CN210038240U - Novel optical jump fiber branch curing device - Google Patents

Abstract

The utility model discloses a novel light jump fine branch solidification device, its characterized in that: the optical fiber cable branch locking device comprises a main cable locking mechanism for locking a main optical cable, an auxiliary cable locking mechanism for locking a branch optical cable, and a branch locking mechanism for connecting the main cable locking mechanism and the auxiliary cable locking mechanism; the main cable locking mechanism and the auxiliary cable locking mechanism are respectively provided with a sealing structure and a locking structure and used for sealing and locking the optical cable. The utility model discloses a screw thread formula high-speed joint, convenient to use connects firmly.

Description

Novel optical jump fiber branch curing device

Technical Field

The utility model relates to a fine connection technical field of light jump, concretely relates to novel fine branch solidification of light jump device.

Background

The traditional multi-core optical fiber jumper connection process mainly adopts the following modes: 1) the glue filling mode of the splitter is characterized in that the product structure is matched with the scattered procedures in the midway, the glue filling process is assisted, and the product solidification is realized; 2) in the splitter heat-shrinkable tube mode, the scattered working procedures of the midway part are matched with the product structure to assist the heat-shrinkable tube process, so that the product is cured; 3) the branching device compression joint mode, the scattered processes in the midway are matched with the product structure, the compression joint process is assisted, and the product solidification is realized.

However, the above-mentioned conventional curing method has the following disadvantages: 1) the glue pouring and curing process ensures that the product is completely cured in a short time, so that the tensile property of the product is ensured, but the bare fibers arranged in the splitter are fixed by the glue after the glue is cured, so that the product is stressed, and the optical property index of the product is influenced to a certain extent; 2) the product is completely cured in a short time by the heat shrink tube curing process, so that the tensile property of the product is ensured, but the built-in bare fiber of the splitter is fixed by the heat shrink tube after the heat shrink tube is cured, so that the risk of stress deformation of the heat shrink tube exists, and the optical property index of the product is influenced to a certain extent; 3) the compression curing process ensures the complete curing of the product and ensures the tensile property of the product, but the embedded bare fiber of the splitter after compression curing has the risk of bending, so that the product is stressed, and the optical property index of the product is influenced to a certain extent.

In addition, the traditional branch curing mode needs to be operated by means of external tools (a heat drying gun and a press-connection machine), and curing cannot be carried out without tools; meanwhile, under the condition of severe environment in the construction process, the waterproof and dustproof requirements cannot be met.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a novel fine branch solidification is jumped to light device, adopts screw thread formula high-speed joint, and convenient to use connects firmly, has resistant shake simultaneously and is able to bear or endure towards, waterproof dirt-proof function.

In order to solve the technical problem, the utility model discloses take following technical scheme: the utility model discloses a novel fine branch solidification is jumped to light device, its innovation point lies in: the optical fiber cable branch locking device comprises a main cable locking mechanism for locking a main optical cable, an auxiliary cable locking mechanism for locking a branch optical cable, and a branch locking mechanism for connecting the main cable locking mechanism and the auxiliary cable locking mechanism; the main cable locking mechanism and the auxiliary cable locking mechanism are respectively provided with a sealing structure and a locking structure and used for sealing and locking the optical cable.

Preferably, the main cable locking mechanism comprises a main cable locking nut, a main cable rubber plug and a main cable splitter end; the main cable splitter end is of a hollow cylinder structure, a first conical locking mechanism is arranged on one end face of the main cable splitter end, the first conical locking mechanism is coaxially arranged with the main cable splitter end, the large end of the first conical locking mechanism is fixedly connected with the main cable splitter end, a main cable rubber plug is further arranged inside the first conical locking mechanism, and the main cable rubber plug is fastened in the first conical locking mechanism through a main cable locking nut.

