CN214505981U - Connector assembly - Google Patents

Abstract

The utility model provides a connector assembly, include: female end connector and male end connector, and its conductive terminal arranges into the echelonment structure with multirow mode, and makes the size of connector assembly reduce because of the restriction that receives, and the male end connector of this application connector assembly can select positive plug and the female end connector of side direction plug according to the in service behavior for the plug direction of female end connector and male end connector can change because of the restriction that receives, and then solves all kinds of problems of prior art.

Description

Connector assembly

Technical Field

The present invention relates to a connector assembly, and more particularly to a connector assembly including a female connector and a male connector.

Background

In electronic devices, a connector assembly comprising a female connector and a male connector is often required to transmit electrical signals through the female connector and the male connector which are plugged into and unplugged from each other, and thus, the connector assembly is widely used in the current electronic industry.

In addition, the size of the connector assembly is limited due to the limited internal space of the electronic device, and the plugging direction of the female connector and the male connector is also limited. However, the number of conductive terminals in the connector assembly tends to increase, so that the size of the connector assembly cannot be reduced due to the limitation, and the plugging and unplugging directions of the female and male connectors are determined after the design is completed, so that the plugging and unplugging directions of the female and male connectors cannot be changed due to the limitation.

Therefore, how to improve the above-mentioned disadvantages, so that the size of the connector assembly can be reduced due to the limitation, and the inserting and pulling direction of the female and male connectors can be changed due to the limitation, is a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, the present application provides a connector assembly comprising: the female end connector is provided with at least one first row of female end conductive terminals, at least one second row of female end conductive terminals and a female end rubber core, wherein the first row of female end conductive terminals are embedded in the female end rubber core and are provided with a first row of positive guide structures and a first row of lateral guide structures; the second row of female terminal conductive terminals are embedded in the female terminal rubber core and are provided with a second row of positive guide structures and a second row of lateral guide structures; the female end rubber core is provided with a first row of plug parts and a second row of plug parts, the first row of plug parts are provided with a first row of positive plug openings and a first row of lateral plug openings which are virtually and vertically intersected, the first row of positive plug openings expose the first row of positive guide structures, the first row of lateral plug openings expose the first row of lateral guide structures, the second row of plug parts are provided with a second row of positive plug openings and a second row of lateral plug openings which are virtually and vertically intersected, the second row of positive plug openings expose the second row of positive guide structures, and the second row of lateral plug openings expose the second row of lateral guide structures; the male end connector is used for plugging and unplugging the female end connector in a forward direction or in a lateral direction and is provided with at least one first row of male end conductive terminals and at least one second row of male end conductive terminals, wherein in the process of plugging and unplugging the female end connector in the forward direction of the male end connector, the first row of male end conductive terminals avoid the second row of forward plugging and unplugging ports, enter the first row of plugging and unplugging parts through the first row of forward plugging and unplugging ports and are then plugged and unplugged by being guided by the first row of forward guiding structures; the second row of male end conductive terminals avoid the first row of forward plugging ports, enter the second row of plugging portions through the second row of forward plugging ports, and are then plugged and unplugged under the guidance of the second row of forward guiding structures; in the process of laterally plugging and unplugging the female end connector from the male end connector, the first row of male end conductive terminals avoid the second row of lateral plugging and unplugging openings, enter the first row of plugging and unplugging parts through the first row of lateral plugging and unplugging openings, and are then guided by the first row of lateral guiding structures to plug and unplugg the first row of female end conductive terminals; the second row of male end conductive terminals avoid the first row of lateral plugging ports, enter the second row of plugging portions through the second row of lateral plugging ports, and are then plugged and unplugged under the guidance of the second row of lateral guiding structures.

Optionally, to aforementioned connector assembly, wherein, first row of plug portion with dislocation and constitution a ladder column structure around the plug portion is arranged to the second makes first row of forward plug mouth with the second is arranged the forward plug mouth and is staggered, also makes first row of side direction plug mouth with the second is arranged the side direction plug mouth and is staggered, and avoids first row of public end conductive terminal misconnection the female end conductive terminal is arranged to the second, also avoids public end conductive terminal misconnection is arranged to the second first row of female end conductive terminal.

Optionally, in view of the above connector assembly, the male end connector further has a male end rubber core, the male end rubber core has a male end rubber core fool-proof structure, and the male end rubber core fool-proof structure and the stepped structure have a structure complementary relationship to provide fool-proof, so as to prevent the first row of male end conductive terminals from mistakenly contacting the second row of female end conductive terminals, and also prevent the second row of male end conductive terminals from mistakenly contacting the first row of female end conductive terminals.

