Background
A connector is a component that is frequently contacted by an electrical engineering technician. Its effect is very simple: a bridge for communication is erected between the blocked part or isolated and non-communicated circuits in the circuit, so that current flows, and the circuit achieves the preset function. Connectors are indispensable components in electronic devices, and one or more connectors are always found by observing a current flowing path. The connector forms and structures are widely varied, and there are various types of connectors depending on the application, frequency, power, application environment, and the like.
No matter what kind of current-through connector, it needs to effectively fix and connect the lead-in or lead-out wire, generally, the wire connection end is designed on the connector, and the locking structure is performed by the bolt, and the like.
To this condition, clamping spring's design has appeared among the prior art, press the back through pressing clamping spring promptly, make clamping spring and form the centre gripping gap between the piece that switches on, thereby it makes the exposed conductor portion of wire switch on the centre gripping between clamping spring and the piece that switches on to recycle clamping spring's reply deformation, need set up clamping spring and the piece that switches on respectively, in addition, need derive structural design to clamping spring or the piece that switches on in the connector housing, derive the structure and can be for switching on the terminal or switch on the sheet metal, its structure is very complicated, in addition, there is the stability defect that switches on between piece and clamping spring and the complex derivation structure, arouse the bad condition of contact easily.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the defects of the prior art, and provides an integrated wiring terminal aiming at the problems of scattered arrangement of parts of the traditional clamping spring, a conducting sheet and a conducting structure, poor conducting stability and the like.
In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:
the integrated wiring terminal is arranged in the connector shell and is in conduction fit with the lead,
comprises an integrated wiring terminal main body,
the wiring terminal main body comprises a conduction base body, one end of the conduction base body is provided with a conduction terminal, the other end of the conduction base body is provided with a wire locking part,
the wire locking part comprises a conducting locking body and a conducting locking reed, the conducting locking body extends out of the conducting base body, the conducting locking body comprises a conducting base plate which is used for being matched with the free end of the conducting locking reed oppositely, and a clamping part for clamping and fixing a wire is formed between the conducting locking reed and the conducting base plate.
Preferably, a pressing hollow area is arranged on the conducting substrate, and a pressing end located in the pressing hollow area is arranged on the conducting locking reed.
Preferably, a guide edge is arranged at one end of the conducting substrate, which is away from the conducting terminal, and a cross-connection guide area with a flared opening is formed between the guide edge and the conducting locking reed.
Preferably, the conducting locking body comprises a vertical plate wall located between the conducting substrate and the conducting base body, and a sinking groove communicated with the pressing hollow area is formed in the vertical plate wall.
Preferably, the pressing end of the conduction locking spring is provided with a protruding pile.
Preferably, the conduction terminal comprises a conduction terminal bottom wall, two sides of the conduction terminal bottom wall are respectively provided with a turnover wall body, and a free end of the conduction terminal is provided with a conduction head connected with the conduction terminal bottom wall and the turnover wall body.
Preferably, the conducting base body is provided with reinforcing rib flanges which are communicated with the turnover wall bodies in a one-to-one correspondence mode.
The utility model has the following beneficial effects:
1. adopt wire locking portion and switch on terminal design integratively, reduced manufacturing cost and the equipment degree of difficulty, ensure simultaneously and switch on the stability demand.
2. Through the relative cooperation of the conducting locking reed and the conducting substrate, the pressing hollow area is ingeniously designed, the requirement of forming a locking crack by pressing is met, tools are not needed, and the locking lead is convenient, fast and smooth to operate.
3. The turnover reinforcing structure can meet the structural strength of the wiring terminal, is suitable for being integrally formed through plates, greatly reduces the production cost and has higher economic value.
Detailed Description
The utility model provides an integrated wiring terminal. The technical solution of the present invention is described in detail below with reference to the accompanying drawings so that it can be more easily understood and appreciated.
Integral type binding post for the setting carries out the conduction fit with wire 1 in the connector housing.
As shown in fig. 1 to 3, the terminal includes an integrated terminal body 2, the terminal body 2 includes a conductive base 3, a conductive terminal 4 is provided at one end of the conductive base 3, and a wire locking portion 5 is provided at the other end.
The lead locking part 5 comprises a conducting locking body 6 and a conducting locking reed 7, wherein the conducting locking body 6 extends out of the conducting base body 3, the conducting locking body 6 comprises a conducting substrate 8 which is used for being matched with the free end of the conducting locking reed 7 relatively, and a clamping part for clamping a lead is formed between the conducting locking reed 7 and the conducting substrate 8.
The specific implementation process and principle description are as follows:
adopt the integral type binding post main part 2 that possesses the electric conduction material, the electric conduction material belongs to prior art, can be stainless steel, copper alloy, silver alloy etc. only need satisfy the electric conduction and possess the elasticity of buckling can, do not prescribe a limit to the material here.
