CN217281531U - Electric connector assembly and male end electric connector thereof - Google Patents

Abstract

The utility model provides an electric connector assembly and a male end electric connector thereof; the male end electric connector comprises a male end insulating colloid, and the male end insulating colloid is provided with a male end actuating structure, a male end limiting structure and a male end buckling structure; the male end actuating structure is connected with the male end fastening structure, and the male end fastening structure is actuated to be in a fastening state or a non-fastening state; the utility model discloses a public end electric connector has limit structure, can restrict the degree that the component atress warp too big to avoid the component to take place to destroy because of the deformation degree is too big, and then promote public end electric connector's life, and make public end electric connector can have as expected effect. In addition, the provided male end electric connector is provided with a buckling structure and can be buckled with the female end electric connector so as to provide a retention force for the plugging state of the male end electric connector and the female end electric connector and solve the problem of insufficient embedding force between the small-size male end electric connector and the female end electric connector.

Description

Electric connector assembly and male end electric connector thereof

Technical Field

The present invention relates to an electrical connector assembly and a male electrical connector thereof, and more particularly to an electrical connector assembly and a male electrical connector thereof, which can avoid the deformation of a member due to stress.

Background

Generally, the electrical connector assembly is composed of a male electrical connector and a female electrical connector, wherein the male electrical connector is inserted into the female electrical connector to achieve electrical connection for transmitting electrical signals. Because the plugging relationship between the male end electrical connector and the female end electrical connector is easily released by external impact, the electrical connection relationship between the male end electrical connector and the female end electrical connector is easily damaged, thereby affecting the normal operation of the electronic product and even causing the damage of the electronic product.

Therefore, the male electrical connector usually has a fastening structure and an actuating structure, the male electrical connector can fasten the female electrical connector through the fastening structure to maintain the plugging relationship between the male electrical connector and the female electrical connector, and the actuating structure can receive an external force to actuate the fastening structure to release the fastening relationship between the fastening structure and the female electrical connector. However, the actuating structure is often damaged due to excessive deformation when receiving external force, so that the male electrical connector cannot be plugged into the female electrical connector as expected.

Based on the above, how to prevent the actuating structure of the male electrical connector from being damaged due to excessive deformation, and further improve the service life of the male electrical connector is an issue of urgent concern to those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, an object of the present invention is to provide an electrical connector assembly and a male electrical connector thereof for solving the problem that the actuating structure of the conventional male electrical connector is often damaged due to too large deformation when receiving external force, so that the male electrical connector cannot be plugged into the female electrical connector as expected.

To achieve the above and other related objects, the present invention provides a male connector for plugging or unplugging a female connector, comprising: a male end insulating colloid, which is provided with a male end actuating structure, a male end limiting structure and a male end buckling structure; the male end actuating structure is connected with the male end fastening structure, and the male end fastening structure is actuated to be in a fastening state or an unfastening state; when the male end electric connector is inserted into the female end electric connector, the male end fastening structure is in the fastening state, and at the moment, the male end fastening structure is fastened with the female end electric connector to stop the male end electric connector from moving relative to the female end electric connector; and when the male end electric connector is disconnected from the female end electric connector, the male end actuating structure can receive an external force which can force the male end actuating structure to deform, so that the male end buckling structure acts to be in the non-buckling state, and the male end electric connector can move relative to the female end electric connector, wherein the male end limiting structure limits the deformation of the male end actuating structure, and the deformation degree of the male end actuating structure conforms to expectation.

Optionally, in the male electrical connector, the male limiting structure has a left limiting wall and a right limiting wall, the left limiting wall limits deformation of the left side of the male actuating structure to make the deformation degree of the left side of the male actuating structure meet the requirement, and the right limiting wall limits deformation of the right side of the male actuating structure to make the deformation degree of the right side of the male actuating structure meet the requirement.

