CN109038001B - Outer cover shell telescopic rotary network cable connecting end joint structure - Google Patents

Abstract

The utility model provides a shell telescopic rotary network cable connecting end joint structure, including mount pad holding storehouse and crystal joint, the mount pad holds the inside network cable mount pad that is equipped with of storehouse, network cable mount pad up end is equipped with the wire casing, the network cable mount pad right-hand member is equipped with the circular arc contact end, be equipped with the circular arc combination piece of being connected with the wire casing on the circular arc contact end, crystal joint includes the crystal head shell, the crystal head shell left end is equipped with convex conductive head, crystal head shell and circular arc contact end are connected through adjustable connecting rod, realize the regulation to the laminating strength size of circular arc combination piece on the circular arc contact end and convex conductive head on the crystal head shell, prevent that bad contact from influencing the problem of network transmission; the mounting seat holds between the upper and lower portion that storehouse right-hand member and quartzy head shell left end correspond and is connected through the telescopic housing of semicircle, and the telescopic housing of semicircle can be along with net twine mount pad and quartzy joint contact rotation and stretch out and draw back, plays flexible protection housing effect, can not interfere turned angle.

Description

Outer cover shell telescopic rotary network cable connecting end joint structure

Technical Field

The invention belongs to the technical field of network cable connectors, and particularly relates to a connecting terminal structure of an outer casing telescopic rotary network cable.

Background

The network cable connector is a connector for connecting a network cable and equipment, and is often used for line arrangement in the field of network engineering. The most of the network cable joints used at present are crystal joints, the use method of the crystal joints is that network cables are inserted into the crystal joints according to wiring requirements, and are clamped by using clamps, the clamps are needed to clamp the network cables, the network cables are easily loosened after being plugged and pulled for a long time, network cable signals are not good, the angle of the existing network cable joints is not well adjusted, and the network cables inside the joints are bent or even broken when the angle of the joints is forcibly adjusted. The patent with the application number of '201720425865.1' and the name of 'a multi-angle rotary type net twine connector' discloses a net twine connector, and its technical scheme is: the flexible knob of clamp plate sets up at the wiring storehouse upside, the mount pad holds the inside net twine mount pad that is provided with in storehouse, net twine mount pad inboard is provided with the wire casing, net twine mount pad right side wall is provided with the pivot, the pivot inboard is provided with the disk and combines the piece, and the disk combines piece and wire casing connection, the inside pivot that is provided with of pivot, and the pivot passes through the connecting plate and quartzy articulate, quartzy joint holds between the storehouse through soft cover connection that connects with the mount pad, quartzy joint left side wall is provided with globular conductive head, quartzy joint right side wall is provided with outer splicing, and outer splicing is connected with globular conductive head through the conduction strip, this patent scheme simple structure, quartzy flexibility that connects is stronger, quartzy joint can not lead to the net twine of inserting buckling when rotatory, the life of net twine has. Although the above patent can make the net twine connect and rotate, the soft cover structure that connects that its adopted can cause the interference at the rotation shrink in-process, influences turned angle's size, and the mesopin passes through the connecting plate to connect with quartzy the realization rotation and is connected, can not adjust the contact force of the disk bonding pad on the mesopin and the globular conductive head on the quartzy joint, probably causes both contact failure and leads to the net twine not to communicate, the problem that network signal can not normally transmit. There is therefore a need for improvements.

Disclosure of Invention

The technical problems solved by the invention are as follows: according to the invention, a crystal connector is connected with an arc contact end through an adjustable connecting rod, and the fit force of a plurality of arc combination pieces on the arc contact end and a plurality of arc conductive heads on a crystal head shell is adjusted by combining a thread structure with opposite rotation directions, so that the problem that poor contact affects network transmission is solved; the telescopic housing of semicircle can rotate the angle size and stretch out and draw back along with the contact of net twine mount pad and quartzy joint, plays flexible protection housing effect, can not appear interfering and influence turned angle in net twine mount pad and quartzy joint rotation process.