Optionally, to aforementioned connector assembly, wherein, public end connector still has a public end and glues the core, first row of public end conductive terminal with public end conductive terminal of second row inlays respectively to be located public end glues the core, public end gluey core system has a public end and glues core joint structure, public end glues core joint structure and is used for the joint female end and glues the core and provide joint force, in order to maintain public end connector with the plug relation between them of female end connector.

Optionally, in the aforementioned connector assembly, the female end connector further has at least one third row of female end conductive terminals, the male end connector is also provided with at least one third row of male end conductive terminals which are used for plugging and unplugging the third row of female end conductive terminals, wherein, in terms of the length extending out of the male terminal rubber core, the third row of male terminal conductive terminals are longer than the first row of male terminal conductive terminals and the second row of male terminal conductive terminals, so that in the process of inserting and pulling the male terminal connector in the forward direction or inserting and pulling the female terminal connector in the lateral direction, the time point of the third row of male end conductive terminals for plugging and unplugging the third row of female end conductive terminals is earlier than the time point of the first row of male end conductive terminals for plugging and unplugging the first row of female end conductive terminals and is also earlier than the time point of the second row of male end conductive terminals for plugging and unplugging the second row of female end conductive terminals.

To sum up, the connector assembly of this application contains female end connector and public end connector, and electrically conductive terminal wherein arranges into the echelonment structure with multirow mode, and makes the size of connector assembly reduce because of the restriction that receives, and the public end connector of this application connector assembly can select positive plug and side direction plug female end connector according to the in service behavior for the plug direction of female end connector and public end connector can change because of the restriction that receives, and then solves all kinds of problems of prior art.

Drawings

FIG. 1 is a diagram of a state of use of the connector assembly of the present application.

Fig. 2 is a cross-sectional view of the connector assembly of fig. 1 taken along line AA.

Fig. 3 is a cross-sectional view of the connector assembly of fig. 1 taken along line BB.

Fig. 4 is a cross-sectional view of the connector assembly of fig. 1 taken along line CC.

Fig. 5 is an exploded view of the connector assembly of fig. 1.

FIG. 6 is a schematic diagram of a first perspective view of the male end connector of the connector assembly shown in FIG. 1 being inserted into and removed from the female end connector in a forward direction.

FIG. 7 is a second perspective view of the male end connector of the connector assembly of FIG. 1 being inserted into and removed from the female end connector.

Fig. 8 is a schematic view of a first perspective of the male end connector of the connector assembly shown in fig. 1 being inserted into and removed from the female end connector laterally.

FIG. 9 is a second perspective view of the male end connector of the connector assembly of FIG. 1 shown laterally plugging the female end connector.

FIG. 10 is a schematic diagram of a first stage of forward plugging of a male end connector into a female end connector of the connector assembly shown in FIG. 1.

FIG. 11 is a second stage of the male end connector assembly of FIG. 1 showing the male end connector being inserted into and removed from the female end connector.

Fig. 12 is a third schematic diagram illustrating a male end connector of the connector assembly shown in fig. 1 being plugged into and unplugged from a female end connector in a forward direction.

FIG. 13 is a schematic diagram of a first stage of laterally plugging and unplugging a female end connector from a male end connector in the connector assembly shown in FIG. 1.

FIG. 14 is a second stage of the male end connector assembly of FIG. 1 with the female end connector laterally inserted and removed.

Fig. 15 is a third schematic view of the male end connector of the connector assembly shown in fig. 1 being inserted into and pulled out of the female end connector laterally.

Description of the element reference numerals

1 connector assembly

11 female terminal connector

111 first row female terminal conductive terminal

1111 first row forward direction guide structure

1112 first row of lateral guide structures

112 second row of female terminal conductive terminals

1121 second row of forward direction guide structure

1122 second row of lateral guide structures

113 female end rubber core

1131 first row plug part

11311 first row of forward insertion and extraction ports

11312 first row of side plug ports

1132 second row of plug parts

11321 second row of forward insertion and extraction openings

11322 second row of side insertion and extraction openings

114 third row female terminal conductive terminal

12 male end connector

121 first row public end conductive terminal

122 second row of male terminal conductive terminals

123 male end rubber core

Fool-proof structure of 1231 male end rubber core

1232 male end rubber core clamping structure

124 third row of male terminal conductive terminals

Detailed Description

The present disclosure will be described with respect to particular embodiments and with reference to certain drawings but other advantages and features of the present disclosure will become apparent to those skilled in the art from the disclosure herein. The present application is capable of other and different embodiments, and of being practiced or being carried out in various ways. Various modifications and changes may be made in the details of the present description without departing from the spirit of the application, which is intended to be limited only by the scope of the claims. In particular, the relative proportions and positions of the various elements in the drawings are exemplary only, and are not intended to represent the actual conditions in which the present application is practiced.