In the present case, the design of the binding post main part 2 of adoption integral type is about to traditional split type lock position reed 7 that switches on, switches on base plate 8 and switch on terminal 4 and integrates mutually integratively, need not to design the cooperation that switches on between the scattered component, has adopted simultaneously to switch on lock position body 6 design and has satisfied the demand of mutually supporting that switches on base plate 8 and switch on lock position reed 7, forms clamping part between the two, can realize the clamping to the wire, satisfies the wire and connects and switch on the demand.
In one embodiment, the conducting substrate 8 is provided with a pressing hollow 9, and the conducting locking spring 7 is provided with a pressing end 10 located in the pressing hollow 9.
The embodiment has the innovative matching design of the pressing hollow-out area 9 and the pressing end 10, and the adjustment of the gap between the conducting substrate 8 and the free end of the conducting locking reed 7 can be realized only by penetrating through the pressing hollow-out area 9, so that the stable locking requirement during elastic recovery is met. The cross-connecting lead locking operation is smoother and more efficient.
During specific operation, the pressing end 10 is pressed through the pressing hollow-out area 9, a gap is formed between the conducting substrate 8 and the free end of the conducting locking reed 7, the exposed end of the lead is connected in the gap in a penetrating mode, the pressing end 10 is retreated to achieve elastic reset, and therefore the conducting matching and locking requirements of the lead and the wiring terminal main body 2 can be met.
It should be noted that, in some applications, an insulating structure may be used for protection, for example, an insulating pressing portion that is matched with the pressing hollow-out area 9 is formed on the connector housing, and an alignment pressing structure is provided on the insulating housing, which belongs to the prior art and is not described herein.
In a specific embodiment, one end of the conducting substrate 8 facing away from the conducting terminal 4 is provided with a guiding edge 11, and a flared cross-connecting guiding area 12 is formed between the guiding edge 11 and the conducting locking spring 7.
Specifically, the guiding edge 11 and the conducting locking spring 7 are in an inclined matching structure, and a flared cross-connecting guiding area 12 is formed between the guiding edge 11 and the conducting locking spring 7, as shown in fig. 2, when the lead 1 is in cross-connection, the cross-connecting guiding area 12 can guide the free end of the lead, meet the guiding requirement of the lead in a cross-connection in a slot, reduce the difficulty of matching and improve the matching efficiency.
In an embodiment, the conducting locking body 6 includes a vertical plate wall located between the conducting substrate and the conducting base, and the vertical plate wall is provided with a sinking recess 13 communicated with the pressing hollow area.
Specifically, as shown in fig. 1 and 3, the sinking groove 13 meets the requirement of avoiding the pressing stroke, so that the pressing operation is more convenient, the requirement of a larger crack stroke is met, and the lead is more smoothly threaded.
In a specific embodiment, the pressing end of the conducting locking spring 7 is provided with a protruding pile. The protruding pile meets the requirement of pressing touch control, and plays a certain role in guiding and limiting.
In one embodiment, the conducting terminal 4 includes a conducting terminal bottom wall, the two sides of the conducting terminal bottom wall are respectively provided with a turnover wall 14, and the free end of the conducting terminal is provided with a conducting head 15 connected with the conducting terminal bottom wall and the turnover wall. The conduction base body is provided with reinforcing rib flanges 16 which are correspondingly communicated with the turnover wall bodies one by one.
Specifically, the terminal is conventionally in a long cylindrical structure, and when the terminal is integrally formed with the conductive locking spring 7 and the conductive substrate 8 in the present case, the manufacturing cost and the structural risk are increased.
Therefore, the optimized design is adopted in the scheme, and the structural strength of the conduction terminal 4 formed on the plate-shaped body and the overall structural strength between the conduction terminal and the conduction base body 3 are met through the structures of the turnover wall body 14 and the reinforcing rib turnover edge 16.
And this design of specifically turning over a wall body 14 and strengthening rib turn-ups 16 for it can with switch on the catch reed 7, switch on the base plate 8 and keep the uniformity, thereby satisfies the shaping demand of carrying out integral type binding post through panel, has reduced production manufacturing cost, satisfies the structural strength demand.
Through the above description, it can be found that the integrated wiring terminal provided by the utility model adopts the integrated design of the wire locking part and the conduction terminal, so that the production cost and the assembly difficulty are reduced, and meanwhile, the conduction stability requirement is ensured. Through the relative cooperation of the conducting locking reed and the conducting substrate, the pressing hollow area is ingeniously designed, the requirement of forming a locking crack by pressing is met, tools are not needed, and the locking lead is convenient, fast and smooth to operate. The turnover reinforcing structure can meet the structural strength of the wiring terminal, is suitable for being integrally formed through plates, greatly reduces the production cost and has higher economic value.
The technical solutions of the present invention are fully described above, it should be noted that the specific embodiments of the present invention are not limited by the above description, and all technical solutions formed by equivalent or equivalent changes in structure, method, or function according to the spirit of the present invention by those skilled in the art are within the scope of the present invention.