CN204524723U - A kind of feeding location pressure core inserting machine - Google Patents

Abstract

The utility model discloses a kind of feeding location pressure core inserting machine, comprise frame, be installed on the vibrating disc one in frame, vibrating disc two, feed mechanism one, feed mechanism two, detent mechanism and riveting mechanism; Vibrating disc one connects feed mechanism one, vibrating disc two connects feed mechanism two, riveting mechanism comprises cylinder block and is installed on the cylinder four on cylinder block, cylinder block is also provided with the material-dropping hole of corresponding detent mechanism, feed mechanism one, feed mechanism two and detent mechanism are combined to form riveted joint locating hole when feeding, riveted joint locating hole and material-dropping hole shift to install, and rivet locating hole and material-dropping hole consistency from top to bottom during blanking.This utility model, by the riveted joint locating hole that be combined to form corresponding riveting mechanism of feed mechanism one with detent mechanism, directly utilizes this riveted joint locating hole to realize material location, effectively simplify device structure, and directly location makes location more efficient.

Description

A kind of feeding location pressure core inserting machine

Technical field

The utility model relates to technical field of automation, particularly a kind of feeding location pressure core inserting machine.

Background technology

The ceramic optical fibre head of ceramic insertion core is the ceramic cylinder tubule fired with zirconium dioxide, quality is hard, the pure white exquisiteness of color and luster, its finished product accuracy reaches submicron order, the most frequently used in Networks of Fiber Communications, that quantity is maximum precision positioning parts, usually for the manufacture of the joints of optical fibre, the optically-coupled etc. of device.The main effect of ceramic insertion core is physics docking (also referred to as optical fiber cold connection) realizing optical fiber, it is become by caudal peduncle and the ceramic optical fibre head group be riveted in caudal peduncle, its riveted joint precision is very large on quality of optical fiber communication impact, therefore, the high-quality how realizing caudal peduncle and ceramic optical fibre head is riveted, most important in the production process of ceramic insertion core.

Adopt feeding location pressure core inserting machine when producing ceramic insertion core in prior art, it realizes auto-sequencing and the feeding of caudal peduncle and ceramic optical fibre head by vibrating disc, greatly improves feeding efficiency; Omnidistance PLC controls, automation mechanized operation makes riveted joint efficiency be greatly improved, effectively meet the requirement of client to precision and quantity, but still Shortcomings part, namely be have a briquetting originally inside riveting mechanism, spring is had below briquetting, each pressing is complete is rebounded briquetting by back-moving spring, there is individual hole for locating lock pin inside briquetting simultaneously, current this structure has a problem, the elasticity being exactly pressing later back-moving spring often can diminish, and briquetting rebounds not in place and easily cause the undesirable condition such as material or mechanism blockage.

Utility model content

For solving the problems of the technologies described above, the utility model provides a kind of feeding location pressure core inserting machine, with simplified apparatus mechanism, improves riveted joint location efficiency.

For achieving the above object, the technical solution of the utility model is as follows:

A kind of feeding location pressure core inserting machine, comprises frame, is installed on the vibrating disc one in described frame, vibrating disc two, feed mechanism one, feed mechanism two, detent mechanism and riveting mechanism; Described vibrating disc one connects described feed mechanism one, described vibrating disc two connects described feed mechanism two, described riveting mechanism comprises cylinder block and is installed on the cylinder four on described cylinder block, described cylinder block is also provided with the material-dropping hole of corresponding described detent mechanism, described feed mechanism one, feed mechanism two and detent mechanism are combined to form riveted joint locating hole when feeding, described riveted joint locating hole and described material-dropping hole shift to install, and described riveted joint locating hole and described material-dropping hole consistency from top to bottom during blanking.

Wherein, described feed mechanism one comprises cylinder one, slide block one, slide rail one and push rod one, and described slide block one is driven by described cylinder one, and described push rod one is driven by described slide block one, and described slide block one is installed on described slide rail one; Described push rod one is provided with draw-in groove one, the discharging opening of described draw-in groove one corresponding described vibrating disc one when described push rod one resets; Described feed mechanism two comprises cylinder two, slide block two, slide rail two and push rod two, and described slide block two is driven by described cylinder two, and described push rod two is driven by described slide block two, and described slide block two is installed on described slide rail two; Described push rod two is provided with through hole one, the discharging opening of described through hole one corresponding described vibrating disc two when described push rod two resets.