Optionally, in the male electrical connector, the male actuating structure has a left abutting wall and a right abutting wall, the left abutting wall abuts against the left limiting wall when the left limiting wall limits the deformation of the left side of the male actuating structure, and the right abutting wall abuts against the right limiting wall when the right limiting wall limits the deformation of the right side of the male actuating structure.

Optionally, in the male electrical connector, the male actuating structure has a stressed section and an extended section, the stressed section can receive the external force, and at least one of the left abutting wall and the right abutting wall is disposed on the extended section.

Optionally, in the male electrical connector, the male limiting structure is a frame-shaped structure or a hook-shaped structure, and the extension section extends into the frame-shaped structure or the hook-shaped structure.

Optionally, in the male electrical connector, the male limiting structure further has an upper limiting wall and a lower limiting wall, the upper limiting wall limits deformation of the upper portion of the male actuating structure, so that the degree of deformation of the upper portion of the male actuating structure is as expected, and the lower limiting wall limits deformation of the lower portion of the male actuating structure, so that the degree of deformation of the lower portion of the male actuating structure is as expected.

Optionally, in the male electrical connector, the male actuating structure further includes an upper abutting wall and a lower abutting wall, the upper abutting wall abuts against the upper limiting wall when the upper limiting wall limits the upper deformation of the male actuating structure, and the lower abutting wall abuts against the lower limiting wall when the lower limiting wall limits the lower deformation of the male actuating structure.

Optionally, in the male electrical connector, the male actuating structure has a stressed section and an extended section, the stressed section can receive the external force, and at least one of the left abutting wall, the right abutting wall, the upper abutting wall and the lower abutting wall is disposed on the extended section.

Optionally, in the male electrical connector, the male limiting structure is a frame-shaped structure or a hook-shaped structure, and the extension section extends into the frame-shaped structure or the hook-shaped structure.

Additionally, the utility model also provides an electric connector assembly, this electric connector assembly includes: a female end electric connector, which comprises a female end conductive terminal and a female end insulating colloid, wherein the female end insulating colloid is embedded in the female end conductive terminal and is provided with a female end inserting groove; a male end electric connector, which comprises a male end conductive terminal and a male end insulating colloid, wherein the male end insulating colloid is embedded in the male end conductive terminal and is provided with a male end plug-in connector, a male end actuating structure, a male end limiting structure and a male end buckling structure; the male end plug is used for being inserted into the female end inserting groove or being pulled out of the female end inserting groove, the male end actuating structure is connected with the male end buckling structure, and the male end buckling structure is actuated to be in a buckling state or an un-buckling state; when the male end plug connector is inserted into the female end plug groove, the male end buckling structure is in the buckling state, and at the moment, the male end buckling structure buckles the female end insulating colloid to stop the male end plug connector from moving relative to the female end insulating colloid so that the male end conductive terminal is lapped with the female end conductive terminal, and the male end electric connector is connected with the female end electric connector in an inserting mode; and when the male end plug-in connector is pulled out of the female end plug-in groove, the male end actuating structure can receive an external force, and the external force can force the male end actuating structure to deform, so that the male end buckling structure acts and is in the non-buckling state, the male end plug-in connector can move relative to the female end insulating colloid, so that the male end conductive terminal is in lap joint with the female end conductive terminal, and the male end electric connector is disconnected from the female end electric connector, wherein the male end limiting structure limits the deformation of the male end actuating structure, and the deformation degree of the male end actuating structure is in accordance with expectation.

Compared with the prior art, the utility model discloses a public end electric connector has limit structure, can restrict the degree that the component atress warp too big to avoid the component to take place to destroy because of the deformation degree is too big, and then promote the life of public end electric connector, and make public end electric connector can have as expected effect. In addition, the public end electric connector that provides has the lock joint structure, can the female end electric connector of lock joint to the grafting state to public end electric connector and female end electric connector provides the holding power, and solves the problem that little small-size public end electric connector is not enough with the gomphosis strength between the female end electric connector, so, the utility model discloses can reach the purpose of reducing electric connector assembly body size, in order to be used for slim electronic product to use.

