CN116544725A - Power connector - Google Patents

Abstract

The invention relates to a power connector, which comprises a plug assembly and a socket assembly, wherein the plug assembly comprises a plug body and a first terminal, and the plug body is provided with a first jack for the first terminal to be inserted; the socket assembly comprises a socket body and a second terminal, the socket body is provided with an opening, a containing cavity and a second jack, the opening is communicated with the containing cavity, the second jack is communicated with the containing cavity, the opening and the second jack are respectively positioned at two ends of the containing cavity which are oppositely arranged, the second terminal is inserted into the containing cavity from the second jack, and the plug body is inserted into the containing cavity from the opening so as to electrically connect the first terminal and the second terminal; the socket body is convexly provided with a positioning part, and the positioning part is convexly arranged in the accommodating cavity of the opening and the second jack, so that the positioning part can be used for positioning the plug body in a butting manner. According to the power connector, the positioning part of the socket body is convexly arranged in the opening and the accommodating cavity of the second jack, so that the positioning part is used for abutting and positioning the plug body on the socket body, and vibration or shake of the plug body when the plug body is plugged into the socket body is prevented.

Description

Power connector

Technical Field

The invention relates to the technical field of new energy automobiles, in particular to a power connector.

Background

In the prior art, a power connector is a common electrical connector, and is mainly used for current transmission, and the existing power connector generally includes a plurality of or a single power terminal and an insulating base for carrying the power terminal and insulating around the power terminal. Each power terminal is provided with a butt end for connecting a butt connector and a connecting end welded on a circuit board or connected with a cable. The butt-joint ends and the connecting ends are generally arranged in a one-to-one correspondence.

At present, in the interconnection of electronic circuits and the popularization of new energy automobiles and electric appliances, the performance of the whole transmission circuit is directly affected by the quality of an electric connector. In the traditional method, under the condition of vibration or shaking, the electric connector is not smoothly inserted in a clamping mode between the male end and the female end of the connector, the insertion force is overlarge, and the connector is easy to break, so that the connection stability of the electric connector is reduced, the electric conduction stability is reduced, and even the electric connector falls off and short circuits are caused.

Disclosure of Invention

The invention aims to provide a power connector, which aims to solve the problems that the male end and the female end of the connector are not smoothly inserted or are easily disconnected in a clamping way under the condition of vibration or shaking of the electric connector.

In order to solve the technical problem, a power connector is provided, which comprises a plug assembly and a socket assembly, wherein the plug assembly comprises a plug body and a first terminal, and the plug body is provided with a first jack for the first terminal to be inserted into; the socket assembly comprises a socket body and a second terminal, the socket body forms an opening, a containing cavity and a second jack, the opening is communicated with the containing cavity, the second jack is communicated with the containing cavity, the opening and the second jack are respectively positioned at two ends of the containing cavity which are oppositely arranged, the second terminal is inserted into the containing cavity from the second jack, and the plug body is inserted into the containing cavity from the opening so as to electrically connect the first terminal and the second terminal; the socket body is convexly provided with a positioning part, and the positioning part is vertically convexly arranged in the accommodating cavity of the opening and the second jack, so that the positioning part is used for abutting and positioning the plug body on the socket body.

Further, the plug body comprises a first side face and a second side face opposite to the first side face, the positioning portion comprises a first positioning strip and a second positioning strip which are symmetrically arranged, the accommodating cavity comprises a third side face opposite to the first side face and a fourth side face opposite to the second side face, the first positioning strip is arranged on the third side face in a protruding mode, and the second positioning strip is arranged on the fourth side face in a protruding mode so as to be in butt joint with the first side face through the first positioning strip and in butt joint with the second side face through the second positioning strip.

Further, the positioning part further comprises third positioning strips and fourth positioning strips which are symmetrically arranged, the third positioning strips are arranged at intervals, the first positioning strips are arranged on the third side face in a protruding mode to be abutted against the first side face, and the fourth positioning strips are arranged at intervals, the second positioning strips are arranged on the fourth side face in a protruding mode to be abutted against the second side face.

Further, the positioning portion is formed with a chamfer, and the positioning portion near one end of the chamfer is abutted against the plug body.

Further, the plug body comprises a limiting part, the socket body is provided with a limiting groove, the limiting groove is communicated with the accommodating cavity, and the plug body is clamped in the limiting groove of the socket body through the limiting part.

