CN114267990A

CN114267990A - Multicore conductor connector of quick plug of intelligence

Info

Publication number: CN114267990A
Application number: CN202111613148.9A
Authority: CN
Inventors: 杨伏可
Original assignee: Shuyang Xierun Electronics Co ltd
Current assignee: Jiangsu Zhanshang Shimat Technology Co.,Ltd.
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-04-01

Abstract

The invention relates to the field of intelligent wire connection, in particular to an intelligent fast-plugging multi-core wire connector, which comprises a chassis and a multi-core wire, wherein a first volute groove and a second volute groove are formed in the chassis, a connecting cylinder is arranged at the center of the chassis, a bearing is arranged between the connecting cylinder and the chassis to realize rotation, a socket flow dividing pipe is also connected onto the connecting cylinder, the socket flow dividing pipe comprises at least two socket pipes, a connector terminal is arranged in each socket pipe in a sliding manner, a socket terminal is inserted into each connector terminal, a fixed bridge plate is further arranged at the top end of each socket flow dividing pipe, a trigger box is connected onto each fixed bridge plate through a sliding structure, a first control rod and a second control rod for driving each trigger box to move are further arranged on each fixed bridge plate in a sliding manner, and a trigger block is in alternate contact with a first magnet plate and a second magnet plate to realize the disconnection and the connection of a wiring unit, so that the cost performance and the wiring effect are improved, the multi-core connection device realizes the quick plugging of the multi-core connection of the wires and ensures the safety and the intellectualization of the multi-core connection.

Description

Multicore conductor connector of quick plug of intelligence

Technical Field

The invention relates to the technical field of intelligent wire connection, in particular to an intelligent fast-plugging multi-core wire connector.

Background

Along with the continuous progress and the development of technique, current binding post is structural continuously to present diversified change, each binding post's structure diverse, the mode of connection is also different, and along with diversified improvement, binding post's connection complexity is higher and higher, though, each binding post structure diverse, but current binding post's biggest shortcoming is in that one step of not reaching during the wiring, can not realize quick connection, nevertheless wire connection speed leads to contact resistance more at a slow pace more, and then can lead to binding post's junction to burn out, seriously influence safety in utilization.

The existing market also has connectors or wiring terminals for one-time wiring, but the connectors or wiring terminals have complex structures, low cost performance, and poor wiring effect, and do not have the functions and effects of quick wiring and quick disconnection; further, the existing connector or wiring terminal is connected with a multi-core wire, a multi-core connector corresponding to the multi-core wire in a quick plugging mode is lacked, the traditional structure is in single-wire plugging connection, time and labor are wasted, the requirement of fast and efficient wiring of the multi-core wiring terminal in the current diversification mode cannot be met, the intelligent development requirement of the existing multi-core wire connection cannot be met, meanwhile, safety and stability cannot be guaranteed, and therefore the multi-core wire connector capable of achieving intelligent quick plugging is needed.

Disclosure of Invention

The invention provides an intelligent and fast plugging multi-core wire connector, which aims to solve the technical problems that the wiring effect is not ideal and the safety and the intelligentization requirements of multi-core connection cannot be ensured.

The intelligent fast plugging multi-core wire connector adopts the following technical scheme:

an intelligent fast plugging multi-core conductor connector comprises a chassis and a multi-core conductor, wherein a first volute groove and a second volute groove are formed in the chassis, the pitch of the first volute groove is twice that of the second volute groove, a connecting cylinder is arranged at the center of the chassis, a bearing is arranged between the connecting cylinder and the chassis to realize rotation, a socket shunt tube is further connected onto the connecting cylinder and comprises at least two socket tubes which are uniformly distributed in an annular manner, a connector terminal is arranged in each socket tube in a sliding manner, the multi-core conductor penetrates through the socket tubes and is electrically connected with the connector terminals, the connector terminals are connected with socket terminals in an inserting manner, a fixed bridge plate is further arranged at the top ends of the socket shunt tubes, the fixed bridge plate is connected with a trigger box through a sliding structure, the trigger box comprises a first magnet plate, a second magnet plate and a support plate arranged between the first magnet plate and the second magnet plate, a first control rod and a second control rod for driving the trigger box to move are further arranged on the fixed bridge plate in a sliding manner, the bottom ends of the first control rod and the second control rod are respectively arranged in a second volute groove and a first volute groove, a trigger rod with a telescopic function is further arranged between every two adjacent socket pipes, a spring arranged on the trigger rod is sleeved, a trigger block arranged at the top end of the trigger rod and located in a trigger box is arranged, a control block is slidably arranged at the midpoint of the trigger rod and arranged at the midpoint of the spring, a first telescopic rod is arranged between every two adjacent joint terminals, the control block is arranged at the connection midpoint of the two first telescopic rods, a second telescopic rod is arranged between every two adjacent socket terminals and located on the reverse side of the trigger box, a joint control rod is further arranged at the midpoint of the second telescopic rod, the bottom end of the joint control rod is arranged in the second volute groove, and the trigger block is in alternate contact with the first magnet plate and the second magnet plate to achieve disconnection and closing of the wiring sheet.

