CN212071033U - Optical fiber semi-automatic insertion core pressing machine - Google Patents

Abstract

The utility model discloses an optical fiber semi-automatic ferrule pressing machine, which is provided with a feeding unit, a pushing unit, a stamping unit and a ferrule unit, wherein the feeding unit is provided with a feeding vibration disc and a feeding groove, one end of the feeding groove is connected with an outlet of the feeding vibration disc, and the other end of the feeding groove extends to the front end of the pushing unit; the pushing unit is provided with a limiting groove, a push rod and a pushing cylinder, the limiting groove is perpendicular to the feeding groove, the interior of the feeding groove is communicated with the limiting groove, the pushing cylinder can drive the push rod to move, and the push rod can push the joint shell of the limiting groove under the action of the pushing cylinder; the automatic feeding, pushing and inserting core pushing device has the advantages that the automation of feeding, pushing and inserting core pushing is realized, the independent switch control of the stamping unit is realized, the flexibility is guaranteed, the manual control can be realized, the labor intensity of workers is reduced, the basic feeding, stamping and inserting core are limited and mechanized, the precision is high, and the pressing effect of the optical fiber and the connector shell is good. The fiber channel of the ferrule unit can be adjusted through the two fiber limiting clamps, and the ferrule unit is suitable for pressing fibers of different specifications and high in flexibility.

Description

Optical fiber semi-automatic insertion core pressing machine

Technical Field

The utility model relates to an optic fibre processing technology field especially relates to a semi-automatic lock pin briquetting machine of optic fibre.

Background

Fiber optic cables are manufactured to meet optical, mechanical, or environmental performance specifications by utilizing one or more optical fibers disposed in a covering jacket as the transmission medium and may be used individually or in groups as a telecommunications cable assembly with fiber optic heads mounted at the ends. In the research and development stage, the test stage or the small-batch production, a large continuous full-automatic production machine is not needed, otherwise the period of the batch production is influenced, and a semi-automatic core inserting pressing machine which has strong flexibility and can be manually controlled is needed

Therefore, in order to solve the problems in the prior art, it is important to provide a semi-automatic optical fiber ferrule pressing technique that is flexible, manually controllable, low in labor intensity, and good in pressing effect.

Disclosure of Invention

An object of the utility model is to avoid the weak point among the prior art and provide a flexibility can manual control, low in labor strength and suppress effectual semi-automatic lock pin briquetting machine of optic fibre.

The purpose of the utility model is realized through the following technical scheme:

the semi-automatic optical fiber core inserting pressing machine is provided with a feeding unit, a pushing unit, a stamping unit and a core inserting unit, wherein the feeding unit is provided with a feeding vibration disc and a feeding groove, one end of the feeding groove is connected with an outlet of the feeding vibration disc, and the other end of the feeding groove extends to the front end of the pushing unit;

the pushing unit is provided with a limiting groove, a push rod and a pushing cylinder, the limiting groove is perpendicular to the feeding groove, the interior of the feeding groove is communicated with the feeding groove, the pushing cylinder can drive the push rod to move, and the push rod can push the joint shell of the limiting groove under the action of the pushing cylinder;

the stamping unit is provided with a stamping head, a stamping cylinder and a stamping jig, the stamping jig can receive the connector shell pushed by the pushing unit, and the stamping head is positioned above the stamping jig and driven to lift by the stamping cylinder;

the lock pin unit is provided with two optical fiber limiting clamps, a limiting electric push rod and a positioning piece, an optical fiber channel is arranged between the two optical fiber limiting clamps, one optical fiber limiting clamp is provided with the positioning piece which is vertically arranged, the other optical fiber limiting clamp is connected with the telescopic rod of the limiting electric push rod, and the positioning piece is located right ahead of the central axis of the telescopic rod of the limiting electric push rod.

Preferably, the one end of push rod is connected with the connecting plate, and the connecting plate rigid coupling is at the telescopic link of propelling movement cylinder, and propelling movement cylinder and push rod all lie in the same one side of connecting plate.

Preferably, the punching head is mounted on the telescopic rod of the punching cylinder through a punching jig.

Preferably, the stamping jig is equipped with a buffer spring.

Preferably, the stamping device is further provided with an adjusting unit, the adjusting unit comprises a translation driving screw and a mounting seat, the stamping jig is mounted on the mounting seat, and the mounting seat is connected with a moving nut of the translation driving screw and driven to move by the translation driving screw.