Preferably, the auxiliary cable locking mechanism comprises an auxiliary cable splitter end, an auxiliary cable rubber plug and an auxiliary cable locking nut; the auxiliary cable splitter end is of a hollow cylinder structure, a plurality of second cylindrical bosses of the hollow structure are arranged on the end face of one end of the auxiliary cable splitter end, the axis direction of each second cylindrical boss is parallel to the axis direction of the auxiliary cable splitter end, and one end of each second cylindrical boss is fixedly connected with the auxiliary cable splitter end; each be equipped with second toper locking mechanism on the other end terminal surface of the cylindrical boss of second, each second toper locking mechanism all with correspond the cylindrical boss of second sets up with the axle center, and its main aspects with the cylindrical boss fixed connection of second, each second toper locking mechanism's inside still is equipped with assists the cable rubber buffer, and each it all corresponds through assisting the fastening of cable lock nut in the second toper locking mechanism to assist the cable rubber buffer.

Preferably, the main cable splitter end and the auxiliary cable splitter end are coaxially arranged, and the other end of the main cable splitter end is sleeved with the other end of the auxiliary cable splitter end and fixedly connected through a branch locking mechanism.

Preferably, the other end of the auxiliary cable splitter end is further provided with a first cylindrical boss for positioning, and the first cylindrical boss is of a hollow structure and coaxial with the auxiliary cable splitter end; the outer diameter of the first cylindrical boss is smaller than that of the auxiliary cable splitter end, and the outer surface of the first cylindrical boss is matched with the inner surface of the main cable splitter end; the other end of the auxiliary cable splitter end is sleeved inside the other end of the main cable splitter end through a first cylindrical boss.

Preferably, the branch locking mechanism comprises a splitter locking nut and waterproof rubber rings arranged at two ends of the splitter locking nut; the splitter locking nut is coaxially arranged with the main cable splitter end and the auxiliary cable splitter end respectively, and two ends of the splitter locking nut are in threaded connection with the auxiliary cable splitter end and the main cable splitter end respectively.

Preferably, the first conical locking mechanism is of a hollow gripper structure capable of being tightened, is uniformly distributed on the end face of one end of the main cable splitter end at intervals along the circumferential direction of the main cable splitter end, and is tightened towards the axis direction of the main cable splitter end; the outer diameter of the large end of the first conical locking mechanism is matched with the outer diameter of the end of the main cable splitter, and the outer surface of the first conical locking mechanism is matched with the inner surface of the main cable locking nut.

Preferably, the main cable rubber buffer is the toper, just the surface of main cable rubber buffer with the internal surface phase-match of a toper locking mechanism, the internal surface phase-match of main cable rubber buffer and the surface of main optical cable.

Preferably, one end of the main cable splitter end is further provided with a first external thread along the circumferential direction, the first external thread is matched with the main cable locking nut, and one end of the main cable splitter end is in threaded connection with the main cable locking nut through the first external thread.

Preferably, each second conical locking mechanism is of a retractable hollow gripper structure, is uniformly distributed on the end face of the other end of the second cylindrical boss at intervals along the circumferential direction of the second cylindrical boss, and is retracted towards the axis direction of the second cylindrical boss; the outer diameter of the large end of each second conical locking mechanism is matched with the outer diameter of the second cylindrical boss, and the outer surface of the large end of each second conical locking mechanism is matched with the inner surface of the cable-assisting locking nut.

Preferably, each assist the cable rubber buffer and be the toper, and each assist the surface of cable rubber buffer with the internal surface phase-match of second toper locking mechanism, each assist the internal surface phase-match of cable rubber buffer and the surface of branch optical cable.

Preferably, a second external thread is further formed at the other end of each second cylindrical boss along the circumferential direction, each second external thread is matched with the auxiliary cable locking nut, and the other end of each second cylindrical boss is in threaded connection with the auxiliary cable locking nut through a second external thread.

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

1) the utility model discloses a screw thread formula high-speed joint, convenient to use connects firmly, has simultaneously resistant shake and dash, waterproof dirt-proof function.

2) The utility model adopts engineering plastics as the whole shell, and has light weight and low price.

3) The utility model discloses promote the tensile strength of product greatly, mechanical properties is good.

4) The utility model discloses waterproof dustproof can reach IP68 grade, can satisfy the construction under the construction environment.

5) The utility model discloses the inside crooked degree of optical cable can be adjusted to guarantee that the light jumps fine optical property.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the novel optical fiber jumping branch curing device of the present invention.

