CN202564575U - Riveting terminal power-supply connector - Google Patents
Riveting terminal power-supply connector Download PDFInfo
- Publication number
- CN202564575U CN202564575U CN2011205026813U CN201120502681U CN202564575U CN 202564575 U CN202564575 U CN 202564575U CN 2011205026813 U CN2011205026813 U CN 2011205026813U CN 201120502681 U CN201120502681 U CN 201120502681U CN 202564575 U CN202564575 U CN 202564575U
- Authority
- CN
- China
- Prior art keywords
- terminal
- conducting
- power connector
- metals
- conductive
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)
Abstract
The utility model relates to a hardware terminal of a power-supply connector, and a riveting terminal power-supply connector made by using the hardware terminal. A conductive terminal portion and a conductive contact pin portion of the hardware terminal of the riveting terminal power-supply connector are fabricated integrally, the conductive terminal portion is provided with a riveting terminal which is composed of a wire-bunching ring and a conductive ring, and the riveting terminal is capable of being connected with connecting wires in riveting mode.
Description
Technical field
The utility model relates to a kind of riveted joint terminal power connector, and the conducting terminal portion and the conductive pin portion that refer to its five metals terminal especially are for being made into integration; Conducting terminal portion has a riveted joint terminal can connect electric wire.
Background technology
Known power connector sees also Fig. 9, Figure 10, Figure 11.
This connector includes an insulator (71), the conductive pin (72) that (contains two) more than two, the conducting terminal (73) that (contains two) more than two, and several connecting line (74).
At first make conductive pin (72) be fixed in insulator (71) through imbedding injection moulding; Then the riveted end (722) with conductive pin (72) is assemblied in the mating holes (731) of conducting terminal (73); Punch riveting; Both are connected and be fixed in insulator (71) and go up formation one power connector such as Figure 10, then connecting line (74) is connected and is welded in the bonding wire hole (732) of conducting terminal (73), like Figure 11.
From the above; The conductive pin of the power connector of the method made (72) adopts punch riveting to link together with conducting terminal (73); Shortcoming is a conductive pin (72) with conducting terminal (73) is that two parts separating adopt riveting jobs and are connected; Have defective to staking to cause conductive pin (72) or conducting terminal (73) to come off in the time of in the actual production or the situation of loose contact, careless slightly promptly have a serious functional bad secret worry; Connecting line (74) adopts with conducting terminal (73) and is welded to connect in addition, and manufacturing procedure is loaded down with trivial details, and production efficiency is lower.
Summary of the invention
For overcoming the shortcoming of above-mentioned power connector; The purpose of the utility model just provides a kind of power connector; The conductive pin portion and the conducting terminal portion of its five metals terminal are formed as one, and conducting terminal portion has the riveted joint terminal of a branch of wire loop and conducting ring formation to rivet fast with connecting line simultaneously.
For achieving the above object, the power connector that the utility model provided is characterized in that it comprises:
At least one five metals terminal, each tool one conductive pin portion of these five metals terminals, a conducting terminal portion, and conductive pin portion and conducting terminal portion are formed in one; Conductive pin portion can be solid also can be hollow, its cross section is circular or square; Conducting terminal portion is made up of a branch of wire loop and conducting ring a riveted joint terminal; And
One insulator, each five metals terminal is fixed in insulator;
At least one connecting line, each connecting line have a conductive core material and conductive core material is insulated the lining material coating, and at least one end parts conductive core material of connecting line exposes in order to being connected with the five metals terminal;
The bunch ring of the riveted joint terminal of the conducting terminal portion of each five metals terminal and conducting ring riveting respectively hold onto the insulation-coated material and exposed conductive core material of the end that the exposed part conductive core material is arranged of connecting line.
Conductive pin portion and conducting terminal portion by the power connector of said structure the utility model are formed in one, thereby have avoided because both rivet the problem of the defective to staking of generation; And the bunch ring of the riveted joint terminal of conducting terminal portion and conducting ring can be riveted connecting line fast, have increased substantially production efficiency.