Drawings

Fig. 1 is an exploded perspective view of an electrical connector assembly according to an embodiment of the present invention.

Fig. 2 is an exploded perspective view of an electrical connector assembly according to another embodiment of the present invention.

Fig. 3 is an exploded top view of an electrical connector assembly according to an embodiment of the present invention.

Fig. 4 is an exploded side view of an electrical connector assembly according to an embodiment of the present invention.

Fig. 5 is an exploded cross-sectional view of an electrical connector assembly according to an embodiment of the present invention.

Fig. 6 is a perspective view of an electrical connector assembly according to an embodiment of the present invention.

Fig. 7 is a perspective view of an electrical connector assembly according to another embodiment of the present invention.

Fig. 8 is a top view of an electrical connector assembly according to an embodiment of the present invention.

Fig. 9 is a side view of an electrical connector assembly according to an embodiment of the present invention.

Fig. 10 is a side view of an electrical connector assembly according to another embodiment of the present invention.

Fig. 11 is an exploded cross-sectional view of an electrical connector assembly according to another embodiment of the present invention.

Fig. 12 is an exploded cross-sectional view of an electrical connector assembly according to yet another embodiment of the present invention.

Fig. 13 is an exploded perspective view of an electrical connector assembly according to another embodiment of the present invention.

Fig. 14 is an exploded perspective view of an electrical connector assembly according to yet another embodiment of the present invention.

Fig. 15 is an exploded perspective view of an electrical connector assembly according to yet another embodiment of the present invention.

Fig. 16 is an exploded perspective view of an electrical connector assembly according to yet another embodiment of the present invention.

Fig. 17 is an exploded cross-sectional view of an electrical connector assembly according to yet another embodiment of the present invention.

Fig. 18 is a perspective view of an electrical connector assembly according to another embodiment of the present invention.

Fig. 19 is a perspective view of an electrical connector assembly according to yet another embodiment of the present invention.

Fig. 20 is an exploded cross-sectional view of an electrical connector assembly according to yet another embodiment of the present invention.

Description of the symbols

1 electric connector assembly

11 female terminal electric connector

111 female terminal conductive terminal

112 bus terminal insulating colloid

1121 female end plugging groove

12 male terminal electric connector

121 male terminal conductive terminal

122 male terminal insulating colloid

1221 Male end connector

1222 male end actuating structure

12221 left abutment wall

12222 Right abutment wall

12223 Upper abutment wall

12224 lower abutment wall

12225 stress segment

12226 extension section

1223 Male end restriction Structure

12231 left limiting wall

12232 Right restricting wall

12233 Upper limiting wall

12234 lower limiting wall

1224 male end fastening structure

Detailed Description

The following description is provided to illustrate the technical aspects of the present invention by way of specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The present invention may also be implemented or applied in other different embodiments. Various modifications and changes may be made in the details herein without departing from the spirit of the invention in its broader aspects and as defined in the specification. In particular, the relative positions and ratios of the various elements shown in the drawings are exemplary only and are not intended to represent actual implementations of the present invention.

For the description of the embodiments of the technical disclosure of the present invention, please refer to fig. 1 to fig. 20 together.

The utility model discloses an electric connector assembly and public end electric connector thereof can be used to transmit electrical signal on the electronic product. As shown in fig. 1 to 2 and fig. 15 to 16, the electrical connector assembly 1 of the present invention includes a female electrical connector 11 and a male electrical connector 12.

The female electrical connector 11 includes a female conductive terminal 111 and a female insulating gel 112. The female terminal insulating colloid 112 is used for embedding and positioning the female terminal conductive terminal 111, and the female terminal insulating colloid 112 has a female terminal insertion groove 1121. The female terminal conductive terminal 111 is, for example, a guillotine-type conductive terminal.

