CN113258389B - Connector assembly - Google Patents

Abstract

The invention provides a connector assembly, which comprises a female end connector and a male end connector, wherein the female end connector and the male end connector can rotate relatively through the structural improvement of the female end connector and the male end connector, and when the female end connector and the male end connector rotate relatively, a female end conductive terminal of the female end connector can still be electrically connected with a male end conductive terminal of the male end connector, so that the female end connector and the male end connector can be electrically connected in use, and the connector assembly can be applied to a wearable device to expand and change functional components.

Description

Connector assembly

Technical Field

The invention belongs to the technical field of connectors, relates to a connector component, and particularly relates to a connector assembly comprising a female end connector and a male end connector which can rotate relatively.

Background

In human life, various wearing devices such as smart clothes, wearable medical devices, motion detection devices, bio-detection devices, consumer devices, etc. are included, however, due to the development of science and technology, functional components on the structure of the wearing devices are increasingly becoming thinner and lighter, and even the wearing devices are required to provide expansion and change of the functional components according to the use requirements, so that connector members used on the wearing devices are required to have a rotation function to respond to the expansion and change of the functional components on the wearing devices.

Therefore, it is an important technical issue to overcome the need to provide a connector assembly for providing expansion and change of functional components on a wearable device.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, it is an object of the present invention to provide a connector assembly for solving the problem of the prior art that cannot provide expansion and change of functional components on a wearable device.

To achieve the above and other related objects, the present invention provides a connector assembly comprising: a female end connector, the female end connector comprising: a female end engagement structure having a female end rotation track; a female end insulator defining a first female end circular track and having a first female end circular insertion groove extending along the first female end circular track; the first female terminal conductive terminal is arranged on the female terminal insulator and is provided with a first elastic root part and a first pressing part, the first elastic root part is positioned below the first pressing part so as to provide elastic support for the first pressing part, and the first pressing part is positioned in the first female terminal circular track and exposed in the first female terminal circular inserting groove; and

a male end connector, the male end connector comprising: a male end engagement structure having a male end rotation track; a male end insulator, said male end insulator defining a first male end circular path; at least one first male terminal conductive terminal disposed on the male terminal insulator and located in the first male terminal circular track, wherein the first male terminal circular track and the first female terminal circular track have substantially the same contour, such that the first male terminal conductive terminal enters the first female terminal circular insertion groove from top to bottom to press-contact the first press-contact portion to electrically connect the first female terminal conductive terminal, and the first elastic root portion provides an elastic force to the first press-contact portion from bottom to top, such that the first press-contact portion elastically abuts against the first male terminal conductive terminal, such that the electrical connection relationship between the first male terminal conductive terminal and the first female terminal conductive terminal is maintained, and during the process of entering the first female terminal circular insertion groove, the male terminal engagement structure engages the female terminal engagement structure, such that the male terminal connector engages the female terminal connector, and the male terminal rotation track approaches the female terminal rotation track, such that the male terminal connector rotates on the engaged female terminal connector, and the first male terminal enters the first female terminal circular insertion groove, such that the male terminal contact moves along the first male terminal circular insertion track.

In an embodiment of the present invention, the female terminal insulator further defines a second female terminal circular track and further has a second female terminal circular insertion groove, the second female terminal circular insertion groove extends along the second female terminal circular track; the female end connector further comprises at least one second female end conductive terminal, the second female end conductive terminal is arranged on the female end insulator and is provided with a second elastic root part and a second pressing part, the second elastic root part is positioned below the second pressing part to provide elastic support for the second pressing part, and the second pressing part is positioned in the second female end circular track and exposed in the second female end circular insertion groove; the male end insulator further defines a second male end circular track; the male end connector further comprises at least one second male end conductive terminal, wherein the second male end conductive terminal is disposed on the male end insulator and located in the second male end circular track, wherein the second male end circular track and the second female end circular track have substantially the same contour, so that the second male end conductive terminal enters the second female end circular insertion groove from top to bottom and is pressed against the second press-fit part to be electrically connected with the second female end conductive terminal, and the second elastic root part provides elastic force to the second press-fit part from bottom to top, so that the second press-fit part elastically abuts against the second male end conductive terminal to maintain the electrical connection relationship between the second male end conductive terminal and the second female end conductive terminal, and the second male end conductive terminal entering the second female end circular insertion groove is located on the second press-fit part in the second female end circular insertion groove and moves along the second female end circular track.

In an embodiment of the present invention, the female end rotating track extends around the first female end circular track and the second female end circular track; the male end rotation track extends around the first male end circular track and the second male end circular track.