Description of drawings
Further feature of the utility model and advantage, in following cooperation referenced in schematic case study on implementation, explain:
Fig. 1 is the stereogram of the five metals terminal of one of the utility model power connector case study on implementation.
Fig. 2 is the goods stereogram of one of the utility model power connector case study on implementation.
Fig. 3 is the sketch map that the goods of one of the utility model power connector case study on implementation further are connected with connecting line.
Fig. 4, Fig. 5 are that the goods of one of the utility model power connector case study on implementation further are connected the stereogram that article are accomplished in the back with connecting line.
Fig. 6 is two a making schematic flow sheet of the utility model power connector case study on implementation.
Fig. 7, Fig. 8 are three the five metals terminal goods stereograms that contain of one of the utility model power connector case study on implementation.
Fig. 9 is the decomposing schematic representation of known power connector.
Figure 10 is the stereogram of known power connector.
Figure 11 is the stereogram after known power connector connects connecting line.
Description of reference numerals: 10-insulator; 20-five metals terminal; 201-conductive pin portion; 202-conducting terminal portion; The 203-connecting portion; 204-bunch ring; The 205-conducting ring; 206-rivets terminal; The 30-connecting line; The 301-conductive core material; The insulation-coated material of 302-; The 40-cover plate that insulate; The 71-insulator; The 72-conductive pin; 721-contact pin portion; 722-riveted end; The 73-conducting terminal; The 731-mating holes; 732-bonding wire hole; The 74-connecting line; The 741-conductive core material; The insulation-coated material of 742-.
Embodiment
Practical implementation case one:
Shown in the power connector that the utility model as shown in Figure 5 provides, comprise an insulator (10), a plurality of five metals terminals (20), many connecting lines (30).
Make five metals terminal (20) like Fig. 1; Make it to possess a conductive pin portion (201); One conducting terminal portion (202); There are a junction (203) in conductive pin portion (201) and conducting terminal portion (202), and conducting terminal portion (202) has the riveted joint terminal (206) of a branch of wire loop (204), a conducting ring (205) composition;
The above five metals terminal of producing (20) is imbedded mould; In die cavity, fill the insulant injection mo(u)lding and form insulator (10); Make five metals terminal (20) be fixed in insulator (10), and the riveted joint terminal (206) all comprise bunch ring (204) and conducting ring (205) expose to insulator (10) thus form a power connector such as Fig. 2.
Prepare many connecting lines (30); Make the insulation-coated material of conductive core material (301) external application (302) of each connecting line (30), and make the partially conductive core (301) of its at least one end expose to insulation-coated material (302) in order to being connected with five metals terminal (20);
As shown in Figure 3; With the bunch ring (204) of the five metals terminal (20) of the power connector of above-mentioned making and insulation-coated material (302) and the conductive core material (301) of exposed conductive core material (301) end that conducting ring (205) is riveted connecting line (30) respectively, be with wire rod power connector such as Fig. 4 and Fig. 5 thereby further form one.
Practical implementation case two:
The making schematic flow sheet of another case study on implementation of power connector that provides like Fig. 6 the utility model, this power connector comprises an insulator (10), a plurality of five metals terminals (20), many connecting lines (30), an insulation cover plate (40).
At first make five metals terminal (20), make it to possess a conductive pin portion (201), a conducting terminal portion (202), conductive pin portion (201) and conducting terminal portion (202) they are one, there is a junction (203) centre; Conducting terminal portion (202) has the riveted joint terminal (206) of a branch of wire loop (204), a conducting ring (205) composition;
Prepare many connecting lines (30); Make the insulation-coated material of conductive core material (301) external application (302) of each connecting line (30), and make the partially conductive core (301) of its at least one end expose to insulation-coated material (302) in order to being connected with five metals terminal (20);
With the insulation-coated material (302) and the conductive core material (301) that expose conductive core material (301) end that the bunch ring (204) and the conducting ring (205) of five metals terminal (20) are riveted connecting line (30) respectively, form a band wire rod five metals terminal.
