CN203707551U - Device for detecting front direction and rear direction of plastic part - Google Patents

Abstract

The utility model discloses a device for detecting a front direction and a rear direction of a plastic part. The device is mounted behind a vibration disc for sequencing, and carries out comparison detection for the plastic part through using a staggering mechanism and optical sensing to detect the plastic part, if the plastic part is found out to be wrongly arranged in direction or in front and rear direction, the plastic part will be turned over to a right position through a turning over mechanism, so as to guaranteed smooth operation of a pin insertion process and subsequent processes. The device comprises a linear vibration material feeding device, the staggering mechanism, a material pushing device, a 180 degree rotation mechanism, an optical sending device and a staggering device. With the device, a plastic part which is putted in a wrong direction is prevented from going into the next production process, so that an automatic machine is guaranteed to produce smoothly, and the usage life of the device is prolonged.

Description

Plastic part both forward and reverse directions checkout gear

Technical field

The utility model relates to a kind of plastic part both forward and reverse directions checkout gear, relates in particular to automotive connector plastic part both forward and reverse directions checkout gear in the full-automatic mounting equipment of a kind of automotive connector.

Background technology

In traditional connector automatic Composition production process, plastic part directly enters in the line slideway of conveying system after vibrating disk sequence, but most of plastic part had directivity and positive and negative requirement before contact pin.When vibrating disk auto-sequencing, can inevitably there be the misarrangement direction of certain ratio and the materials and parts of positive and negative.If these plastic parts can not be found in time, directly enter contact pin link, will cause badly, even get stuck, affect production efficiency and even damage board parts.

Utility model content

The purpose of this utility model is in order to overcome the deficiencies in the prior art, provides a kind of and detects and the correct plastic part both forward and reverse directions checkout gear of placing materials and parts direction and positive and negative.

In order to achieve the above object, the technical solution adopted in the utility model is:

A kind of plastic part both forward and reverse directions checkout gear, be arranged on after vibrating disk sequence, plastic part is carried out to comparison check, check plastic part by dislocation mechanism and optical fiber induction, as find that there is the plastic part of misarrangement direction or positive and negative, by switching mechanism, plastic part is turn to tram, to guarantee that the smooth and easy of contact pin and subsequent handling carries out.Formed by straight-line oscillation feeding device, dislocation mechanism, material-pulling device, 180 degree rotating mechanisms, optical fiber induction installation and dislocation device.

Further, described straight-line oscillation feeding device is mainly made up of vibrating motor and line slideway.

Further, described dislocation mechanism is between straight-line oscillation feeding device and optical fiber induction installation, the dislocation material folding groove original position of mechanism and the line slideway of straight-line oscillation feeding device are in same position, and the final shift position of material folding groove and optical fiber induction installation are in same position.

Further, described material-pulling device is between optical fiber induction installation and 180 degree rotating mechanisms, and its home position and optical fiber induction installation are positioned at same position, and the position after its pusher and 180 degree rotating mechanisms are in same position.

Further, 180 described degree rotating mechanisms are mainly made up of rotary cylinder and material folding groove, be associated with preposition optical fiber induction installation, if optical fiber induction installation detects the product of positional fault, signal can be communicated to rotary cylinder, this cylinder can carry out 180 degree upsets to product, if instead detect normally, turn over function can not start.

Further, after described dislocation device is positioned at 180 degree rotating mechanisms, its original position and 180 degree rotating mechanisms are in same position, and its misalignment position and subsequent product moving track are in same position.

Compared with prior art, the utility model has the advantages that:

1. can 100% avoid the plastic part that misplaces direction to enter next contact pin production link, guaranteed that automaton continues smooth and easy production.

Avoid, because of misplace that plastic part direction causes bad and the damage to follow-up contact pin mechanism, extending machine service life.

Accompanying drawing explanation

Fig. 1 is the structure chart of plastic components both forward and reverse directions checkout gear of the present utility model;

Fig. 2 is the forward figure of the plastic components that detects of plastic components both forward and reverse directions checkout gear of the present utility model;

Fig. 3 is the converse digraph of the plastic components that detects of plastic components both forward and reverse directions checkout gear of the present utility model.

Embodiment

In order to understand the technical solution of the utility model better, be also described in detail by reference to the accompanying drawings below by specific embodiment:

Referring to figs. 1 to Fig. 3, plastic part both forward and reverse directions checkout gear of the present utility model, is made up of straight-line oscillation feeding device 1, dislocation mechanism 2, material-pulling device 3,180 degree rotating mechanisms 4, optical fiber induction installation 5 and dislocation device 6, wherein:

Plastic part comprises grid part 7 and unthreaded hole part 8, and wherein, in testing process, grid part 7 is light tight, unthreaded hole part 8 printing opacities.