Wherein, described detent mechanism comprises cylinder three, slide block three, slide rail three and push rod three, and described slide block three is driven by described cylinder three, and described push rod three is driven by described slide block three, and described slide block three is installed on described slide rail three; The top of described push rod three is provided with draw-in groove two, and described draw-in groove two is combined to form described riveted joint locating hole with described draw-in groove one.

Pass through technique scheme, the feeding location pressure core inserting machine that the utility model provides, it is by offering material-dropping hole in the bottom of riveting mechanism cylinder block, due to feed mechanism one during riveted joint, feed mechanism two, the working end of detent mechanism and riveting mechanism is all stretched in cylinder block, and riveting products is also positioned at this cylinder block, therefore, by the riveted joint locating hole that be combined to form corresponding riveting mechanism of feed mechanism one with detent mechanism, this riveted joint locating hole is directly utilized to realize material location, and riveting location and material-dropping hole have dislocation, can normally rivet when riveting, when riveting complete, the further displacement of feed mechanism one is coordinated to make the corresponding material-dropping hole of product by detent mechanism, then by each Self-resetting of detent mechanism and feed mechanism one, product falls into material-dropping hole automatically, quick blanking can be realized, this utility model, due to the detent mechanism of the briquetting and back-moving spring that eliminate riveting mechanism inside, therefore effectively simplifies device structure, and directly location makes location more efficient.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, be briefly described to the accompanying drawing used required in the description of embodiment art below.

Fig. 1 is the perspective view of the feeding location pressure core inserting machine disclosed in the utility model embodiment;

Fig. 2 is the cancellation briquetting disclosed in the utility model embodiment and the riveted joint location after back-moving spring and blanking structural representation.

Numeral in figure:

11. material-dropping hole 12. detent mechanism 13. riveting mechanisms

21. vibrating disc 1 vibrating discs two

101. cylinder 1 slide block 1 slide rails one

104. push rod 1 cylinder 2 202. slide blocks two

301. cylinder 3 302. slide block 3 303. slide rails three

304. push rod 3 401. cylinder 4 402. cylinder blocks

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described.

According to Fig. 1 and 2, the feeding location pressure core inserting machine that the utility model provides, comprises frame, is installed on the vibrating disc 1 in frame, vibrating disc 2 22, feed mechanism one, feed mechanism two, detent mechanism 12 and riveting mechanism 13; Vibrating disc 1 connects feed mechanism one, vibrating disc 2 22 connects feed mechanism two, riveting mechanism 13 comprises cylinder block 402 and is installed on the cylinder 4 401 on cylinder block 402, cylinder block 402 is provided with the material-dropping hole 11 of corresponding detent mechanism 12, feed mechanism one, feed mechanism two and detent mechanism 12 are combined to form riveted joint locating hole when feeding, riveted joint locating hole and material-dropping hole 11 shift to install, and rivet locating hole and material-dropping hole 11 consistency from top to bottom during blanking.

Wherein, feed mechanism one comprises cylinder 1, slide block 1, slide rail 1 and push rod 1, and slide block 1 is driven by cylinder 1, and push rod 1 is driven by slide block 1, and slide block 1 is installed on slide rail 1; Push rod 1 is provided with draw-in groove one, the discharging opening of draw-in groove one corresponding vibrating disc 1 when push rod 1 resets; Feed mechanism two comprises cylinder 2 201, slide block 2 202, slide rail two and push rod two, and slide block 2 202 is driven by cylinder 2 201, and push rod two is driven by slide block 2 202, and slide block 2 202 is installed on slide rail two; Push rod two is provided with through hole one, the discharging opening of through hole one corresponding vibrating disc 2 22 when push rod two resets.

Wherein, detent mechanism 12 comprises cylinder 3 301, slide block 3 302, slide rail 3 303 and push rod 3 304, and slide block 3 302 is driven by cylinder 3 301, and push rod 3 304 is driven by slide block 3 302, and slide block 3 302 is installed on slide rail 3 303; The top of push rod 3 304 is provided with draw-in groove two, and draw-in groove two and draw-in groove one are combined into the shape of product caudal peduncle.

