WO2023134042A1

WO2023134042A1 - Self-locking buckle structure smd electrical connector

Info

Publication number: WO2023134042A1
Application number: PCT/CN2022/086632
Authority: WO
Inventors: Feng Zhu; Xiaolong ZHENG
Original assignee: Hongru Connector Co., Ltd.
Priority date: 2022-01-12
Filing date: 2022-04-13
Publication date: 2023-07-20
Also published as: CN215870053U

Abstract

A super tough self- locking buckle structure SMD electrical connector including a wire end base (1) and plate end base (2), wire end terminal (3) and plate end terminal (4). A buckle plate (21) is extended on the side wall of connection of the plate end base (2) and the wire end base (1), and a buckle (22) is set on the inner surface of the buckle plate (21) near its end position. The outer side and the inner side of the buckle (22) form an inclined plane structure that the wire end base (1) can slide over when inserting and pulling out; after inserting the wire end base (1) into the plate end base (2), block the tail end of the wire end base (1) through the inner side of the buckle (22). The end of the plate end base (2) is set with a certain elastic buckle structure, and the inner side of the buckle plate (21) is set with a buckle (22). The buckle (22) is provided with a slope structure on both the outer and inner sides, so that while inserting, the wire end base (1) can slide through the outer slope and get in the plate end base (2), and while pulling out, it can slide through the inner slope and get out from the wire end base (1). Through the above, it can realize repeated inserting and pulling out.

Description

Self-locking Buckle Structure SMD Electrical Connector

Technical Field

The utility model relates to the technical field of electrical connection device, in particular to a connector used for electrical connection of electronic equipment

Background Technology

Many electronic devices are connected with equipment through the plastic housing with conductive contact pins to electrify or transmit signals. As in the electronic industry, especially for the precise electronic equipment, the volume of connector products are more and more required to be smaller to save assembly space, such as the product category of SMT structure. However, due to the requirements for subsequent plate welding temperature, the plastic body of the connector need to be more resistant to high temperature. Though high temperature resistant plastic has a higher hardness, it is too brittle to break. This leads to the connector with the original structure combination basically staying in a state of being unable to be pulled out after inserting. If forcibly removed, the connector will be damaged and scrapped.

Contents of the Utility Model

The utility model is to provide a self-locking buckle structure SMD electrical connector with simple structure, reasonable design, good toughness and can be inserted and pulled out repeatedly without damaging the internal structure according to the defects of the prior art.

To solve the above technical problem, the utility model adopts the following technical project: a self-locking buckle structure SMD electrical connector includes a wire end base and plate end base, wire end terminal and plate end terminal. A buckle plate is extended on the side wall of connection of the plate end base and the wire end base, and a buckle is set on the inner surface of the buckle plate near its end position. The outer side and the inner side of the buckle adopt an inclined plane structure that the wire end base can slide over when inserting and pulling out; after inserting the wire end base into the plate end base, block the end of the wire end base through the inner side of the buckle. The end of the plate end base is set with a certain elastic buckle structure, and the inner side of the buckle plate is set with a buckle. The buckle is provided with a slope structure on both the inner and outer sides, so that while inserting the wire end base can slide through the outer slope and get in the plate end base, and while pulling out, it can slide through the inner slope and get out from the wire end base. Through the above, the utility model realizes repeated inserting and pulling out.

Furthermore, the buckle plate extends from the end of the plate end base to form a relatively independent structure with the main body of the plate end base, but the connecting position between both sides of the buckle plate and the plate end base is a concave arc-shaped strengthening structure, in order to tighten the buckle plate. In this way, the buckle plate can always maintain enough toughness in the process of repeatedly inserting and removing the wire end base, so as to ensure the stability of the wire end base and the plate end base.

Furthermore, the inner side of the buckle also has a pat, the height of which is less than that of the buckle; the end side of the wire end base is close to the pat after the wire end base is inserted into the plate end base, and the end side is blocked by the buckle. In this way, the wire end base can be pulled out smoothly while reducing the moving space of the wire end base in the plate end base so as to reduce the shaking amplitude of the wire end base.