As shown in fig. 3 and 17, the male electrical connector 12 includes a male conductive terminal 121 and a male insulating resin 122. The male end insulating colloid 122 is used for embedding and positioning the male end conductive terminal 121, and the male end insulating colloid 122 has a male end plug 1221, a male end actuating structure 1222, a male end limiting structure 1223 and a male end fastening structure 1224. The male terminal 121 is, for example, a clip-type conductive terminal.

The male end plug 1221 is used to be inserted into the female end plug groove 1121 or pulled out of the female end plug groove 1121. The male actuating structure 1222 is connected to the male fastening structure 1224 to form a flexible cantilever structure, such that the male actuating structure 1222 is capable of deforming when subjected to a force to actuate the male fastening structure 1224, such that the male fastening structure 1224 is in a fastened state or an unfastened state.

When the male end plug 1221 is inserted into the female end insertion groove 1121, the male end fastening structure 1224 is in a fastening state, and at this time, the male end fastening structure 1224 fastens the female end insulating colloid 112 of the female end electrical connector 11 to stop the male end plug 1221 of the male end electrical connector 12 from moving relative to the female end insulating colloid 112 of the female end electrical connector 11, so that the male end conductive terminal 121 is kept overlapping the female end conductive terminal 111, and the male end electrical connector 12 is connected to the female end electrical connector 11.

Therefore, the utility model discloses a public end lock joint structure can provide the holding power to the grafting state of public end electric connector and female end electric connector, and solves the problem that the little public end electric connector of size is not enough with the gomphosis strength between the female end electric connector, so, the utility model discloses can reach the purpose of reducing electric connector assembly body size to the electronic product that is used for the slimming uses.

When the male plug 1221 is pulled out of the female plug groove 1121, the male actuating structure 1222 can receive an external force, and the external force can force the male actuating structure 1222 to deform, so that the male buckling structure 1224 acts and is in an unfastened state, so that the male plug 1221 of the male electrical connector 12 can move relative to the female insulating colloid 112 of the female electrical connector 11, so that the male conductive terminals 121 can be disengaged from the female conductive terminals 111, and the male electrical connector 12 can be disengaged from the female electrical connector 11.

It should be noted that the male end limiting structure 1223 can limit the deformation of the male end actuating structure 1222, so that the deformation of the male end actuating structure 1222 is consistent with the expected deformation, and the male end actuating structure 1222 is prevented from being damaged due to the excessive deformation, so as to prolong the service life of the male end electrical connector 12, and enable the male end electrical connector 12 to be plugged into the female end electrical connector 11 as expected.

Specifically, as shown in fig. 6 to 7, the male-end limiting structure 1223 has a left-side limiting wall 12231, a right-side limiting wall 12232, an upper limiting wall 12233, and a lower limiting wall 12234. It should be noted that the left limiting wall 12231 limits deformation of the left side of the male end actuating structure 1222 to the extent that deformation of the left side of the male end actuating structure 1222 is desired. The right side limiting wall 12232 limits deformation of the right side of the male end actuating structure 1222 to the extent that deformation of the right side of the male end actuating structure 1222 is desired. The upper limiting wall 12233 limits the deformation of the upper portion of the male end actuating structure 1222 to the extent that the deformation of the upper portion of the male end actuating structure 1222 is desired. The lower limiting wall 12234 limits deformation of the lower portion of the male end actuating structure 1222 to the extent expected by the lower portion of the male end actuating structure 1222.

Accordingly, the male end actuating structure 1222 has a left abutment wall 12221, a right abutment wall 12222, an upper abutment wall 12223 and a lower abutment wall 12224. It should be noted that, when the left side restricting wall 12231 restricts deformation of the left side of the male end actuating structure 1222, the left side abutment wall 12221 abuts the left side restricting wall 12231. When right side limiting wall 12232 limits deformation of the right side of male end actuation structure 1222, right side abutment wall 12222 abuts right side limiting wall 12232. When the upper limiting wall 12233 limits the deformation of the upper portion of the male end actuating structure 1222, the upper abutment wall 12223 abuts the upper limiting wall 12233. The lower abutment wall 12224 abuts the lower limiting wall 12234 when the lower limiting wall 12234 limits the deformation of the lower portion of the male end actuating structure 1222.

