CN108899660B

CN108899660B - IDC wire stripping-free wiring mechanism

Info

Publication number: CN108899660B
Application number: CN201810729489.4A
Authority: CN
Inventors: 车敏
Original assignee: Phoenix Contact Asia Pacific Nanjing Co Ltd
Current assignee: Phoenix Contact Asia Pacific Nanjing Co Ltd
Priority date: 2018-07-05
Filing date: 2018-07-05
Publication date: 2020-05-15
Anticipated expiration: 2038-07-05
Also published as: CN108899660A

Abstract

The invention discloses an IDC wire stripping-free wiring mechanism, which comprises an installation shell for fixing a wire, a knife switch conducting bar for cutting the wire and conducting and connecting with the wire, and a driver for driving the knife switch conducting bar to conduct or break connection with the wire; the driver and the switch blade conducting bar are installed in the installation shell, and the driver drives the switch blade conducting bar to do reciprocating motion. In the actual wiring operation, the wire is not required to be pretreated, namely: during wiring, the screw is rotated to drive the conducting bar of the knife switch to move downwards, so that the knife edge cuts the insulating layer of the wire, the copper core is directly connected with the knife edge, conduction is realized, and adverse effects caused by non-standard wire stripping are avoided.

Description

IDC wire stripping-free wiring mechanism

Technical Field

The invention relates to the technical field of connector wiring, in particular to an IDC wire stripping-free wiring mechanism.

Background

The commonly used wiring technology of the existing electric connector products is as follows: screw wiring technology and spring wiring technology. When wiring, the wires are usually pretreated, that is: according to the wire stripping length specification of a product, an insulating layer with a certain length is stripped at the end of a lead, and then the exposed copper core is connected into a screw wiring device or a spring wiring device to realize conduction.

However, in the actual wire connection operation, due to the professional irregularity of the wire connection operator, when the length deviation of the wire stripping is large, the electrical performance of the electrical connector is easily affected. When the length of the wire stripping is too short, the conducting strip is easy to press the insulating layer, so that the electric connector is heated seriously and even burnt; when the length of the wire stripping is too long, the copper core is exposed too much, and the installation distance between adjacent conductors is not enough, the accident of breakdown and further equipment burning is easy to happen. In addition, the copper core is exposed outside the product, so that the risk of electric shock is further increased.

The IDC wire-stripping-free connection technology does not need to preprocess wires, when the wires are connected, the wires are directly inserted into a wire connection port, an insulating layer can be cut, and the copper core is directly connected with the blade to realize conduction. The IDC connection technology without wire stripping can avoid the adverse effect caused by the non-standard wire stripping, and is convenient and fast without special tools.

The existing IDC wire-stripping-free technology is mainly applied to a signal transmission connector with a small wire diameter, the force of a blade for cutting an insulating layer does not need to be too large, the wire can be directly wired by a hand by means of an operating handle mechanism on the connector, and the IDC wire-stripping-free technology is convenient and fast.

However, for larger wire diameter electrical connectors, the IDC blade has a high level of insulation cutting force and it is difficult to perform the hand-held wire connection operation even with a conventional tool driver.

Disclosure of Invention

The invention aims to provide an IDC wire stripping-free wiring mechanism to solve the problem of large wire diameter wire stripping-free connection operating force in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an IDC wire stripping-free wiring mechanism comprises a mounting shell for fixing a wire, a knife conducting bar for cutting the wire and conducting and connecting with the wire, and a driver for driving the knife conducting bar to conduct or break connection with the wire; the driver and the switch blade conducting bar are installed in the installation shell, and the driver drives the switch blade conducting bar to do reciprocating motion. In order to simplify the structure, the driver may be a screw, which is screwed with the blade conducting bar and drives the blade conducting bar to reciprocate.

Furthermore, the plug-in connector further comprises an external conductive bar used for being in conduction connection with the switch blade conductive bar, the external conductive bar is installed in the installation shell, and one end of the external conductive bar is exposed to serve as a butt joint end of other connectors.