Fig. 2 is a connection process diagram of the novel optical fiber jumping branch curing device of the present invention.

Fig. 3 is a sectional view of the main cable lock nut of fig. 1.

Wherein, 1-main optical cable; 2-main cable lock nut; 3-main cable rubber plug; 4-main cable splitter end; 5-a splitter lock nut; 6-auxiliary cable splitter end; 7-auxiliary cable rubber plug; 8-auxiliary cable locking nut; 9-a drop cable; 10-a first cylindrical boss; 11-a first external thread; 12-a first taper lock mechanism; 13-a second cylindrical boss; 14-a second taper locking mechanism; 15-second external thread.

Detailed Description

The technical solution of the present invention will be described clearly and completely through the following detailed description.

The utility model discloses a novel optical jump fiber branch curing device, which comprises a main cable locking mechanism for locking a main optical cable 1, an auxiliary cable locking mechanism for locking a branch optical cable 9, and a branch locking mechanism for connecting the main cable locking mechanism and the auxiliary cable locking mechanism; the main cable locking mechanism and the auxiliary cable locking mechanism are respectively provided with a sealing structure and a locking structure and used for sealing and locking the optical cable.

The utility model discloses a main cable locking mechanism comprises a main cable locking nut 2, a main cable rubber plug 3 and a main cable splitter end 4; wherein, the main cable lock nut 2 and the main cable splitter end 4 can be made of different materials such as nylon, PE, PP, PC, ABS and the like according to requirements. As shown in fig. 1 and 2, the main cable splitter end 4 is a hollow cylinder structure, and a first taper locking mechanism 12 is arranged on one end face of the main cable splitter end, the first taper locking mechanism 12 and the main cable splitter end 4 are coaxially arranged, and the large end of the first taper locking mechanism 12 is fixedly connected with the main cable splitter end 4;

the first conical locking mechanisms 12 are of a retractable hollow gripper structure, are uniformly distributed on the end face of one end of the main cable splitter end 4 at intervals along the circumferential direction of the main cable splitter end 4, and are retracted towards the axis direction of the main cable splitter end 4; the outer diameter of the large end of the first conical locking mechanism 12 is matched with the outer diameter of the main cable splitter end 4, and the outer surface of the first conical locking mechanism is matched with the inner surface of the main cable locking nut 2;

a main cable rubber plug 3 is further arranged inside the first conical locking mechanism 12, as shown in fig. 1 and 2, the main cable rubber plug 3 is conical, the outer surface of the main cable rubber plug 3 is matched with the inner surface of the first conical locking mechanism 12, and the inner surface of the main cable rubber plug 3 is matched with the outer surface of the main cable 1;

a first external thread 11 is further formed at one end of the main cable splitter end 4 along the circumferential direction, and as shown in fig. 1 and 2, the first external thread 11 is matched with the main cable lock nut 2; the utility model discloses the one end of well main push-towing rope spliter end 4 is through first external screw thread 11 and 2 spiro unions of main push-towing rope lock nut, and in main push-towing rope rubber buffer 3 arranged in first toper locking mechanism 12 to through the fastening of main push-towing rope lock nut 2 to first toper locking mechanism 12, thereby accomplish the locking to main optical cable 1.

The utility model discloses well main push-towing rope locking mechanism can adopt other embodiments: one ends of the two matched semicircular locking rings are rotatably connected, the main optical cable 1 is placed in a circle surrounded by the two semicircular locking rings, and the other ends of the two semicircular locking rings are fastened through the buckles, so that the main optical cable 1 is locked.