Preferably, the sliding structure includes the connecting block of setting on first magnet board and sets up the spout in fixed bridge bottom, and the spout matches the installation with the connecting block and realizes being connected and sliding, and the sliding structure of second magnet board is the same with first magnet board.

Further preferably, the sliding groove on the fixed bridge plate is a T-shaped groove.

Further preferably, still be equipped with the sliding sleeve between fixed bridge plate and the first control lever, sliding sleeve slidable mounting is on fixed bridge plate and the first control lever is connected to the bottom, and the sliding sleeve does not interfere with the connecting block motion mutually, and the structure of second control lever, joint control lever is the same with the structure of first control lever, and first control lever and second control lever all set up the reciprocating motion who realizes the drive trigger box between first magnet board and second magnet board.

Preferably, an opening is formed in the first magnet plate, the trigger rod and the spring penetrate through the opening, and the trigger block is larger than the opening.

Preferably, the number of the socket pipes is four, which are uniformly distributed in a ring shape, and the socket terminals and the joint terminals are also four groups of adaptive structures.

Preferably, one side, provided with the trigger rod, between two adjacent socket pipes is connected with the control block through two first telescopic rods to realize main driving of the joint terminal, and the other socket pipes are connected in pairs through one telescopic rod to realize synchronous movement of the adjacent joint terminals; two adjacent socket terminals and with the not homonymy of trigger box clearance all be provided with the second telescopic link, and connect the control lever setting at two socket terminals and be located the second telescopic link in the reverse one side clearance of trigger box, the trigger bar also is the telescopic link.

Preferably, a handle is arranged on the fixed bridge plate.

Preferably, one side of the fixed bridge plate is fixedly connected with external equipment.

Preferably, a push rod is further arranged at the bottom end of the chassis.

The invention has the beneficial effects that: the invention ensures the running route and the triggering stability by arranging two vortex-shaped grooves with different screw pitches on the chassis, controls the connection and the disconnection of the socket terminal and the joint terminal, ensures the connection and the disconnection of the lead connection to be in a normal state, ensures that the spring on the triggering rod is in a stretching state for a long time when the two lead terminals are closed and leads to the failure of the spring, ensures that the position of the lead is always the initial state of the spring when the lead is closed by the device, and further avoids the situation that the spring is in the stretching state when the two lead terminals are closed because the lead is not rotated in place when a worker operates, the life of the spring is prolonged, further, socket terminal and joint terminal are the multiunit of adaptation, the chassis rotates, and through the trigger bar, spring and control block drive trigger box reciprocating motion realize binding post's trigger connection and closure, through setting up the first telescopic link in control block department, first control lever, power main drive is realized to second control lever and trigger box, other first telescopic links and the second telescopic link through adjacent connection are as following the drive, and then drive multiunit binding post and realize high efficiency's connection and closure, and then the wire connection efficiency and the intelligent level that have improved the device.

