CN215955531U - Type-C female seat that charges - Google Patents

Abstract

The application discloses Type-C charges female seat includes: transmission piece, mounting and shell. The transmission piece is used for charging or transmitting data and comprises a plurality of pins positioned at a first end of the transmission piece and a plurality of conductive contact parts positioned at a second end of the transmission piece. The fixture has a first surface and a second surface. The first surface and the second surface are arranged in mirror symmetry, and the conductive contact portions are arranged on the first surface and the second surface in mirror symmetry respectively. The conductive contact parts are communicated with the conductive contact parts which are arranged in a mirror symmetry mode. Be provided with in the shell and hold the chamber, the mounting setting is holding the intracavity. In the present embodiment, by arranging the first surface and the second surface mirror-symmetrically, the conductive contact portions are arranged mirror-symmetrically on the first surface and the second surface, respectively. The conductive contact part that conductive contact part and mirror symmetry set up communicates, reaches the effect that can positive and negative homoenergetic normally peg graft the public seat of charging, and simple structure, and easy to process has simplified the structure of Type-C female seat of charging, has reduced manufacturing cost.

Description

Type-C female seat that charges

Technical Field

The application relates to the technical field of electronic equipment, in particular to Type-C female seat that charges.

Background

Type-C charges female seat is the female seat that utilizes Type-C interface to carry out charging to electronic equipment, but current Type-C charges female seat structure complicacy, and processing difficulty can not satisfy producer's demand.

SUMMERY OF THE UTILITY MODEL

In view of this, the application provides a female seat of Type-C charges for solve the problem that Type-C charges female seat structure is complicated among the prior art, and processing difficulty can not satisfy producer's demand.

To achieve one or a part or all of the above or other objects, the present application proposes to include:

the transmission piece is used for charging or transmitting data and comprises a plurality of pins positioned at a first end of the transmission piece and a plurality of conductive contact parts positioned at a second end of the transmission piece;

a fixture having a first surface and a second surface; the first surface and the second surface are arranged in mirror symmetry, and the conductive contact parts are respectively arranged on the first surface and the second surface in mirror symmetry; the conductive contact parts are communicated with each other and are arranged in mirror symmetry;

the casing, be provided with in the casing and hold the chamber, the mounting sets up hold the intracavity.

In the Type-C charging female socket described herein, the conductive contact portion includes a first negative conductive contact portion, a second negative conductive contact portion, a first positive conductive contact portion, and a second positive conductive contact portion; the first negative electrode conductive contact part is communicated with the second negative electrode conductive contact part; the first positive conductive contact and the second positive conductive contact are in communication.

In the Type-C charging female socket, the first negative conductive contact portion and the first positive conductive contact portion are both disposed on the first surface; the second negative conductive contact part and the second positive conductive contact part are both arranged on the second surface; the first negative electrode conductive contact part and the second negative electrode conductive contact part are correspondingly arranged, and the first positive electrode conductive contact part and the second positive electrode conductive contact part are correspondingly arranged.

In the Type-C charging female socket, the first negative conductive contact part and the second negative conductive contact part are arranged in series; the first positive conductive contact and the second positive conductive contact are arranged in series.

The application Type-C charge female seat in, the pin includes negative pole pin and anodal pin, the negative pole pin with first negative pole conductive contact portion with the conductive contact portion of second negative pole is connected, anodal pin with first anodal conductive contact portion with the conductive contact portion of second positive pole is connected.

In the Type-C charging female socket, one negative electrode pin and one positive electrode pin are arranged; the negative electrode pin, the first negative electrode conductive contact part and the second negative electrode conductive contact part are arranged in series, and the positive electrode pin, the first positive electrode conductive contact part and the second positive electrode conductive contact part are arranged in series.

In the Type-C charging female socket according to the present application, the conductive contact part further includes a first recognition contact part and a second recognition contact part; the first recognition contact part and the second recognition contact part are respectively and correspondingly arranged on the first surface and the second surface and are communicated with each other.

In the Type-C charging female socket, the pins include identification pins for connecting with the first identification contact and the second identification contact; the identification pin, the first identification contact and the second identification contact are arranged in series.

