CN213201422U - Automatic feeding and discharging mechanism for machining guide sleeve - Google Patents

Abstract

The utility model discloses an automatic feeding and discharging mechanism for processing guide sleeves, which aims to solve the technical problem of low detection efficiency of guide sleeve processing, and comprises a feeding mechanism, a discharging mechanism and a jig, wherein the feeding mechanism and the discharging mechanism are respectively arranged at two sides of a detection platform; the structure of feed mechanism and unloading mechanism is unanimous, all includes tool put platform, servo lead screw lift and translation mechanism, and servo lead screw lift drive tool put platform goes up and down, and translation mechanism is fixed in the top of tool put platform, and it includes the pneumatic clamping jaw of two sets of symmetries, guide rail and rack and pinion driving machine, and on the pneumatic clamping jaw was fixed in the sliding platform of guide rail, rack and pinion driving machine driven pneumatic clamping jaw removed to testing platform's direction. The automatic feeding and discharging of the guide sleeve are realized by the matching use of the feeding mechanism and the discharging mechanism, and the detection efficiency of the guide sleeve is also improved.

Description

Automatic feeding and discharging mechanism for machining guide sleeve

Technical Field

The utility model belongs to mould accessories processing equipment has related to guide pin bushing processing equipment, and especially guide pin bushing processing is with unloading mechanism in automation.

Background

The guide sleeve is a standard part which is used for guiding the relatively movable template in the die by matching with the guide pillar. The inner diameter of the guide sleeve is an important size of the guide sleeve, and the guide sleeve needs to be fully inspected before shipment. The inner diameter of the guide sleeve is detected mainly automatically by the aid of full-automatic detection equipment, the guide sleeve still needs to be manually placed on a detection table of the detection equipment one by one, detection speed of the guide sleeve is low, and machining efficiency of the guide sleeve is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: how to improve the processing detection efficiency of guide pin bushing.

In order to achieve the above purpose, the utility model provides a technical scheme as follows:

the automatic feeding and discharging mechanism for machining the guide sleeve comprises a feeding mechanism, a discharging mechanism and a jig, wherein the feeding mechanism and the discharging mechanism are respectively arranged on two sides of the detection platform; the feeding mechanism and the discharging mechanism are consistent in structure and respectively comprise a jig placing table, a servo lead screw lifter and a translation mechanism, the servo lead screw lifter drives the jig placing table to lift, the translation mechanism is fixed above the jig placing table and comprises two groups of symmetrical pneumatic clamping jaws, a guide rail and a gear rack driver, the pneumatic clamping jaws are fixed on a sliding platform of the guide rail, and the gear rack driver drives the pneumatic clamping jaws to move towards the direction of the detection platform;

the jig comprises a jig plate and clamping pieces, wherein an accommodating cavity is formed in the jig plate, and a plurality of clamping pieces are arranged in the accommodating cavity; the clamping piece comprises a fixed seat, clamping rods and tension springs, the fixed seat is fixed in the accommodating cavity, the clamping rods are connected with the fixed seat through rotating shafts, and the tension springs are installed between the clamping rods.

Sleeving the guide sleeve on a clamping piece of a jig for clamping, placing the stacked jig on a jig placing table of a feeding mechanism, driving the jig placing table to move upwards by a servo lead screw lifter, and automatically clamping the jig on the uppermost layer by a pneumatic clamping jaw after the jig on the uppermost layer is detected by a photoelectric sensor; and finally, the gear rack driving machine moves the jig on the uppermost layer to the detection platform, and the pneumatic clamping jaw releases the jig, so that the automatic feeding is realized while the plurality of guide sleeves are arranged. After the guide sleeves in a disc jig are detected, the pneumatic clamping jaws of the blanking mechanism clamp the jig, the gear rack driving machine moves the jig to the jig placing table, and when the photoelectric sensor detects the jig, the pneumatic clamping jaws loosen the jig, so that the automatic blanking is realized while the guide sleeves are arranged.

