CN220028494U - Optical fiber head and foot cutting forming jig - Google Patents

Abstract

The utility model discloses an optical fiber head and foot cutting forming jig which comprises an operation table, a supporting seat, a manual pressing clamp, a pressing module, a product carrier plate, a foot cutting cutter and a foot cutting cylinder. Through the mode, the optical fiber head bending device is mainly used for rapidly cutting feet, bending and forming an optical fiber head, is convenient for a customer to assemble, combines bending and shearing, has low cost, enables a first pin of the optical fiber head to be bent and formed by downward movement of a lower pressing die set and matched with a product carrier plate, simultaneously cuts a second pin of the optical fiber head by forward movement of a foot cutting knife, has stable operation, is rapid and convenient to operate, improves efficiency, has good safety, and is suitable for popularization and use.

Description

Optical fiber head and foot cutting forming jig

Technical Field

The utility model relates to the technical field of optical fiber head processing equipment, in particular to an optical fiber head and foot shearing forming jig.

Background

The optical fiber connector is the most common device in optical communication, is a bridge in optical path connection, and particularly comprises more than 90% of LC connectors in the optical communication industry. The fixed connection in the light path is generally realized by adopting a welding mode, and then a welding protection sleeve is added outside the welding point for fixation; the connection points which need to be reconnected are all optical fiber connectors; the function of the optical fiber connector is very single, namely, one optical path is connected with the other optical path, and the insertion loss is as small as possible.

Usually, the optical fiber connector has two pins, one is connected in the horizontal direction and the other is connected in the vertical direction, and when the optical fiber connector is assembled, the pins in the horizontal direction need to be bent, and the redundant length of the pins in the vertical direction is cut off. In the prior art, two devices are used for processing respectively, a special bending device is used for bending the optical fiber connector during bending processing, the structure is complex, and the operation is troublesome; the laser shearing mode is adopted in the shearing process, the use cost is high, and the efficiency is low.

Disclosure of Invention

The utility model mainly solves the technical problems of providing the optical fiber head and foot shearing forming jig, and solving the problems of the prior art that two pieces of equipment are needed to process and the cost is high.

In order to solve the technical problems, the utility model adopts a technical scheme that: the utility model provides a fiber head cuts foot shaping tool, including operation panel, supporting seat, manual clamp of pushing down, push down the module, product carrier plate, cut foot cutter and cut foot cylinder, the supporting seat is installed perpendicularly the up end of operation panel, manual clamp of pushing down is installed the front of supporting seat, and its bottom with lower die set is connected, be used for placing the fiber head the product carrier plate level is installed the up end of operation panel and is located push down the below of module, cut foot cutter movable mounting and be in the lower terminal surface of product carrier plate and with install cut the beriberi jar in the operation panel is connected, in order to pass through cut the beriberi jar promotion cut foot cutter forward movement; the optical fiber head is provided with a first pin in the horizontal direction and a second pin in the vertical direction;

when the manual pressing clamp is pressed down, the pressing die assembly moves downwards and is matched with the product carrier plate for use, so that a first pin of an optical fiber head arranged on the product carrier plate is bent and formed, and meanwhile, the pressing die assembly triggers the beriberi shearing cylinder to extend forwards to push the foot shearing cutter to move forwards, and a second pin of the optical fiber head is sheared.

In a preferred embodiment of the present utility model, at least two product grooves for placing the optical fiber head and a module groove are formed at the upper end surface of the product carrier plate, and a first pin groove for bending a first pin of the optical fiber head is formed at a side edge of the product groove.

In a preferred embodiment of the present utility model, the lower pressing die set includes a linear guide rail, a slide block connecting plate, a lower pressing plate, a molding module, an auxiliary pressing block and a pressing head, wherein the linear guide rail is installed on the front surface of the supporting seat and is located at the lower part of the manual lower pressing clamp, the slide block connecting plate is slidably installed on the linear guide rail, the lower pressing plate is horizontally installed at the bottom of the slide block connecting plate and extends backwards to the back surface of the supporting seat through the supporting seat, the molding module and the auxiliary pressing block are respectively installed at the front end of the bottom of the lower pressing plate, and the pressing head is vertically installed at the rear end of the bottom of the lower pressing plate.

In a preferred embodiment of the present utility model, an air cylinder start button is disposed on an upper end surface of the operation table, and the air cylinder start button is located right below the pressing head; when the manual pressing clamp is pressed down, the pressing die set moves down, and the pressing head of the pressing die set presses the cylinder starting button.

In a preferred embodiment of the present utility model, a second pin groove corresponding to the first pin groove is formed on a side wall of the molding module, and when the lower pressing module moves downward, the molding module moves downward into the module groove, so that the first pin of the optical fiber head bends downward and is located between the first pin groove and the second pin groove.

In a preferred embodiment of the present utility model, a pressure reducing valve is mounted on the back surface of the support base.

In a preferred embodiment of the utility model, a retractable waste collection cartridge is also mounted within the console.

