CN112909637A - Multi-butt-joint connector for communication cable - Google Patents

Abstract

The invention discloses a multi-butt connector for a communication cable, which belongs to the field of cable connectors and comprises a connecting disc, a plurality of sub-cable connectors and a plurality of auxiliary fan-shaped blocks; the main cable connecting sector is arranged on the connecting disc and fixed on the connecting disc; a guide annular groove is formed in the connecting disc, and a guide block in sliding fit with the guide annular groove is arranged on one side of each sub-cable connector and one side of each auxiliary fan-shaped block; both sides of the main cable connecting sector and the sub-cable connector are provided with conduction reeds, and the plurality of sub-cable connectors, the plurality of auxiliary sectors and the main cable connecting sector are mutually and tightly connected to form a circular ring. The number of the sub-cable connectors is selected according to requirements, and the auxiliary fan-shaped blocks are arranged at the positions which do not need to be connected, so that a closed ring is formed finally, the connection number of the cables can be conveniently selected, meanwhile, the connectors can be kept in a closed environment, and dust or water is prevented from entering.

Description

Multi-butt-joint connector for communication cable

Technical Field

The invention relates to the field of cable connectors, in particular to a multi-butt connector for a communication cable.

Background

The communication cable is a cable core composed of a plurality of mutually insulated wires or conductors, a communication line with a sealed sheath is arranged outside the cable core, an outer protective layer is arranged outside the sheath, and a plurality of laying modes such as overhead, direct-buried, pipeline and underwater are divided into symmetrical, coaxial and comprehensive cables according to the structure, field operation and permanent cables (underground and submarine cables) are divided according to the functions, the communication cable has wider transmission frequency band, larger communication capacity and less external interference, but is not easy to overhaul and can transmit telephone, telegraph, data, images and the like, the cable connector is mainly suitable for signal transmission between various digital program controlled switches and photoelectric transmission equipment internal connection and distribution frames in a transmission equipment office, is used for transmitting data, audio, video and other communication equipment, cables and equipment are required to be used for connection of transmission, distribution, voltage conversion and the like of fast electric power in cable connection, and due to the limitation of production and transportation, the cable connector is an indispensable component in the power system because the length of the cable cannot be infinitely long and the cut cable needs to be reconnected.

The existing cable connector cannot conveniently and freely switch the connection quantity of cables, or directly enables a cable connection position to be vacant, but a vacant cable interface is easy to enter ash and enter water to cause damage.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a multi-butt connector for communication cables, which can conveniently set the number of the connected cables and can well prevent dust or water from entering the connector after connection.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a multi-butt connector for a communication cable, which comprises a connecting disc, a plurality of sub-cable connectors and a plurality of auxiliary fan-shaped blocks, wherein the connecting disc is provided with a plurality of connecting grooves; the connecting disc is provided with a main cable connecting sector, and the main cable connecting sector is fixed on the connecting disc; a guide annular groove is formed in the connecting disc, and a guide block in sliding fit with the guide annular groove is arranged on one side of each sub-cable connector and one side of each auxiliary fan-shaped block; the main cable connecting sector and the two sides of the sub-cable connector are both provided with conduction reeds, and the plurality of sub-cable connectors, the plurality of auxiliary sectors and the main cable connecting sector are mutually and tightly connected to form a circular ring.

The present invention preferably has a technical solution in which both sides of the auxiliary segment are insulation planes, and when the auxiliary segment is installed between the sub-cable connector and the main cable connection segment, the sub-cable connector is not conducted with the main cable connection segment.

The invention has the preferable technical scheme that the invention also comprises a fixed cover plate, wherein the middle part of the connecting disc is provided with a connecting column, and the middle part of the fixed cover plate is provided with a screw hole matched with the connecting column; when the cable connector is installed, the sub-cable connector, the auxiliary fan-shaped block and the main cable connecting fan-shaped block are all extruded between the fixed cover plate and the connecting disc.

The preferable technical scheme of the invention is that one end of the sub-cable connector and one end of the auxiliary fan-shaped block are provided with inner arc-shaped surfaces matched with the outer side wall of the connecting column, and the other end of the sub-cable connector and the auxiliary fan-shaped block are provided with outer arc-shaped surfaces with the same outer diameter as the connecting disc.

The invention has the preferable technical scheme that a connecting sliding groove communicated with the guide annular groove is arranged on the connecting disc, the connecting sliding groove is arranged along the radial direction of the connecting disc, and the other end of the connecting sliding groove penetrates through the outer side wall of the connecting disc.