In the Type-C charging female socket described in the present application, the conductive contact portion includes a first negative conductive contact portion, a second negative conductive contact portion, a first positive conductive contact portion, a second positive conductive contact portion, a first identification contact portion, and a second identification contact portion;

the first negative conductive contact part, the first positive conductive contact part and the first identification contact part are sequentially arranged on the first surface; the second negative conductive contact part, the second positive conductive contact part and the second identification contact part are sequentially arranged on the second surface;

the first negative electrode conductive contact part, the first positive electrode conductive contact part and the first identification contact part are all arranged in a protruding mode towards the direction far away from the second surface; the second negative electrode conductive contact part, the second positive electrode conductive contact part and the second identification contact part are arranged in a protruding mode towards the direction far away from the first surface.

The application Type-C charge female seat in, will Type-C charges female seat original place upset, the coincidence of the first surface before second surface and the upset, the coincidence of the conductive contact part of second negative pole and the conductive contact part of the first negative pole before the upset, the coincidence of the conductive contact part of the first anodal before second anodal and the conductive contact part of the first positive pole before the upset, the coincidence of the second discernment contact part and the first discernment contact part before the upset.

Compared with the prior art, the beneficial effects of the application lie in: the present embodiment is configured such that the first surface and the second surface are arranged mirror-symmetrically, and the conductive contact portions are arranged mirror-symmetrically on the first surface and the second surface, respectively. The conductive contact part that conductive contact part and mirror symmetry set up communicates, reaches the effect that can positive and negative homoenergetic normally peg graft the public seat of charging, and simple structure, and easy to process has simplified the structure of Type-C female seat of charging, has reduced manufacturing cost.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a Type-C charging female socket in one embodiment.

Fig. 2 is a schematic structural view of the transfer member in fig. 1.

Fig. 3 is a schematic structural diagram of a Type-C charging female socket in another embodiment.

Wherein:

11. a transport member; 111. a first positive conductive contact; 112. a second positive conductive contact; 113. a first negative conductive contact; 114. a second negative conductive contact; 115. a first recognition contact portion; 116. a second recognition contact portion; 117. a negative electrode pin; 118. a positive electrode pin; 119. identifying a pin; 12. a fixing member; 13. a housing; 131. a receiving cavity.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1 and 2, a Type-C charging socket includes: a transmission member 11, a fixing member 12 and a housing 13. The transmission member 11 is used for charging or transmitting data and includes a plurality of pins at a first end of the transmission member 11 and a plurality of conductive contacts at a second end of the transmission member 11. The fixture 12 has a first surface and a second surface. The first surface and the second surface are arranged in mirror symmetry, and the conductive contact portions are arranged on the first surface and the second surface in mirror symmetry respectively. The conductive contact parts are communicated with the conductive contact parts which are arranged in a mirror symmetry mode. An accommodating cavity 131 is arranged in the housing 13, and the fixing member 12 is arranged in the accommodating cavity 131.

In the present embodiment, by arranging the first surface and the second surface mirror-symmetrically, the conductive contact portions are arranged mirror-symmetrically on the first surface and the second surface, respectively. The conductive contact part that conductive contact part and mirror symmetry set up communicates, reaches the effect that can positive and negative homoenergetic normally peg graft the public seat of charging, and simple structure, and easy to process has simplified the structure of Type-C female seat of charging, has reduced manufacturing cost.

In one embodiment, the conductive contacts include a first negative conductive contact 113, a second negative conductive contact 114, a first positive conductive contact 111, and a second positive conductive contact 112, a second positive conductive contact 112. The first negative conductive contact 113 and the second negative conductive contact 114 communicate. The first positive conductive contact 111 and the second positive conductive contact 112 communicates.