Drawings

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

FIG. 1 is a perspective view of the overall structure of an intelligent quick-connect-disconnect multi-core wire connector of the present invention;

FIG. 2 is a side view of an intelligent quick-connect/disconnect multiconductor connector of the present invention;

FIG. 3 is an exploded view of an intelligent quick-connect/disconnect multi-conductor connector according to the present invention;

FIG. 4 is a connection structure diagram of a socket shunt tube of an intelligent quick-connect-disconnect multi-core wire connector according to the present invention;

FIG. 5 is an axial cross-sectional view of an intelligent quick-connect/disconnect multi-conductor connector of the present invention;

FIG. 6 is a top view of an intelligent quick-connect/disconnect multi-conductor connector of the present invention;

FIG. 7 is an enlarged view of the portion A of FIG. 6;

FIG. 8 is a diagram of a connection structure of a fixed bridge plate of an intelligent quick-connect-disconnect multi-core wire connector according to the present invention;

fig. 9 is a structural diagram of a trigger box of an intelligent quick-plugging multi-core wire connector according to the present invention.

In the figure: 1-chassis, 2-multicore wire, 3-first volute groove, 4-second volute groove, 5-connecting cylinder, 6-socket shunt tube, 61-socket tube, 7-joint terminal, 8-socket terminal, 9-fixed bridge plate, 10-sliding structure, 101-connecting block, 102-sliding groove, 11-trigger box, 111-first magnet plate, 112-second magnet plate, 113-supporting plate, 12-first control rod, 13-second control rod, 14-trigger rod, 15-spring, 16-trigger block, 17-control block, 18-first telescopic rod, 19-second telescopic rod, 20-joint control rod, 21-sliding sleeve, 22-opening, 23-handle, 24-push rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An embodiment of an intelligent fast-plugging multi-core wire connector according to the present invention is shown in fig. 1 to 9;

an intelligent multi-core wire connector capable of being plugged and pulled quickly comprises a chassis 1 and a multi-core wire 2, wherein a first volute groove 3 and a second volute groove 4 are formed in the chassis 1, the pitch of the first volute groove 3 is twice that of the pitch of the second volute groove 4, the connection and safety of subsequent triggering are guaranteed, a connecting cylinder 5 is arranged at the center of the chassis 1, a bearing is further arranged between the connecting cylinder 5 and the chassis 1 to realize rotation, when the chassis 1 is rotated, the connecting cylinder 5 and a socket shunt pipe 6 at the upper end do not rotate, a socket shunt pipe 6 is further connected above the connecting cylinder 5, the socket shunt pipe 6 comprises socket pipes 61 which are uniformly distributed in an annular shape and are at least two, namely the socket pipes can be arranged at two and 180 degrees, three socket pipes are arranged at 120 degrees, four socket pipes are arranged at 90 degrees and … are arranged in an orderly manner, in the embodiment, the number of the socket pipes 61 is preferably four socket pipes which are uniformly distributed in an annular shape, the two adjacent socket pipes are arranged at 90 degrees, the socket terminals 8 and the joint terminals 7 are four groups of adaptive structures, one side, provided with the trigger rod 14, between the two adjacent socket pipes 61 is connected through the two first telescopic rods 18 and the control block 17 to realize main driving of the joint terminals 7, and the other socket pipes 61 are connected through one telescopic rod between every two adjacent socket pipes to realize synchronous movement of the adjacent joint terminals 7.

The two adjacent socket terminals 8 are provided with a second telescopic rod 19 in a gap at a different side from the trigger box 11, namely in order not to hinder the motion of the trigger box 11, the second telescopic rod 19 is not arranged at one side of the trigger box 11 arranged in a gap between the two socket terminals 8, the second telescopic rod 19 is arranged between every two adjacent socket terminals 8, the joint control rod 20 is arranged on the second telescopic rod 19 of the two socket terminals 8 and positioned in a gap at one opposite side of the trigger box 11, the joint terminal 7 is arranged in the socket pipe 61 in a sliding manner, the multi-core lead 2 penetrates through the socket pipe 61 and is electrically connected with the joint terminal 7, the socket terminals 8 are inserted into the joint terminal 7, the joint terminal 7 and the socket terminals 8 are matched groups, the chassis 1 is rotated, and the trigger box 11 is driven by the trigger rod 14, the spring 15 and the control block 17 to reciprocate to realize the triggering connection and the closing of the wiring terminals, realize power main drive through setting up first telescopic link 18, first control lever 12, second control lever 13 and the trigger box 11 in control block 17 department, as the driven through other first telescopic links 18 and the second telescopic link 19 of adjacent connection, and then drive multiunit binding post and realize high efficiency's connection and closure.