The invention preferably adopts the technical scheme that the connecting device further comprises a limiting bolt, the limiting bolt is inserted into the connecting sliding groove, the end part of the limiting bolt is abutted against the guide block, the other end of the limiting bolt is provided with a locking end plate, and the locking end plate is fixedly connected with the connecting disc.

The invention has the preferable technical scheme that sealing strips are arranged on the outer edges of the connecting disc and the fixed cover plate, and sealing strips are arranged on the edges of two sides of the sub-cable connector, the auxiliary fan-shaped block and the main cable connecting fan-shaped block.

The invention preferably adopts the technical scheme that the cable connector also comprises a plurality of conducting segments, conducting reeds are arranged on two sides of each conducting segment, the conducting reeds on the two sides are mutually electrically conducted, and the conducting segments are connected in series between the sub-cable connector and the main cable connecting segment.

The invention has the beneficial effects that:

the invention provides a multi-butt connector for a communication cable, which comprises a connecting disc, a plurality of sub-cable connectors and a plurality of auxiliary fan-shaped blocks, wherein the connecting disc is provided with a plurality of connecting grooves; the connecting disc is provided with a main cable connecting sector, and the main cable connecting sector is fixed on the connecting disc; a guide annular groove is formed in the connecting disc, and a guide block in sliding fit with the guide annular groove is arranged on one side of each sub-cable connector and one side of each auxiliary fan-shaped block; the main cable connecting sector and the two sides of the sub-cable connector are both provided with conduction reeds, and the plurality of sub-cable connectors, the plurality of auxiliary sectors and the main cable connecting sector are mutually and tightly connected to form a circular ring. The number of the sub-cable connectors is selected according to requirements, and the auxiliary fan-shaped blocks are arranged at the positions which do not need to be connected, so that a closed ring is formed finally, the connection number of the cables can be conveniently selected, meanwhile, the connectors can be kept in a closed environment, and dust or water is prevented from entering.

Drawings

FIG. 1 is a schematic diagram of a multi-mating connector for a communication cable provided in an embodiment of the present invention;

FIG. 2 is a schematic diagram of a multi-mating connector for communication cables according to one embodiment of the present invention;

FIG. 3 is a schematic view of a multi-mated connector for communication cables according to a second embodiment of the present invention;

in the figure:

1. connecting the disks; 2. a sub-cable connector; 3. fixing the cover plate; 4. a sealing strip; 5. a guide block; 6. a limiting bolt; 7. conducting the reed; 8. an auxiliary segment; 9. conducting the fan-shaped blocks; 11. the main cable is connected with the fan block; 12. a guide annular groove; 13. connecting columns; 14. connecting the sliding chute; 31. screw holes; 61. locking the end plate; 101. an inner arc-shaped surface; 102. an outer arcuate surface.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Example one

As shown in fig. 1-2, the present embodiment provides a multi-docking connector for a communication cable, which includes a connecting disc 1, a plurality of sub-cable connectors 2, and a plurality of auxiliary segments 8; a main cable connecting sector 11 is arranged on the connecting disc 1, and the main cable connecting sector 11 is fixed on the connecting disc 1; a guide annular groove 12 is formed in the connecting disc 1, and a guide block 5 in sliding fit with the guide annular groove 12 is arranged on one side of each sub-cable connector 2 and one side of each auxiliary fan-shaped block 8; both sides of the main cable connecting segment 11 and the sub-cable connector 2 are provided with conduction reeds 7, and the sub-cable connectors 2, the auxiliary segments 8 and the main cable connecting segment 11 are tightly connected with each other to form a circular ring. The main cable connecting sector 11 and the connecting disc 1 are of an integral structure, when in use, a main cable is firstly connected to the main cable connecting sector 11, an open structure can be designed above the main cable connecting sector 11 for convenient connection, so that the cable can be conveniently locked and connected in the main cable connecting sector 11 from the top when in installation, and then the top is sealed through the fixing cover plate 3. After the main cable is connected, the sub-cable connector 2 can be connected to the end part of the cable to be butted, the operation is not limited to be completed in the connector, a larger operation space is provided, the operation is more convenient, and the sub-cable connector 2 can be directly inserted into the connector after the connection is finished. The design of the conduction reed 7 is such that when the sub-cable connector 2 is in close proximity to the main cable connection sector 11, the two conduction reeds 7 are tightly connected to each other, so that a stable conduction effect can be achieved. Since the conductive reeds 7 on both sides of the sub-cable connectors 2 are conducted with each other, when a plurality of sub-cables need to be connected, it is sufficient to connect a plurality of sub-cable connectors 2 in series on both sides of the main cable connection block 11. The preferred sub-cable connector 2, main cable connecting segment 11, and auxiliary segment 8 are all segments at 45 °. So that 8 are required to be wound into one turn. Assuming that three sub-cables need to be connected, only three sub-cable connectors 2 need to be connected in series on both sides of the main cable connection block 11. Then the four auxiliary segments 8 are placed to press the sub-cable connector 2 so that the sub-cable connector 2 is tightly connected to the main cable connection segments 11. At this time, a closed loop shape is formed so that dust or water does not enter.

