CN212875019U - Automatic plug-in assembling mechanism for USB joint probe - Google Patents

Abstract

The utility model discloses an automatic plugging and assembling mechanism for a USB joint probe, which comprises a material tray for supplying the probe, a vibration tray for supplying the USB joint, an automatic picking assembly, an automatic plugging assembly, an automatic posture correcting assembly and an automatic cutting assembly, wherein the automatic picking assembly comprises a feeding cylinder, a sliding plate, a feeding pressing block and a picking assembly, the picking assembly comprises a cutting knife seat arranged at the tail end of the picking cylinder, a picking plate, a base and a material carrying sliding table, the automatic plugging assembly comprises a plugging cylinder, a sliding table and a jacking assembly, the mechanism utilizes the vibration tray to feed the USB joint to the assembling table, coiled probe material belts are fed to the automatic picking station by the material tray, the automatic picking station picks the probes according to a certain quantity, the USB joint and the probe are plugged by the automatic plugging station, the posture correcting is carried out on the probe by a subsequent positioning shaping station, and the probe tail part is cut by the automatic cutting assembly, thus, the automatic insertion and assembly requirements of the probe are completed.

Description

Automatic plug-in assembling mechanism for USB joint probe

Technical Field

The utility model relates to an automation equipment technical field, concretely relates to automatic equipment mechanism of pegging graft of USB joint probe.

Background

The types of USB plug-in devices are found everywhere today when electronic products are frequently used, such as a USB disk, a keyboard, a mouse, a data line, an external power supply line, and the like, and as one of the most popular electronic product interfaces, the USB structure has the advantages of great universality and durability, stable data transmission, good charging efficiency, and the like. Special automatic plugging equipment is needed to help manufacturers solve the technical problem.

Disclosure of Invention

The utility model discloses the purpose: in order to meet technical requirements in the background art, a USB joint probe automatic plugging assembly mechanism is designed, a vibration disc is used for feeding a USB joint to an assembly table, coiled probe material belts are fed to an automatic picking station through a material disc, the probes are picked out according to a certain quantity at the automatic picking station, the USB joint and the probes are plugged through the automatic plugging station, the probes are corrected by a subsequent positioning and shaping station, and the probe tail part excess material is cut through an automatic cutting assembly, so that the technical requirements of automatic plugging assembly of the probes are met.

The technical scheme adopted for solving the problems is as follows:

an automatic plugging and assembling mechanism for a USB joint probe comprises a material tray for supplying the probe, a vibrating tray for supplying the USB joint, an automatic picking assembly, an automatic plugging assembly, an automatic posture correcting assembly and an automatic cutting assembly,

the outer ring of the material tray is coiled with a probe material belt, the integrally connected part of the tail part of the probe is excess material which is conveyed to the automatic picking assembly through the material carrying sliding table, and the probes are continuously picked by the automatic picking assembly in groups and supplied to the automatic splicing assembly,

a plurality of USB joints are placed in the vibration disc, the USB joints are placed in order and enter the feeding table after being adjusted in position through vibration, the USB joints are pushed to the assembling table by the material pushing cylinder matched with the material pushing rod, the assembling table is provided with a feeding groove of the USB joints, the feeding cylinder drives the feeding rod to feed and discharge the USB joints which are inserted with the probes in a stepping mode, the feeding rod is arranged at the lower portion of the feeding groove and is driven by the ejector rod of the feeding cylinder to advance,

the automatic picking assembly comprises a feeding cylinder, a sliding plate, a feeding pressing block and a picking assembly, wherein a top rod of the feeding cylinder is connected with the sliding plate, the feeding pressing block is fixed at the lower part of the sliding plate and is continuously fed to the picking assembly under the pushing of the feeding cylinder, the picking assembly is vertically arranged and comprises a picking cylinder, a picking plate, a base and a cutting knife seat arranged at the tail end of a material carrying sliding table, the top rod of the picking cylinder is fixedly connected with the picking plate, the picking plate is provided with a cutting block closely attached to the cutting knife seat, the cutting block and the cutting knife seat move up and down relatively to form a cutting knife, a probe material belt is cut, and a group of probes cut by the cutting block and the base in a pressing manner are picked,

the automatic plugging component comprises a plugging cylinder, a sliding table and a top support component, the sliding table is fixedly connected with a picking component, after a group of probes are picked, the plugging cylinder drives the sliding table to be pushed forwards, the group of probes and the USB connector at the corresponding position on the assembling table are plugged, the USB connector is supported by a positioning end face arranged at the front end of a top support rod of the top support component to prevent the USB connector from being knocked off, the top support rod is supported by a top rod of the top support cylinder,

the automatic posture correcting component comprises a posture correcting cylinder and a posture correcting rod which is connected with a top rod of the posture correcting cylinder and moves up and down, a group of probe-shaped pressing grooves are arranged at the lower end of the posture correcting rod, the probes with the upwarp or micro bending are corrected under the pressing of the posture correcting cylinder,

the automatic cutting assembly is arranged at the next station of the automatic posture correcting assembly and comprises a cutting cylinder, a cutting rod and a cutting knife.

