CN218311873U - System for automatically assembling ferrule tail sleeve - Google Patents

Abstract

The utility model provides an automatic system of equipment lock pin tail cover relates to optical fiber assembly technical field, include: the feeding mechanism is provided with a first sliding chute and a second sliding chute which are used for arranging and accommodating a plurality of inserting cores and tail sleeves respectively, the first sliding chute and the second sliding chute extend transversely, and one ends of the first sliding chute and the second sliding chute are communicated through a longitudinal channel; the press-fitting mechanism is provided with a telescopic end, the telescopic end of the press-fitting mechanism is aligned with the channel, and the telescopic end extends longitudinally to press the inserting core into the tail sleeve; and a grabbing mechanism is arranged between the storage disc and the feeding mechanism and used for taking out the press-mounted inserting core and the tail sleeve to the storage disc. It has solved the lower problem of equipment lock pin and tail cover efficiency among the prior art.

Description

System for automatically assembling ferrule and tail sleeve

Technical Field

The utility model belongs to the technical field of the optical fiber assembly technique and specifically relates to a system for automatic equipment lock pin tail cover is related to.

Background

After the SC (square connector, snap-fit square) ferrule completes the assembly of the inner frame of the product, the tail sleeve needs to be further assembled outside the ferrule. In the traditional technology, the assembly operation of the tail sleeve is usually completed manually or by means of a simple tool, however, the method has low assembly efficiency and high labor intensity, and long-time assembly can cause hand pain of operators, so that large-batch production cannot be realized.

In order to solve the problems, the patent with the publication number of CN216966902U provides a ferrule and tail sleeve assembling device, but the ferrule and the tail sleeve are still required to be manually installed on the device one by one, and the assembly is realized one by manually stepping a foot switch, so that the automation cannot be realized, and the problems of acid softness and low efficiency caused by long-term repeated operation of workers still exist.

SUMMERY OF THE UTILITY MODEL

To exist not enough among the prior art, the utility model provides an automatic equipment lock pin tail cover's system, it has solved the lower problem of equipment lock pin and tail cover efficiency among the prior art.

According to the utility model discloses an embodiment, a system for automatic equipment lock pin tail cover, include:

the feeding mechanism is provided with a first sliding chute and a second sliding chute which are used for arranging and accommodating a plurality of inserting cores and tail sleeves respectively, the first sliding chute and the second sliding chute extend transversely, and one ends of the first sliding chute and the second sliding chute are communicated through a longitudinal channel;

the press-fitting mechanism is provided with a telescopic end, the telescopic end of the press-fitting mechanism is aligned with the channel, and the telescopic end extends longitudinally to press the inserting core into the tail sleeve;

and a grabbing mechanism is arranged between the storage disc and the feeding mechanism, and the grabbing mechanism (7) is used for taking out the press-fitted insertion core and the press-fitted tail sleeve to the storage disc.

Compared with the prior art, the utility model discloses following beneficial effect has:

when the press-mounting mechanism works, the feeding mechanism pushes the ferrule and the tail sleeve to move along the first sliding groove and the second sliding groove respectively, then the extending end of the press-mounting mechanism extends out to push the ferrule at the tail end of the first sliding groove to pass through the channel and finally press-mount the ferrule in the tail sleeve at the tail end of the second sliding groove, and the press-mounting of the single ferrule and the tail sleeve is completed; and finally, the grabbing mechanism grabs the press-mounted inserting core and the tail sleeve into a storage disc for storage. By adopting the scheme, the press mounting of the lock pins and the tail sleeves can be automatically completed one by one, and the lock pins and the tail sleeves after press mounting can be automatically transferred and collected; the automation degree of the whole system is higher, the burden of workers is reduced, and the press-fitting efficiency is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention;

fig. 2 is a schematic view of a connection relationship between the feeding mechanism and the press-fitting mechanism according to the embodiment of the present invention;

fig. 3 is a right side view of fig. 1.