Preferably, two sides of the auxiliary segment 8 are insulation planes, and when the auxiliary segment 8 is installed between the sub-cable connector 2 and the main cable connection segment 11, the sub-cable connector 2 is not conducted with the main cable connection segment 11. When one of the sub-cables needs to be disconnected temporarily in use, only one auxiliary segment 8 needs to be separated, so that the connection is convenient.

For convenient installation, preferably, the device further comprises a fixed cover plate 3, wherein a connecting column 13 is arranged in the middle of the connecting disc 1, and a screw hole 31 matched with the connecting column 13 is arranged in the middle of the fixed cover plate 3; when being installed, the sub-cable connector 2, the auxiliary segment 8 and the main cable connecting segment 11 are all pressed between the fixed cover plate 3 and the connecting disc 1. The sub-cable connector 2, the auxiliary segment 8, can be inserted into the guiding annular groove 12 from the top during mounting, so that the guiding block 5 is confined in the guiding annular groove 12. Then the fixing cover plate 3 is extruded and fixed, and the installation is convenient.

Preferably, one end of the sub-cable connector 2 and the auxiliary segment 8 is provided with an inner arc surface 101 matched with the outer side wall of the connecting column 13, and the other end is provided with an outer arc surface 102 with the same outer diameter as the connecting disc 1. So that the connector after installation is tightly connected.

Preferably, the connecting disc 1 is provided with a connecting sliding groove 14 communicated with the guiding annular groove 12, the connecting sliding groove 14 is arranged along the radial direction of the connecting disc 1, and the other end of the connecting sliding groove 14 penetrates through the outer side wall of the connecting disc 1. The width of the guide block 5 is equal to the width of the connecting sliding groove 14, and the length of the guide block 5 along the direction of the connecting disc 1 is equal to the width of the guide annular groove 12. When the connection condition of the cable needs to be changed in the using process, the connected auxiliary fan-shaped block 8 and the sub-cable connector 2 can be detached through the connecting sliding groove 14, and then the installation number or the installation sequence is changed and then the auxiliary fan-shaped block and the sub-cable connector are inserted and connected, so that the whole connector does not need to be detached, and the installation is convenient.

Further, the connecting device further comprises a limiting bolt 6, the limiting bolt 6 is inserted into the connecting sliding groove 14, the end portion of the limiting bolt 6 abuts against the guide block 5, a locking end plate 61 is arranged at the other end of the limiting bolt 6, and the locking end plate 61 is fixedly connected with the connecting disc 1 through screws. After the last auxiliary segment 8 or the sub-cable connector 2 is inserted, it can be firmly fixed by the limiting action of the limiting bolt 6.

In order to further improve the sealing performance of the connector, the outer edges of the connecting disc 1 and the fixed cover plate 3 are provided with sealing strips 4, and the two side edges of the sub-cable connector 2, the auxiliary segment 8 and the main cable connecting segment 11 are also provided with sealing strips 4. Through the arrangement of the sealing strip 4, the sealing strip 4 is mutually pressed after installation, so that the inside of the connector is ensured to be less prone to dust entering.