For the technical disclosure of the connector assembly of the present application, please refer to fig. 1 to 15 of the drawings together.

As shown in fig. 1 to 15, the present application provides a connector assembly 1 including: female end connector 11 and male end connector 12. As shown in fig. 6 to 7 and 11 to 12, the male end connector 12 of the connector assembly of the present application can be used for inserting and pulling the female end connector 11 in a forward direction, and as shown in fig. 8 to 9 and 13 to 15, the male end connector 12 can be used for inserting and pulling the female end connector 11 in a lateral direction.

As shown in fig. 1 to 5, the female end connector 11 has at least one first row of female end conductive terminals 111, at least one second row of female end conductive terminals 112 and a female end rubber core 113, and the first row of female end conductive terminals 111 and the second row of female end conductive terminals 112 are respectively embedded in the female end rubber core 113 in multiple rows, so that the size of the female end connector 11 can be reduced in response to the limitation. Correspondingly, the male end connector 12 has at least one first row of male end conductive terminals 121, at least one second row of male end conductive terminals 122 and a male end rubber core 123, and the first row of male end conductive terminals 121 and the second row of male end conductive terminals 122 are respectively embedded in the male end rubber core 123 in multiple rows, so that the size of the male end connector 12 can be reduced due to the limitation.

The first row of female terminal conductive terminals 111 has a first row of forward guiding structures 1111 and a first row of lateral guiding structures 1112 for respectively guiding the first row of male terminal conductive terminals 121 to be inserted and pulled forward and laterally; the second row of female terminal contacts 112 has a second row of positive guiding structures 1121 and a second row of lateral guiding structures 1122 for guiding the second row of male terminal contacts 122 to insert and extract in a positive direction and in a lateral direction, respectively.

As shown in fig. 6 and 8, the female end rubber core 113 has a first row of insertion/extraction portions 1131 and a second row of insertion/extraction portions 1132, wherein, as shown in fig. 4 to 7, the first row of insertion/extraction portions 1131 and the second row of insertion/extraction portions 1132 are staggered back and forth to form a ladder-shaped structure, so that the first row of forward insertion/extraction ports 11311 and the second row of forward insertion/extraction ports 11321 are staggered, the first row of lateral insertion/extraction ports 11312 and the second row of lateral insertion/extraction ports 11322 are staggered, and when the male end connector 12 is inserted into/pulled out of the female end connector 11, the first row of male end conductive terminals 121 is prevented from mistakenly contacting the second row of female end conductive terminals 112, and the second row of male end conductive terminals 122 is also prevented from mistakenly contacting the first row of female end conductive terminals 111.

It should be noted that, as shown in fig. 7 and 9, the male-end rubber core 123 is designed with a male-end rubber core fool-proof structure 1231 having a structure complementary to the stepped structure, and the male-end rubber core fool-proof structure 1231 provides fool-proof to prevent the first row of male-end conductive terminals 121 from mistakenly contacting the second row of female-end conductive terminals 112, and also to prevent the second row of male-end conductive terminals 122 from mistakenly contacting the first row of female-end conductive terminals 111, so as to improve the electrical performance of the connector assembly of the present application. In addition, in the present application, the male end rubber core 123 can be selectively designed as a male end rubber core clamping structure 1232 for clamping the female end rubber core 113 to provide a clamping force, and it should be noted that the male end rubber core clamping structure 1232 is used for maintaining the plugging relationship between the male end connector 12 and the female end connector 11.