Furthermore, the conducting strip of the knife switch is of a half-frame structure with an opening on the bottom surface, and comprises a top conducting strip, and a spring conducting strip and a knife edge which are connected to two sides of the top conducting strip.

Furthermore, the external conductive strip comprises a flat conductive strip and a side plate conductive strip which are vertically and fixedly connected, and one end of the flat conductive strip is exposed to serve as a butt joint end of other connectors; and the elastic piece conductive strip on the switch blade conductive strip is attached to and connected with the side plate conductive strip on the external conductive strip in a conduction manner.

Furthermore, the conducting strip of the knife switch is of a half-frame structure with an opening on the bottom surface, and comprises a top conducting strip, and a straight conducting strip and a knife edge which are connected to two sides of the top conducting strip.

Furthermore, the external conductive bar comprises a flat conductive bar and a U-shaped elastic sheet conductive bar fixedly connected to the flat conductive bar, and the opening end of the U-shaped elastic sheet conductive bar is in a necking shape; the straight conducting bar on the conducting bar of the switch blade is inserted into the U-shaped elastic sheet conducting bar on the external conducting bar and is attached and connected with the opening end of the U-shaped elastic sheet conducting bar in a conducting mode.

Further, the knife switch comprises an inner shell which can be installed in the installation shell in a reciprocating mode, and the knife switch conducting bar is installed in the inner shell.

Further, the inner shell is of a left-right split structure.

Furthermore, the knife edge is of a splayed structure formed by combining two conductive strips.

Further, the installation shell is of a left-right split type structure.

Compared with the prior art, the invention has the beneficial effects that:

(1) the torque of the screw is converted into cutting force required by a knife edge to cut the insulating layer of the wire, so that the cutting force of the knife edge is improved, the wire connecting device is particularly suitable for IDC connection with larger wire diameter, the wire connecting operation force is small, wire connection and wire withdrawal can be repeated, and the operation is convenient;

(2) in the actual wiring operation, the wire is not required to be pretreated, namely: during wiring, the screw is rotated to drive the conducting bar of the knife switch to move downwards, so that the knife edge cuts the insulating layer of the lead, and the copper core is directly connected with the knife edge to realize conduction, thereby avoiding adverse effects caused by non-standard wire stripping;

(3) the invention does not need to use a special wire stripping tool, and the wire connection is convenient and quick;

(4) the invention adopts the mode of split type conduction connection of the conducting bar of the switch blade and the external conducting bar, simplifies the structure of a single part and is convenient to process.

Drawings

FIG. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic view of the first embodiment in an initial state;

FIG. 3 is a schematic diagram illustrating an ON state of the first embodiment;

FIG. 4 is a schematic structural diagram of a second embodiment of the present invention;

FIG. 5 is a schematic view of the second embodiment in an initial state;

FIG. 6 is a diagram illustrating an ON state of the second embodiment;

FIG. 7 is a schematic structural view of a third embodiment of the present invention;

FIG. 8 is a schematic structural diagram of an inner housing, a screw and a blade conducting bar in a third embodiment of the present invention;

FIG. 9 is a schematic view showing an initial state of the third embodiment;

FIG. 10 is a diagram illustrating an ON state of the third embodiment;

FIG. 11 is a schematic structural view of a fourth embodiment of the present invention;

FIG. 12 is a schematic view of the structure of the inner housing, the screw and the conducting strip of the blade in the fourth embodiment of the present invention;

FIG. 13 is a schematic view showing an initial state of the fourth embodiment;

FIG. 14 is a diagram illustrating an ON state of the fourth embodiment;

in the figure: 1-first right shell, 2-top conductive strip, 3-screw, 4-first left shell, 5-knife edge, 6-elastic sheet conductive strip, 7-side plate conductive strip, 8-flat plate conductive strip, 9-wire, 10-straight conductive strip, 11-U-shaped elastic sheet conductive strip, 12-nut, 13-second right shell, and 14-second left shell.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all 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.

