CN219484824U - Aluminum rod disc holder mounting hole self-adaptive alignment mechanism - Google Patents

Abstract

The utility model discloses a self-adaptive alignment mechanism for mounting holes of an aluminum rod disc holder, which is matched with aluminum rod disc holder assembly equipment to realize automation of holder assembly and greatly improve the assembly efficiency of the aluminum rod disc holder; the utility model provides an aluminum pole dish support mounting hole self-adaptation alignment mechanism, includes slide and locking module, the activity that the slide matches sets up in the slide rail or the spout of frame upside, the both sides of slide all are provided with the guide way along the length direction of slide, two locking module symmetry sets up in the both sides of slide, and two locking module all fixes and set up in the frame, two locking module's rectilinear motion end all sets up towards the slide, two locking module's rectilinear motion end all is provided with the latch segment that can match the guide way structure, two under the power structure drive of corresponding locking module, with slide locking fixed, make it can not follow the frame to slide; the utility model can be widely applied to the field of aluminum rod disc assembly.

Description

Aluminum rod disc holder mounting hole self-adaptive alignment mechanism

Technical Field

The utility model discloses a self-adaptive alignment mechanism for mounting holes of aluminum rod disc holders, in particular relates to a self-adaptive alignment mechanism for mounting holes of holders in an automatic assembly process of aluminum rod disc holder connectors, and belongs to the technical field of aluminum rod disc assembly.

Background

The support is used as a movable part of the aluminum rod disc, a spring is required to be additionally arranged in a support cavity, namely, the spring is pressed into the inserting hole of the aluminum rod disc by the support, the support cannot be separated from the inserting hole while the support moves, and meanwhile, the requirement that the support cannot fail when the aluminum rod disc rotates at a high speed is met, so that the installation requirement on the support is very high, the support of the aluminum rod disc is assembled by adopting an oblique direction with a certain acute angle with the axis of the support at present, and the assembly is performed manually, so that the assembly efficiency is low.

Disclosure of Invention

The utility model overcomes the defects existing in the prior art, and provides the self-adaptive alignment mechanism for the mounting hole of the aluminum rod disc holder, which is matched with the aluminum rod disc holder assembly equipment to be used, so that the assembly of the holder is automated, and the assembly efficiency of the aluminum rod disc holder is greatly improved.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides an aluminium pole dish holder mounting hole self-adaptation alignment mechanism, includes slide and locking module, the activity that the slide matches sets up in the slide rail or the spout of frame upside, the both sides of slide all are provided with the guide way along the length direction of slide, two locking module symmetry sets up in the both sides of slide, and two locking module all fixes setting up in the frame, two locking module's rectilinear motion end all sets up towards the slide, two locking module's rectilinear motion end all is provided with the latch segment that can match the guide way structure, two under the power structure drive of corresponding locking module, with slide locking fixed, make it can not follow the frame and slide.

Further, the locking module is a linear module.

Further, the cross section of the guide groove is of a circular arc structure, and the outer contour of the acting end of the locking block is matched with the guide groove in the direction.

Further, a ball structure is arranged in a sliding rail or a sliding groove matched with the rack, so that friction force between the sliding plate and the rack is reduced.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the pressure between the ejector rod and the radial plug hole of the aluminum rod disc is utilized to automatically push the clamping and positioning structure of the aluminum rod disc to drive the sliding plate to slide along the bracket and/or drive the aluminum rod disc to rotate, so that the self-adaptive alignment process is completed, finally, the holder assembly part is automatically and completely matched with the radial plug hole of the aluminum rod disc, the aluminum rod disc is assisted to realize automatic assembly of the holder assembly part, and the assembly efficiency of the aluminum rod disc holder is greatly improved.

Drawings

The utility model is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic perspective view of a second embodiment of the present utility model.

In the figure: the sliding plate is 1, the locking module is 2, the guide groove is 3, the sliding rail or the sliding groove is 4, the frame is 5, and the locking block is 6.

Detailed Description

The utility model is further illustrated below in conjunction with specific examples.