As shown in fig. 6 and 8, the first row of insertion/extraction portions 1131 has a first row of forward insertion/extraction openings 11311 and a first row of lateral insertion/extraction openings 11312 intersecting substantially perpendicularly. The first row of positive insertion/extraction openings 11311 is used to expose the first row of positive guiding structures 1111, so as to provide the first row of male terminal conductive terminals 121 to contact the first row of positive guiding structures 1111; the first row of lateral insertion/extraction openings 11312 is used to expose the first row of lateral guiding structures 1112, so as to provide the first row of male terminal conductive terminals 121 to contact the first row of lateral guiding structures 1112. Similarly, the second row 1132 has a second row 11321 and a second row 11322 of front insertion openings intersecting substantially perpendicularly. The second row of positive insertion/extraction openings 11321 are used for exposing the second row of positive guiding structures 1121 so as to allow the second row of female terminal terminals 112 to contact the second row of positive guiding structures 1121, and the second row of lateral insertion/extraction openings 11322 are used for exposing the second row of lateral guiding structures 1122 so as to allow the second row of female terminal terminals 112 to contact the second row of lateral guiding structures 1122. Thus, the male end connector 12 can be plugged into and pulled out of the female end connector 11 in the forward direction and in the lateral direction according to the actual use condition, so that the plugging and pulling directions of the female end connector 11 and the male end connector 12 can be changed according to the limitation.

Specifically, as shown in fig. 6 to 7 and 11 to 12, in the process of inserting and pulling the male end connector 12 into and out of the female end connector 11 in the forward direction, the first row of male end conductive terminals 121 avoids the second row of forward insertion and extraction openings 11321, enters the first row of insertion and extraction portions 1131 through the first row of forward insertion and extraction openings 11311, and then is guided by the first row of forward guiding structures 1111 to insert and extract the first row of female end conductive terminals 111, and simultaneously, the second row of male end conductive terminals 122 avoids the first row of forward insertion and extraction openings 11311, enters the second row of insertion and extraction portions 1132 through the second row of forward insertion and extraction openings 11321, and then is guided by the second row of forward guiding structures 1121 to insert and extract the second row of female end conductive terminals 112.

As shown in fig. 8 to 9 and 13 to 15, in the process of laterally inserting and pulling the female connector 11 into and out of the male connector 12, the first row of male terminal conductive terminals 121 avoids the second row of lateral insertion and pulling ports 11322, enters the first row of insertion and pulling portions 1131 through the first row of lateral insertion and pulling ports 11312, and is guided by the first row of lateral guiding structures 1112 to insert and pull the first row of female terminal conductive terminals 111, and simultaneously, the second row of male terminal conductive terminals 122 avoids the first row of lateral insertion and pulling ports 11312, enters the second row of insertion and pulling portions 1132 through the second row of lateral insertion and pulling ports 11322, and is guided by the second row of lateral guiding structures 1122 to insert and pull the second row of female terminal conductive terminals 112.

Preferably, the female end connector 11 is provided with at least one third row of female end conductive terminals 114 embedded in the female end rubber core 113, and correspondingly, the male end connector 12 is provided with at least one third row of male end conductive terminals 124 embedded in the male end rubber core 123 for plugging and unplugging the third row of female end conductive terminals 114. In the present application, the first row of male terminal contacts 121 and the second row of male terminal contacts 122 are, for example, signal terminals, the third row of female terminal contacts 114 are, for example, power terminals, therefore, the third row of male end contacts 124 is longer than the first row of male end contacts 121 and the second row of male end contacts 122 in terms of the length extending out of the male end rubber core 123, and thus, in the process of plugging the male end connector 12 in the forward direction or laterally plugging the female end connector 11, the time point of plugging the third row of male end conductive terminals 124 into the third row of female end conductive terminals 114 is earlier than the time point of plugging the first row of male end conductive terminals 121 into the first row of female end conductive terminals 111, and is also earlier than the time point of plugging the second row of male end conductive terminals 122 into the second row of female end conductive terminals 112, so that the electrical requirements of the male end connector 12 and the female end connector 11 in the plugging process are met, and the applicability of the connector assembly 1 is increased.

In summary, the connector assembly of the present application includes a female connector and a male connector, wherein the conductive terminals are arranged in a plurality of rows to form a stepped structure, so that the size of the connector assembly can be reduced due to the limitation of the connector assembly, and the male connector of the connector assembly of the present application can select a forward plugging direction and a lateral plugging direction according to the use situation, so that the plugging direction of the female connector and the male connector can be changed due to the limitation of the connector assembly, thereby solving various problems of the prior art.

The above embodiments are merely illustrative of the principles and utilities of the present application and are not intended to limit the application. Modifications and variations can be made to the above-described embodiments by those of ordinary skill in the art without departing from the spirit and scope of the present application. Therefore, the protection scope of the present application should be as set forth in the claims of the present application.

