CN211958071U - Sealed socket - Google Patents

Abstract

The utility model discloses a sealed socket, which comprises a socket body and a sealing mechanism; the socket body comprises a socket shell, a socket cavity is arranged in the socket shell, and first to third side wall grooves are formed in the side walls of the socket cavity; the sealing mechanism comprises first to third side walls, a plug board piece and a cover board, wherein a first cover board groove and a first positioning groove are formed in the first side wall, a second cover board groove and a second positioning groove are formed in the third side wall, and a first positioning part and a second positioning part are formed in the second side wall; the plug board piece and the socket shell form a cover plate positioning cavity; a first sliding part and a second sliding part are respectively arranged at two ends of the cover plate; the cover plate has a closed state and an open state. When the sealing socket is used, the cover plate can be inserted into and positioned in the cover plate positioning cavity, so that the opening of the socket cavity is exposed, and the jack of the socket component in the socket cavity is in a usable state; when it is desired to close the socket cavity, the cover may close the opening of the socket cavity by cooperating with the first through third sidewalls and the fork strap member.

Description

Sealed socket

Technical Field

The utility model relates to a socket field, more specifically relates to a sealed socket.

Background

The socket is used for electrically connecting the electric device and the power supply together. The jack of current socket does not have any shielding often, and external impurity such as dust rainwater gets into the jack under non-use state, reduces the life and the safety in utilization of socket.

Therefore, how to provide a socket capable of effectively preventing external impurities from entering the jack becomes a technical problem to be solved urgently in the field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can effectively avoid external impurity to get into the new technical scheme of the sealed socket of jack.

According to a first aspect of the present invention, a sealed socket is provided.

The sealed socket comprises a socket body and a sealing mechanism; wherein the content of the first and second substances,

the socket body comprises a socket assembly and a socket shell, the socket assembly is provided with a jack, a socket cavity with an opening is arranged in the socket shell, the socket assembly is installed in the socket cavity, the side wall of the socket cavity is provided with a first side wall groove, a second side wall groove and a third side wall groove, the first side wall groove and the third side wall groove are oppositely arranged, and the second side wall groove is positioned between the first side wall groove and the third side wall groove;

the sealing mechanism comprises a first side wall, a second side wall, a third side wall, a fork plate piece and a cover plate, wherein the first side wall, the second side wall and the third side wall are respectively positioned in the first side wall groove, the second side wall groove and the third side wall groove, the first side wall is provided with a first cover plate groove and a first positioning groove, the third side wall is provided with a second cover plate groove and a second positioning groove, the first cover plate groove and the second cover plate groove both extend along the extending direction of the opening of the socket cavity, and the second side wall is provided with a first positioning part and a second positioning part which are respectively matched with the first positioning groove and the second positioning groove;

the plug board piece is fixedly connected with the outer side face of the socket shell, and the plug board piece and the socket shell form a cover plate positioning cavity with an opening;

a first sliding part and a second sliding part are respectively arranged at two ends of the cover plate, the first sliding part is in sliding fit with the first cover plate groove, and the second sliding part is in sliding fit with the second cover plate groove;

the cover plate has a closed state and an open state;

in the closed state, the first sliding portion and the second sliding portion of the cover plate are respectively located in the first cover plate groove and the second cover plate groove, and two ends of the cover plate along the extending direction of the opening of the socket cavity are respectively matched with the top end of the second side wall and the plug-in board piece, so that the cover plate closes the opening of the socket cavity;

in the open state, the cover plate is separated from the first side wall and the third side wall, and the cover plate is inserted into and positioned in the cover plate positioning cavity.

Optionally, the first sidewall groove and the third sidewall groove are symmetrically disposed, and two ends of the second sidewall groove are respectively communicated with the first sidewall groove and the third sidewall groove.

Optionally, the first sidewall groove and the third sidewall groove are both perpendicular to the second sidewall groove.

Optionally, the second side wall is in sliding fit with the second side wall groove, a top end of the second side wall is configured to abut against the cover plate, the first positioning portion is in sliding fit with the first positioning groove, and the second positioning portion is in sliding fit with the second positioning groove;

the sealing mechanism further comprises a second side wall elastic member, the second side wall elastic member is located in the second side wall groove, and the second side wall elastic member is configured to provide an elastic force to the second side wall in a direction towards the cover plate in the closed state.