In addition, as shown in fig. 6 to 7, the male end actuating structure 1222 has a force receiving section 12225 and an extending section 12226. The force-receiving section 12225 receives an external force, and at least one of the left abutment wall 12221, the right abutment wall 12222, the upper abutment wall 12223, and the lower abutment wall 12224 is provided to the extending section 12226.

Furthermore, as shown in fig. 1 to 2, the male end limiting structure 1223 is a frame-shaped structure, and as shown in fig. 16 to 17, the male end limiting structure 1223 is a hook-shaped structure. It should be noted that the extension 12226 can extend into the male end limiting structure 1223, which is a frame-like structure or a hook-like structure, so that the male end limiting structure 1223 can limit the deformation of the male end actuating structure 1222, and the deformation of the male end actuating structure 1222 can be as desired.

It should be noted that, in the foregoing embodiments of the electrical connector of the present invention, some components or structures may be omitted, for example, at least one of the left abutment wall, the right abutment wall, the upper abutment wall and the lower abutment wall, the force receiving section and the extension section of the male end actuating structure may be omitted, and at least one of the left limiting wall, the right limiting wall, the upper limiting wall and the lower limiting wall of the male end limiting structure may be omitted. That is, in the embodiment of the present invention, the male electrical connector includes: and a male end insulating colloid. The male end insulating colloid is provided with a male end actuating structure, a male end limiting structure and a male end buckling structure. The male end actuating structure is connected with the male end fastening structure to actuate the male end fastening structure, so that the male end fastening structure is in a fastening state or an unfastening state.

When the male end electric connector is inserted into the female end electric connector, the male end fastening structure is in a fastening state, and at the moment, the male end fastening structure is fastened with the female end electric connector to stop the male end electric connector from moving relative to the female end electric connector.

When the male end electric connector is disconnected from the female end electric connector, the male end actuating structure can receive an external force which can force the male end actuating structure to deform, so that the male end buckling structure acts and is in an unfastened state, and the male end electric connector can move relative to the female end electric connector, wherein the male end limiting structure limits the deformation of the male end actuating structure, and the deformation degree of the male end actuating structure is in accordance with the expectation.

To sum up, the utility model discloses electric connector assembly and public end electric connector thereof, the public end electric connector that provides have a limit structure, can restrict the degree that the component atress warp too big to avoid the component to take place to damage because of the deformation degree is too big, and then promote the life of public end electric connector, and make public end electric connector can have like anticipated effect. In addition, the public end electric connector that provides has the lock joint structure, can the female end electric connector of lock joint to the grafting state to public end electric connector and female end electric connector provides the holding power, and solves the problem that little small-size public end electric connector is not enough with the gomphosis strength between the female end electric connector, so, the utility model discloses can reach the purpose of reducing electric connector assembly body size, in order to be used for slim electronic product to use.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. A male electrical connector for plugging or unplugging a female electrical connector, comprising:

the male end insulating colloid is provided with a male end actuating structure, a male end limiting structure and a male end buckling structure;

the male end actuating structure is connected with the male end fastening structure, and the male end fastening structure is actuated to be in a fastening state or an unfastened state;

when the male end electric connector is plugged into the female end electric connector, the male end buckling structure is in the buckling state, and at the moment, the male end buckling structure is buckled with the female end electric connector to stop the male end electric connector from moving relative to the female end electric connector; and

when the male end electric connector is unplugged from the female end electric connector, the male end actuating structure can receive an external force, and the external force can force the male end actuating structure to deform, so that the male end buckling structure acts to be in the non-buckling state, and the male end electric connector can move relative to the female end electric connector, wherein the male end limiting structure limits the deformation of the male end actuating structure, and the deformation degree of the male end actuating structure is in line with expectation.