Further, the limiting part forms a sliding groove, the limiting part comprises a clamping body, the clamping body is positioned at two sides of the sliding groove and used for clamping the limiting groove, the socket body is convexly provided with a sliding body at the limiting groove towards the accommodating cavity, and the sliding body is connected with the sliding groove in a sliding way;

the plug body further comprises an extension part, the extension part is clamped to the opening, the socket body is provided with an avoidance opening, and the avoidance opening is perpendicular to the accommodating cavity and is located on one side of the opening.

Further, the plug body further comprises a side bar, the socket body is provided with a side groove, the side groove is communicated with the accommodating cavity, and the side bar is inserted into the side groove.

Further, the socket body further comprises a cantilever beam, the cantilever beam is connected to one side of the second jack, a clamping groove is formed in the cantilever beam, one end of the second terminal is inserted into the second jack, and the other end of the second terminal is bent and clamped in the clamping groove.

Further, the cantilever beam is integrally formed with the socket body, the cantilever beam is formed with a through hole and a reinforcing rib positioned in the through hole, and the through hole is communicated with the second jack.

Further, the plug assembly further comprises a stop piece, the plug body is provided with a limiting hole vertically penetrating through the first jack, and the stop piece is inserted into the limiting hole to fix the first terminal to the first jack.

The implementation of the embodiment of the invention has the following beneficial effects:

in the power connector in this embodiment, the positioning portion of the socket body is vertically protruding in the accommodating cavity of the opening and the second jack, so that the positioning portion is used for positioning the plug body in a manner of abutting against the socket body, thereby preventing the plug body from vibrating or shaking when being plugged into the socket body, and overcoming the problem that in the prior art, the connection mode between the male end and the female end of the power connector is not smooth in insertion or easy to break.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a power connector according to an embodiment of the invention;

FIG. 2 is an exploded view of a power connector according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a first view angle of a socket body according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a second view angle of the socket body according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a plug body according to a first view angle of an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a plug body according to a second view angle of the present invention.

Wherein: 100. a power supply connector; 110. a plug assembly; 111. a plug body; 1111. a first jack; 1112. a first side; 1113. a second side; 1114. a limit part; 11141. a chute; 11142. a card body; 1115. an extension; 1116. side bars; 1117. a limiting hole; 112. a first terminal; 113. a stopper; 120. a receptacle assembly; 121. a socket body; 1211. an opening; 1212. a receiving chamber; 12121. a third side; 12122. a fourth side; 1213. a second jack; 1214. a positioning part; 12141. a first positioning bar; 12142. a second positioning strip; 12143. a third positioning bar; 12144. a fourth locating bar; 1215. a limit groove; 1216. a slide body; 1217. an avoidance port; 1218. a side groove; 1219. a cantilever beam; 12191. a clamping groove; 12192. a through hole; 12193. reinforcing ribs; 122. and a second terminal.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-6, an embodiment of the present invention provides a power connector 100, including a plug assembly 110 and a socket assembly 120, wherein the plug assembly 110 includes a plug body 111 and a first terminal 112, and the plug body 111 is formed with a first jack 1111 into which the first terminal 112 is inserted; the socket assembly 120 includes a socket body 121 and a second terminal 122, the socket body 121 forming an opening 1211, a receiving cavity 1212 and a second insertion hole 1213, the opening 1211 being in communication with the receiving cavity 1212, the second insertion hole 1213 being in communication with the receiving cavity 1212, and the opening 1211 and the second insertion hole 1213 being respectively located at opposite ends of the receiving cavity 1212, the second terminal 122 being inserted into the receiving cavity 1212 from the second insertion hole 1213, the plug body 111 being inserted into the receiving cavity 1212 from the opening 1211 so as to electrically connect the first terminal 112 and the second terminal 122; the socket body 121 is convexly provided with a positioning portion 1214, and the positioning portion 1214 is vertically convexly arranged in the opening 1211 and the accommodating cavity 1212 of the second jack 1213, so that the positioning portion 1214 is used for abutting and positioning the plug body 111 on the socket body 121. In a specific application, since the socket body 121 is provided with the positioning portion 1214 in a protruding manner, and the positioning portion 1214 is vertically protruding in the accommodating cavity 1212 of the opening 1211 and the second jack 1213, when the plug body 111 is inserted into the accommodating cavity 1212 from the opening 1211, the positioning portion 1214 abuts against the plug body 111, so that the plug body 111 will not shake up and down relative to the accommodating cavity 1212, and the first terminal 112 and the second terminal 122 are stably electrically connected, so that disconnection caused by a non-smooth clamping manner between the male end and the female end of the connector is avoided, and further stability of the electrical connector is improved.