Furthermore, a plurality of triangular push blocks are arranged on the upper end face of the feeding rod at intervals, a return spring is arranged, the return spring can only push the USB connector forwards, and the USB connector is not pushed reversely during return.

Furthermore, the feeding pressing block is fixedly connected with a pressing pin.

Further, decide the pole upper end and be connected with the ejector pin of deciding the cylinder, the lower extreme links firmly with deciding the sword, decides the probe clout that the sword below is being treated and is decided, and the cutting edge groove that the cooperation assembly panel was equipped with forms and cuts the sword to fix a position USB joint position by locating component's location cylinder and locating lever cooperation.

The utility model has the advantages that:

this automatic equipment mechanism of pegging graft of USB joint probe utilizes the vibration dish to connect the USB with the feed for the equipment platform, and the probe material area of lapping is given automatic station of plucking by the charging tray feed, and automatic station of plucking is plucked the probe according to a certain amount earlier and is taken out, pegs graft USB joint and probe by automatic station of pegging graft, corrects the appearance by subsequent location plastic station to the probe again, decides the probe afterbody clout by automatic subassembly of deciding again, just so accomplishes the automatic equipment technical requirement of pegging graft to the probe, and is simple and practical.

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 schematic structural diagram of an automatic inserting and assembling mechanism for a USB connector probe according to the present embodiment;

fig. 2 is a schematic structural diagram of an automatic picking assembly and an automatic plugging assembly according to the present embodiment;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a schematic structural diagram of the automatic posture correcting assembly and the automatic cutting assembly according to the embodiment;

FIG. 5 is a cross-sectional view of an assembly station according to the present embodiment;

wherein, 1-material tray, 2-vibration tray, 3-material feeding table, 4-material carrying sliding table, 5-automatic picking component, 51-material feeding cylinder, 52-sliding plate, 53-material feeding pressing block, 54-picking cylinder, 55-cutting block, 551-base, 56-splicing cylinder, 57-sliding table, 58-press needle, 59-cutting knife base, 6-automatic posture correcting component, 61-posture correcting cylinder, 62-posture correcting rod, 7-automatic cutting component, 71-cutting cylinder, 72-cutting rod, 8-positioning component, 81-positioning cylinder, 82-positioning rod, 9-top bracing component, 10-assembling table, 101-feeding cylinder, 102-material pushing cylinder, 103-material pushing rod, 104-feeding rod, 105-triangular push block, 11-probe material belt, 111-excess material and 12-USB joint.

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.

Referring to fig. 1-5, the present embodiment provides an automatic plugging and assembling mechanism for a USB connector probe, which includes a tray 1 for supplying a probe, a vibrating tray 2 for supplying a USB connector 12, an automatic picking assembly 5, an automatic plugging assembly, an automatic posture correcting assembly 6, and an automatic cutting assembly 7.

Specifically, the outer ring of the material tray 1 is coiled with a probe material belt 11, the integrally connected part of the tail part of the probe is a residual material 111, the residual material is conveyed to the automatic picking assembly 5 through the material carrying sliding table 4, and the automatic picking assembly 5 continuously picks the probes in groups and supplies the probes to the automatic plugging assembly.

A plurality of USB connects has been placed in the vibration dish 2, through vibration accent appearance back neatly put and get into pay-off platform 3 to by pushing away material cylinder 102 cooperation ejector pin 103 with USB connect propelling movement to assembly station 10 on, assembly station 10 is equipped with the feed chute of USB joint 12, drives feed rod 104 by feed cylinder 101 and feeds the ejection of compact to the USB joint 12 of stepping completion probe grafting, feed rod 104 sets up in the feed chute lower part, and impels forward with feed cylinder 101's ejector pin drive, a plurality of triangle-shaped ejector pad 105 has been arranged to feed rod 104 up end interval to be equipped with reset spring, it only can connect 12 forward propulsion with USB, does not reversely promote USB joint 12 during the restoration.

The automatic picking assembly 5 comprises a feeding cylinder 51, a sliding plate 52, a feeding press block 53 and a picking assembly, wherein a top rod of the feeding cylinder 51 is connected with the sliding plate 52, the feeding press block 53 is fixed at the lower part of the sliding plate 52, the feeding press block 53 is also fixedly connected with a press pin 58, the press pin 58 is used for matching and positioning with a round hole arranged on the residual material 111 at the tail part of the probe, continuously fed to the picking assembly under the push of the feeding cylinder 51, the picking assembly is vertically arranged and comprises a picking cylinder 54, a picking plate, a base 551 and a cutting shear seat 59 arranged at the tail end of the material carrying slipway 4, the top rod of the picking cylinder 54 is fixedly connected with a picking plate, the position of the picking plate, which is tightly attached to the cutting knife seat 59, is provided with a cutting block 55, the cutting block 55 and the cutting knife seat 59 move up and down relatively to form a cutting knife, the probe material belt 11 is cut, and the cutting block 55 and the base 551 press the cut group of probes to pick up the probes.