2. The male electrical connector of claim 1, wherein the male end limiting structure has a left side limiting wall and a right side limiting wall, the left side limiting wall limiting deformation of the left side of the male actuating structure to a degree expected for the left side of the male actuating structure, the right side limiting wall limiting deformation of the right side of the male actuating structure to a degree expected for the right side of the male actuating structure.

3. The male electrical connector of claim 2 wherein the male actuating structure has a left abutment wall and a right abutment wall, the left abutment wall abutting the left limiting wall when the left limiting wall limits deformation of the left side of the male actuating structure, and the right abutment wall abutting the right limiting wall when the right limiting wall limits deformation of the right side of the male actuating structure.

4. The male electrical connector as claimed in claim 3, wherein the male actuating structure has a force-receiving section and an extension section, the force-receiving section is capable of receiving the external force, and at least one of the left abutment wall and the right abutment wall is disposed on the extension section.

5. The male electrical connector of claim 4 wherein the male restraint structure is a frame-like structure or a hook-like structure, and the extension extends into the frame-like structure or the hook-like structure.

6. The male electrical connector of claim 3, wherein the male restraint structure further comprises an upper restraint wall and a lower restraint wall, the upper restraint wall restraining deformation of the upper portion of the male actuation structure to a desired degree, and the lower restraint wall restraining deformation of the lower portion of the male actuation structure to a desired degree.

7. The male electrical connector of claim 6 wherein the male actuating structure further has an upper abutment wall and a lower abutment wall, the upper abutment wall abutting the upper limiting wall when the upper limiting wall limits deformation of the upper portion of the male actuating structure and the lower abutment wall abutting the lower limiting wall when the lower limiting wall limits deformation of the lower portion of the male actuating structure.

8. The male electrical connector as claimed in claim 7, wherein the male actuating structure has a force-receiving section and an extension section, the force-receiving section is capable of receiving the external force, and at least one of the left abutment wall, the right abutment wall, the upper abutment wall and the lower abutment wall is disposed on the extension section.

9. The male electrical connector of claim 8 wherein the male restraint structure is a frame-like structure or a hook-like structure, the extension extending into the frame-like structure or the hook-like structure.

10. An electrical connector assembly, comprising:

the female end electric connector comprises a female end conductive terminal and a female end insulating colloid, wherein the female end insulating colloid is embedded in the female end conductive terminal and is provided with a female end inserting groove;

a male end electric connector, said male end electric connector comprising a male end conductive terminal and a male end insulating colloid, wherein said male end insulating colloid is embedded in said male end conductive terminal, and said male end insulating colloid has a male end plug, a male end actuating structure, a male end limiting structure and a male end fastening structure;

the male end plug connector is used for being inserted into the female end plug groove or being pulled out of the female end plug groove, the male end actuating structure is connected with the male end fastening structure, and the male end fastening structure is actuated to be in a fastening state or an unfastened state;

when the male end plug connector is inserted into the female end plug slot, the male end buckling structure is in the buckling state, and at the moment, the male end buckling structure buckles the female end insulating colloid to stop the male end plug connector from moving relative to the female end insulating colloid so that the male end conductive terminals are in lap joint with the female end conductive terminals, and the male end electric connector is plugged into the female end electric connector; and

when the male end plug-in connector is pulled out of the female end plug-in groove, the male end actuating structure can receive an external force, and the external force can force the male end actuating structure to deform, so that the male end buckling structure acts to be in the non-buckling state, the male end plug-in connector can move relative to the female end insulating colloid, the male end conductive terminals are enabled to be in lap joint with the female end conductive terminals, and the male end electric connector is enabled to be in the state of being in the buckled state, and the male end electric connector is enabled to be in the state of being in the buckled state, wherein the male end limiting structure limits deformation of the male end actuating structure, and deformation degree of the male end actuating structure is enabled to be in accordance with expectation.

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