In one possible embodiment, the plug body 111 includes a first side 1112 and a second side 1113 opposite to the first side 1112, the positioning portion 1214 includes a first positioning bar 12141 and a second positioning bar 12142 symmetrically disposed, the receiving cavity 1212 includes a third side 12121 opposite to the first side 1112 and a fourth side 12122 opposite to the second side 1113, the first positioning bar 12141 protrudes from the third side 12121, and the second positioning bar 12142 protrudes from the fourth side 12122 to abut the first side 1112 through the first positioning bar 12141 and the second side 1113 through the second positioning bar 12142. In a specific application, since the positioning portion 1214 includes the first positioning strip 12141 and the second positioning strip 12142 that are symmetrically disposed, and the first positioning strip 12141 is convexly disposed on the third side 12121, the second positioning strip 12142 is convexly disposed on the fourth side 12122, and the first side 1112 is disposed opposite to the third side 12121 and the second side 1113 is disposed opposite to the fourth side 12122 during the plug body 111 is inserted into the accommodating cavity 1212, so that the first positioning strip 12141 and the second positioning strip 12142 are symmetrically abutted on the first side 1112 and the second side 1113, and the positioning portion 1214 is abutted on the plug body 111 in the accommodating cavity 1212, so as to further improve the smoothness of inserting the plug body 111 and the socket body 121 of the power connector 100.

In one possible embodiment, the positioning portion 1214 further includes third positioning strips 12143 and fourth positioning strips 12144 symmetrically disposed, the third positioning strips 12143 are disposed between the first positioning strips 12141 and the second positioning strips 12142, and the third positioning strips 12144 are disposed between the second positioning strips 12142 and the fourth positioning strips 12122 and the second side 1113. In a specific application, in order to make the stress of the positioning portion 1214 when the positioning portion 1214 abuts against the plug body 111 stable, the positioning portion 1214 further includes a third positioning bar 12143 and a fourth positioning bar 12144 which are symmetrically arranged, and the third positioning bar 12143 is arranged at intervals such that the first positioning bar 12141 is arranged on the third side 12121 in a protruding manner to abut against the first side 1112, and the fourth positioning bar 12144 is arranged at intervals such that the second positioning bar 12142 is arranged on the fourth side 12122 in a protruding manner to abut against the second side 1113, so that the third positioning bar 12143 and the fourth positioning bar 12144 are symmetrically abutted against the first side 1112 and the second side 1113 of the plug body 111, so that the plug body 111 is inserted into the accommodating cavity 1212 through the positioning portion 1214 smoothly, and meanwhile, the first positioning bar 12141, the second positioning bar 12142, the third positioning bar 12143 and the fourth positioning bar 12144 are mutually abutted against each other, so that the first terminal 112 is connected with the second terminal 122 in a butt joint manner, and the number of positioning portions 1214 is understood to be not to be equal to the number of the first positioning bar 1214 and the fourth positioning bar 1214, but are respectively arranged on the even side 1214.

In one possible embodiment, the positioning portion 1214 is formed with a chamfer, and the positioning portion 1214 near one end of the chamfer abuts against the plug body 111. In a specific application, in order to reduce the contact area between the positioning portion 1214 and the plug body 111 while ensuring the strength of the positioning portion 1214, the positioning portion 1214 is formed with chamfers, that is, the ends of the first positioning bar 12141, the second positioning bar 12142, the third positioning bar 12143 and the fourth positioning bar 12144 are formed with chamfers, so that the contact areas between the first positioning bar 12141, the second positioning bar 12142, the third positioning bar 12143 and the fourth positioning bar 12144 and the plug body 111 are reduced.