Preferably, the punching unit is provided with a separate punching switch.

The utility model has the advantages that:

the utility model discloses a semi-automatic lock pin briquetting machine of optic fibre is provided with pay-off unit, propelling movement unit, punching press unit and lock pin unit, has realized the pay-off, has pushed away the automation that pushes away material and lock pin, but punching press unit independent switch control had both guaranteed the flexibility manual control, has reduced workman's low in labor strength again just to pay-off, punching press and the lock pin of basis all have spacing and mechanization, and the precision is high, and optic fibre and joint housing suppress effectually. The fiber channel of the ferrule unit can be adjusted through the two fiber limiting clamps, and the ferrule unit is suitable for pressing fibers of different specifications and high in flexibility.

Drawings

The present invention is further explained by using the attached drawings, but the content in the attached drawings does not constitute any limitation to the present invention.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is another angle structure diagram of an embodiment of the present invention.

Fig. 1 to 2 include:

01 a connector shell, 02 optical fibers,

A feeding unit: 1 a feeding vibration tray, 2 a feeding groove,

A pushing unit: 3-1 push rod, 3-2 connecting piece, 3-3 pushing cylinder and 3-4 limit groove;

a stamping unit: 4-1 punching head, 4-2 buffer spring, 4-3 punch jig, 4-4 punching cylinder, 4-5 punching switch and 4-6 punching jig;

an inserting core unit: 5-1 optical fiber channel, 5-2 optical fiber limiting clamp, 5-3 limiting electric push rod, 5-4 telescopic rod of optical fiber limiting cylinder and 5-5 positioning piece;

an adjusting unit: 6-1 translation driving screw rod and 6-2 mounting seat.

Detailed Description

The present invention will be further illustrated with reference to the following examples.

Example 1

Referring to the attached drawings, the optical fiber semi-automatic ferrule pressing machine of the embodiment is provided with a feeding unit, a pushing unit, a stamping unit and a ferrule unit, wherein the feeding unit is provided with a feeding vibration disc 1 and a feeding groove 2, one end of the feeding groove 2 is connected with an outlet of the feeding vibration disc 1, and the other end of the feeding groove extends to the front end of the pushing unit;

in this embodiment, the pushing unit is provided with a limiting groove 3-4, a push rod 3-1 and a pushing cylinder 3-3, the limiting groove 3-4 is perpendicular to and communicated with the feeding groove 2, the pushing cylinder 3-3 can drive the push rod 3-1 to move, the push rod 3-1 can push the joint housing 01 of the limiting groove 3-4 under the action of the pushing cylinder 3-3, in this embodiment, one end of the push rod 3-1 is connected with a connecting plate, the connecting plate is fixedly connected to a telescopic rod of the pushing cylinder 3-3, the pushing cylinder 3-3 and the push rod 3-1 are both located at the same side of the connecting plate, such arrangement can avoid setting the pushing cylinder 3-3 to be the rear of the push rod 3-1 to increase the length, in this embodiment, the pushing cylinder 3-3 and the push rod 3-1 are both located at the same side of the connecting plate, and the pushing cylinder 3-3 can, the whole structure is compact and the volume is small, and the space in a factory building is not required to be occupied.

The stamping unit is provided with a stamping head 4-1, a stamping cylinder 4-4 and a stamping jig 4-6, the stamping jig 4-6 can receive the connector shell 01 pushed by the pushing unit, the stamping head 4-1 is positioned above the stamping jig 4-6 and driven by the stamping cylinder 4-4 to lift, and specifically, the stamping head 4-1 is installed on an expansion rod of the stamping cylinder 4-4 through a punch jig 4-3. For the convenience of manual control, the punching unit of the present embodiment is provided with independent punching switches 4-5.

The core inserting unit is provided with two optical fiber limiting clamps 5-2, a limiting electric push rod 5-33-1 and a positioning piece 5-5, an optical fiber channel 5-1 is arranged between the two optical fiber limiting clamps 5-2, one optical fiber limiting clamp 5-2 is provided with the positioning piece 5-5 which is vertically arranged, the other optical fiber limiting clamp 5-2 is connected with a telescopic rod of the limiting electric push rod 5-33-1, and the positioning piece 5-5 is positioned right in front of the central axis of the telescopic rod of the limiting electric push rod 5-33-1.

