CN211148976U - A little curved crimping tool for outdoor optical fiber jumper wire equipment - Google Patents

Abstract

The utility model provides a little curved crimping tool for outdoor optical fiber jumper wire equipment, comprising a base plate, be provided with open structure on the bottom plate, open structure one side is provided with the connector fixture block, be fixed with first cylinder on the connector fixture block, connector fixture block one side still is provided with the second cylinder, be fixed with the clamping ring ejector pad on the second cylinder, the clamping ring ejector pad is in on the optical cable connector is arranged in to the clamping ring pressing ring cover under the drive of second cylinder, the utility model provides a little curved crimping tool for outdoor optical fiber jumper wire equipment has advantages such as structural design is reasonable, convenient to use, yield height, effective saving cost, has very big economic value and use value.

Description

A little curved crimping tool for outdoor optical fiber jumper wire equipment

Technical Field

The utility model relates to an optic fibre wire jumper processing tool designs technical field, concretely relates to microbend crimping tool that is used for outdoor optic fibre wire jumper equipment.

Background

At present, optical fibers 0.9 in the optical communication manufacturing industry generally need to be ensured to be in a state of not bearing force on a microbend, in order to meet the standardized requirement, the degree of the microbend of the optical fibers 0.9 needs to be ensured to be basically the same, and the standardized production is difficult to realize only through manual control. At present, most of the procedures are carried out by operators through experience operation to slightly bend the optical fiber by 0.9, but the slightly bending degree of each optical fiber is different, and the standardized production cannot be realized. The optical fiber 0.9 guarantee micro-bending jig is the jig designed from the optical fiber, the jig is used for controlling the quantitative micro-bending of the optical fiber core, the control of the 0.9 micro-bending degree of the optical fiber is realized, and the production is more standardized. The disadvantages of manual assembly are as follows: a. the assembly of staff is unstable, and misoperation easily causes badness and even scrapping. b. Even if the optical fiber 0.9 can be in a slightly bent state, the consistency of curvature is difficult to ensure, and subsequent test data is influenced. c. Too large or too small bending curvature easily breaks the optical fiber 0.9, and shortens the service life of the optical cable. The method can easily find that the existing staff have leaks in the process of ensuring the microbending of the optical fiber 0.9, cannot ensure the standardization of the microbending, and has great instability, so that the method needs to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to above-mentioned prior art not enough and provide a microbend crimping tool that is used for outdoor optic fibre wire jumper equipment of reasonable in structural design, convenient to use, yield height, effective cost-effective.

The utility model discloses a solve the technical scheme that above-mentioned problem adopted and do:

the utility model provides a micro-bending press-connection jig for assembling outdoor optical fiber patch cords, which comprises a bottom plate, wherein an opening structure is arranged on the bottom plate, a connector clamping block is arranged on one side of the opening structure, a first cylinder is fixed on the connector clamping block, a second cylinder is also arranged on one side of the connector clamping block, a pressing ring pushing block is fixed on the second cylinder, the pressing ring pushing block is driven by the second cylinder to push the pressing ring to be sleeved on an optical cable connector,

the opposite side of open structure is provided with the cylinder fixed block, install the third cylinder on the cylinder fixed block, the fourth cylinder is still installed to cylinder fixed block one side, be provided with the fourth cylinder connecting block on the fourth cylinder, the fourth cylinder with be provided with the spacing post of first cylinder and the spacing post of second cylinder between the clamping ring ejector pad, be provided with the fixed position of connector fixture block, the fixed position of second cylinder, cylinder fixed block and the fixed position of fourth cylinder on the bottom plate respectively, be used for fixing respectively connector fixture block, second cylinder, cylinder fixed block and the fixed position of fourth cylinder.

It is further right, be provided with the connector draw-in groove on the connector fixture block, the connector draw-in groove is used for fixing the optical cable connector, connector draw-in groove one side is provided with first cylinder fixed through hole, is used for fixing first cylinder.

It is further right that first cylinder is small-size screw thread cylinder, is used for the fastening the optical cable connector.

Further, the second cylinder is a double-shaft cylinder.

It is further right, be provided with first ejector pad bayonet socket and second ejector pad bayonet socket on the clamping ring ejector pad, be provided with the ejector pad through-hole on the clamping ring ejector pad, first ejector pad bayonet socket is used for promoting the clamping ring and slides.