In this embodiment, with the electrically conductive contact site 114 intercommunication of first negative pole 113 and the electrically conductive contact site of second negative pole 114, the electrically conductive contact site 112 intercommunication of first anodal electrically conductive contact site 111 and the electrically conductive contact site 112 second positive pole, when using, the upset Type-C at will charges female seat and all can normally and the public seat cooperation of charging uses, prevent that the user from to matching wrong positive and negative, the damage charges female seat and the public seat of charging, the life of the female seat of charging and the public seat of charging has been improved, and simultaneously, the more smoothness of user's use, user's experience sense has been improved.

In one embodiment, the first negative conductive contact 113 and the first positive conductive contact 111 are both disposed on the first surface. Second negative conductive contact 114 and second positive conductive contact 112 are disposed on a second surface. The first negative conductive contact 113 and the second negative conductive contact 114 are disposed correspondingly, and the first positive conductive contact 111 and the second positive conductive contact 112 are disposed correspondingly to the second positive conductive contact 112. Specifically, the first negative conductive contact 113 and the second negative conductive contact 114 are disposed in series. The first positive conductive contact 111 and the second positive conductive contact 112 are arranged in series. One for each of the negative pin 117 and the positive pin 118. The negative pin 117, the first negative conductive contact 113, and the second negative conductive contact 114 are arranged in series, and the positive pin 118, the first positive conductive contact 111, and the second positive conductive contact 112 are arranged in series, and the second positive conductive contact 112.

In this embodiment, the first negative conductive contact part 113 and the second negative conductive contact part 114 are arranged in series, the first positive conductive contact part 111 and the second positive conductive contact part 112 are arranged in series, only one negative pin 117 needs to be led out to be connected in series with the first negative conductive contact part 113, and only one positive pin 118 needs to be led out to be connected in series with the first positive conductive contact part 111, so that the structure is simplified, the material is saved, and the cost is saved.

Specifically, in the present embodiment, the conductive contacts include a first negative conductive contact 113, a second negative conductive contact 114, a first positive conductive contact 111, and a second positive conductive contact 112.

The first negative conductive contact 113 and the first positive conductive contact 111 are sequentially disposed on the first surface. The second negative conductive contact 114, the second positive conductive contact 112, and the second positive conductive contact 112 are sequentially disposed on the second surface.

The first negative conductive contact 113 and the first positive conductive contact 111 are both disposed to protrude in a direction away from the second surface. The second negative conductive contact 114, the second positive conductive contact 112, and the second positive conductive contact 112 are disposed to protrude in a direction away from the first surface.

The Type-C charging female seat is turned in place, the second surface is overlapped with the first surface before turning, the second negative electrode conductive contact part 114 is overlapped with the first negative electrode conductive contact part 113 before turning, the second positive electrode conductive contact part 112 is overlapped with the first positive electrode conductive contact part 111 before turning, and the second identification contact part is overlapped with the first identification contact part before turning.

Referring to fig. 3, in another embodiment, the conductive contact further includes a first recognition contact 115 and a second recognition contact 116. The first recognition contact portion 115 and the second recognition contact portion 116 are correspondingly disposed on the first surface and the second surface, respectively, and communicate with each other. Specifically, the pins include an identification pin 119 for connecting with the first identification contact 115 and the second identification contact 116. The recognition pin 119, the first recognition contact 115, and the second recognition contact 116 are disposed in series. In the present embodiment, since the identification pin 119, the first identification contact portion 115, and the second identification contact portion 116 are provided in series, only one identification pin 119 may be provided.

Specifically, the conductive contacts include a first negative conductive contact 113, a second negative conductive contact 114, a first positive conductive contact 111, a second positive conductive contact 112, a first identification contact 115, and a second identification contact 116.

The first negative conductive contact 113, the first positive conductive contact 111, and the first recognition contact 115 are sequentially disposed on the first surface. The second negative conductive contact 114, the second positive conductive contact 112, and the second identification contact 116 are sequentially disposed on the second surface.

The first negative conductive contact 113, the first positive conductive contact 111, and the first identification contact are all disposed to protrude in a direction away from the second surface. The second negative conductive contact 114, the second positive conductive contact 112, and the second identification contact are all disposed to protrude in a direction away from the first surface.