The beneficial effects of the utility model are as follows: the optical fiber head pin shearing forming jig is mainly used for rapidly shearing pins and bending and forming an optical fiber head, is convenient for a customer to assemble, combines bending and shearing, has low cost, enables a first pin of the optical fiber head to be bent and formed by downward movement of a lower pressing die set and matched with a product carrier plate, simultaneously enables a pin shearing cutter to move forward, shears a second pin of the optical fiber head, is stable in operation, is rapid and convenient to operate, improves efficiency, has good safety, and is suitable for popularization and use.

Drawings

FIG. 1 is a schematic diagram of an initial state of an optical fiber head and foot cutting forming jig according to the present utility model;

FIG. 2 is a schematic diagram of the working state of the optical fiber head and foot cutting forming jig of the present utility model;

FIG. 3 is a schematic view of the connection of the product carrier plate, shear blade, foot-cutting cylinder and waste collection box within the console of FIG. 1;

FIG. 4 is a schematic view of the structure of a product carrier plate;

the components in the drawings are marked as follows: 1. an operation table; 2. a support base; 3. manually pressing down the clamping hand; 4. a pressing module; 5. a product carrier plate; 6. cutting feet and cutting knives; 7. a foot cutting cylinder; 8. an optical fiber head; 9. a cylinder start button; 10. a pressure reducing valve; 11. a waste collection box; 401. a wire guide rail; 402. a slide block connecting plate; 403. a lower pressing plate; 404. a molding module; 405. auxiliary briquetting; 406. pressing head; 407. a second pin slot; 501. a product tank; 502. a module slot; 503. a first pin slot.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

Referring to fig. 1 to 4, the present embodiment includes:

the utility model provides a fiber head cuts foot shaping tool, including operation panel 1, supporting seat 2, manual press-down tong 3, lower moulding-die set 4, product carrier plate 5, cut foot cutter 6 and cut foot cylinder 7, supporting seat 2 installs perpendicularly at the up end of operation panel 1, manual press-down tong 3 is installed in the front of supporting seat 2, and its bottom is connected with lower moulding-die set 4, a product carrier plate 5 for placing fiber head 8 is installed at the up end of operation panel 1 and is located the below of moulding-die set 4, cut foot cutter 6 movable mounting is at the lower terminal surface of product carrier plate 5 and with cut foot cylinder 7 connection of installing in operation panel 1, in order to promote cut foot cutter 6 forward movement through cut foot cylinder 7; wherein the fiber optic head 8 has a first pin in a horizontal direction and a second pin in a vertical direction.

When the manual pressing clamp 3 is pressed down, the lower pressing die set 4 moves downwards and is matched with the product carrier plate 5 for use, so that the first pins of the optical fiber heads 8 mounted on the product carrier plate 5 are bent and formed, and meanwhile, the lower pressing die set 4 triggers the pin shearing cylinder 7 to extend forwards to push the pin shearing cutter 6 to move forwards, so that the second pins of the optical fiber heads 8 are sheared.

In the above, at least two product grooves 501 and one module groove 502 for placing the optical fiber head 8 are formed at the upper end surface of the product carrier plate 5, and a first pin groove 503 for bending the first pin of the optical fiber head 8 is formed at the side edge of the product groove 501.

The lower pressing die set 4 comprises a linear guide 401, a sliding block connecting plate 402, a lower pressing plate 403, a forming die 404, an auxiliary pressing block 405 and a pressing head 406, wherein the linear guide 401 is arranged on the front surface of the supporting seat 2 and is positioned at the lower part of the manual lower pressing clamp 3, the sliding block connecting plate 402 is slidably arranged on the linear guide 401, the lower pressing plate 403 is horizontally arranged at the bottom of the sliding block connecting plate 402 and penetrates through the supporting seat 2 to extend backwards to the back surface of the supporting seat 2, the forming die 404 and the auxiliary pressing block 405 are respectively arranged at the front end of the bottom of the lower pressing plate 403, and the pressing head 406 is vertically arranged at the rear end of the bottom of the lower pressing plate 403.

The upper end surface of the operation table 1 is provided with a cylinder starting button 9, and the cylinder starting button 9 is positioned right below the pressing head 406; when the hand grip 3 is manually depressed, the lower die set 4 moves downward, and the pressing head 406 of the lower die set 4 presses the cylinder start button 9, triggering the foot shearing cylinder 7 to protrude forward through the cylinder start button 9.

The side wall of the forming module 404 is provided with a second pin slot 407 corresponding to the first pin slot 503, the pressing module 4 moves downwards, and the forming module 404 moves downwards into the module slot 502, so that the first pin of the optical fiber head 8 is bent downwards and is positioned between the first pin slot 503 and the second pin slot 407, and the first pin of the optical fiber head 8 is bent and formed.

Meanwhile, a pressure reducing valve 10 is arranged on the back surface of the supporting seat 2, and the pressure of the beriberi shearing cylinder 7 is controlled by the pressure reducing valve 10 so as to control the speed of the beriberi shearing cylinder 7 when extending or retracting and control the shearing force of the second pin of the optical fiber head 8 by the pin shearing cutter 6.