The technical scheme adopted by the invention is as follows: the outer cover shell type telescopic rotary network cable connecting end joint structure comprises an installation seat containing bin and a crystal joint, wherein a network cable installation seat is arranged inside the installation seat containing bin, a plurality of wire grooves are formed in the upper end face of the network cable installation seat, a circular arc contact end is arranged at the right end of the network cable installation seat, a plurality of circular arc combination pieces correspondingly connected with the wire grooves are axially arranged on the circular arc contact end, the crystal joint comprises a crystal head shell, a plurality of circular arc conductive heads are axially arranged at the left end of the crystal head shell, two sides of the left end of the crystal head shell and two sides of the circular arc contact end are respectively hinged with two ends of an adjustable connecting rod, so that the circular arc combination pieces on the circular arc contact end and the circular arc conductive heads on the crystal head shell form a circular arc rotating contact structure, a fixed pressing plate is arranged inside the installation seat containing bin, the fixed pressing plate is arranged on the upper portion of the network cable, the pressing plate telescopic knob rotates and presses the fixed pressing plate to tightly press the network cable in the wire groove, and the right end of the mounting seat accommodating bin is connected with the upper part and the lower part corresponding to the left end of the crystal head shell through the semi-circular telescopic outer cover shell.

Further inject above-mentioned technical scheme, telescopic encloser of semicircle includes circular arc housing I, circular arc housing II and circular arc housing III, circular arc housing I, circular arc housing II and circular arc housing III's both ends all are equipped with fan-shaped curb plate, circular arc housing I, circular arc housing II and the fan-shaped curb plate circular arc center that circular arc housing III corresponds the end are articulated, I left side border of circular arc housing holds storehouse fixed connection with the mount pad, but II circumference circular arc slidingtypes of circular arc housing overlap in I inboards of circular arc housing, but III circumference circular arc slidingtypes of circular arc housing overlap in II inboards of circular arc housing and its right side border and quartzy head shell fixed connection, I right side border of circular arc housing, II left and right sides of circular arc housing and III left side border of circular arc housing radially inwards be equipped with interior spacing platform and radially toward being equipped with outer spacing platform.

The technical proposal is further limited that the adjustable connecting rod comprises a connecting rod I, a connecting rod II and an internal threaded tube, the left end of the connecting rod I is rotationally connected with the side surface of the arc contact end through a pin shaft I, the right end of the connecting rod II is rotationally connected with the side surface of the left end of the crystal head shell through a pin shaft II, the right end of the connecting rod I and the left end of the connecting rod II are respectively provided with external threads with opposite rotation directions, the left end and the right end of the inner surface of the internal thread pipe are provided with internal threads with opposite rotation directions, internal threads with opposite rotating directions at two ends of the inner surface of the internal thread pipe are respectively screwed with external threads with opposite rotating directions on the connecting rod I and the connecting rod II, the inner threaded pipe enables the connecting rod I and the connecting rod II to axially move in opposite directions in the rotating process, so that the size of the attaching force between the arc combining pieces on the arc contact end and the arc conducting heads on the crystal head shell is adjusted.

To the further injecition of above-mentioned technical scheme, the flexible knob of clamp plate adopts swivel screw, the mount pad holds and is equipped with the internal thread hole on the storehouse top plate, swivel screw and internal thread hole close the back soon and lower extreme and fixed pressing plate up end fixed connection, fixed pressing plate length and wire casing length adaptation, fixed pressing plate adopts rubber materials to make.

Further inject above-mentioned technical scheme, quartzy first shell right-hand member is equipped with outer splicing, quartzy first shell is inside to be equipped with the conduction strip of connecting convex conductive head and outer splicing.

Compared with the prior art, the invention has the advantages that:

1. according to the scheme, the right end of the network cable installation seat is provided with the arc contact end, the arc contact end is axially provided with a plurality of arc combination pieces correspondingly connected with the wire grooves, the left end of the crystal head shell is axially provided with a plurality of arc-shaped conductive heads, two sides of the left end of the crystal head shell and two sides of the arc contact end are respectively hinged with two ends of the adjustable connecting rod, the arc combination pieces and the arc-shaped conductive heads are correspondingly formed into an arc rotating contact structure, so that a certain angle is formed between the network cable installation seat and the crystal connector on the premise that the network cable is not in contact with the crystal connector, the phenomenon that the network cable is damaged and broken due to the fact that the end head is bent when the crystal connector is plugged is prevented, and the service life.