The top end of the socket shunt tube 6 is further provided with a fixed bridge plate 9, the fixed bridge plate 9 is connected with a trigger box 11 through a sliding structure 10, the trigger box 11 comprises a first magnet plate 111, a second magnet plate 112 and a support plate 113 arranged between the first magnet plate and the second magnet plate, the first magnet plate 111 is arranged on the left side of the second magnet plate 112, a first control rod 12 and a second control rod 13 for driving the trigger box 11 to move are further slidably mounted on the fixed bridge plate 9, the first control rod 12 is arranged on the left side of the second control rod 13, the bottom ends of the first control rod 12 and the second control rod 13 are respectively arranged in the second vortex groove 4 and the first vortex groove 3, a trigger rod 14 with a telescopic function is further arranged between two adjacent socket tubes 61, a spring 15 sleeved on the trigger rod 14, a trigger block 16 arranged at the top end of the trigger rod 14 and located in the trigger box 11, the trigger rod 14 is also a telescopic rod, a control block 17 is slidably mounted at the midpoint of the trigger rod 14, the control block 17 is arranged at the midpoint of the spring 15, a first telescopic rod 18 is arranged between two adjacent joint terminals 7, and the control block 17 is arranged at the connection midpoint of the two first telescopic rods 18, a second telescopic rod 19 is arranged between the two adjacent socket terminals 8 and on the opposite side of the trigger box 11, and the middle point of the second telescopic rod 19 is also provided with a joint control rod 20, the bottom end of the joint control rod 20 is arranged in the second vortex-shaped groove 4, the joint control rod 20 slides along the second vortex-shaped groove 4 to drive the socket terminal 8 to move radially, and the alternate contact of the trigger block 16 with the first and

second magnet plates

111 and 112 effects the opening and closing of the wire-connecting unit, when the chassis 1 rotates, the joint control rod 20 and the first control rod 12 slide synchronously along the second scroll groove 4, and the second control rod 13 slides along the first scroll groove 3.

In an initial state, the joint terminal 7 and the socket terminal 8 are connected and closed, the trigger block 16 is adsorbed on the second magnet plate 112 of the trigger box 11, at this time, the spring 15 is of a natural length, and is stretched outwards along the radius direction of the chassis 1 and compressed inwards, and when the stretch or the compression reaches a certain degree, the trigger block 16 is separated from the second magnet plate 112 or the first magnet plate 111, so that the joint terminal 7 and the socket terminal 8 are disconnected and connected and closed; the spring 15 is arranged on the trigger rod 14 in a surrounding mode and is always as long as the trigger rod 14, the top end of the spring 15 is fixedly connected with the trigger block 16, the bottom end of the spring 15 is fixedly connected with the socket shunt tube 6, the control block 17 is located at the middle point of the trigger rod 14, namely when the trigger block 16 is driven by the second control rod 13 to move along the first volute groove 3, the displacement of the control block 17 is 1/2 of the trigger block 16, and further the joint terminal 7 and the socket terminal 8 connected with the control block 17 achieve synchronous movement.

In this embodiment, the sliding structure 10 includes a connecting block 101 disposed on the first magnet plate 111 and a sliding groove 102 disposed at the bottom of the fixed bridge plate 9, and the sliding groove 102 is matched with the connecting block 101 for installation, so as to achieve connection and sliding, the sliding structure 10 of the second magnet plate 112 is the same as the first magnet plate 111, the sliding groove 102 on the fixed bridge plate 9 is a T-shaped groove, a sliding sleeve 21 is further disposed between the fixed bridge plate 9 and the first control rod 12, the sliding sleeve 21 is slidably mounted on the fixed bridge plate 9 and has a bottom end connected to the first control rod 12, the sliding sleeve 21 and the connecting block 101 do not interfere with each other in movement, the second control rod 13 and the joint control rod 20 have the same structure as the first control rod 12, and the first control rod 12 and the second control rod 13 are both disposed between the first magnet plate 111 and the second magnet plate 112 for achieving reciprocating movement of the driving trigger box 11, the first control rod 12, the second control rod 13, the first control rod 12, the second control rod 13, The interface control rod 20 can slide along the fixed bridge plate 9 through the sliding sleeve 21, the sliding grooves 102 on the fixed bridge plate 9 can allow the connecting block 101 on the trigger box 11 to slide, and the sliding sleeves 21 on the first control rod 12 and the second control rod 13 are provided with notches at positions corresponding to the sliding positions of the connecting block 101, so that the movement of the sliding sleeves 21 and the movement of the connecting block 101 do not interfere with each other.