The above band wire rod five metals terminal of producing is assembled to insulator (10) and fixing, adds a cover an insulation cover plate (40) then in insulator (10) back and make insulation cover plate (40) be fixed in insulator (10) with the fusion of ultrasonic wave fusion machine; And riveted joint terminal (206) is all, comprises bunch ring (204) and conducting ring (205) and connecting line (30) thereby expose forming a power connector.
From the above; State the five metals terminal of the power connector of case study on implementation on the utility model; One of main feature is that five metals terminal conductive pin portion and conducting terminal portion are that one is processed into, thereby has overcome existing arts demand riveted conducting terminal and conductive pin, is prone to the safety problem of the secret worry of generation defective to staking; Effectively improve the reliability and the production efficiency of product, reduced manufacturing cost; Two of principal character is that the riveted joint terminal that the conducting terminal portion of five metals terminal is made up of a branch of wire loop and conducting ring can be connected connecting line fast, thereby can significantly promote production efficiency.
Yet; Be merely the preferable embodiment of the utility model shown in the above person and the accompanying drawing; When the scope that can not limit the enforcement of the utility model with this; The simple equivalent of promptly being done according to the utility model claim and utility model description generally changes and modifies, and all should still belong in the scope that the utility model patent contains.
Claims (1)
1. a riveted joint terminal power connector is characterized in that conductive pin portion and the conducting terminal portion of its five metals terminal are formed in one, conductive pin portion can be solid also can be hollow, its cross section is a circle or square; The riveted joint terminal that conducting terminal portion has an a branch of wire loop and a conducting ring to constitute.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011205026813U CN202564575U (en) | 2011-12-06 | 2011-12-06 | Riveting terminal power-supply connector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011205026813U CN202564575U (en) | 2011-12-06 | 2011-12-06 | Riveting terminal power-supply connector |
Publications (1)
Publication Number | Publication Date |
---|---|
CN202564575U true CN202564575U (en) | 2012-11-28 |
Family
ID=47214195
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2011205026813U Expired - Lifetime CN202564575U (en) | 2011-12-06 | 2011-12-06 | Riveting terminal power-supply connector |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN202564575U (en) |
-
2011
- 2011-12-06 CN CN2011205026813U patent/CN202564575U/en not_active Expired - Lifetime
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102904079B (en) | There is cable-assembly and the manufacture method thereof of crimping connector | |
JP5603521B1 (en) | Method for manufacturing connection structure, connection structure, wire harness, crimping member, and crimping apparatus | |
CN104112913A (en) | Wire Connection Method And Wire Connection Device | |
CN104124559B (en) | Cable connector having internal mold positioning welding function and manufacturing method thereof | |
JP2011150822A (en) | Crimp terminal, flat cable with crimp terminal, and crimping device used for manufacturing flat cable with crimp terminal | |
CN202395171U (en) | Barrel terminal power supply connector | |
CN102394410A (en) | Manufacturing method and product of power connector with wires | |
CN202564575U (en) | Riveting terminal power-supply connector | |
CN204304106U (en) | A kind of compression joint type assembly and connection device | |
CN106207550A (en) | High speed connector electrically connects substrate and continuous punching material strip and liner production method | |
CN102723622A (en) | Riveting terminal power supply connector | |
CN202487908U (en) | Power supply connector with switch | |
JP2013030337A (en) | Wire with terminal and manufacturing method therefor | |
CN102723623A (en) | Barreled terminal power supply connector | |
CN102891382A (en) | Power connector | |
CN102891383A (en) | Novel power connector | |
CN201781107U (en) | Novel transmission line terminal connector | |
CN202474280U (en) | Power supply connector | |
CN101888024B (en) | Cable connector assembly, manufacturing method thereof, conduction terminal and strip thereof | |
CN102916264A (en) | Wire harness of power connector and connecting wire | |
CN202134781U (en) | Hook type commutator | |
CN203180128U (en) | Automotive terminal crimping twisted wire harness | |
CN202772308U (en) | Novel connector having combined structure | |
CN202268509U (en) | Power supply connector with wires | |
CN203386796U (en) | LED luminous strip packaging structure |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term |
Granted publication date: 20121128 |
|
CX01 | Expiry of patent term |