Claims (6)

1. A connector assembly, comprising:

a female end connector having at least one first row of female end conductive terminals, at least one second row of female end conductive terminals and a female end rubber core, wherein

The first row of female terminal conductive terminals are embedded in the female terminal rubber core and are provided with a first row of positive guide structures and a first row of lateral guide structures;

the second row of female terminal conductive terminals are embedded in the female terminal rubber core and are provided with a second row of positive guide structures and a second row of lateral guide structures; and

the female end rubber core is provided with a first row of plug parts and a second row of plug parts, the first row of plug parts are provided with a first row of forward plug openings and a first row of lateral plug openings which are virtually and vertically intersected, the first row of forward plug openings expose the first row of forward guide structures, the first row of lateral plug openings expose the first row of lateral guide structures, the second row of plug parts are provided with a second row of forward plug openings and a second row of lateral plug openings which are virtually and vertically intersected, the second row of forward plug openings expose the second row of forward guide structures, and the second row of lateral plug openings expose the second row of lateral guide structures; and

a male end connector for positive or lateral insertion and extraction, and having at least one first row of male end conductive terminals and at least one second row of male end conductive terminals, wherein

In the process of plugging and unplugging the female end connector in the forward direction by the male end connector, the first row of male end conductive terminals avoid the second row of forward plugging and unplugging ports, enter the first row of plugging and unplugging parts through the first row of forward plugging and unplugging ports, and are then guided by the first row of forward guiding structures to plug and unplug the first row of female end conductive terminals; the second row of male end conductive terminals avoid the first row of forward plugging ports, enter the second row of plugging portions through the second row of forward plugging ports, and are then plugged and unplugged under the guidance of the second row of forward guiding structures; and

in the process of laterally plugging and unplugging the female end connector from the male end connector, the first row of male end conductive terminals avoid the second row of lateral plugging and unplugging ports, enter the first row of plugging and unplugging parts through the first row of lateral plugging and unplugging ports, and are then guided by the first row of lateral guiding structures to plug and unplugg the first row of female end conductive terminals; the second row of male end conductive terminals avoid the first row of lateral plugging ports, enter the second row of plugging portions through the second row of lateral plugging ports, and are then plugged and unplugged under the guidance of the second row of lateral guiding structures.

2. The connector assembly of claim 1, wherein the first row of mating portions and the second row of mating portions are staggered from front to back to form a ladder structure, such that the first row of positive mating openings and the second row of positive mating openings are staggered, and the first row of lateral mating openings and the second row of lateral mating openings are staggered, thereby preventing the first row of male terminals from erroneously contacting the second row of female terminals and also preventing the second row of male terminals from erroneously contacting the first row of female terminals.

3. The connector assembly of claim 2, wherein the male connector further includes a male end rubber core, the male end rubber core having a male end rubber core fool-proofing structure, the male end rubber core fool-proofing structure and the stepped structure having a structural complementary relationship to provide fool-proofing to prevent the first row of male end conductive terminals from erroneously contacting the second row of female end conductive terminals and also to prevent the second row of male end conductive terminals from erroneously contacting the first row of female end conductive terminals.

4. The connector assembly of claim 1, wherein the male end connector further comprises a male end rubber core, the first row of male end conductive terminals and the second row of male end conductive terminals are respectively embedded in the male end rubber core, the male end rubber core comprises a male end rubber core clamping structure, and the male end rubber core clamping structure is used for clamping the female end rubber core to provide a clamping force, so as to maintain the plugging relationship between the male end connector and the female end connector.

5. The connector assembly of claim 4, wherein the female end connector further has at least a third row of female end conductive terminals, the male end connector is also provided with at least one third row of male end conductive terminals which are used for plugging and unplugging the third row of female end conductive terminals, wherein, in terms of the length extending out of the male end rubber core, the third row of male end conductive terminals are longer than the first row of male end conductive terminals and the second row of male end conductive terminals, so that in the process of inserting and pulling the male end connector in the forward direction or inserting and pulling the female end connector in the lateral direction, the time point of the third row of male end conductive terminals for plugging and unplugging the third row of female end conductive terminals is earlier than the time point of the first row of male end conductive terminals for plugging and unplugging the first row of female end conductive terminals and is also earlier than the time point of the second row of male end conductive terminals for plugging and unplugging the second row of female end conductive terminals.

6. The connector assembly of claim 5, wherein the first row of male end conductive terminals and the second row of male end conductive terminals are signal terminals and the third row of female end conductive terminals are power terminals.

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