In this embodiment, the opening 22 is formed in the first magnet plate 111, the trigger rod 14 and the spring 15 penetrate through the opening 22, and the trigger block 16 is larger than the opening 22, so as to facilitate the movement of the trigger rod 14 and the spring 15, limit the stroke of the trigger block 16, prevent the trigger block 16 from being dislocated, the trigger block 16 is also a magnet block, and meanwhile, the movement of the trigger block 16 is ensured to realize the alternate contact and separation with the first magnet plate 111 and the second magnet plate 112, so that the connection and closing efficiency of the plurality of sets of connector terminals 7 and the socket terminals 8 is further realized.

The handle 23 can be arranged on the upper end face of the fixed bridge plate 9 for manual support, or the fixed bridge plate 9 can be directly arranged on external connection equipment for direct fixation, preferably, the handle 23 is arranged on the fixed bridge plate 9 in the embodiment.

In this embodiment, still be provided with push rod 24 in the bottom of chassis 1, so set up, operating personnel supports and supports this device through handle 23 on one hand, on the other hand rotates chassis 1 through push rod 24, thereby drive first control lever 12, second control lever 13 and joint control lever 20 in corresponding vortex form inslot internal rotation, realize the reciprocal linear motion of trigger box 11 through the vortex form groove that sets up special proportional structure, and then drive trigger block 16 and realize contacting alternately and the separation with first magnet board 111 and second magnet board 112, reach the quick and safe connection and the disconnection of joint terminal 7 and socket terminal 8.

In the working process:

in the initial state, the tab terminal 7 and the socket terminal 8 are connected and closed, the trigger block 16 is attached to the second magnet plate 112 of the trigger box 11, the second control rod 13 is in contact with the second magnet plate 112, and the first control rod 12 is not in contact with the first magnet plate 111.

When multiple groups of wires need to be disconnected simultaneously, as shown in fig. 1, the chassis 1 is rotated anticlockwise, the second control rod 13 is driven to move in the direction away from the center of a circle along the first vortex groove 3, meanwhile, the distance between the first control rod 12 and the second control rod 13 is increased, but after the chassis 1 rotates for a certain angle, the first control rod 12 is in contact with the first magnet plate 111, and the elastic force of the spring 15 enables the trigger block 16 to break away from the adsorption of the second magnet plate 112, and due to the moving inertia of the trigger block 16 and the elastic force of the spring 15, the trigger block 16 moves towards the first magnet plate 111, and the multiple groups of joint terminals 7 and the socket terminals 8 are disconnected rapidly under the matching of the first telescopic rod 18 and the second telescopic rod 19.