Example 1: referring to fig. 1-3, a first technical solution of the present invention is: an IDC wire stripping-free wiring mechanism comprises an installation shell, a knife conducting bar, an external conducting bar and a driver;

the mounting shell is of a rectangular shell structure and consists of a first right shell 1 and a first left shell 4 which are integrally mounted;

the external conductive strips comprise plate-shaped flat conductive strips 8 and side plate conductive strips 7, and the side plate conductive strips 7 are perpendicularly and fixedly connected to the side edges of the flat conductive strips 8;

the switch blade conducting bar is of a half-frame structure with an opening on the bottom surface, and comprises a strip-shaped top surface conducting bar 2, and an elastic piece conducting bar 6 and a knife edge 5 which are connected to two sides of the top surface conducting bar 2; the knife edge 5 is formed by combining two conductive strips into a splayed structure and is vertically and fixedly connected with the lower ends of the top conductive strips 2; the elastic conductive strip 6 is fixedly connected to the lower end of the top conductive strip 2 in an inclined and outward manner, and the bottom end of the elastic conductive strip 6 is recessed inwards;

the driver is a screw 3;

the switch blade conducting bar can be vertically movably arranged in the middle of the mounting shell; the screw 3 is rotatably arranged at the upper part of the mounting shell, and the screw 3 is in threaded connection with the top surface conductive bar 2; the external conductive bar is arranged in the mounting shell, a side plate conductive bar 7 in the external conductive bar is parallel to the elastic sheet conductive bar 6 and is right opposite to the lower end of the elastic sheet conductive bar 6, and one end of a flat conductive bar 8 in the external conductive bar is exposed to serve as a butt joint end of other connectors; the lower part of the mounting shell is also provided with a round blind hole-shaped wiring port, and the wiring port is right opposite to the lower part of the knife edge 5;

in an initial state, one end of a wire 9 to be connected is inserted into and positioned in the wiring port, the driving screw 3 rotates and drives the conducting bar of the switch blade to move downwards, the knife edge on one side of the conducting bar of the switch blade cuts the insulating layer of the wire and is in conductive connection with the wire, and the elastic sheet conducting bar 6 on the other side of the conducting bar of the switch blade moves downwards and is attached to and in conductive connection with the conducting bar 7 of the side plate in the external conducting bar.

A wiring step:

(1) during wiring, the lead 9 is directly inserted into the end of a wiring port without preprocessing an insulating layer;

(2) then, the screw 3 is rotated reversely by a common screwdriver, and the screw 3 can only rotate in the mounting shell and cannot move up and down; the conducting bar of the knife switch can be driven to move downwards through the thread matching;

(3) in the process that the conducting bar of the knife switch moves downwards, the knife edge 5 cuts the conducting wire 9 and is in conducting connection with the copper core inside the conducting wire 9; the elastic conductive strip 6 on the other side of the conductive strip of the knife switch generates elastic deformation and is tightly attached to the conductive strip 7 of the side plate to realize conduction;

(4) when withdrawing the cable, a common screwdriver is used for rotating the screw 9 forward to drive the conducting bar of the knife switch to move upwards, so that the knife edge 5 is completely withdrawn and separated from the conducting wire 9, and then the cable is pulled outwards.

Example 2: referring to fig. 4-6, the second technical solution of the present invention is different from the first technical solution in that: the switch blade conducting bar is different from the external conducting bar, namely: the switch blade conducting bar is of a half-frame structure with an opening on the bottom surface, and comprises a strip-shaped top conducting bar 2, and a straight conducting bar 10 and a knife edge 5 which are connected to two sides of the top conducting bar 2; the knife edge 5 is formed by combining two conductive strips into a splayed structure and is vertically and fixedly connected with the lower ends of the top conductive strips 2; the straight conductive strips 10 are vertically and fixedly connected to the lower ends of the top conductive strips 2;