Operation principle of the present utility model is:

First artificial caudal peduncle and ceramic optical fibre head are put into vibrating disc 1 and vibrating disc 2 22 respectively, start the machine, vibrating disc 1 and vibrating disc 2 22 carry out sequence and feeding to caudal peduncle and ceramic optical fibre head respectively;

The caudal peduncle being positioned at vibrating disc 1 discharge outlet falls into the draw-in groove one of push rod 1, and cylinder 1 starts and drives slide block 1 to slide along slide rail 1, and slide block 1 drives push rod 1 and sends into the caudal peduncle in draw-in groove one just to riveting mechanism place;

Cylinder 3 301 starts and drives slide block 3 302 to slide along slide rail 3 303, slide block 3 302 drives push rod 3 304 and makes the draw-in groove two of push rod 3 304 and draw-in groove one close up to be formed and rivet locating hole, thus caudal peduncle is fastening and avoid it to occur displacement at riveting process, and the end face of caudal peduncle riveted joint end and the upper plane of push rod 3 304 and push rod 1 are in same level;

The ceramic optical fibre head being positioned at vibrating disc 2 22 discharge outlet falls into the through hole one of push rod two, cylinder 2 201 starts and drives slide block 2 202 along slide rail two slip, slide block 2 202 drives push rod two also to be sent into by the ceramic optical fibre head in through hole one just to riveted joint locating hole place, and ceramic optical fibre head caudal peduncle in this place's correspondence riveted joint locating hole realizes drafting position and to be riveted;

Cylinder 2 201 drives push rod two to reset, and then cylinder 4 401 pairs of ceramic optical fibre heads apply the riveted joint end that the riveted joint side pressure of ceramic optical fibre head is entered caudal peduncle by pressure;

After riveted joint, cylinder 4 401 resets, and cylinder 2 201 drives push rod two to reset;

Cylinder 1 and cylinder 3 301 synchronously drive push rod 1 and push rod 3 304 displacement that product is moved to corresponding material-dropping hole position, then cylinder 1 and cylinder 3 301 drive push rod 1 and push rod 3 304 to reset respectively, then the automatic corresponding material-dropping hole of product realizes quick blanking;

Repeat above-mentioned steps until all products are all riveted complete.

To be apparent for those skilled in the art to the multiple amendment of above-described embodiment, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.

Claims (3)

1. a feeding location pressure core inserting machine, is characterized in that, comprise frame, be installed on the vibrating disc one in described frame, vibrating disc two, feed mechanism one, feed mechanism two, detent mechanism and riveting mechanism; Described vibrating disc one connects described feed mechanism one, described vibrating disc two connects described feed mechanism two, described riveting mechanism comprises cylinder block and is installed on the cylinder four on described cylinder block, described cylinder block is also provided with the material-dropping hole of corresponding described detent mechanism, described feed mechanism one, feed mechanism two and detent mechanism are combined to form riveted joint locating hole when feeding, described riveted joint locating hole and described material-dropping hole shift to install, and described riveted joint locating hole and described material-dropping hole consistency from top to bottom during blanking.

2. a kind of feeding location according to claim 1 pressure core inserting machine, it is characterized in that, described feed mechanism one comprises cylinder one, slide block one, slide rail one and push rod one, described slide block one is driven by described cylinder one, described push rod one is driven by described slide block one, and described slide block one is installed on described slide rail one; Described push rod one is provided with draw-in groove one, the discharging opening of described draw-in groove one corresponding described vibrating disc one when described push rod one resets; Described feed mechanism two comprises cylinder two, slide block two, slide rail two and push rod two, and described slide block two is driven by described cylinder two, and described push rod two is driven by described slide block two, and described slide block two is installed on described slide rail two; Described push rod two is provided with through hole one, the discharging opening of described through hole one corresponding described vibrating disc two when described push rod two resets.

3. a kind of feeding location according to claim 2 pressure core inserting machine, it is characterized in that, described detent mechanism comprises cylinder three, slide block three, slide rail three and push rod three, described slide block three is driven by described cylinder three, described push rod three is driven by described slide block three, and described slide block three is installed on described slide rail three; The top of described push rod three is provided with draw-in groove two, and described draw-in groove two is combined to form described riveted joint locating hole with described draw-in groove one.