When the joint terminal 7 and the socket terminal 8 need to be closed again, at this time, because the spring 15 has a certain amount of compression, the first magnet plate 111 of the trigger box 11 will abut against the first control rod 12, so that the trigger block 16 does not need to move again by the same amount as the wire breaking process, and the trigger block 16 can be separated from the first magnet plate 111, at this time, the chassis 1 is rotated clockwise, the first control rod 12 will push the trigger box 11 to move towards the direction close to the center of the circle, when the spring 15 is moved to the same amount of compression as the spring 15 is expanded and contracted when the wire is broken, the first trigger block 16 will be separated from the first magnet plate 111, and the socket terminal 8 will be rebounded by the spring 15 to reset quickly, and closed with the joint terminal 7, the trigger block 16 will also cross the initial position of the spring 15 to be adsorbed to the second magnet plate 112, at this time, the multiple sets of connection terminals are closed, and the trigger block 16 brings the trigger box 11 together to return to the initial closed state, wherein it is closed at joint terminal 7 and socket terminal 8, the disconnection, this in-process of closed, twice closure state spring 15 all is in original long state, thereby avoid in wire connection process, spring 15 is in tensile state all the time, the time has been of a specified duration and has lost elasticity, and then the problem of life is connected to the reduction means, this multicore connector has improved the price/performance ratio and the effect of working a telephone switchboard, the quick plug of wire multicore connection has been realized, the security of multicore connection has been guaranteed, the intelligent level of this multicore wire connector has been improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a multicore conductor connector of quick plug of intelligence which characterized in that: the multi-core wire is electrically connected with the joint terminal through the socket pipe, the joint terminal is inserted and connected with the socket terminal, a fixed bridge plate is further arranged at the top end of the socket shunt pipe, the fixed bridge plate is connected with a trigger box through a sliding structure, the trigger box comprises a first magnet plate, a second magnet plate and a support plate arranged between the first magnet plate and the second magnet plate, a first control rod and a second control rod for driving the trigger box to move are further arranged on the fixed bridge plate in a sliding mode, the bottom ends of the first control rod and the second control rod are respectively arranged in a second volute groove and a first volute groove, a trigger rod with a telescopic function is further arranged between every two adjacent socket pipes, a spring arranged on the trigger rod is sleeved, a trigger block arranged at the top end of the trigger rod and located in a trigger box is arranged, a control block is slidably arranged at the midpoint of the trigger rod and arranged at the midpoint of the spring, a first telescopic rod is arranged between every two adjacent joint terminals, the control block is arranged at the connection midpoint of the two first telescopic rods, a second telescopic rod is arranged between every two adjacent socket terminals and located on the reverse side of the trigger box, a joint control rod is further arranged at the midpoint of the second telescopic rod, the bottom end of the joint control rod is arranged in the second volute groove, and the trigger block is in alternate contact with the first magnet plate and the second magnet plate to achieve disconnection and closing of the wiring sheet.

2. The intelligent fast-plugging multi-core wire connector according to claim 1, wherein: the sliding structure comprises a connecting block arranged on the first magnet plate and a sliding groove arranged at the bottom of the fixed bridge plate, the sliding groove is matched with the connecting block to be installed and connected and slide, and the sliding structure of the second magnet plate is the same as that of the first magnet plate.

3. The intelligent fast-plugging multi-core wire connector according to claim 2, wherein: the sliding groove on the fixed bridge plate is a T-shaped groove.

4. The intelligent fast-plugging multi-core wire connector according to claim 3, wherein: still be equipped with the sliding sleeve between fixed bridge plate and the first control lever, sliding sleeve slidable mounting is on fixed bridge plate and the first control lever is connected to the bottom, and the sliding sleeve does not interfere with the connecting block motion mutually, and the structure of second control lever, joint control lever is the same with the structure of first control lever, and first control lever and second control lever all set up the reciprocating motion who realizes the drive trigger case between first magnet board and second magnet board.

5. The intelligent fast-plugging multi-core wire connector according to claim 1, wherein: the first magnet plate is provided with an opening, the trigger rod and the spring penetrate through the opening, and the trigger block is larger than the opening.

6. The intelligent fast-plugging multi-core wire connector according to claim 1, wherein: the number of the socket pipes is four, the socket pipes are evenly distributed in an annular mode, and the socket terminals and the joint terminals are four groups of adaptive structures.

7. The intelligent fast-plugging multi-core wire connector according to claim 6, wherein: one side, which is provided with the trigger rod, between two adjacent socket pipes is connected through two first telescopic rods and a control block to realize main driving of the joint terminals, and the other socket pipes are connected in pairs through one telescopic rod to realize synchronous motion of the adjacent joint terminals; two adjacent socket terminals and with the not homonymy of trigger box clearance all be provided with the second telescopic link, and connect the control lever setting at two socket terminals and be located the second telescopic link in the reverse one side clearance of trigger box, the trigger bar also is the telescopic link.

8. The intelligent fast-plugging multi-core wire connector according to claim 1, wherein: and a handle is arranged on the fixed bridge plate.

9. The intelligent fast-plugging multi-core wire connector according to claim 1, wherein: and one side of the fixed bridge plate is fixedly connected with external equipment.

10. The intelligent fast-plugging multi-core wire connector according to claim 1, wherein: the bottom end of the chassis is also provided with a push rod.