Further, described straight-line oscillation feeding device 1 is mainly made up of vibrating motor 9 and line slideway 10.

Further, described dislocation mechanism position 2 is between straight-line oscillation feeding device 1 and optical fiber induction installation 5, dislocation material folding groove 11 original positions of mechanism 2 and the line slideway 10 of straight-line oscillation feeding device 1 are in same position, and the final shift position of material folding groove 11 and optical fiber induction installation 5 are in same position.

Further, described material-pulling device 3 is between optical fiber induction installation 5 and 180 degree rotating mechanisms 4, and its home position and optical fiber induction installation 5 are positioned at same position, and the position after its pusher and 180 degree rotating mechanisms 4 are in same position.

Further, 180 described degree rotating mechanisms 4 are mainly made up of rotary cylinder 12 and material folding groove 13, be associated with preposition optical fiber induction installation 5, if optical fiber induction installation 5 detects the product of positional fault, signal can be communicated to rotary cylinder 12, this rotary cylinder 12 can carry out 180 degree upsets to product, if instead detect normally, turn over function can not start.

Further, after described dislocation device 6 is positioned at 180 degree rotating mechanisms 4, its original position and 180 degree rotating mechanisms 4 are in same position, and its misalignment position and subsequent product moving track are in same position.

Particularly, the plastic part both forward and reverse directions checkout gear that the utility model provides, by the double-edged difference of comparison plastic body, and difference face is set to optical fiber test point, and product to both forward and reverse directions mistake, be turned to tram and transferred next station by switching mechanism.

First by straight-line oscillation vibrator supply device 1, plastic part is passed through to vibrating motor 9 smooth and easy displacement in line slideway 10.

Dislocation mechanism 2, by the plastic part of continuous feed from line slideway 10, shifts optical fiber induction checkout gear 5 onto one by one.

Optical fiber induction installation 5 is for the discrepancy of program setting, and product detects comparison one by one, finds that there is the inconsistent rotary cylinder 12 in 180 degree rotating mechanisms 4 that signal can be given to.

Optical fiber induction installation 5 detects complete single plastic part, is pushed into 180 degree rotating mechanisms 4 by material-pulling device 3.

180 degree rotating mechanisms 4 are mainly made up of rotary cylinder 12 and material folding groove 13, be associated with preposition optical fiber induction installation 5, if optical fiber induction installation 5 detects the product of positional fault, signal can be communicated to rotary cylinder 12, this rotary cylinder 12 can carry out 180 degree upsets to product, if instead detect normally, turn over function can not start.

The plastic part having detected will misplace by dislocation device 6, and conveyance is to the next station that needs processing.

Claims (1)

1. a plastic part both forward and reverse directions checkout gear, it is arranged on after vibrating disk sequence, it is characterized in that, and described plastic part both forward and reverse directions checkout gear comprises:

Straight-line oscillation feeding device, described straight-line oscillation feeding device is mainly made up of vibrating motor and line slideway, and described straight-line oscillation feeding device is for being shifted to plastic components;

Dislocation mechanism, the material folding groove original position of described dislocation mechanism is with the line slideway of straight-line oscillation feeding device in same position, and described dislocation mechanism, for by the plastic part from line slideway continuous feed, shifts one by one optical fiber onto and responds to checkout gear;

Optical fiber induction installation, the final shift position of material folding groove of described optical fiber induction installation and the described mechanism that misplaces is in same position, and described optical fiber induction installation is for detecting comparison for discrepancy to product;

Material-pulling device, it is for detecting complete plastic part pusher to 180 degree rotating mechanism at described optical fiber induction installation;

180 degree rotating mechanisms, 180 described degree rotating mechanisms are mainly made up of rotary cylinder and material folding groove, are associated with preposition optical fiber induction installation;

Dislocation device, after it is positioned at described 180 degree rotating mechanisms, for the plastic part conveyance having detected is needed to the station of processing to the next one;

Described dislocation mechanism is between straight-line oscillation feeding device and optical fiber induction installation;

Described material-pulling device is between optical fiber induction installation and 180 degree rotating mechanisms, and its home position and optical fiber induction installation are positioned at same position, and the position after its pusher and 180 degree rotating mechanisms are in same position;

After described dislocation device is positioned at 180 degree rotating mechanisms, its original position and 180 degree rotating mechanisms are in same position, and its misalignment position and subsequent product moving track are in same position.