2. In the scheme, the two sides of the left end of the crystal head shell are connected with the two sides of the arc contact end through the adjustable connecting rods, the adjustable connecting rods consist of the connecting rods I, the connecting rods II and the internal thread pipes, and the internal thread pipes are combined with the thread structures with opposite rotation directions, so that the connecting rods I and the connecting rods II axially move in opposite directions in the rotation process, the adjustment of the laminating force of a plurality of arc combination pieces on the arc contact end and a plurality of arc conductive heads on the crystal head shell is realized, and the problem that the network transmission is influenced by poor contact is solved;

3. in the scheme, the right end of the mounting seat containing bin is connected with the upper part and the lower part corresponding to the left end of the crystal head shell through the semicircular telescopic outer cover shell, the semicircular telescopic outer cover shell consists of the arc cover shell I, the arc cover shell II and the arc cover shell which are mutually slidably sleeved, and the semicircular telescopic outer cover shell can stretch along with the contact rotation angle of the network cable mounting seat and the crystal joint, so that the function of a telescopic protective cover shell is achieved, and the rotation angle cannot be influenced by interference in the rotation process of the network cable mounting seat and the crystal joint;

4. the direct mount pad that holds in this scheme storehouse inside and net twine mount pad upper portion sets up solid fixed pressing plate, through solid fixed pressing plate's compressing tightly, can make the net twine hug closely in the wire casing, avoids appearing the net twine in the wire casing perk and with the problem of circular arc bonding piece contact connection failure.

Drawings

FIG. 1 is a schematic external perspective view of the present invention;

FIG. 2 is a schematic view of the internal perspective structure of the present invention;

FIG. 3 is a cross-sectional view of the overall construction of the present invention;

FIG. 4 is a schematic structural view of the arc housing of the present invention;

FIG. 5 is a schematic view of a sliding position-limiting structure between two arc housings according to the present invention;

FIG. 6 is a schematic view of an adjustable connecting rod according to the present invention;

FIG. 7 is a schematic view of a crystal joint according to the present invention;

fig. 8 is a schematic view of the present invention rotated to a certain angle.

Detailed Description

Embodiments of the present invention are described below with reference to fig. 1-8.

The joint structure of the connection end of the outer cover casing telescopic rotary network cable, as shown in figures 2 and 3, comprises a mounting seat containing bin 1 and a crystal joint 8, the installation seat containing bin 1 is internally provided with a network cable installation seat 2, the upper end surface of the network cable installation seat 2 is provided with a plurality of wire slots 5 for placing network cables, the right end of the network cable mounting seat 2 is provided with an arc contact end 6, a plurality of arc combination pieces 7 which are correspondingly connected with the wire slots 5 are axially arranged on the arc contact end 6, the arc combining plate 7 is matched and fixedly connected with the outer arc surface of the arc contact end 6, the crystal joint 8 comprises a crystal head shell 12, as shown in FIG. 7, a plurality of arc-shaped conductive contacts 9 are axially arranged at the left end of the crystal head shell 12, an outer connecting piece 11 is arranged at the right end of the crystal head shell 12, the inside of the crystal head shell 12 is provided with a conducting strip 10 which connects the arc-shaped conducting head 9 with the external connecting sheet 11. The two sides of the left end of the crystal head shell 12 and the two sides of the arc contact end 6 are respectively hinged with the two ends of the adjustable connecting rod 13, so that the arc combination pieces 7 on the arc contact end 6 and the arc conductive heads 9 on the crystal head shell 12 correspondingly form an arc rotating contact structure, and therefore on the premise that the contact between a network cable and the crystal connector 8 is not affected, the network cable mounting seat 2 and the crystal connector 8 rotate by a certain angle, the phenomena that the network cable is damaged due to the fact that the end head is bent when the crystal connector 8 is plugged are prevented, and the service life of the network cable is prolonged. When the crystal connector 8 and the arc contact end 6 rotate, the arc combination sheet 7 on the arc contact end 6 is always attached and communicated with the arc conductive head 9 on the crystal connector 8, so that the crystal connector 8 and the network wire installation seat 2 are always kept in a communicated state with the accessed network wire when rotating, and then the crystal connector 8 is inserted into a network wire insertion port of equipment to be communicated.

Specifically, as shown in fig. 3 and 6, connecting rod 13 with adjustable includes connecting rod i 15, connecting rod ii 17 and internal thread pipe 16, the left end of connecting rod i 15 rotates with circular arc contact jaw 6 side through round pin axle i 14 and is connected, connecting rod ii 17 right-hand member rotates with quartzy first shell 12 left end side through round pin axle ii 18 and is connected, connecting rod i 15 right-hand member and connecting rod ii 17 left end are equipped with the external screw thread that revolves to opposite respectively, be equipped with the internal thread that revolves to opposite on the both ends about the internal surface of internal thread pipe 16, the internal thread that revolves to opposite in the internal surface both ends of internal thread pipe 16 respectively with the external screw thread that revolves to opposite on connecting rod i 15 and connecting rod ii. According to the invention, by combining a thread structure with opposite rotation directions, the connecting rod I15 and the connecting rod II 17 are axially moved in opposite directions by the internal thread tube 16 in the rotation process, so that the adjustment of the attaching force of the arc combining pieces 7 on the arc contact end 6 and the arc conducting heads 9 on the crystal head shell 12 is realized, and the problem that the network transmission is influenced by poor contact is solved.