the external conductive strips comprise flat conductive strips 8 and U-shaped elastic strip conductive strips 11 fixedly connected to the flat conductive strips 8, and the open ends of the U-shaped elastic strip conductive strips 11 are in a necking shape;

in an initial state, one end of a wire 9 to be connected is inserted into and positioned in the wiring port, the driving screw 3 rotates and drives the conducting bar of the switch blade to move downwards, the knife edge on one side of the conducting bar of the switch blade cuts the insulating layer of the wire and is in conduction connection with the wire, and the straight conducting bar 10 on the other side of the conducting bar of the switch blade is inserted into the U-shaped elastic piece conducting bar 11 on the external conducting bar and is in connection with the opening end of the U-shaped elastic piece conducting bar 11 in an attaching and conduction.

The wiring steps of the embodiment 2 of the invention are similar to those of the embodiment 1, namely, a common screwdriver drives the conducting bar of the knife blade to move downwards when rotating the screw 3 reversely, so as to realize conduction. When the cable is withdrawn, the screw 9 is rotated by a common screwdriver to drive the conducting bar of the knife switch to move upwards, so as to realize disconnection.

Example 3: referring to fig. 7-10, a third technical solution of the present invention is different from the first technical solution in that: further comprising an inner shell and a nut 12; the inner shell is of a rectangular shell structure and consists of a second right shell 13 and a second left shell 14 which are integrally arranged; the inner shell can be vertically and reciprocally mounted at the upper part of the mounting shell;

the switch blade conducting bar is fixedly arranged at the lower end of the inner part of the inner shell, and the elastic sheet conducting bar 6 and the knife edge 5 are exposed out of the lower side of the inner shell;

the screw 3 is rotatably arranged at the upper end in the inner shell, the upper end of the screw 3 is fixedly connected with the top surface conductive bar 2, and the lower end of the screw is exposed out of the lower side of the inner shell;

the nut 12 is fixedly arranged in the middle of the mounting shell and is in threaded connection with the lower end of the screw 3;

in the initial state, one end of the lead 9 to be connected is inserted into and positioned in the wiring port; the driving screw 3 rotates, because nut 12 fixed mounting is in the middle part of installation casing, screw 3 moves down for nut 12 to the drive is installed and is moved down in integrative interior casing and plug-in strip, the knife edge of plug-in strip one side cuts the insulating layer of wire and with wire turn-on connection, the shell fragment busbar 6 of plug-in strip opposite side moves down and with the laminating turn-on connection of the curb plate busbar 7 in the external busbar.

A wiring step:

(2) then, the screw 3 is rotated forward by a common screwdriver; because the nut 12 is fixedly arranged in the middle of the mounting shell, the inner shell can be vertically and reciprocally arranged on the upper part of the mounting shell; when the screw rotates, the inner shell and the knife conducting bar which are integrally arranged can be driven to move downwards;

(4) when withdrawing the cable, a common screwdriver is used for reversely rotating the screw 3 to drive the conducting bar of the knife switch to move upwards, so that the knife edge 5 is completely withdrawn and separated from the conducting wire 9, and then the cable is pulled outwards.

Example 4: referring to fig. 11 to 14, a fourth technical solution of the present invention is different from the second technical solution in that: further comprising an inner shell and a nut 12; the inner shell is of a rectangular shell structure and consists of a second right shell 13 and a second left shell 14 which are integrally arranged; the inner shell can be mounted on the upper part of the mounting shell in a reciprocating manner;

the switch blade conducting bar is fixedly arranged at the lower end of the inner part of the inner shell, and the straight conducting bar 10 and the knife edge 5 are exposed out of the lower side of the inner shell;

in the initial state, one end of the lead 9 to be connected is inserted into and positioned in the wiring port; the driving screw 3 rotates, the nut 12 is fixedly installed in the middle of the installation shell, the screw 3 moves downwards relative to the nut 12 and drives the installation shell and the switch blade conducting bar to move downwards, the knife edge on one side of the switch blade conducting bar cuts an insulating layer of the conducting bar and is in conduction connection with the conducting bar, and the straight conducting bar 10 on the other side of the switch blade conducting bar is inserted into the U-shaped elastic sheet conducting bar 11 on the external conducting bar and is in conduction connection with the opening end of the U-shaped elastic sheet conducting bar 11.