Example two

As shown in fig. 1 and fig. 3, the present embodiment provides a multi-docking connector for a communication cable, which includes a connecting disc 1, a plurality of sub-cable connectors 2, and a plurality of auxiliary segments 8; a main cable connecting sector 11 is arranged on the connecting disc 1, and the main cable connecting sector 11 is fixed on the connecting disc 1; a guide annular groove 12 is formed in the connecting disc 1, and a guide block 5 in sliding fit with the guide annular groove 12 is arranged on one side of each sub-cable connector 2 and one side of each auxiliary fan-shaped block 8; both sides of the main cable connecting segment 11 and the sub-cable connector 2 are provided with conduction reeds 7, and the sub-cable connectors 2, the auxiliary segments 8 and the main cable connecting segment 11 are tightly connected with each other to form a circular ring. The main cable connecting sector 11 and the connecting disc 1 are of an integral structure, when in use, a main cable is firstly connected to the main cable connecting sector 11, an open structure can be designed above the main cable connecting sector 11 for convenient connection, so that the cable can be conveniently locked and connected in the main cable connecting sector 11 from the top when in installation, and then the top is sealed through the fixing cover plate 3. After the main cable is connected, the sub-cable connector 2 can be connected to the end part of the cable to be butted, the operation is not limited to be completed in the connector, a larger operation space is provided, the operation is more convenient, and the sub-cable connector 2 can be directly inserted into the connector after the connection is finished. The design of the conduction reed 7 is such that when the sub-cable connector 2 is in close proximity to the main cable connection sector 11, the two conduction reeds 7 are tightly connected to each other, so that a stable conduction effect can be achieved. Since the conductive reeds 7 on both sides of the sub-cable connectors 2 are conducted with each other, when a plurality of sub-cables need to be connected, it is sufficient to connect a plurality of sub-cable connectors 2 in series on both sides of the main cable connection block 11. The preferred sub-cable connector 2, main cable connecting segment 11, and auxiliary segment 8 are all segments at 45 °. So that 8 are required to be wound into one turn. Assuming that three sub-cables need to be connected, only three sub-cable connectors 2 need to be connected in series on both sides of the main cable connection block 11. Then the four auxiliary segments 8 are placed to press the sub-cable connector 2 so that the sub-cable connector 2 is tightly connected to the main cable connection segments 11. At this time, a closed loop shape is formed so that dust or water does not enter.

Preferably, two sides of the auxiliary segment 8 are insulation planes, and when the auxiliary segment 8 is installed between the sub-cable connector 2 and the main cable connection segment 11, the sub-cable connector 2 is not conducted with the main cable connection segment 11. When one of the sub-cables needs to be disconnected temporarily in use, only one auxiliary segment 8 needs to be separated, so that the connection is convenient.

For convenient installation, preferably, the device further comprises a fixed cover plate 3, wherein a connecting column 13 is arranged in the middle of the connecting disc 1, and a screw hole 31 matched with the connecting column 13 is arranged in the middle of the fixed cover plate 3; when being installed, the sub-cable connector 2, the auxiliary segment 8 and the main cable connecting segment 11 are all pressed between the fixed cover plate 3 and the connecting disc 1. The sub-cable connector 2, the auxiliary segment 8, can be inserted into the guiding annular groove 12 from the top during mounting, so that the guiding block 5 is confined in the guiding annular groove 12. Then the fixing cover plate 3 is extruded and fixed, and the installation is convenient.

Preferably, one end of the sub-cable connector 2 and the auxiliary segment 8 is provided with an inner arc surface 101 matched with the outer side wall of the connecting column 13, and the other end is provided with an outer arc surface 102 with the same outer diameter as the connecting disc 1. So that the connector after installation is tightly connected.

Preferably, the connecting disc 1 is provided with a connecting sliding groove 14 communicated with the guiding annular groove 12, the connecting sliding groove 14 is arranged along the radial direction of the connecting disc 1, and the other end of the connecting sliding groove 14 penetrates through the outer side wall of the connecting disc 1. The width of the guide block 5 is equal to the width of the connecting sliding groove 14, and the length of the guide block 5 along the direction of the connecting disc 1 is equal to the width of the guide annular groove 12. When the connection condition of the cable needs to be changed in the using process, the connected auxiliary fan-shaped block 8 and the sub-cable connector 2 can be detached through the connecting sliding groove 14, and then the installation number or the installation sequence is changed and then the auxiliary fan-shaped block and the sub-cable connector are inserted and connected, so that the whole connector does not need to be detached, and the installation is convenient.

Further, the connecting device further comprises a limiting bolt 6, the limiting bolt 6 is inserted into the connecting sliding groove 14, the end portion of the limiting bolt 6 abuts against the guide block 5, a locking end plate 61 is arranged at the other end of the limiting bolt 6, and the locking end plate 61 is fixedly connected with the connecting disc 1 through screws. After the last auxiliary segment 8 or the sub-cable connector 2 is inserted, it can be firmly fixed by the limiting action of the limiting bolt 6.