The utility model discloses a middle auxiliary cable locking mechanism, which comprises an auxiliary cable splitter end 6, an auxiliary cable rubber plug 7 and an auxiliary cable locking nut 8; wherein, the auxiliary cable splitter end 6 and the auxiliary cable locking nut 8 can be made of different materials such as nylon, PE, PP, PC, ABS and the like according to requirements. As shown in fig. 1 and 2, the auxiliary cable splitter end 6 is a hollow cylindrical structure, and four second cylindrical bosses 13 with a hollow structure are arranged on an end face of one end of the auxiliary cable splitter end, an axial direction of each second cylindrical boss 13 is parallel to an axial direction of the auxiliary cable splitter end 6, and one end of each second cylindrical boss is fixedly connected with the auxiliary cable splitter end 6; a second conical locking mechanism 14 is arranged on the end face of the other end of each second cylindrical boss 13, each second conical locking mechanism 14 is coaxially arranged with the corresponding second cylindrical boss 13, and the large end of each second conical locking mechanism 14 is fixedly connected with the second cylindrical boss 13;

the second conical locking mechanism 14 is a hollow gripper structure which can be tightened, is uniformly distributed on the end face of the other end of the second cylindrical boss 13 at intervals along the circumferential direction of the second cylindrical boss 13, and is tightened towards the axis direction of the second cylindrical boss; the outer diameter of the large end of the second conical locking mechanism 14 is matched with the outer diameter of the second cylindrical boss 13, and the outer surface of the second conical locking mechanism is matched with the inner surface of the cable locking nut 8;

an auxiliary cable rubber plug 7 is further arranged inside each second conical locking mechanism 14, as shown in fig. 1 and fig. 2, the auxiliary cable rubber plug 7 is conical, the outer surface of the auxiliary cable rubber plug 7 is matched with the inner surface of the second conical locking mechanism 14, and the inner surface of the auxiliary cable rubber plug 7 is matched with the outer surface of the branch optical cable 9;

a second external thread 15 is further formed at the other end of each second cylindrical boss 13 along the circumferential direction, and as shown in fig. 1 and 2, the second external thread 15 is matched with the auxiliary cable locking nut 8; wherein, the number of the second cylindrical bosses 13 can be determined according to the requirement of the branch optical cable 2 core, 4 cores or multi-core. The utility model discloses in the other end of each cylindrical boss 13 of second all through second external screw 15 with assist cable lock nut 8 spiro union, and each is assisted cable rubber buffer 7 and all arranges corresponding second toper locking structure 14 in to through assisting the fastening of cable lock nut 8 to second toper locking mechanism 14, thereby accomplish the locking to branched optical cable 9.

The utility model discloses well cable locking mechanical system is assisted can adopt other embodiments: one ends of the two matched semicircular locking rings are rotatably connected, the branched optical cable 9 is placed in a circle surrounded by the two semicircular locking rings, and the other ends of the two semicircular locking rings are fastened through the buckles, so that the branched optical cable 9 is locked.

The middle branch locking mechanism of the utility model comprises a splitter locking nut 5 and waterproof rubber rings arranged at two ends of the splitter locking nut 5; the splitter locking nut 5 is coaxially arranged with the main cable splitter end 4 and the auxiliary cable splitter end 6 respectively, and two ends of the splitter locking nut 5 are in threaded connection with the auxiliary cable splitter end 6 and the main cable splitter end 4 respectively; the splitter lock nut 5 can be made of different materials such as nylon, PE, PP, PC, ABS and the like according to needs. As shown in fig. 1 and 2, a first cylindrical boss 10 for positioning is further disposed at the other end of the auxiliary cable splitter end 6, and the first cylindrical boss 10 is of a hollow structure and is coaxially disposed with the auxiliary cable splitter end 6; the outer diameter of the first cylindrical boss 10 is smaller than the outer diameter of the auxiliary cable splitter end 6, and the outer surface of the first cylindrical boss is matched with the inner surface of the main cable splitter end 4; the other end of the auxiliary cable splitter end 6 is sleeved inside the other end of the main cable splitter end 4 through a first cylindrical boss 10 and is fixedly connected through a splitter locking nut 5. The utility model has the advantages that two ends of the splitter locking nut 5 are respectively connected with the auxiliary cable splitter end 6 and the main cable splitter end 4 in a threaded manner; thereby locking the main cable splitter end 4 and the auxiliary cable splitter end 6; simultaneously through adopting waterproof rubber circle to seal the locking of branch ware, reach waterproof dirt-proof effect.