The mounting shell is made of plastics.

The wiring steps of the embodiment 4 and the embodiment 3 of the invention are similar, that is, a common screw driver rotates a screw forward to drive the inner shell and the knife conducting bar which are arranged integrally to move downwards, so as to realize conduction. When the cable is withdrawn, a common screwdriver is used for reversely rotating the screw to drive the conducting bar of the knife switch to move upwards so as to realize disconnection.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An IDC wire stripping-free wiring mechanism, comprising a mounting housing for securing a wire (9), characterized in that: the cutting device also comprises a knife switch conductive strip used for cutting the lead (9) and connected with the lead (9) in a conducting way and a driver used for driving the knife switch conductive strip to be connected with or disconnected from the lead (9); the driver and the switch blade conducting bar are arranged in the mounting shell, and the driver drives the switch blade conducting bar to do reciprocating motion;

the plug-in connector further comprises an external conductive bar for conducting connection with the conductive bar of the switch blade, the external conductive bar is installed in the installation shell, and one end of the external conductive bar is exposed to serve as a butt joint end of other connectors;

the switch blade conducting strip is of a half-frame structure with an opening on the bottom surface, and comprises a top surface conducting strip (2), and a straight conducting strip (10) and a knife edge (5) which are connected to two sides of the top surface conducting strip (2);

the external conductive strips comprise flat conductive strips (8) and U-shaped elastic sheet conductive strips (11) fixedly connected to the flat conductive strips (8), and the opening ends of the U-shaped elastic sheet conductive strips (11) are in a necking shape; the straight conducting bar (10) on the conducting bar of the switch blade is inserted into the U-shaped elastic sheet conducting bar (11) on the external conducting bar and is attached and connected with the opening end of the U-shaped elastic sheet conducting bar (11).

2. The IDC wire stripping free termination mechanism of claim 1, wherein: the switch blade conducting strip is of a half-frame structure with an opening at the bottom, and comprises a top conducting strip (2), and an elastic strip conducting strip (6) and a knife edge (5) which are connected to two sides of the top conducting strip (2).

3. The IDC wire stripping free termination mechanism of claim 2, wherein: the external conductive strips comprise flat conductive strips (8) and side plate conductive strips (7) which are vertically and fixedly connected, and one ends of the flat conductive strips (8) are exposed and used as butt joint ends of other connectors; and the elastic piece conductive strip (6) on the switch blade conductive strip is attached and connected with the side plate conductive strip (7) on the external conductive strip in a conduction way.

4. The IDC wire stripping free termination mechanism of claim 1, wherein: the external conductive strips comprise flat conductive strips (8) and U-shaped elastic sheet conductive strips (11) fixedly connected to the flat conductive strips (8), and the opening ends of the U-shaped elastic sheet conductive strips (11) are in a necking shape; the straight conducting bar (10) on the conducting bar of the switch blade is inserted into the U-shaped elastic sheet conducting bar (11) on the external conducting bar and is attached and connected with the opening end of the U-shaped elastic sheet conducting bar (11).

5. An IDC wire stripping free termination mechanism as claimed in claim 1 or 2 wherein: the knife switch further comprises an inner shell which can be installed in the installation shell in a reciprocating mode, and the knife switch conducting bar is installed in the inner shell.

6. The IDC wire stripping free termination mechanism of claim 5, wherein: the inner shell is of a left-right split structure.

7. The IDC wire stripping free termination mechanism of claim 1, wherein: the knife edge (5) is of a splayed structure formed by combining two conductive strips.

8. The IDC wire stripping free termination mechanism of claim 1, wherein: the mounting shell is of a left-right split type structure.