Compared with the prior art, the beneficial effects of the utility model are that: 1. the guide sleeves are placed in the jig and then placed in the detection platform, so that simultaneous feeding of the plurality of guide sleeves is realized, and the detection efficiency of the guide sleeves is improved; 2. the automatic feeding and discharging of the guide sleeve are realized by the matching use of the feeding mechanism and the discharging mechanism, and the detection efficiency of the guide sleeve is also improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

FIG. 1 is a structural view of an automatic loading and unloading mechanism;

FIG. 2 is a side view of the automatic loading and unloading mechanism;

fig. 3 is a sectional view of the jig.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Please refer to fig. 1 and 2, which illustrate the automatic loading and unloading mechanism, including a loading mechanism 10, an unloading mechanism 20 and a fixture 30, wherein the loading mechanism 10 and the unloading mechanism 20 are respectively disposed at two sides of a detection platform 90; the top of testing platform is provided with locating piece 91, and the bottom of tool 30 is provided with the constant head tank 31 that matches with the locating piece. The structure of feed mechanism 10 is unanimous with unloading mechanism 20, all includes tool put table 40, servo lead screw lift 50 and translation mechanism, and servo lead screw lift 50 drive tool put table 40 goes up and down, and translation mechanism is fixed in the top of tool put table 40, and it includes pneumatic clamping jaw 60, guide rail 70 and rack and pinion driving machine 80 of two sets of symmetries, and pneumatic clamping jaw 60 is fixed in on the sliding platform of guide rail 70, and rack and pinion driving machine 80 drives pneumatic clamping jaw 60 and removes to testing platform's direction. Referring to fig. 3, the jig 30 includes a jig plate 32 and clamping members, an accommodating cavity 33 is formed in the jig plate 32, and a plurality of clamping members are arranged in the accommodating cavity; the holder includes fixing base 34, supporting rod 35 and extension spring 36, and the supporting rod is made by the nylon material, and the fixing base is fixed in and holds the intracavity, and two supporting rods are connected with the fixing base through the pivot, and the extension spring is installed between two supporting rods. The bottom of the jig 30 is provided with a groove 37 having a width greater than the jaw width of the pneumatic jaw 60.

In this embodiment, the guide sleeve is sleeved on the clamping member of the jig 30 for clamping, the stacked jigs 30 are placed on the jig placing table 40 of the feeding mechanism 10, the servo screw rod lifter 50 drives the jig placing table 40 to move upward, and when the uppermost jig 30 is detected by the photoelectric sensor, the pneumatic clamping jaw 60 automatically clamps the uppermost jig 30; and finally, the gear rack driving machine 80 moves the jig 30 on the uppermost layer to the detection platform, and the pneumatic clamping jaws 60 release the jig 30 to realize simultaneous and automatic feeding of the plurality of guide sleeves. After the guide sleeves in a disc jig 30 are detected, the pneumatic clamping jaws 60 of the blanking mechanism 20 clamp the jig 30, the gear rack driving machine 80 moves the jig 30 to the jig placing table 40, and when the photoelectric sensor detects the jig 30, the pneumatic clamping jaws 60 release the jig 30, so that the automatic blanking and the simultaneous feeding of a plurality of guide sleeves are realized.

Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles described herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (4)

1. The automatic feeding and discharging mechanism for machining the guide sleeve is characterized by comprising a feeding mechanism, a discharging mechanism and a jig, wherein the feeding mechanism and the discharging mechanism are respectively arranged on two sides of a detection platform; the feeding mechanism and the discharging mechanism are consistent in structure and respectively comprise a jig placing table, a servo lead screw lifter and a translation mechanism, the servo lead screw lifter drives the jig placing table to lift, the translation mechanism is fixed above the jig placing table and comprises two groups of symmetrical pneumatic clamping jaws, a guide rail and a gear rack driver, the pneumatic clamping jaws are fixed on a sliding platform of the guide rail, and the gear rack driver drives the pneumatic clamping jaws to move towards the direction of the detection platform;

the jig comprises a jig plate and clamping pieces, wherein an accommodating cavity is formed in the jig plate, and a plurality of clamping pieces are arranged in the accommodating cavity; the clamping piece comprises a fixed seat, clamping rods and tension springs, the fixed seat is fixed in the accommodating cavity, the clamping rods are connected with the fixed seat through rotating shafts, and the tension springs are installed between the clamping rods.

2. The automatic loading and unloading mechanism for guide sleeve processing as claimed in claim 1, wherein the clamping rod is made of nylon material.

3. The automatic loading and unloading mechanism for guide sleeve processing as claimed in claim 1, wherein the bottom of the jig is provided with a groove with a width larger than the width of the clamping jaw of the pneumatic clamping jaw.

4. The automatic loading and unloading mechanism for guide sleeve processing as claimed in claim 1, wherein a positioning block is arranged at the top of the detection platform, and a positioning groove matched with the positioning block is arranged at the bottom of the jig.

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