The utility model discloses well branch locking mechanism can adopt other embodiments: grooves are symmetrically formed in two ends of the inner circumferential wall of the hollow cylindrical sleeve ring along the circumferential direction, two ends of the hollow cylindrical sleeve are respectively sleeved with the main cable splitter end 4 and the auxiliary cable splitter end 6, and finally glue is poured at the joint of the hollow cylindrical sleeve ring and the main cable splitter end 4 and the joint of the hollow cylindrical sleeve ring and the auxiliary cable splitter end 6, so that the main cable splitter end 4 and the auxiliary cable splitter end 6 are fixedly connected in a sealed mode.

The utility model discloses a novel fine branch solidification of light jump device's solidification mode: firstly, a main optical cable 1 penetrates into a main cable splitter end 4 with a main cable rubber plug 3, the length of a required branch optical cable 9 is controlled, then the main optical cable 1 is stripped, the required length of the branch optical cable 9 is stripped, and then a main cable locking nut 2 is locked by using a hexagonal wrench; then selecting a proper single-core cable hollow pipe according to the outer diameter of the required branch optical cable, penetrating the sub-unit of the branch optical cable into the single-core cable hollow pipe, penetrating the single-core cable hollow pipe which has penetrated the sub-unit of the branch optical cable into the auxiliary cable splitter end 6 with the auxiliary cable rubber plug 7, and penetrating out of the second conical locking mechanism 14; dragging the branched optical cable end coming out of the second conical locking mechanism 14, and meanwhile, accurately butting the main cable splitter end 4 and the auxiliary cable splitter end 6 through the first cylindrical boss 10 and locking the branch optical cable end through the splitter locking nut 5; and then dragging the branch optical cable end to ensure that the optical cable is not subjected to bending stress, and finally locking the auxiliary cable locking nut 8 by using a hexagonal wrench.

The utility model has the advantages that:

1) the utility model discloses a screw thread formula high-speed joint, convenient to use connects firmly, has simultaneously resistant shake and dash, waterproof dirt-proof function.

2) The utility model adopts engineering plastics as the whole shell, and has light weight and low price.

3) The utility model discloses an stretching resistance is greater than or equal to 180N, has promoted the tensile strength of product greatly, and mechanical properties is good.

4) The utility model discloses waterproof dustproof can reach IP68 grade, can satisfy the construction under the construction environment.

5) The utility model discloses the inside crooked degree of optical cable can be adjusted to guarantee that the light jumps fine optical property.

The above-mentioned embodiments are only described as the preferred embodiments of the present invention, and are not intended to limit the concept and scope of the present invention, and the technical content of the present invention, which is claimed by the present invention, is fully recorded in the technical claims.

Claims (12)

1. The utility model provides a novel optical jump fine branch solidification device which characterized in that: the optical fiber cable branch locking device comprises a main cable locking mechanism for locking a main optical cable, an auxiliary cable locking mechanism for locking a branch optical cable, and a branch locking mechanism for connecting the main cable locking mechanism and the auxiliary cable locking mechanism; the main cable locking mechanism and the auxiliary cable locking mechanism are respectively provided with a sealing structure and a locking structure and used for sealing and locking the optical cable.

2. The novel optical fiber skipping branch curing device according to claim 1, wherein: the main cable locking mechanism comprises a main cable locking nut, a main cable rubber plug and a main cable splitter end; the main cable splitter end is of a hollow cylinder structure, a first conical locking mechanism is arranged on one end face of the main cable splitter end, the first conical locking mechanism is coaxially arranged with the main cable splitter end, the large end of the first conical locking mechanism is fixedly connected with the main cable splitter end, a main cable rubber plug is further arranged inside the first conical locking mechanism, and the main cable rubber plug is fastened in the first conical locking mechanism through a main cable locking nut.