In the drawings, wherein: 1. a feeding mechanism; 101. a first chute; 102. a second chute; 2. a press-fitting mechanism; 3. a storage disc; 301. a tray body; 302. a support plate; 3021. a notch; 4. a channel; 5. a slide bar; 6. a bolt; 7. a grabbing mechanism; 701. a frame; 702. a movable frame; 703. a sucker component; 8. a base plate; 9. mounting blocks; 10. a screw rod; 11. a slider; 12. inserting a core; 13. and (4) a tail sleeve.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

The utility model provides an embodiment, an automatic system of equipment lock pin tail cover, as shown in figure 1 and figure 2, include:

the feeding mechanism 1 is provided with a first sliding chute 101 and a second sliding chute 102 which extend transversely and are open at the tops, inner cavities of the first sliding chute 101 and the second sliding chute 102 are respectively matched with the outer wall sizes of the insertion cores 12 and the tail sleeves 13, so that the insertion cores 12 in the first sliding chute 101 are arranged linearly one by one, and the tail sleeves 13 in the second sliding chute 102 are arranged linearly one by one; one ends of the first sliding chute 101 and the second sliding chute 102 are communicated through a longitudinal channel 4; in the embodiment, the feeding mechanism 1 is taken as an example of a linear vibration feeding tray, the linear vibration feeding tray is the prior art, for example, a JS-140 series vibrator is directly purchased in the market, or an electronic precision vibration tray with the model of lx-4 is directly purchased from a Tiger door Lixing vibration tray manufacturing plant in Dongguan city;

the press-fitting mechanism 2 is provided with a telescopic end which is aligned with the channel 4, the telescopic end longitudinally extends out to press the insertion core 12 aligned with the telescopic end into the tail sleeve 13, and the press-fitting mechanism 2 in the embodiment takes the existing electric push rod as an example;

and a storage disc 3, a grabbing mechanism 7 is arranged between the storage disc 3 and the feeding mechanism 1, and the grabbing mechanism 7 is used for taking out the press-fitted insertion core 12 and the tail sleeve 13 to the storage disc 3.

During operation, the linear vibration feeding tray pushes the ferrule 12 and the tail sleeve 13 to move along the first sliding groove 101 and the second sliding groove 102 respectively to realize feeding, and then the extending end of the electric push rod extends out to push the ferrule 12 at the tail end of the first sliding groove 101 to pass through the channel 4 and finally press-fit the ferrule 12 in the tail sleeve 13 at the tail end of the second sliding groove 102, so that press-fitting of the single ferrule 12 and the tail sleeve 13 is completed; and finally, the grabbing mechanism 7 grabs the press-fitted insertion core 12 and the tail sleeve 13 into the storage disc 3 for storage. By adopting the scheme, the press mounting of the plug cores 12 and the tail sleeves 13 can be automatically completed one by one, and the plug cores 12 and the tail sleeves 13 after the press mounting can be automatically transferred and collected; the automation degree of the whole system is higher, the burden of workers is reduced, and the press-fitting efficiency is improved.

Further, a longitudinally extending slide way is arranged at one end of the first sliding groove 101, the slide way is communicated with the first sliding groove 101 and the second sliding groove 102, an end cover is detachably and fixedly connected to the right ends of the first sliding groove 101 and the second sliding groove 102 for improving the guiding and limiting functions of the first sliding groove 101 and the second sliding groove 102, and a top cover is also detachably and fixedly connected to the top ends of the first sliding groove 101 and the second sliding groove 102 (in fig. 2, the first sliding groove 101 and the second sliding groove 102 are visually displayed, and the end cover and the top cover are hidden); the slide bar device also comprises a slide bar 5, one end of the slide bar 5 is positioned in the slide way and can slide along the slide way, and the slide bar 5 is detachably and fixedly connected with the telescopic end of the press-fitting mechanism 2; the arrangement of the slide bar 5 can prevent the telescopic end of the press-fitting mechanism 2 from directly penetrating into the slide way, so that the design width of the slide way is reduced, the slide bar 5 is accurately aligned with the ferrule 12, and the press-fitting accuracy of the ferrule 12 and the tail sleeve 13 is improved; the extension end of the electric push rod pushes the slide bar 5 to press the inserting core 12 into the tail sleeve 13.