Further, the cylinder fixing block is provided with a first cylinder fixing block through hole, a second cylinder fixing block through hole and a third cylinder fixing through hole, and the third cylinder fixing through hole is used for fixing the third cylinder.

In a further pair, the third cylinder is a large threaded cylinder.

It is further right that, fourth cylinder slip table cylinder.

It is further right, be provided with fourth cylinder connecting block through-hole and fourth cylinder connecting block draw-in groove on the fourth cylinder connecting block, fourth cylinder connecting block fastening structure is provided with to fourth cylinder connecting block draw-in groove one side.

Further, a protective cover is arranged on the bottom plate.

The beneficial effects of the utility model reside in that:

the utility model provides a little curved crimping tool for outdoor optical fiber jumper wire equipment has structural design rationally, high durability and convenient use, the yield is high, effectively practice thrift advantages such as cost, this application is spacing to guarantee optic fibre 0.9's little curved degree through utilizing the slip table cylinder action in the use, the user operation is got up more convenient, stably, utilize electrically controlled device to realize semi-automatization operation simultaneously, avoid various loaded down with trivial details operations, also play simultaneously and prevent the effect of lazing, very big economic value and use value have.

Drawings

Fig. 1 is a structural diagram of a microbend press-connection jig for assembling an outdoor optical fiber jumper of the present invention;

fig. 2 is a bottom plate structure diagram of a microbend press-connection jig for assembling an outdoor optical fiber jumper of the present invention;

FIG. 3 is a block diagram of a connector of a microbend crimping tool for assembling an outdoor optical fiber patch cord according to the present invention;

fig. 4 is a structural view of a press ring pusher of the microbending press-connection jig for assembling an outdoor optical fiber jumper of the present invention;

fig. 5 is a diagram of a cylinder fixing block of the microbending press-connection jig for assembling an outdoor optical fiber jumper of the present invention;

fig. 6 is a fourth cylinder connecting block composition of the microbending crimping tool for assembling outdoor optical fiber patch cord.

Detailed Description

The following embodiments of the present invention are specifically explained with reference to the accompanying drawings, which are used for reference and illustration only and do not limit the scope of the present invention.

As shown in fig. 1-6, the utility model provides a little curved crimping tool for assembly of outdoor optic fibre wire jumper, including bottom plate 1, be provided with open structure 2 on the bottom plate 1, open structure 2 one side is provided with connector fixture block 3, be fixed with first cylinder 4 on the connector fixture block 3, connector fixture block 3 one side still is provided with second cylinder 5, be fixed with clamping ring ejector pad 6 on the second cylinder 5, clamping ring ejector pad 6 is in promote clamping ring 100 cover under the drive of second cylinder 5 and arrange in on the optical cable connector 200.

The opposite side of open structure 2 is provided with cylinder fixed block 7, install third cylinder 8 on the cylinder fixed block 7, fourth cylinder 9 is still installed to cylinder fixed block 7 one side, be provided with fourth cylinder connecting block 10 on the fourth cylinder 9, fourth cylinder 9 with be provided with spacing post 300 of first cylinder and the spacing post 400 of second cylinder between the clamping ring ejector pad 6, be provided with connector fixture block fixed position 11, second cylinder fixed position 12, cylinder fixed block 13 and the fixed position 14 of fourth cylinder on the bottom plate 1 respectively, be used for fixing respectively connector fixture block 3, second cylinder 5, cylinder fixed block 7 and fourth cylinder 9.

In this embodiment, a connector clamping groove 31 is formed in the connector clamping block 3, the connector clamping groove 31 is used for fixing the optical cable connector 200, and a first cylinder fixing through hole 32 is formed in one side of the connector clamping groove 31 and used for fixing the first cylinder 4.

In this embodiment, the first cylinder 4 is a small-sized threaded cylinder for fastening the optical cable connector 200.

In the present embodiment, the second cylinder 5 is a biaxial cylinder.

In this embodiment, the pressing ring pushing block 6 is provided with a first pushing block bayonet 61 and a second pushing block bayonet 62, the pressing ring pushing block 6 is provided with a pushing block through hole 63, and the first pushing block bayonet 61 is used for pushing the pressing ring 100 to slide.

In this embodiment, the cylinder fixing block 7 is provided with a first cylinder fixing block through hole 71, a second cylinder fixing block through hole 72, and a third cylinder fixing through hole 73, and the third cylinder fixing through hole 73 is used for fixing the third cylinder 8.

In this embodiment, the third cylinder 8 is a large-sized thread cylinder.