Furthermore, the said pat, buckle, buckle plate and the main body of the plate end base form an integrated structure, which adopts integrated injection molding

Furthermore, the wire end base has a fool-proofing position, and the inside of the plate end base is set with a fool-proofing slot matching with the fool-proofing position, and the fool-proofing position is stuck into the fool-proofing slot after the wire end base is inserted into the plate end base. If it is installed backwards, it can not be installed, which can prevent product quality problems in the assembly.

Furthermore, a limit convex is arranged on both sides of the hole of plate end terminal at the end of the plate end base. The side of the plate end terminal toward the plate end base is provided with a slot matching the limit convex. After the plate end terminal is inserted into the plate end base, the two limit convex parts are respectively clamped into the two slots to form a lateral limit structure to the plate end terminal, which prevents the plate end terminal from moving sideways and swaying.

Furthermore, the said wire end terminal includes the piercing end for connecting with wire end and butt end for inserting with plate end terminal. Each butt end includes two corresponding elastic arms, and the ends of the two arms are curved outward to form a butt end; the piercing end and the elastic arm are linked by a connecting wall to form an integrated structure. Of course, the structure of the wire end terminal belongs to prior art.

The end of the plate end base is set with a elastic buckle plate, and the inner side of the buckle plate is provided with a buckle. The buckle is set into a inclined plane structure, so that while inserting the wire end base can slide through the outer slope and insert into the plate end base and while pulling out it can slide through the inner slope and pull out from the wire end base. Through said, the utility model realizes repeated inserting and pulling out, and also meet the SMT production requirements.

Description of Figures

FIG. 1 is a drawing for the three-dimensional structure of the combined state of the utility model;

FIG. 2 is a construction profile of the combined state of the utility model;

FIG. 3 is a cross-section drawn of the combined state of the utility model;

FIG. 4 is the structure diagram of the separate state ofplate end and wire end;

FIG. 5 is a drawing for breakdown structure of the utility model;

FIG. 6 is a drawing for breakdown structure of the utility model from other angle.

In these figures, 1: Wire end base, 11: Fool-proofing position, 2: Plate end base, 21: Buckle plate, 22: Buckle, 23: Pat, 24: Strengthening structure, 25: Limit convex, 3: Wire end terminal, 31: Piercing end, 32: Elastic arm, 33: Connecting wall, 34: Butt end, 4: Plate end terminal, 41: Slot.

Mode of Carrying out the Invention

In this implement, as shown in FIG. 1-6, the said self-locking buckle structure SMD electrical connector includes wire end base 1, plate end base 2, wire end terminal 3 and plate end terminal 4. The wire end terminal 3 is located in wire end base 1 and plate end terminal 4 is located in plate end base 2. The wire end terminal 3 and the plate end terminal 4 are electrically connected by interlinking the wire end base 1 and the plate end base 2. A buckle plate 21 is extended on the side wall of connection of the plate end base 2 and the wire end base 1, and a buckle 22 is set on the inner surface of the buckle plate near its end position. The outer side and the inner side of the buckle 22 are inclined plane structures that the wire end base 1 can slide over while inserting and pulling out; after the wire end base 1 is inserted into the plate end base 2, the end of the wire end base 1 is blocked by the inner side of the buckle 22, so that the wire end base 1 will not drop up easily, and will be pulled out through the inner side of the buckle 22 as you apply pressure. This double-sided slope oriented buckle structure makes the wire end base 1 automatically stuck after being inserted in place, so as to realize repeated inserting and unplugging.

The said buckle plate 21 extends from the end of the plate end base 2 to form a relatively independent structure with the main body of the plate end base 2, but the connecting position between both sides of the buckle plate 21 and the plate end base 2 is set as a concave arc-shaped strengthening structure 24, in order to tighten the buckle plate 21. In this way, the buckle plate 21 can always maintain enough toughness in the process of repeatedly inserting and unplugging the wire end base 1, so as to ensure the stability of the wire end base 1 and the plate end base 2.

The inner side of the buckle 22 also has a pat 23, the height of which is less than that of the buckle 22; the end side of the wire end base 1 is close to the pat 23 after the wire end base 1 is inserted into the plate end base 2, and the end side is blocked d by the buckle 22. In this way, the wire end base 1 can be pulled out smoothly while reducing the moving space of the wire end base 1 in the plate end base 2 so as to reduce the shaking amplitude of the wire end base 1, and increase the stability.