Automatic grafting subassembly is including grafting cylinder 56, slip table 57 and shore subassembly 9, link firmly on the slip table 57 and take the subassembly, after taking and accomplish a set of probe, push up before driving slip table 57 by grafting cylinder 56, carry out the grafting operation with the USB joint 12 of corresponding position on a set of probe and the equipment platform 10, and the USB joint 12 is propped by the location terminal surface that the shore pole front end of shore subassembly 9 was equipped with, prevents that USB joint 12 from being struck to drop, and the shore pole is propped by the ejector pin of shore cylinder.

The automatic posture correcting assembly 6 comprises a posture correcting cylinder 61 and a posture correcting rod 62 connected with a top rod of the posture correcting cylinder 61 and moving up and down, a group of pressing grooves in the shape of probes are formed in the lower end of the posture correcting rod 62, and the probes with the tilting or micro-bending shapes are corrected under the pressing of the posture correcting cylinder 61.

The automatic cutting assembly 7 is arranged at the next station of the automatic posture correcting assembly 6 and comprises a cutting cylinder 71, a cutting rod 72 and a cutting knife.

The further embodiment is, cutting rod 72 upper end is connected with the ejector pin of deciding cylinder 71, and the lower extreme links firmly with deciding the sword, decides the probe clout 111 that the sword below is just being decided, and the cutting edge groove that cooperation assembly table 10 was equipped with forms the shearing sword to fix a position USB joint 12 position by the cooperation of positioning cylinder 81 and the locating lever 82 of locating component 8.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes, modifications, substitutions and alterations can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art, and the scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

1. The utility model provides an automatic equipment mechanism of pegging graft of USB joint probe, includes the charging tray of supply probe, the vibration dish that supply USB connects, takes the subassembly automatically, automatic grafting subassembly, automatic appearance subassembly and decide the subassembly automatically, its characterized in that:

the outer ring of the material tray is coiled with a probe material belt, the integrally connected part of the tail part of the probe is excess material which is conveyed to the automatic picking assembly through the material carrying sliding table, and the probes are continuously picked by the automatic picking assembly in groups and supplied to the automatic splicing assembly,

a plurality of USB joints are placed in the vibration disc, the USB joints are placed in order and enter the feeding table after being adjusted in position through vibration, the USB joints are pushed to the assembling table by the material pushing cylinder matched with the material pushing rod, the assembling table is provided with a feeding groove of the USB joints, the feeding cylinder drives the feeding rod to feed and discharge the USB joints which are inserted with the probes in a stepping mode, the feeding rod is arranged at the lower portion of the feeding groove and is driven by the ejector rod of the feeding cylinder to advance,

the automatic picking assembly comprises a feeding cylinder, a sliding plate, a feeding pressing block and a picking assembly, wherein a top rod of the feeding cylinder is connected with the sliding plate, the feeding pressing block is fixed at the lower part of the sliding plate and is continuously fed to the picking assembly under the pushing of the feeding cylinder, the picking assembly is vertically arranged and comprises a picking cylinder, a picking plate, a base and a cutting knife seat arranged at the tail end of a material carrying sliding table, the top rod of the picking cylinder is fixedly connected with the picking plate, the picking plate is provided with a cutting block closely attached to the cutting knife seat, the cutting block and the cutting knife seat move up and down relatively to form a cutting knife, a probe material belt is cut, and a group of probes cut by the cutting block and the base in a pressing manner are picked,

the automatic splicing assembly comprises a splicing air cylinder, a sliding table and a top support assembly, the splicing assembly is fixedly connected to the sliding table, after a group of probes are spliced, the splicing air cylinder drives the sliding table to be pushed forward, a group of probes and USB connectors corresponding to the assembly table are spliced, the USB connectors are supported by the positioning end faces of the top support rods of the top support assembly, the USB connectors are prevented from being knocked off, and the top support rods are supported by the top support rods of the top support air cylinder.

2. The automatic plugging and assembling mechanism for the USB connector probe according to claim 1, wherein: the automatic posture correcting assembly comprises a posture correcting cylinder and a posture correcting rod which is connected with a posture correcting cylinder ejector rod and moves up and down, a group of probe-shaped pressing grooves are formed in the lower end of the posture correcting rod, and the probes which are warped or slightly bent are corrected under the pressing of the posture correcting cylinder.

3. The automatic plugging and assembling mechanism for the USB connector probe according to claim 1, wherein: the automatic cutting assembly is arranged at the next station of the automatic posture correcting assembly and comprises a cutting cylinder, a cutting rod and a cutting knife.

4. The automatic plugging and assembling mechanism for the USB connector probe according to claim 1, wherein: a plurality of triangular push blocks are arranged on the upper end face of the feeding rod at intervals, and a return spring is arranged on the triangular push blocks.

5. The automatic plugging and assembling mechanism for the USB connector probe according to claim 1, wherein: the feeding pressing block is also fixedly connected with a pressing pin.

6. The automatic plugging and assembling mechanism for the USB connector probe according to claim 3, wherein: decide the pole upper end and be connected with the ejector pin of deciding the cylinder, the lower extreme links firmly with deciding the sword, decides the probe clout that the sword below is being decided, and the cutting edge groove that the cooperation assembly panel was equipped with forms and cuts the sword to fix a position USB joint position by locating component's location cylinder and locating lever cooperation.

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