In one possible embodiment, the plug body 111 includes a limiting portion 1114, the socket body 121 is formed with a limiting groove 1215, the limiting groove 1215 is communicated with the accommodating cavity 1212, and the plug body 111 is clamped to the limiting groove 1215 of the socket body 121 through the limiting portion 1114. In a specific application, in order to improve the stability of the electrical connection between the first terminal 112 and the second terminal 122, the plug body 111 is provided with a limiting portion 1114, the socket body 121 is formed with a limiting groove 1215, the limiting groove 1215 is communicated with the accommodating cavity 1212, the plug body 111 is clamped in the limiting groove 1215 of the socket body 121 through the limiting portion 1114 to guide the plug body 111 in the accommodating cavity 1212 of the socket body 121, so that the contact and resilience force of the first terminal 112 and the second terminal 122 can be guided in the limiting groove 1215 through the limiting portion 1114, and finally the plug body 111 and the socket body 121 form a stable connection structure through the clamping of the limiting portion 1114 in the limiting groove 1215.

In one possible embodiment, the limiting portion 1114 forms a sliding groove 11141, the limiting portion 1114 includes a clamping body 11142, the clamping body 11142 is located at two sides of the sliding groove 11141 and is used for clamping a limiting groove 1215, the socket body 121 is convexly provided with a sliding body 1216 in the limiting groove 1215 towards the accommodating cavity 1212, and the sliding body 1216 is slidably connected to the sliding groove 11141;

the plug body 111 further includes an extension portion 1115, where the extension portion 1115 is clamped to the opening 1211, and the socket body 121 is formed with an escape opening 1217, where the escape opening 1217 is perpendicular to the accommodating cavity 1212 and located at one side of the opening 1211. In a specific application, the clamping body 11142 is located at two sides of the sliding groove 11141 and is used for clamping the limiting groove 1215, so that the plug body 111 is limited to shake on the left side and the right side of the socket body 121 by matching the clamping body 11142 with the limiting groove 1215, and the positioning portion 1214 is used for limiting shake of the plug body 111 on the upper side and the lower side of the socket body 121, so that shake of the plug body 111 relative to the socket body 121 is limited by the limiting portion 1114 and the positioning portion 1214, in addition, the plug body 111 is further provided with an extension portion 1115, the extension portion 1115 is clamped to the opening 1211, the socket body 121 is formed with an avoidance opening 1217, and the avoidance opening 1217 is perpendicular to the accommodating cavity 1212 and is located at one side of the opening 1211, so that when the plug body 111 needs to be pulled out from the opening 1211 of the socket body 121, the extension portion 1115 can be held on the avoidance opening 1217 to separate the plug body 111 from the socket body 121.

In one possible embodiment, the plug body 111 further includes a side bar 1116, and the receptacle body 121 is formed with a side slot 1218, the side slot 1218 being in communication with the receiving cavity 1212, the side bar 1116 being inserted into the side slot 1218. In particular applications, in order to enable the plug body 111 to be smoothly inserted into the socket body 121, the socket body 121 is formed with a side groove 1218, the plug body 111 slides in the side groove 1218 of the socket body 121 through the side bar 1116, and at the same time, the side bar 1116 and the side groove 1218 can further limit the shake of the plug body 111 on the left and right sides with respect to the socket body 121.

In one possible embodiment, the socket body 121 further includes a cantilever beam 1219, the cantilever beam 1219 is connected to one side of the second jack 1213, the cantilever beam 1219 is formed with a slot 12191, one end of the second terminal 122 is plugged into the second jack 1213, and the other end is bent and clamped into the slot 12191. In a specific application, a clamping groove 12191 is formed on the cantilever 1219, one end of the second terminal 122 is inserted into the accommodating cavity 1212 from the second jack 1213, and the other end is bent and clamped in the clamping groove 12191, so that poor welding caused by front-back oblique welding of the second terminal 122 is prevented, and stability of the power connector 100 and stability of electrical conduction are improved.

In one possible embodiment, the cantilever beam 1219 is integrally formed with the socket body 121, and the cantilever beam 1219 is formed with a through hole 12192 and a reinforcing rib 12193 located at the through hole 12192, and the through hole 12192 communicates with the second insertion hole 1213. In a specific application, the cantilever beam 1219 is integrally formed on the socket body 121, and the through hole 12192 and the reinforcing rib 12193 located on the through hole 12192 are formed on the cantilever beam 1219, so that when the socket body 121 and the cantilever beam 1219 are integrally formed, the flatness of the second terminal 122 and the bottom of the cantilever beam 1219 is ensured, and the blank welding and the welding instability caused by the out-of-flatness are avoided. The stability of connection and the stability of electrical conduction of the power connector 100 are improved by adding the reinforcing ribs 12193.