In an embodiment of the present invention, the at least one first female terminal conductive terminal is a plurality of first female terminal conductive terminals, the at least one second female terminal conductive terminal is a plurality of second female terminal conductive terminals, and during the rotation of the male terminal connector on the female terminal connector engaged therewith, the first male terminal conductive terminal is electrically connected to at least one of the plurality of first female terminal conductive terminals, and the second male terminal conductive terminal is electrically connected to at least one of the plurality of second female terminal conductive terminals.

In an embodiment of the present invention, the at least one first male terminal conductive terminal is a plurality of first male terminal conductive terminals, the at least one second male terminal conductive terminal is a plurality of second male terminal conductive terminals, and during the rotation of the male terminal connector on the female terminal connector engaged therewith, at least one of the first male terminal conductive terminals is electrically connected to the first female terminal conductive terminal, and at least one of the second male terminal conductive terminals is electrically connected to the second female terminal conductive terminal.

In an embodiment of the invention, the first elastic root and the first press-connection portion are formed by a first bent metal sheet; the second elastic root and a second press-connection part are formed by a second bending metal sheet.

In an embodiment of the invention, the first elastic root and a first press-connection part are located at a break angle of the first bent metal sheet; the second elastic root and a second press-connection part are positioned at the break angle of the second bent metal sheet.

In an embodiment of the invention, the second female-end circular track is located within a surrounding range of the first female-end circular track.

In an embodiment of the invention, the female terminal insulator further has an outer female terminal circular wall, a middle female terminal circular wall and an inner female terminal circular wall, the middle female terminal circular wall is located within a surrounding range of the outer female terminal circular wall, the inner female terminal circular wall is located within a surrounding range of the middle female terminal circular wall, the first female terminal circular insertion groove is located between the outer female terminal circular wall and the middle female terminal circular wall, and the second female terminal circular insertion groove is located between the middle female terminal circular wall and the inner female terminal circular wall.

As described above, the connector assembly of the present invention has the following advantages:

the connector assembly comprises a female end connector and a male end connector, wherein the female end connector and the male end connector can rotate relatively through structural improvement of the female end connector and the male end connector, and when the female end connector and the male end connector rotate relatively, a female end conductive terminal of the female end connector can still be electrically connected with a male end conductive terminal of the male end connector, so that the female end connector and the male end connector can be electrically connected when in use, and the connector assembly can be applied to a wearable device to expand and change functional components.

Drawings

FIG. 1 is a schematic view of a circular connector assembly of the present invention.

Figure 2 is an exploded view of a portion of the circular connector assembly of figure 1.

FIG. 3 is a schematic view of a portion of the female end connector of the present invention.

FIG. 4 is a schematic view of a portion of the female end connector of the present invention.

FIG. 5 is a schematic view of a portion of the female end connector of the present invention.

Figure 6 shows a partial exploded view of the female connector shown in figure 3.

Fig. 6a shows a partially enlarged view of the area indicated by the symbol a in fig. 6.

Fig. 6B shows a partial enlarged view of the area indicated by the symbol B in fig. 6.

Fig. 7 is a schematic view showing a part of the structure of the male terminal connector of the present invention.

Fig. 8 shows a schematic view of a part of the structure of the male connector of the present invention.

Fig. 9 shows a schematic view of a part of the structure of the male connector of the present invention.

Figure 10 shows a partial exploded view of the female connector shown in figure 7.

FIG. 11 is a schematic view showing the electrical connection between the female and male connectors according to the present invention.

Fig. 12 is a schematic view illustrating the electrical connection between the female connector and the male connector according to the present invention.

Fig. 13 is a schematic view showing the electrical connection between the female and male connectors according to the present invention.

Description of the element reference numerals

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Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

It should be understood that the structures, ratios, sizes, etc. shown in the drawings and attached to the description are only for understanding and reading the disclosure of the present invention, and are not intended to limit the practical conditions of the present invention, so that the present invention has no technical significance, and any modifications of the structures, changes of the ratio relationships, or adjustments of the sizes, should still fall within the scope of the technical contents of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The technical idea of the present invention will be described in detail with reference to fig. 1 to 13.

As shown in fig. 1 to 2, the circular connector assembly 1 of the present invention comprises a female connector 11 and a male connector 12 which are configured to fit each other.

In this embodiment, as shown in fig. 3 to 6b, the female end connector 11 of the present invention includes: the female terminal engaging structure 111, the female terminal insulator 112, at least one (e.g., three) first female terminal conductive terminals 113, and at least one (e.g., three) second female terminal conductive terminals 114. It should be noted that, in the present embodiment, the second female terminal conductive terminal 114 may be omitted in practical implementation.