In order to further improve the sealing performance of the connector, the outer edges of the connecting disc 1 and the fixed cover plate 3 are provided with sealing strips 4, and the two side edges of the sub-cable connector 2, the auxiliary segment 8 and the main cable connecting segment 11 are also provided with sealing strips 4. Through the arrangement of the sealing strip 4, the sealing strip 4 is mutually pressed after installation, so that the inside of the connector is ensured to be less prone to dust entering.

In order to adapt to the connection angle of each cable, the cable connector further comprises a plurality of conducting segments 9, conducting reeds 7 are arranged on two sides of each conducting segment 9, the conducting reeds 7 on the two sides are mutually electrically conducted, and the conducting segments 9 are connected between the sub-cable connector 2 and the main cable connecting segment 11 in series. The cable cannot be bent excessively when connected, otherwise it is liable to cause a phase change. Through the arrangement of the conducting segments 9, a plurality of conducting segments 9 can be arranged between the sub-cable connector 2 and the main cable connecting segment 11 according to requirements, so that cables at any angle can be conveniently connected.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (8)

1. The utility model provides a communication cable is with connector of many butt joints which characterized in that:

comprises a connecting disc (1), a plurality of sub-cable connectors (2) and a plurality of auxiliary fan-shaped blocks (8); a main cable connecting sector block (11) is arranged on the connecting disc (1), and the main cable connecting sector block (11) is fixed on the connecting disc (1);

a guide annular groove (12) is formed in the connecting disc (1), and a guide block (5) in sliding fit with the guide annular groove (12) is arranged on one side of each sub-cable connector (2) and one side of each auxiliary fan-shaped block (8); both sides of the main cable connecting sector (11) and the sub-cable connector (2) are provided with conduction reeds (7), and the sub-cable connectors (2), the auxiliary sectors (8) and the main cable connecting sector (11) are tightly connected with each other to form a circular ring.

2. The multi-mating connector for communication cables of claim 1, wherein:

the two sides of the auxiliary fan-shaped block (8) are insulation planes, and when the auxiliary fan-shaped block (8) is installed between the sub-cable connector (2) and the main cable connecting fan-shaped block (11), the sub-cable connector (2) is not conducted with the main cable connecting fan-shaped block (11).

3. The multi-mating connector for communication cables of claim 1, wherein:

the connecting disc is characterized by further comprising a fixed cover plate (3), a connecting column (13) is arranged in the middle of the connecting disc (1), and a screw hole (31) matched with the connecting column (13) is formed in the middle of the fixed cover plate (3); when the cable connector is installed, the sub-cable connector (2), the auxiliary segment (8) and the main cable connecting segment (11) are all extruded between the fixed cover plate (3) and the connecting disc (1).

4. A multi-mating connector for communication cables according to claim 3, wherein:

one end of the sub-cable connector (2) and one end of the auxiliary fan-shaped block (8) are provided with inner arc-shaped surfaces (101) matched with the outer side walls of the connecting columns (13), and the other end of the sub-cable connector is provided with outer arc-shaped surfaces (102) with the same outer diameter as that of the connecting discs (1).

5. The multi-mating connector for communication cables of claim 1, wherein:

the connecting disc (1) is provided with a connecting sliding groove (14) communicated with the guide annular groove (12), the connecting sliding groove (14) is arranged along the radial direction of the connecting disc (1), and the other end of the connecting sliding groove (14) penetrates through the outer side wall of the connecting disc (1).

6. The multi-mating connector for communication cables of claim 5, wherein:

the connecting device is characterized by further comprising a limiting bolt (6), the limiting bolt (6) is inserted into the connecting sliding groove (14), the end portion of the limiting bolt (6) is abutted to the guide block (5), a locking end plate (61) is arranged at the other end of the limiting bolt (6), and the locking end plate (61) is fixedly connected with the connecting disc (1).

7. A multi-mating connector for communication cables according to claim 3, wherein:

the outer edges of the connecting disc (1) and the fixed cover plate (3) are provided with sealing strips (4), and the sealing strips (4) are arranged on the edges of the two sides of the sub-cable connector (2), the auxiliary fan-shaped block (8) and the main cable connecting fan-shaped block (11).

8. The multi-mating connector for communication cables of claim 1, wherein:

the cable connector is characterized by further comprising a plurality of conducting segments (9), conducting reeds (7) are arranged on two sides of each conducting segment (9), the conducting reeds (7) on the two sides are mutually electrically conducted, and the conducting segments (9) are connected between the sub-cable connector (2) and the main cable connecting segment (11) in series.

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