3. The novel optical fiber skipping branch curing device according to claim 2, wherein: the auxiliary cable locking mechanism comprises an auxiliary cable splitter end, an auxiliary cable rubber plug and an auxiliary cable locking nut; the auxiliary cable splitter end is of a hollow cylinder structure, a plurality of second cylindrical bosses of the hollow structure are arranged on the end face of one end of the auxiliary cable splitter end, the axis direction of each second cylindrical boss is parallel to the axis direction of the auxiliary cable splitter end, and one end of each second cylindrical boss is fixedly connected with the auxiliary cable splitter end; each be equipped with second toper locking mechanism on the other end terminal surface of the cylindrical boss of second, each second toper locking mechanism all with correspond the cylindrical boss of second sets up with the axle center, and its main aspects with the cylindrical boss fixed connection of second, each second toper locking mechanism's inside still is equipped with assists the cable rubber buffer, and each it all corresponds through assisting the fastening of cable lock nut in the second toper locking mechanism to assist the cable rubber buffer.

4. The novel optical fiber skipping branch curing device according to claim 3, wherein: the main cable splitter end and the auxiliary cable splitter end are coaxially arranged, and the other end of the main cable splitter end is sleeved with the other end of the auxiliary cable splitter end and fixedly connected with the other end of the auxiliary cable splitter end through a branch locking mechanism.

5. The novel optical fiber skipping branch curing device according to claim 4, wherein: the other end of the auxiliary cable splitter end is also provided with a first cylindrical boss for positioning, and the first cylindrical boss is of a hollow structure and coaxial with the auxiliary cable splitter end; the outer diameter of the first cylindrical boss is smaller than that of the auxiliary cable splitter end, and the outer surface of the first cylindrical boss is matched with the inner surface of the main cable splitter end; the other end of the auxiliary cable splitter end is sleeved inside the other end of the main cable splitter end through a first cylindrical boss.

6. The novel optical fiber skipping branch curing device according to claim 4, wherein: the branch locking mechanism comprises a branch locking nut and waterproof rubber rings arranged at two ends of the branch locking nut; the splitter locking nut is coaxially arranged with the main cable splitter end and the auxiliary cable splitter end respectively, and two ends of the splitter locking nut are in threaded connection with the auxiliary cable splitter end and the main cable splitter end respectively.

7. The novel optical fiber skipping branch curing device according to claim 2, wherein: the first conical locking mechanism is of a retractable hollow gripper structure, is uniformly distributed on the end face of one end of the main cable splitter end at intervals along the circumferential direction of the main cable splitter end, and is retracted towards the axis direction of the main cable splitter end; the outer diameter of the large end of the first conical locking mechanism is matched with the outer diameter of the end of the main cable splitter, and the outer surface of the first conical locking mechanism is matched with the inner surface of the main cable locking nut.

8. The novel optical fiber skipping branch curing device according to claim 2, wherein: the main cable rubber buffer is the toper, just the surface of main cable rubber buffer with first toper locking mechanism's internal surface phase-match, the internal surface phase-match of main cable rubber buffer and main optical cable.

9. The novel optical fiber skipping branch curing device according to claim 2, wherein: and a first external thread is further formed in one end of the main cable splitter end along the circumferential direction and is matched with the main cable locking nut, and one end of the main cable splitter end is in threaded connection with the main cable locking nut through the first external thread.

10. The novel optical fiber skipping branch curing device according to claim 3, wherein: each second conical locking mechanism is of a retractable hollow gripper structure, is uniformly distributed on the end face of the other end of the second cylindrical boss at intervals along the circumferential direction of the second cylindrical boss, and is retracted towards the axis direction of the second cylindrical boss; the outer diameter of the large end of each second conical locking mechanism is matched with the outer diameter of the second cylindrical boss, and the outer surface of the large end of each second conical locking mechanism is matched with the inner surface of the cable-assisting locking nut.

11. The novel optical fiber skipping branch curing device according to claim 3, wherein: each it is the toper to assist the cable rubber buffer, and each assist the surface of cable rubber buffer with the internal surface phase-match of second toper locking mechanism, each assist the internal surface phase-match of cable rubber buffer and branch optical cable.

12. The novel optical fiber skipping branch curing device according to claim 3, wherein: and a second external thread is further formed at the other end of each second cylindrical boss along the circumferential direction, each second external thread is matched with the auxiliary cable locking nut, and the other end of each second cylindrical boss is in threaded connection with the auxiliary cable locking nut through a second external thread.

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