The right end of the mounting seat containing bin 1 is connected with the upper part and the lower part corresponding to the left end of the crystal head shell 12 through a semicircular telescopic outer cover shell 19. Specifically, as shown in fig. 1 and 3, the telescopic encloser 19 of semicircle includes circular arc encloser I20, circular arc encloser II 21 and circular arc encloser III 22, as shown in fig. 4, the both ends of circular arc encloser I20, circular arc encloser II 21 and circular arc encloser III 22 all are equipped with fan-shaped curb plate 25, the circular arc center of fan-shaped curb plate 25 of the corresponding end of circular arc encloser I20, circular arc encloser II 21 and circular arc encloser III 22 is articulated, circular arc encloser I20 left side border holds storehouse 1 fixed connection with the mount pad, circular arc encloser II 21 can circumference circular arc slidingtype cover in circular arc encloser I20 inboard, circular arc encloser III 22 can circumference circular arc slidingtype cover in circular arc encloser II 21 inboard. The sliding limiting structure between two adjacent arc housings is shown in fig. 5, an inner limiting platform 24 is radially inwards arranged on the right side edge of the arc housing I20, the left side edge of the arc housing II 21 and the left side edge of the arc housing III 22, and an outer limiting platform 23 is radially outwards arranged on the right side edge of the arc housing I20, the left side edge of the arc housing II 21 and the left side edge of the arc housing III 22. When the crystal joint 8 and the network cable installation seat 2 rotate relatively, as shown in fig. 8, the semi-arc telescopic outer cover 12 at the upper part of the crystal joint 8 and the network cable installation seat 2 can slide and expand, and the specific process is as follows: the arc housing I20 on the upper portion rotates towards the left lower side along with the rotation of the mounting seat containing bin 1 to be unfolded, when an inner limiting platform 24 on the right side edge of the arc housing I20 on the upper portion is attached to an outer limiting platform 23 on the left side edge of the arc housing II 21 on the upper portion, the arc housing I20 on the upper portion drives the arc housing II 21 on the upper portion to slide and unfold towards the left side together until the inner limiting platform 24 on the right side edge of the arc housing II 21 on the upper portion is attached to and limited by the outer limiting platform 23 on the left side edge of the arc housing III. The telescopic encloser 12 of semicircle of quartzy joint 8 and net twine mount pad 2 lower part can slide the shrink, and specific process is: the circular arc housing I20 of lower part holds the rotation of storehouse 1 along with the mount pad and moves right-hand rotation shrink, and when the interior spacing platform 24 at I20 right side border of circular arc housing of lower part and the outer spacing platform 23 laminating at II 21 right side border of circular arc housing of lower part, circular arc housing I20 of lower part promoted circular arc housing II 21 of lower part and moved right side sliding shrinkage together, and it is spacing until the interior spacing platform 24 at II 21 left side border of circular arc housing of lower part and the outer spacing platform 23 laminating at III 22 left side border of circular arc housing of lower part. The semicircular telescopic outer casing 12 plays a role of a telescopic protective casing, and the problem that the rotation angle is influenced by interference in the rotation process of the network cable mounting seat 2 and the crystal connector 8 is solved.

The installation seat holds 1 inside and is equipped with stationary platen 3 in storehouse, stationary platen 3 sets up on 2 upper portions of net twine mount pad, the installation seat holds 1 and is equipped with the flexible knob 4 of clamp plate, the flexible knob 4 rotating of clamp plate is pressing stationary platen 3 and is compressing tightly the net twine in the wire casing 5. Preferably, the clamp plate telescopic knob 4 adopts a rotary screw, the mounting seat holds the bin 1 and is provided with an internal thread hole on the top plate, the rotary screw is screwed with the internal thread hole and the lower end is fixedly connected with the upper end face of the fixed clamp plate 3, the fixed clamp plate 3 is matched with the wire groove 5 in length, and the fixed clamp plate 3 is made of rubber materials. The fixing pressing plate 3 is directly arranged inside the mounting seat containing bin 1 and on the upper portion of the network cable mounting seat 2, downward comprehensive pressing in the cable slot 5 is achieved through the fixing pressing plate 3, the network cable can be tightly attached to the cable slot 5, and the problem that the contact and the connection of the network cable and the arc combining piece are poor due to the fact that the network cable tilts in the cable slot is avoided.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims (3)