The said pad 23, buckle 22, buckle plate 21 and the main body of plate end base 2 form an integrated structure, which adopts integrated injection molding.

The wire end base 1 is set with a fool-proofing position 11, and the internal of the plate end base 2 is set with a fool-proofing slot matching with the fool-proofing position (which belongs to the prior art) , and the fool-proofing position 11 is stuck into the fool-proofing slot after the wire end base 1 is inserted into the plate end base 2. If it is installed backwards, it can not be installed, which can prevent product quality problems in the assembly.

A limit convex 25 is arranged on both sides of the hole of plate end terminal at the end of the plate end base 2. The side of the plate end terminal 4 toward the plate end base 2 is provided with a slot 41 matching the limit convex 25. After the plate end terminal 4 is inserted into the plate end base 2, the two limit convex parts 41 are respectively clamped into the two slots 41 to form a lateral limit structure to the plate end terminal 4, which prevents the plate end terminal 4 from moving sideways and swaying

The said wire end terminal 3 includes the piercing end 31 for connecting with wire end (riveting the wire rod can pierce the wire skin and contact the conductor) and butt end 34 for inserting with plate end terminal 4. Each butt end 34 includes two corresponding elastic arms 32, and the ends of the two arms 34 are curved outward to form a butt end 34; the piercing end 31 and the elastic arm 32 are linked by a connecting wall 33 to form an integrated structure. Of course, the structure of the wire end terminal 3 belongs to prior art.

The above is a a detailed description for the utility model, and is only a better embodiment of the utility model, which cannot limit the scope of implementation of the utility model. So all equal changes and modifications made in accordance with the scope of application shall still fall within the scope of the utility model.

Claims

The utility model discloses a super tough self-locking buckle structure SMD electrical connector including a wire end base and plate end base, wire end terminal and plate end terminal. The wire end terminal is located in the wire end base and the plate end terminal is located in the plate end base. The wire end terminal and the plate end terminal are electrically connected by interlinking the wire end base and the plate end base. Its features are: a buckle plate is extended on the side wall of connection of the plate end base and the wire end base, and a buckle is set on the inner surface of the buckle plate near its end position. The outer side and the inner side of the buckle are inclined plane structures that the wire end base can slide over when inserting and pulling out; after inserting the wire end base into the plate end base, block the end of the wire end base through the inner side of the buckle.
According to the self-locking buckle structure SMD electrical connector in Claim 1, its features are: the said buckle plate extends from the end of the plate end base to form a relatively independent structure with the main body of the plate end base, but the connecting position between both sides of the buckle plate and the plate end base is a concave arc-shaped strengthening structure, in order to tighten the buckle plate
According to the self-locking buckle structure SMD electrical connector in Claim 2, its features are: the inner side of the buckle also has a pad, the height of the which is less than that of the buckle; the end of the wire end base is close to the pad after inserting in the plate end base, and the end is blocked by the buckle
According to the self-locking buckle structure SMD electrical connector in Claim 3, its features are: the said pad, buckle, buckle plate and the main body of plate end base adopt an integrated structure, which is made by an integrated injection molding.
According to the self-locking buckle structure SMD electrical connector in Claim 1, its features are: the wire end base is set with a fool-proofing position, and the inside of the plate end base has a fool-proofing slot matching with the fool-proofing position, and the fool-proofing position is stuck into the fool-proofing slot after the wire end base is inserted into the plate end base.
According to the self-locking buckle structure SMD electrical connector in Claim 1, its features are: a limit convex is arranged on both sides of the hole of plate end terminal at the end of the plate end base. The side of the plate end terminal toward the plate end base is provided with a slot matching the limit convex. After the plate end terminal is inserted into the plate end base, the two limit convex parts are respectively clamped into the two slots to form a lateral limit structure to the plate end terminal.
According to the self-locking buckle structure SMD electrical connector in Claim 1, its features are: the said wire end terminal includes the piercing end for connecting with wire end and butt end for inserting with plate end terminal. Each butt end includes two corresponding elastic arms, and the ends of the two arms are curved outward to form a butt end; the piercing end and the elastic arm are linked by a connecting wall to form an integrated structure.