Examples: as shown in fig. 1 and 2, the self-adaptive alignment mechanism for the mounting hole of the aluminum rod disc support needs to be matched with the clamping and positioning structure of the aluminum rod disc, namely, after the aluminum rod disc is clamped and positioned, the aluminum rod disc is subjected to primary positioning, in the embodiment, the primary positioning is performed by adopting a sensor, then the pressing mechanism for assembling the support combining piece is matched with the self-adaptive alignment mechanism to complete the self-adaptive alignment process, namely, after the aluminum rod disc is subjected to primary positioning by the aluminum rod disc positioning and clamping mechanism, the center of the radial inserting hole of the support for assembling the support combining piece on the aluminum rod disc is influenced by positioning precision, and has a slight angle and/or displacement deviation with the center of the support, in order to avoid the slight deviation, in order to perform physical inserting alignment on the aluminum rod disc, if the center of the push rod and the radial inserting hole of the support are slightly angled and/or displacement deviation exists in the inserting hole center of the push rod, and simultaneously, the structure of the top end of the push rod is of an upper small conical structure, and a pressure component force can be smoothly applied to the support positioning mechanism under the radial inserting hole of the support, and the force component can be smoothly transferred into the positioning mechanism of the support by the self-adaptive positioning mechanism to the support, and the positioning mechanism can be driven by the positioning component force of the support and the positioning rod. The component force comprises a component force along the axial direction of the aluminum rod disc and a component force along the tangential direction of the aluminum rod disc, wherein the component force along the axial direction just along the horizontal direction of the sliding plate 1 pushes the sliding plate to move, and the component force along the tangential direction drives the aluminum rod disc to rotate, so that the holder assembly can be automatically and completely matched with the radial inserting holes of the aluminum rod disc, and the self-adaptive alignment process is completed.

The ejector rod of the jacking mechanism is arranged under the aluminum rod disc, and is matched with the self-adaptive alignment mechanism to perform physical alignment before the holder connector is assembled, after the physical alignment is completed, the holder connector starts to be fed, and after the feeding is completed, the ejector rod of the jacking mechanism performs secondary action to jack the holder connector into the radial inserting hole of the aluminum rod disc.

Specifically, this embodiment includes slide 1 and locking module 2, the activity that slide 1 matches sets up in slide rail or spout 4 of frame 5 upside, slide 1's both sides all are provided with guide slot 3 along slide 1's length direction, two locking module 2 symmetry sets up in slide 1's both sides, and two locking module 2 is all fixed the setting in frame 5, two locking module 2's rectilinear motion end all sets up towards slide 1, two locking module 2's rectilinear motion end all is provided with the latch segment 6 that can match the guide slot 3 structure, two latch segment 6 is under the power structure drive of corresponding locking module 2, locks slide 1 fixedly, makes it can not slide along frame 5.

The locking module 2 is a linear module and adopts the prior art.

The section of the guide groove 3 is of a circular arc structure, and the outer contour of the acting end of the locking block 6 is matched with the guide groove 3 in the direction.

The sliding plate 1 is provided with a ball structure in a sliding rail or sliding groove 4 matched with the frame 5, so that friction force between the sliding plate 1 and the frame is reduced.

According to the utility model, the clamping and positioning structure where the aluminum rod disc is positioned is automatically pushed to drive the sliding plate 1 to slide along the bracket 5 and/or drive the aluminum rod disc to rotate by utilizing the pressure between the ejector rod and the radial plug hole of the aluminum rod disc, so that the self-adaptive alignment process is completed, and finally, the holder assembly piece and the radial plug hole of the aluminum rod disc can be completely matched, the aluminum rod disc is assisted to realize the automatic assembly of the holder assembly piece, and the assembly efficiency of the aluminum rod disc holder is greatly improved.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (4)

1. The utility model provides an aluminium pole dish holder mounting hole self-adaptation alignment mechanism, its characterized in that, including slide (1) and locking module (2), the activity that slide (1) match sets up in slide rail or spout (4) of frame (5) upside, the both sides of slide (1) all are provided with guide way (3) along the length direction of slide (1), two locking module (2) symmetry sets up in the both sides of slide (1), and two locking module (2) are all fixed to be set up on frame (5), two the rectilinear motion end of locking module (2) all sets up towards slide (1), two all be provided with latch segment (6) that can match guide way (3) structure on the rectilinear motion end of locking module (2), two latch segment (6) are under the power structure drive of corresponding locking module (2), lock slide (1) fixed, make it can not slide along frame (5).

2. An aluminium pole disc holder mounting hole self-adapting alignment mechanism according to claim 1, characterized in that the locking module (2) is a linear module.

3. The self-adaptive alignment mechanism for the mounting hole of the aluminum pole disc holder according to claim 1, wherein the cross section of the guide groove (3) is of a circular arc structure, and the outer contour of the acting end of the locking block (6) is matched with the guide groove (3) in the direction.

4. The self-adaptive alignment mechanism for the mounting hole of the aluminum rod tray support according to claim 1, wherein a ball structure is arranged in a sliding rail or sliding groove (4) matched with the rack (5) of the sliding plate (1), so that friction force between the sliding plate and the rack is reduced.