1. Outer cover shell telescopic rotary network line connection end joint structure holds storehouse (1) and quartzy joint (8) including the mount pad, the mount pad holds storehouse (1) inside network line mount pad (2) of being equipped with, network line mount pad (2) up end is equipped with a plurality of wire casings (5), network line mount pad (2) right-hand member is equipped with circular arc contact jaw (6), axial is equipped with a plurality of circular arc joint pieces (7) of being connected with wire casing (5) on circular arc contact jaw (6), quartzy joint (8) are including quartzy head shell (12), quartzy head shell (12) left end axial is equipped with a plurality of convex conductive head (9), its characterized in that: the two sides of the left end of the crystal head shell (12) and the two sides of the arc contact end (6) are respectively hinged with the two ends of the adjustable connecting rod (13) to enable a plurality of arc combination pieces (7) on the arc contact end (6) to correspondingly contact with a plurality of arc conductive heads (9) on the crystal head shell (12) to form an arc rotating contact structure, a fixed pressing plate (3) is arranged inside the mounting seat containing bin (1), the fixed pressing plate (3) is arranged on the upper portion of the network cable mounting seat (2), a pressing plate telescopic knob (4) is arranged on the mounting seat containing bin (1), the pressing plate telescopic knob (4) rotates and presses the fixed pressing plate (3) to tightly press the network cable in the wire slot (5), and the right end of the mounting seat containing bin (1) is connected with the upper portion and the lower portion, corresponding to the left end of the crystal head shell (12), through a semi-arc telescopic outer cover shell; wherein, telescopic encloser (19) of semicircle include circular arc encloser I (20), circular arc encloser II (21) and circular arc encloser III (22), the both ends of circular arc encloser I (20), circular arc encloser II (21) and circular arc encloser III (22) all are equipped with fan-shaped curb plate (25), the fan-shaped curb plate (25) circular arc center that circular arc encloser I (20), circular arc encloser II (21) and circular arc encloser III (22) correspond the end articulates, circular arc encloser I (20) left side border holds storehouse (1) fixed connection with the mount pad, but circular arc encloser II (21) circumference circular arc slidingtype overlaps in circular arc encloser I (20) inboardly, but circular arc slidingtype overlaps in circular arc encloser II (21) inboardly and its right side border and crystal head shell (12) fixed connection, circular arc encloser I (20), The left and right side edges of the arc housing II (21) and the left side edge of the arc housing III (22) are both provided with an inner limiting platform (24) radially inwards and an outer limiting platform (23) radially outwards; wherein, connecting rod (13) include connecting rod I (15), connecting rod II (17) and internal thread pipe (16) with adjustable, connecting rod I (15) left end is connected with circular arc contact jaw (6) side through round pin axle I (14) is rotated, connecting rod II (17) right-hand member is connected with crystal head shell (12) left end side through round pin axle II (18) is rotated, be equipped with the external screw thread that turns to opposite on connecting rod I (15) right-hand member and connecting rod II (17) left end surface respectively, be equipped with the internal thread that turns to opposite on internal surface left and right sides of internal thread pipe (16), internal thread that internal surface both ends turn to opposite respectively with connecting rod I (15) and the external screw thread that turns to opposite on connecting rod II (17) revolve to close, internal thread pipe (16) make connecting rod I (15) and connecting rod II (17) axial move toward opposite direction and realize a plurality of circular arc on circular arc contact jaw (6) at the rotating in-process The size of the attaching force between the bonding sheet (7) and the plurality of arc-shaped conductive heads (9) on the crystal head shell (12) is adjusted.

2. The telescopic rotary network line connection end joint structure of dustcoat of claim 1, characterized in that: the clamp plate stretching knob (4) adopts a rotating screw, the mounting seat is provided with an internal thread hole on the top plate of the storage bin (1), the rotating screw and the internal thread hole are screwed and then the lower end is fixedly connected with the upper end face of the fixed clamp plate (3), the length of the fixed clamp plate (3) is matched with the length of the wire groove (5), and the fixed clamp plate (3) is made of a rubber material.

3. The telescopic rotary network line connection end joint structure of dustcoat of claim 1, characterized in that: an outer connecting piece (11) is arranged at the right end of the crystal head shell (12), and a conducting strip (10) for connecting the arc-shaped conducting head (9) with the outer connecting piece (11) is arranged inside the crystal head shell (12).

Images