In this embodiment, the operation panel 1 is further internally provided with a retractable waste collection box 11 for collecting the waste sheared by the second pin of the optical fiber head 8, so that the operation panel is convenient to clean and keep sanitary and clean.

The optical fiber head pin shearing forming jig is mainly used for rapid pin shearing and bending forming of an optical fiber head, is convenient for customer assembly, and comprises the following operation flow of a matrix:

1. the optical fiber head 8 to be processed is placed in a product groove 501 of the product carrier plate 5, the hand-operated pressing clamp 3 is manually pressed down, at the moment, the forming module 404 is matched with the product carrier plate 5 to realize the bending forming of a first pin of the optical fiber head 8, meanwhile, the pressing head 406 on the pressing module 4 triggers the cylinder starting button 9 for controlling the beriberi shearing cylinder 7, and the cylinder starting button 9 starts to drive the foot shearing cutter 6 to move forwards closely to the product carrier plate 5 after delay of about 1S, so that shearing effect is generated on a second pin of the optical fiber head 8, and the shearing of the redundant length of the second pin is realized;

2. after the shearing is finished, the manual pressing clamp 3 is manually lifted upwards, the processed optical fiber heads are taken out, and the next group of optical fiber heads are waited for processing.

In summary, the optical fiber head and foot cutting forming jig provided by the utility model is mainly used for rapid foot cutting and bending forming of an optical fiber head, is convenient for customer assembly, combines bending and cutting into a whole, has low cost, enables a first pin of the optical fiber head to be bent and formed by downward movement of a lower pressing die set and matched with a product carrier plate, simultaneously enables a foot cutting knife to move forward, cuts a second pin of the optical fiber head, has stable operation, is rapid and convenient to operate, improves efficiency, has good safety, and is suitable for popularization and use.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or straight lines or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. The utility model provides a fiber head cuts foot shaping tool, its characterized in that includes operation panel, supporting seat, manual clamp of pushing down, pushes down the module, product carrier plate, cuts foot cutter and cuts the foot cylinder, the supporting seat is installed perpendicularly the up end of operation panel, manual clamp of pushing down is installed the front of supporting seat, and its bottom with lower die set is connected, be used for placing fiber head the product carrier plate level install the up end of operation panel and be located down the below of module, cut foot cutter movable mounting in the lower terminal surface of product carrier plate and with install cut the beriberi jar in the operation panel is connected, in order to promote through cut the beriberi jar cut foot cutter forward movement; the optical fiber head is provided with a first pin in the horizontal direction and a second pin in the vertical direction;

when the manual pressing clamp is pressed down, the pressing die assembly moves downwards and is matched with the product carrier plate for use, so that a first pin of an optical fiber head arranged on the product carrier plate is bent and formed, and meanwhile, the pressing die assembly triggers the beriberi shearing cylinder to extend forwards to push the foot shearing cutter to move forwards, and a second pin of the optical fiber head is sheared.

2. The optical fiber head and foot shearing forming jig according to claim 1, wherein at least two product grooves for placing the optical fiber head and one module groove are formed in the upper end face of the product carrier plate, and a first pin groove for bending a first pin of the optical fiber head is formed in the side edge of the product groove.

3. The optical fiber head and foot shearing forming jig according to claim 2, wherein the lower pressing die set comprises a linear guide rail, a sliding block connecting plate, a lower pressing plate, a forming module, an auxiliary pressing block and a pressing head, wherein the linear guide rail is arranged on the front surface of the supporting seat and is positioned at the lower part of the manual lower pressing clamp, the sliding block connecting plate is slidably arranged on the linear guide rail, the lower pressing plate is horizontally arranged at the bottom of the sliding block connecting plate and penetrates through the supporting seat to extend backwards to the back surface of the supporting seat, the forming module and the auxiliary pressing block are respectively arranged at the front end of the bottom of the lower pressing plate, and the pressing head is vertically arranged at the rear end of the bottom of the lower pressing plate.

4. The optical fiber head and foot shearing forming jig according to claim 3, wherein an air cylinder starting button is arranged on the upper end face of the operating table, and the air cylinder starting button is located right below the pressing head; when the manual pressing clamp is pressed down, the pressing die set moves down, and the pressing head of the pressing die set presses the cylinder starting button.

5. The jig for trimming and molding an optical fiber head according to claim 3, wherein a second pin groove corresponding to the first pin groove is formed in a sidewall of the molding module, and when the lower die assembly moves downward, the molding module moves downward into the module groove, so that the first pin of the optical fiber head bends downward and is located between the first pin groove and the second pin groove.

6. The optical fiber head and foot-cutting forming jig according to claim 1, wherein a pressure reducing valve is mounted on the back surface of the supporting seat.

7. The optical fiber head and foot shearing forming jig according to claim 1, wherein a retractable waste collection box is further installed in the operation table.