The female insulator 112 defines a first female circular track T11 and a second female circular track T21, and has a first female circular insertion groove 1121, a second female circular insertion groove 1122, an outer female circular wall 1123, a middle female circular wall 1124, and an inner female circular wall 1125.

Preferably, the tracks of the first and second female-end circular tracks T11 and T21 have a concentric circular relationship, wherein the second female-end circular track T21 is located within a circular area (i.e. a surrounding range) surrounded by the first female-end circular track T11, that is, the circular area surrounded by the first female-end circular track T11 is larger than the circular area surrounded by the second female-end circular track T21. Furthermore, the first female-end circular insertion groove 1121 extends along the first female-end circular trajectory T11, and the second female-end circular insertion groove 1122 extends along the second female-end circular trajectory T21. In addition, the female end engagement structure 111 has a female end rotation track 1111, and preferably, the female end rotation track 1111 extends around the first female end circular track T11 and the second female end circular track T21 to have a circular contour, respectively.

As shown in fig. 6 to 6a, the middle female circular wall 1124 is located within a circular area (i.e., a surrounding area) surrounded by the outer female circular wall 1123, i.e., the circular area surrounded by the outer female circular wall 1123 is larger than the circular area surrounded by the middle female circular wall 1124, and the inner female circular wall 1125 is located within the circular area surrounded by the middle female circular wall 1124, i.e., the circular area surrounded by the middle female circular wall 1124 is larger than the circular area surrounded by the inner female circular wall 1125. In the present embodiment, the first female circular plug-in slot 1121 is located between the outer female circular wall 1123 and the middle female circular wall 1124, and the second female circular plug-in slot 1122 is located between the middle female circular wall 1124 and the inner female circular wall 1125.

In addition, as shown in fig. 6a, the female terminal insulator 112 further has a first conductive terminal insertion groove 1126 and a second conductive terminal insertion groove 1127 for respectively inserting the first female terminal conductive terminal 113 and the second female terminal conductive terminal 114. The first conductive terminal inserting slots 1126 extend into the outer female circular wall 1123 or the middle female circular wall 1124, so that the outer female circular wall 1123 or the middle female circular wall 1124 can respectively provide inserting positions for the first male conductive terminals 123, and reduce the degree of deformation of the first male conductive terminals 123. The second conductive terminal embedding groove 1127 extends into the middle female end circular wall 1124 or the inner female end circular wall 1125, so that the middle female end circular wall 1124 or the inner female end circular wall 1125 can respectively provide embedding positioning for the second male end conductive terminal 124, and the degree of deformation of the second male end conductive terminal 124 under stress is reduced.

In addition, it should be noted that the outer female end circular wall 1123 or the middle female end circular wall 1124 may provide a guide for the first male end conductive terminal 123 to easily enter the first female end circular insertion groove 1121; the middle female circular wall 1124 or the inner female circular wall 1125 may provide a guide for the second male conductive terminal 124 to easily enter the second female circular receptacle 1122.

In the present embodiment, as shown in fig. 4 and fig. 6b, the first female terminal conductive terminal 113 has a first elastic root portion 1131 and a first press-connecting portion 1132, wherein the first elastic root portion 1131 is located below the first press-connecting portion 1132 to provide an elastic support for the first press-connecting portion 1132, so that the first press-connecting portion 1132 is located on the first female circular track T11 and exposed in the first female circular insertion groove 1121. The second female terminal conductive terminal 114 has a second flexible root portion 1141 and a second press-connection portion 1142, wherein the second flexible root portion 1141 is located below the second press-connection portion 1142 to provide flexible support for the second press-connection portion 1142, so that the second press-connection portion 1142 is located on the second female terminal circular track T21 and exposed in the second female terminal circular insertion groove 1122.

As shown in fig. 6b, preferably, the first elastic root 1131 and the first crimping portion 1132 are made of a first bent metal sheet, and the second elastic root 1141 and the second crimping portion 1142 are made of a second bent metal sheet. More specifically, the first elastic root 1131 and the first bonding portion 1132 are located at the corner of the first bent metal sheet, and the second elastic root 1141 and the second bonding portion 1142 are located at the corner of the second bent metal sheet.