In this embodiment, the fourth cylinder 9 is a second sliding table cylinder.

In this embodiment, a fourth cylinder connecting block through hole 101 and a fourth cylinder connecting block clamping groove 102 are arranged on the fourth cylinder connecting block 10, and a fourth cylinder connecting block fastening structure 103 is arranged on one side of the fourth cylinder connecting block clamping groove 102.

In this embodiment, the bottom plate 1 is further provided with a protective cover 500.

The application process is as follows:

the optical cable connector and the optical cable are placed into a jig as shown in figure 1, the air cylinders are linked by using electric control, firstly, the third air cylinder and the first air cylinder act simultaneously to fix the connector and the optical cable, the fourth air cylinder acts to push the optical cable forwards, the stroke of the fourth air cylinder acts is the micro-bending amount of 0.9 micro-bending of the optical fiber, the micro-bending degree of the optical fiber can be achieved by adjusting the action program of the fourth air cylinder, after the fourth air cylinder acts in place, the third air cylinder acts to enable the compression ring pushing block to act, the compression ring and the connector are assembled in place, then the compression process is carried out at the compression ring by using the compression clamp jaw, the compression process is completed, the air cylinders are retreated to the initial position by using the electric control, the product is taken out, and the micro-.

The utility model provides a little curved crimping tool for outdoor optical fiber jumper wire equipment has structural design rationally, high durability and convenient use, the yield is high, effectively practice thrift advantages such as cost, this application is spacing to guarantee optic fibre 0.9's little curved degree through utilizing the slip table cylinder action in the use, the user operation is got up more convenient, stably, utilize electrically controlled device to realize semi-automatization operation simultaneously, avoid various loaded down with trivial details operations, also play simultaneously and prevent the effect of lazing, very big economic value and use value have.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. The utility model provides a little curved crimping tool for outdoor optic fibre wire jumper equipment which characterized in that: comprises a bottom plate, an opening structure is arranged on the bottom plate, a connector clamping block is arranged on one side of the opening structure, a first air cylinder is fixed on the connector clamping block, a second air cylinder is also arranged on one side of the connector clamping block, a pressing ring pushing block is fixed on the second air cylinder, the pressing ring pushing block is driven by the second air cylinder to push the pressing ring to be sleeved on an optical cable connector,

the other side of the opening structure is provided with an air cylinder fixing block, a third air cylinder is arranged on the air cylinder fixing block, a fourth air cylinder is further arranged on one side of the air cylinder fixing block, a fourth air cylinder connecting block is arranged on the fourth air cylinder, a first air cylinder limiting column and a second air cylinder limiting column are arranged between the fourth air cylinder and the compression ring pushing block,

the bottom plate is provided with a connector fixture block fixing position, a second air cylinder fixing position, an air cylinder fixing block and a fourth air cylinder fixing position which are used for fixing the connector fixture block, the second air cylinder, the air cylinder fixing block and the fourth air cylinder fixing position respectively.

2. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 1, characterized in that: the connector clamping groove is used for fixing the optical cable connector, and a first air cylinder fixing through hole is formed in one side of the connector clamping groove and used for fixing the first air cylinder.

3. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 2, characterized in that: the first cylinder is a small-size threaded cylinder and is used for fastening the optical cable connector.

4. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 1, characterized in that: the second cylinder is a double-shaft cylinder.

5. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 2, characterized in that: the compression ring pushing block is provided with a first pushing block bayonet and a second pushing block bayonet, a pushing block through hole is formed in the compression ring pushing block, and the first pushing block bayonet is used for pushing the compression ring to slide.

6. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 1, characterized in that: the cylinder fixing block is provided with a first cylinder fixing block through hole, a second cylinder fixing block through hole and a third cylinder fixing through hole, and the third cylinder fixing through hole is used for fixing the third cylinder.

7. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 1, characterized in that: the third cylinder is a large-size threaded cylinder.

8. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 1, characterized in that: and the fourth cylinder is a second sliding table cylinder.

9. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 1, characterized in that: and a fourth cylinder connecting block through hole and a fourth cylinder connecting block clamping groove are formed in the fourth cylinder connecting block, and a fourth cylinder connecting block fastening structure is arranged on one side of the fourth cylinder connecting block clamping groove.

10. The micro-bending press-connection jig for assembling the outdoor optical fiber patch cord according to claim 1, characterized in that: the bottom plate is also provided with a protective cover.

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