The Type-C charging female seat is turned in place, the second surface is overlapped with the first surface before turning, the second negative electrode conductive contact part 114 is overlapped with the first negative electrode conductive contact part 113 before turning, the second positive electrode conductive contact part 112 is overlapped with the first positive electrode conductive contact part 111 before turning, and the second identification contact part is overlapped with the first identification contact part before turning.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the scope of the present application, so that the present application is not limited thereto, and all equivalent variations and modifications can be made to the present application.

Claims (10)

1. The utility model provides a female seat of Type-C charges which characterized in that includes:

the transmission piece is used for charging or transmitting data and comprises a plurality of pins positioned at a first end of the transmission piece and a plurality of conductive contact parts positioned at a second end of the transmission piece;

a fixture having a first surface and a second surface; the first surface and the second surface are arranged in mirror symmetry, and the conductive contact parts are respectively arranged on the first surface and the second surface in mirror symmetry; the conductive contact parts are communicated with each other and are arranged in mirror symmetry;

the casing, be provided with in the casing and hold the chamber, the mounting sets up hold the intracavity.

2. The Type-C charging female socket according to claim 1, wherein the conductive contacts comprise a first negative conductive contact, a second negative conductive contact, a first positive conductive contact, and a second positive conductive contact; the first negative electrode conductive contact part is communicated with the second negative electrode conductive contact part; the first positive conductive contact and the second positive conductive contact are in communication.

3. The Type-C charging female socket according to claim 2, wherein the first negative conductive contact and the first positive conductive contact are both disposed on the first surface; the second negative conductive contact part and the second positive conductive contact part are both arranged on the second surface; the first negative electrode conductive contact part and the second negative electrode conductive contact part are correspondingly arranged, and the first positive electrode conductive contact part and the second positive electrode conductive contact part are correspondingly arranged.

4. The Type-C charging female socket according to claim 3, wherein the first negative conductive contact and the second negative conductive contact are arranged in series; the first positive conductive contact and the second positive conductive contact are arranged in series.

5. The Type-C charging female socket according to claim 4, wherein the pins comprise a negative pin and a positive pin, the negative pin is connected with the first negative conductive contact and the second negative conductive contact, and the positive pin is connected with the first positive conductive contact and the second positive conductive contact.

6. The Type-C charging female socket according to claim 5, wherein, one pin is arranged on each of the negative electrode pin and the positive electrode pin; the negative electrode pin, the first negative electrode conductive contact part and the second negative electrode conductive contact part are arranged in series, and the positive electrode pin, the first positive electrode conductive contact part and the second positive electrode conductive contact part are arranged in series.

7. The Type-C charging female receptacle of claim 2, wherein the conductive contacts further comprise a first identification contact and a second identification contact; the first recognition contact part and the second recognition contact part are respectively and correspondingly arranged on the first surface and the second surface and are communicated with each other.

8. The Type-C charging female socket according to claim 7, wherein the pins comprise identification pins for connecting with the first identification contact and the second identification contact; the identification pin, the first identification contact and the second identification contact are arranged in series.

9. The Type-C charging female socket according to any one of claims 1-8, wherein the conductive contacts comprise a first negative conductive contact, a second negative conductive contact, a first positive conductive contact, a second positive conductive contact, a first identification contact, and a second identification contact;

the first negative conductive contact part, the first positive conductive contact part and the first identification contact part are sequentially arranged on the first surface; the second negative conductive contact part, the second positive conductive contact part and the second identification contact part are sequentially arranged on the second surface;

the first negative electrode conductive contact part, the first positive electrode conductive contact part and the first identification contact part are all arranged in a protruding mode towards the direction far away from the second surface; the second negative electrode conductive contact part, the second positive electrode conductive contact part and the second identification contact part are arranged in a protruding mode towards the direction far away from the first surface.

10. The Type-C charging female socket according to claim 9, wherein the Type-C charging female socket is turned in situ, the second surface coincides with the first surface before turning, the second negative conductive contact coincides with the first negative conductive contact before turning, the second positive conductive contact coincides with the first positive conductive contact before turning, and the second identification contact coincides with the first identification contact before turning.

Images