In this embodiment, as shown in fig. 7 to 10, the male end connector 12 of this embodiment includes: the male terminal engagement structure 121, the male terminal insulator 122, at least one (e.g., four) first male terminal conductive terminals 123 and at least one (e.g., four) second male terminal conductive terminals 124. The male engagement structure 121 has a male rotation track 1211. The male insulator 122 defines a first male circular track T12 and a second male circular track T22, wherein the male rotation track 1211 extends around the first male circular track T12 and the second male circular track T22 to have a circular profile, the tracks of the first male circular track T12 and the second male circular track T22 have a concentric circular relationship, and the second male circular track T22 is located in a circular area surrounded by the first male circular track T12, i.e., the circular area surrounded by the first male circular track T12 is larger than the circular area surrounded by the second male circular track T22. In addition, the first male terminal conducting terminal 123 and the second male terminal conducting terminal 124 are respectively disposed on the male terminal insulator 122 and are respectively located on the first male terminal circular track T12 and the second male terminal circular track T22.

As shown in fig. 13, the first female circular trajectory T11 and the first male circular trajectory T12 have substantially the same profile, such that the first male conductive terminal 123 can enter the first female circular insertion groove 1121 from top to bottom to press the first press-connecting part 1132 to electrically connect the first female conductive terminal 113, and the first elastic root 1131 can provide an elastic force to the first press-connecting part 1132 from bottom to top, such that the first press-connecting part 1132 keeps elastically abutting against the first male conductive terminal 123, so as to maintain the electrical connection relationship between the first male conductive terminal 123 and the first female conductive terminal 113, and during the process that the first male conductive terminal 123 enters the first female circular insertion groove 1121, the male engagement structure 121 engages the female engagement structure 111, such that the male connector 12 engages the female connector, and the male rotation track 1211 is close to the female rotation track, such that the male conductive terminal 12 is rotated on the female connector engaged therewith, and the first male conductive terminal 123 entering the first female circular insertion groove 1121 is moved along the first female circular insertion groove 1121, so as to change the function of the first male connector assembly 1132.

It should be noted that, since the male end engaging structure 121 and the female end engaging structure 111 both have circular profiles, the male end engaging structure 121 and the female end engaging structure 111 can rotate relatively, so that both the female end connector 11 and the male end connector 12 providing electrical connection can adapt to the relative rotation of the structure of the wearing device, thereby performing expansion and change of the functional components of the wearing device.

In addition, as shown in fig. 13, the second male end circular track T22 and the second female end circular track T21 have substantially the same profile, so that the second male end conductive terminal 124 can enter the second female end circular insertion groove 1122 from top to bottom to press-contact the second press-contact portion 1142 to electrically connect the second female end conductive terminal 114, and the second elastic root portion 1141 can provide an elastic force to the second press-contact portion 1142 from bottom to top, so that the second press-contact portion 1142 keeps elastically abutting against the second male end conductive terminal 124, so as to maintain the electrical connection relationship between the second male end conductive terminal 124 and the second female end conductive terminal 114, and the second male end conductive terminal 124 entering the second female end circular insertion groove 1122 can move on the second male end conductive terminal 1142 in the second female end circular insertion groove 1122 along the second female end circular track T21 to adapt to the structure of the wearable device, thereby expanding and changing the functional components of the wearable device.

For example, as shown in fig. 13, the female connector 11 has three first female terminal conductive terminals 113 and three second female terminal conductive terminals 114, and correspondingly, the male connector 12 has four first male terminal conductive terminals 123 and four second male terminal conductive terminals 124, so that, no matter how the relative positions of the three first female terminal conductive terminals 113 and the four first male terminal conductive terminals 123 are changed, any one of the three first female terminal conductive terminals 113 can be electrically connected to at least one of the four first male terminal conductive terminals 123, and similarly, no matter how the relative positions of the three second female terminal conductive terminals 114 and the four second male terminal conductive terminals 124 are changed, any one of the three second female terminal conductive terminals 114 can be electrically connected to at least one of the four second male terminal conductive terminals 124, so as to ensure that the two female and male connectors 11 and 12 can maintain the electrical connection when in use.

In summary, the connector assembly of the present invention includes a female connector and a male connector, wherein the female connector and the male connector can rotate relatively through the structural improvement of the female connector and the male connector, when the female connector and the male connector rotate relatively, the female conductive terminal of the female connector can still maintain the electrical connection with the male conductive terminal of the male connector, so as to ensure that the female connector and the male connector can maintain the electrical connection when in use, and the connector assembly can be applied to a wearable device for expanding and changing the functional components.

The invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can 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 (9)

1. A connector assembly, comprising:

a female end connector, the female end connector comprising:

a female end engagement structure having a female end rotation track;

a female end insulator defining a first female end circular track and having a first female end circular insertion groove extending along the first female end circular track;

the first female terminal conductive terminal is arranged on the female terminal insulator and is provided with a first elastic root part and a first pressing part, the first elastic root part is positioned below the first pressing part so as to provide elastic support for the first pressing part, and the first pressing part is positioned in the first female terminal circular track and exposed in the first female terminal circular inserting groove; and

a male end connector, the male end connector comprising:

a male end engagement structure having a male end rotation track;

a male end insulator, said male end insulator defining a first male end circular path;

at least one first male end conductive terminal disposed on the male end insulator and located in the first male end circular path,

the first circular male terminal track has a substantially same contour as the first circular female terminal track, such that the first male terminal can enter the first circular female terminal slot from top to bottom to press the first press-connecting part to electrically connect the first female terminal, and the first elastic root can provide an elastic force to the first press-connecting part from bottom to top, such that the first press-connecting part elastically abuts against the first male terminal, so as to maintain the electrical connection relationship between the first male terminal and the first female terminal, and such that the male terminal engaging structure engages the female terminal engaging structure during the process of entering the first circular female terminal slot, such that the male terminal engages the female terminal connector, and such that the male terminal rotation track approaches the female terminal rotation track, such that the male terminal connector can rotate on the engaged female terminal connector, such that the first male terminal entering the first circular female terminal slot can be located on the first circular female terminal in the first circular female terminal slot, and move along the first circular male terminal press-connecting part.

2. The connector assembly of claim 1, wherein:

the female end insulator is also provided with a second female end circular track and a second female end circular insertion groove, and the second female end circular insertion groove extends along the second female end circular track;

the female end connector further comprises at least one second female end conductive terminal, the second female end conductive terminal is arranged on the female end insulator and is provided with a second elastic root part and a second pressing part, the second elastic root part is positioned below the second pressing part to provide elastic support for the second pressing part, and the second pressing part is positioned in the second female end circular track and exposed in the second female end circular insertion groove;

the male end insulator further defines a second male end circular track;

the male end connector further comprises at least one second male end conductive terminal disposed on the male end insulator and located on the second male end circular track,

the second male terminal circular track has a substantially same contour as the second female terminal circular track, such that the second male terminal conductive terminal can enter the second female terminal circular insertion groove from top to bottom to press the second press-fitting part to electrically connect the second female terminal conductive terminal, and the second elastic root can provide an elastic force to the second press-fitting part from bottom to top, such that the second press-fitting part can elastically abut against the second male terminal conductive terminal, thereby maintaining the electrical connection relationship between the second male terminal conductive terminal and the second female terminal conductive terminal, and the second male terminal conductive terminal entering the second female terminal circular insertion groove can move along the second female terminal circular track on the second press-fitting part in the second female terminal circular insertion groove.

3. The connector assembly of claim 2, wherein: the female end rotation track extends around the first female end circular track and the second female end circular track; the male end rotation track extends around the first male end circular track and the second male end circular track.

4. The connector assembly of claim 2, wherein: the at least one first female terminal conductive terminal is a plurality of first female terminal conductive terminals, the at least one second female terminal conductive terminal is a plurality of second female terminal conductive terminals, and in the process that the male end connector rotates on the female end connector which is jointed with the male end connector, the first male terminal conductive terminal is electrically connected with at least one of the plurality of first female terminal conductive terminals, and the second male terminal conductive terminal is electrically connected with at least one of the plurality of second female terminal conductive terminals.

5. The connector assembly of claim 2, wherein: the at least one first male terminal conductive terminal is a plurality of first male terminal conductive terminals, the at least one second male terminal conductive terminal is a plurality of second male terminal conductive terminals, and in the process that the male terminal connector rotates on the female terminal connector combined with the male terminal connector, at least one of the first male terminal conductive terminals is electrically connected with the first female terminal conductive terminal, and at least one of the second male terminal conductive terminals is electrically connected with the second female terminal conductive terminal.

6. The connector assembly of claim 2, wherein: the first elastic root and the first press connection part are formed by a first bending metal sheet; the second elastic root and a second press-connection part are formed by a second bent metal sheet.

7. The connector assembly of claim 6, wherein: the first elastic root and a first pressing part are positioned at a break angle on the first bent metal sheet; the second elastic root and a second press-connection part are positioned at the break angle of the second bent metal sheet.

8. The connector assembly of claim 2, wherein: the second female-end circular track is located within a surrounding range of the first female-end circular track.

9. The connector assembly of claim 8, wherein: the female end insulator is further provided with an outer female end circular wall, a middle female end circular wall and an inner female end circular wall, the middle female end circular wall is located in the surrounding range of the outer female end circular wall, the inner female end circular wall is located in the surrounding range of the middle female end circular wall, the first female end circular insertion groove is located between the outer female end circular wall and the middle female end circular wall, and the second female end circular insertion groove is located between the middle female end circular wall and the inner female end circular wall.

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