt to the diversified production demand of product fast. In the traditional guide mechanism, although common guide modes such as a linear guide rail, a sliding bearing and the like can meet certain precision and load requirements, limitations are gradually exposed when complex working conditions and high-precision requirements are met. For example, conventional linear guides tend to vibrate at high speeds, affecting the stability and accuracy of the movement, and often accompanied by loud noise during vibration, affecting operator health, whereas sliding bearings, after prolonged use, suffer from increased clearances due to wear, which reduces the guiding accuracy. In addition, once the traditional guiding mechanism breaks down, the process of maintaining and replacing parts is tedious, so that the equipment is long in downtime, and the production progress is influenced. There is a need for a guide mechanism that can move accurately and stably and that is convenient to maintain and replace parts. Disclosure of utility model In order to overcome the defects of the prior art, the utility model provides a modularized guiding mechanism, which solves the problems that the guiding mechanism in the prior art cannot accurately and stably move and the processes of maintaining and replacing parts are complicated. One aspect of the present utility model provides a modular guide mechanism comprising: the driving assembly is used for driving and controlling the guide assembly to work; the guide assembly is used for driving the processing assembly to move under the control of the driving assembly; the processing assembly is used for moving to a processing position to finish processing under the drive of the guide assembly; The guide assembly comprises a mounting plate and a connecting plate, wherein the mounting plate is mounted on the connecting plate, one end of the connecting plate is mounted on the driving assembly, and the processing assembly is movably mounted on the mounting plate. In this scheme, through the cooperation of drive assembly, direction subassembly, mounting panel, connecting plate and processing subassembly, can make the direction subassembly drive under drive assembly, drive the processing subassembly and remove to realize the position adjustment of processing subassembly fast, realize the accurate steady motion of processing subassembly. In one of the schemes, the mounting plate is provided with a movable part, and the processing assembly is movably connected to the mounting plate through the movable part. In one of the schemes, the mounting plate is provided with a limit groove, the movable part is provided with a limit structure, and the limit part is arranged in the limit structure and extends out of the limit groove. In one of the schemes, the movable part comprises a guide rail and a slide block, the limiting structure is arranged on the slide block, the slide block is movably connected to the guide rail, and the processing assembly is arranged on the slide block. In one aspect, the driving assembly includes an output end, and the output end is connected with the slider. According to the scheme, the movable part on the mounting plate can be used for realizing movable connection of the processing assembly on the mounting plate, the position of the processing assembly can be flexibly adjusted by being matched with the driving assembly, the limiting groove of the mounting plate, the limiting structure of the movable part and the limiting piece are matched, the limiting and guiding functions on the movement of the processing assembly can be achieved, the stability of the processing assembly in the moving process is further improved on the basis of the guide rail and the sliding block, the output end is connected with the sliding block, the output length of the output end of the driving assembly can be directly controlled, the accurate control of the driving assembly on the movement of the processing assembly can be directly realized, the accurate arrival of the processing assembly at the processing position is ensured, and the accuracy and the stability of processing operation are improved. In one of the solutions, the slider is provided with a fastener, and the machining assembly is detachably mounted on the slider through the fastener. In this scheme, through the dismouting structure