Furthermore, a vertically through T-shaped groove is fixedly arranged at one end of the sliding strip 5, which is positioned outside the first sliding groove 101, a bolt 6 is connected to the output end of the press-fitting mechanism 2 in a threaded manner, and the head of the bolt 6 is sleeved in the T-shaped groove; through the arrangement, firstly, on the premise of not changing the telescopic amount of the electric push rod, the distance between the sliding strip 5 and the electric push rod body can be adjusted by rotating the bolt 6, so that the depth of the sliding strip 5 inserted into the channel 4 is changed, the applicability of the press-fitting mechanism 2 is better, and the press-fitting effect of the ferrule 12 and the tail sleeve 13 is optimized; secondly, the slide bar 5 slides upwards or downwards away from the head of the bolt 6, so that the slide bar and the bolt can be separated, and the assembly and disassembly are convenient.

In another embodiment of the present invention, as shown in fig. 1 and 3, the grabbing mechanism 7 includes:

frame 701 is equipped with lateral shifting's running gear on it, and is specific, this running gear includes:

the device comprises a base, a motor, a sliding block and a moving frame, wherein the base is provided with a through groove which is longitudinally through, a screw rod is rotationally connected in the through groove, one end of the screw rod is connected with the motor, the screw rod is sleeved with the sliding block, the sliding block is in the through groove and can transversely slide along the through groove, and the moving frame 702 is fixedly arranged on the sliding block;

and sucking disc subassembly 703, sucking disc subassembly 703 passes through the vertical swing joint of first drive assembly on moving frame 702, and wherein, first drive assembly includes the vertical slide rail that sets firmly on moving frame 702 and can adjust the seat along the slide rail is gliding, adjusts the one end of seat and connects and have the lead screw, and sucking disc subassembly 703 installs on adjusting the seat, should understand that sucking disc subassembly 703 itself is prior art, for example can be conventional electromagnetic chuck or vacuum chuck.

In another embodiment of the present invention, as shown in fig. 1 to fig. 3, the storage tray 3 further includes a bottom plate 8, the storage tray 3 is vertically movably connected to the bottom plate 8 through a second driving assembly, and a plurality of independent accommodating cavities are disposed on the storage tray 3.

The second drive assembly includes:

the mounting block 9 is provided with a rectangular groove;

the two ends of the screw rod 10 longitudinally rotate on the mounting block 9, one end of the screw rod 10 is connected with a driving motor, the screw rod 10 is sleeved with a sliding block 11 and is in threaded connection with the sliding block 11, the sliding block 11 is positioned in the rectangular groove, and the two opposite ends of the sliding block 11 extend upwards and are fixedly connected with the bottom of the supporting plate 302; the connection mode can lead the supporting plate 302 to be supported on the sliding block 11 in a non-cantilever mode, so that the connection is more stable; after the cavities in the same transverse row on the storage disc 3 are filled, the second driving assembly drives the storage disc 3 to longitudinally move for a preset distance, so that the other row of cavities is located below the sucker assembly 703 and is stored.

Further, the storage tray 3 comprises a tray body 301 and a supporting plate 302, a groove which is concave downwards is arranged on the supporting plate 302, the outer contour of the tray body 301 is matched with the inner wall of the groove, the tray body 301 is nested in the groove, and notches 3021 are arranged on two opposite sides of the bottom plate 8, so that an operator can conveniently hold the notches 3021 to take out the tray body 301 upwards.

The utility model discloses a working process as follows:

firstly, the ferrule 12 and the tail sleeve 13 are respectively conveyed to a first sliding chute 101 and a second sliding chute 102 by a linear vibration feeding plate and are made to slide along the sliding chutes, then an electric push rod longitudinally pushes a slide bar 5, and the slide bar 5 further pushes the ferrule 12 positioned at the tail end of the first sliding chute 101 to pass through a channel 4 and be inserted into the second sliding chute 102 and finally pressed and installed on the tail sleeve 13 opposite to the ferrule 12; at the moment, the first driving assembly drives the sucker assembly 703 to move downwards until the sucker of the sucker assembly 703 is attached to the pressed ferrule 12 and the tail sleeve 13, and the sucker assembly 703 adsorbs the pressed ferrule 12 and the tail sleeve 13; the motor drives the screw rod to rotate, so that the travelling mechanism and the sucker component 703 are driven to move transversely rightwards until the sucker component 703 is over against one row of accommodating cavities of the storage disc 3, at the moment, the first driving component drives the sucker component 703 to move downwards, and finally, the inserting core 12 and the tail sleeve 13 adsorbed on the sucker component are placed into one accommodating cavity; when one row of cavities is full, the second driving assembly drives the storage tray 3 to move laterally, so that another empty cavity is aligned directly below the suction cup assembly 703. The process is circulated, and the automatic feeding, press fitting and discharging storage of the ferrule 12 and the tail sleeve 13 can be realized.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (8)

1. A system for automatically assembling a ferrule boot, comprising:

the device comprises a feeding mechanism (1) and a feeding mechanism, wherein the feeding mechanism is provided with a first sliding groove (101) and a second sliding groove (102) which are used for arranging and accommodating a plurality of inserting cores (12) and tail sleeves (13), the first sliding groove (101) and the second sliding groove (102) extend transversely, and one ends of the first sliding groove and the second sliding groove are communicated through a longitudinal channel (4);

the press-fit mechanism (2) is provided with a telescopic end, the telescopic end of the press-fit mechanism is over against the channel (4), and the telescopic end longitudinally extends out to press the inserting core (12) into the tail sleeve (13);

and a storage disc (3), wherein a grabbing mechanism (7) is arranged between the storage disc (3) and the feeding mechanism (1), and the grabbing mechanism (7) is used for taking out the pressed insertion core (12) and the pressed tail sleeve (13) to the storage disc (3).

2. The system for automatically assembling the ferrule tail sleeve according to claim 1, wherein one end of the first sliding groove (101) is provided with a longitudinally extending slideway, and the slideway is communicated with the first sliding groove (101) and the second sliding groove (102); still include draw runner (5), the one end of draw runner (5) is located in the slide and it can slide along this slide, draw runner (5) with the flexible end detachable rigid coupling of pressure equipment mechanism (2).

3. The system for automatically assembling the ferrule tail sleeve according to claim 2, wherein a vertically through T-shaped groove is fixedly arranged at one end of the slide bar (5) positioned outside the first sliding groove (101), a bolt (6) is connected to an output end of the press-fitting mechanism (2) in a threaded manner, and the head of the bolt (6) is sleeved in the T-shaped groove.

4. A system for automatically assembling a ferrule boot as claimed in claim 2 or 3, wherein the gripping mechanism (7) comprises:

a frame (701) on which a transversely movable travelling mechanism is mounted;

and the sucker component (703) is vertically movably connected to the travelling mechanism through a first driving component.

5. The system for automatically assembling the ferrule tail sleeve as claimed in claim 4, further comprising a bottom plate (8), wherein the storage disc (3) is longitudinally movably connected to the bottom plate (8) through a second driving assembly, and a plurality of independent accommodating cavities are formed in the storage disc (3).

6. The system for automatically assembling the ferrule tail sleeve as claimed in claim 5, wherein the storage tray (3) comprises a tray body (301) and a supporting plate (302), a groove which is concave downwards is arranged on the supporting plate (302), the outer contour of the tray body (301) is matched with the inner wall of the groove, and notches (3021) are arranged on two opposite sides of the bottom plate (8).

7. The system for automatically assembling a ferrule boot according to claim 6, wherein said second drive assembly comprises:

the mounting block (9) is provided with a rectangular groove;

lead screw (10), its both ends are vertically rotated on installation piece (9), the one end hookup of lead screw (10) has driving motor, the cover is established and threaded connection has slider (11) on lead screw (10), be located of slider (11) the rectangular channel is interior, the both ends that slider (11) is relative upwards extend and with layer board (302) fixed connection.

8. A system for automatic assembling of ferrule ferrules according to any one of claims 1 to 3, characterized in that the feeding mechanism (1) is a linear vibration feeding tray.

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