In one possible embodiment, the plug assembly 110 further includes a stopper 113, and the plug body 111 is formed with a limiting hole 1117 vertically penetrating the first receptacle 1111, and the stopper 113 is inserted into the limiting hole 1117 to fix the first terminal 112 to the first receptacle 1111. In a specific application, the stopper 113 is inserted into the limiting hole 1117 to fix the first terminal 112 in the first jack 1111, so that the first terminal 112 is prevented from backing up in the first jack 1111 when the first terminal 112 contacts the second terminal 122, thereby further improving the stability of the power connector 100 and the electrical conduction stability.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the claims. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A power connector, comprising:

a plug assembly including a plug body and a first terminal, the plug body being formed with a first jack into which the first terminal is inserted;

the socket assembly comprises a socket body and a second terminal, the socket body forms an opening, a containing cavity and a second jack, the opening is communicated with the containing cavity, the second jack is communicated with the containing cavity, the opening and the second jack are respectively positioned at two ends of the containing cavity which are oppositely arranged, the second terminal is inserted into the containing cavity from the second jack, and the plug body is inserted into the containing cavity from the opening so as to enable the first terminal and the second terminal to be electrically connected;

the socket body is convexly provided with a positioning part, and the positioning part is vertically convexly arranged in the accommodating cavity of the opening and the second jack, so that the positioning part is used for abutting and positioning the plug body on the socket body.

2. The power connector of claim 1, wherein the plug body includes a first side and a second side opposite the first side, the positioning portion includes a first positioning bar and a second positioning bar symmetrically disposed, the receiving cavity includes a third side opposite the first side and a fourth side opposite the second side, the first positioning bar is protruding from the third side, and the second positioning bar is protruding from the fourth side to abut the first side via the first positioning bar and the second side via the second positioning bar.

3. The power connector of claim 2, wherein the positioning portion further comprises third positioning strips and fourth positioning strips, the third positioning strips are arranged symmetrically, the third positioning strips are arranged at intervals between the first positioning strips in a protruding mode on the third side face to be abutted against the first side face, and the fourth positioning strips are arranged at intervals between the second positioning strips in a protruding mode on the fourth side face to be abutted against the second side face.

4. A power connector according to any one of claims 1 to 3, wherein the positioning portion is formed with a chamfer, and the positioning portion near one end of the chamfer abuts against the plug body.

5. The power connector of claim 1, wherein the plug body includes a limiting portion, the socket body is formed with a limiting groove, the limiting groove is communicated with the accommodating cavity, and the plug body is clamped in the limiting groove of the socket body through the limiting portion.

6. The power connector according to claim 5, wherein the limiting portion forms a sliding groove, the limiting portion comprises a clamping body, the clamping body is located at two sides of the sliding groove and used for clamping the limiting groove, the socket body is provided with a sliding body in the limiting groove towards the accommodating cavity in a protruding mode, and the sliding body is connected to the sliding groove in a sliding mode;

the plug body further comprises an extension part, the extension part is clamped to the opening, the socket body is provided with an avoidance opening, and the avoidance opening is perpendicular to the accommodating cavity and is located on one side of the opening.

7. The power connector of claim 1, wherein the plug body further comprises a side bar, the socket body is formed with a side groove, the side groove is communicated with the accommodating cavity, and the side bar is inserted into the side groove.

8. The power connector of claim 1, wherein the socket body further comprises a cantilever beam, the cantilever beam is connected to one side of the second jack, the cantilever beam is formed with a clamping groove, one end of the second terminal is inserted into the second jack, and the other end of the second terminal is bent and clamped in the clamping groove.

9. The power connector of claim 8, wherein the cantilever beam is integrally formed with the socket body, the cantilever beam being formed with a through hole and a stiffener located in the through hole, the through hole being in communication with the second receptacle.

10. The power connector of claim 1, wherein the plug assembly further comprises a stop, the plug body defining a stop aperture extending perpendicularly through the first receptacle, the stop being configured to engage the stop aperture to secure the first terminal to the first receptacle.