The operation process of the optical fiber semi-automatic core inserting pressing machine of the embodiment is as follows: the feeding vibration disc 1 sends the joint shells 01 into the feeding groove 2 one by one through vibration, the joint shells 01 move to the limiting grooves 3-4 along the feeding groove 2, the pushing cylinder 3-3 drives the push rod 3-1 to send the joint shells 01 in the limiting grooves 3-4 into the punching jig 4-6 and butt joint with the end portions of the optical fibers, the punching cylinder 4-4 drives the punching head 4-1 to descend to press the joint shells 01 and the end portions of the optical fibers, and the joint shells 01 deform under the action of punching force and tightly lock the end portions of the optical fibers.

Example 2

The main technical solution of this embodiment is substantially the same as that of embodiment 1, and the features that are not explained in this embodiment adopt the explanations in embodiment 1, and are not described herein again. In order to avoid excessive impact, the press jig 4-6 of the present embodiment is equipped with a buffer spring 4-2.

Example 3

The main technical solution of this embodiment is substantially the same as that of embodiment 1 or embodiment 2, and the features that are not explained in this embodiment adopt the explanations in embodiment 1 or embodiment 2, which are not described herein again. The punching jig is further provided with an adjusting unit, the adjusting unit comprises a translation driving screw 6-1 and a mounting seat 6-2, the punching jig 4-6 is mounted on the mounting seat 6-2, the mounting seat 6-2 is connected with a moving nut of the translation driving screw 6-1 and is driven to move by the translation driving screw 6-1, and the position of the punching jig 4-6 can be conveniently and accurately adjusted by utilizing the translation driving screw 6-1.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and do not limit the protection scope of the claims. It will be understood by those skilled in the art that various modifications and substitutions can be made to the preferred embodiment without departing from the spirit and scope of the invention.

Claims (6)

1. The semi-automatic optical fiber inserting core pressing machine is characterized in that: the automatic feeding device is provided with a feeding unit, a pushing unit, a stamping unit and a core inserting unit, wherein the feeding unit is provided with a feeding vibration disc and a feeding groove, one end of the feeding groove is connected with an outlet of the feeding vibration disc, and the other end of the feeding groove extends to the front end of the pushing unit;

the pushing unit is provided with a limiting groove, a push rod and a pushing cylinder, the limiting groove is perpendicular to the feeding groove, the interior of the feeding groove is communicated with the limiting groove, the pushing cylinder can drive the push rod to move, and the push rod can push the joint shell of the limiting groove under the action of the pushing cylinder;

the stamping unit is provided with a stamping head, a stamping cylinder and a stamping jig, the stamping jig can receive the connector shell pushed by the pushing unit, and the stamping head is positioned above the stamping jig and driven to lift by the stamping cylinder;

the lock pin unit is provided with two optical fiber limiting clamps, a limiting electric push rod and a positioning piece, an optical fiber channel is arranged between the two optical fiber limiting clamps, one optical fiber limiting clamp is provided with the positioning piece which is vertically arranged, the other optical fiber limiting clamp is connected with the telescopic rod of the limiting electric push rod, and the positioning piece is located right ahead of the central axis of the telescopic rod of the limiting electric push rod.

2. The semi-automatic fiber optic ferrule press of claim 1, wherein: one end of the push rod is connected with a connecting plate, the connecting plate is fixedly connected with a telescopic rod of the pushing cylinder, and the pushing cylinder and the push rod are located on the same side of the connecting plate.

3. The semi-automatic fiber optic ferrule press of claim 1, wherein: the stamping head is arranged on a telescopic rod of the stamping cylinder through a punch jig.

4. The semi-automatic fiber optic ferrule press of claim 3, wherein: the stamping jig is equipped with a buffer spring.

5. The semi-automatic fiber optic ferrule press of claim 1, wherein: the stamping jig is characterized by further comprising an adjusting unit, the adjusting unit comprises a translation driving lead screw and a mounting seat, the stamping jig is mounted on the mounting seat, and the mounting seat is connected with a moving nut of the translation driving lead screw and driven to move by the translation driving lead screw.

6. The semi-automatic fiber optic ferrule press of claim 1, wherein: the stamping unit is provided with an independent stamping switch.

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