Optionally, the first positioning groove and the second positioning groove are parallel;

the extending direction of the first positioning groove is perpendicular to the extending direction of the first cover plate groove, and the extending direction of the second positioning groove is perpendicular to the extending direction of the second cover plate groove.

Optionally, the fork strap member is disposed opposite to the first sidewall.

Optionally, the cross section of the plug plate member is U-shaped, and both side walls of the plug plate member are fixedly connected with the outer side surface of the socket housing.

Optionally, a third positioning portion is arranged on the first side wall, and a fourth positioning portion is arranged on the third side wall;

a third positioning groove and a fourth positioning groove are respectively formed in two side walls of the inserting plate piece;

the third positioning part is matched with the third positioning groove, and the fourth positioning part is matched with the fourth positioning groove.

Optionally, the first side wall is in sliding fit with the first side wall groove, the third side wall is in sliding fit with the third side wall groove, the third positioning portion is in sliding fit with the third positioning groove, and the fourth positioning portion is in sliding fit with the fourth positioning groove;

the sealing mechanism further comprises a first side wall elastic member and a third side wall elastic member;

the first side wall elastic piece is positioned in the first side wall groove and is arranged to provide elastic force towards the direction of the cover plate in the closed state for the first side wall;

the third side wall elastic piece is positioned in the third side wall groove, and the third side wall elastic piece is arranged to provide elastic force to the third side wall towards the direction of the cover plate in the closed state.

Optionally, the third positioning groove and the fourth positioning groove are parallel;

the extending direction of the third positioning groove is perpendicular to the extending direction of the first cover plate groove, and the extending direction of the fourth positioning groove is perpendicular to the extending direction of the second cover plate groove.

When the sealing socket is used, the cover plate can be inserted into and positioned in the cover plate positioning cavity, so that the opening of the socket cavity is exposed, and the jack of the socket component in the socket cavity is in a usable state; when it is desired to close the socket cavity, the cover may close the opening of the socket cavity by mating with the first side wall, the second side wall, the third side wall, and the fork strap member.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments of the invention, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic structural diagram of an embodiment of a sealed receptacle according to the present disclosure.

Fig. 2 is a cross-sectional view of a sealed receptacle embodiment of the present disclosure.

Fig. 3 is a cross-sectional view of a second embodiment of the sealed receptacle of the present disclosure.

The figures are labeled as follows:

the socket comprises a socket shell-1, a socket cavity-10, a first side wall-2, a third positioning part-20, a second side wall-3, a first positioning part-31, a second positioning part-32, a third side wall-4, a fourth positioning part-40, a plug board piece-5, a cover board positioning cavity-50, a cover board-6 and a second side wall elastic part-7.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: unless specifically stated otherwise, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

As shown in fig. 1 to 3, the sealed socket of the present disclosure includes a socket body and a sealing mechanism.

The socket body includes a socket assembly (not shown in the drawings) and a socket housing 1. The socket component is provided with jacks. A socket cavity 10 having an opening is provided in the socket housing 1, and the socket assembly is mounted in the socket cavity 10. The socket assembly is a socket body portion for electrical connection provided with a receptacle, which is mounted in the socket housing 1. The side wall of the socket cavity 10 is provided with a first side wall groove, a second side wall groove and a third side wall groove. The first side wall groove and the third side wall groove are oppositely arranged, and the second side wall groove is positioned between the first side wall groove and the third side wall groove. In particular, the side wall slots may be interconnected or independent of each other. In addition, in order to facilitate assembly of the socket of the present disclosure, a magnetic material such as a magnet may be embedded in the socket housing 1, and the socket housing 1 may be stably positioned on the assembly table by magnetic force adsorption between the magnetic material and the assembly table, so that the sealing mechanism and the socket housing 1 may be conveniently assembled together.

The sealing mechanism comprises a first side wall 2, a second side wall 3, a third side wall 4, a gate piece 5 and a cover plate 6. The first, second and third side walls 2, 3, 4 are located within the first, second and third side wall slots, respectively. Each side wall can be in sliding fit with each side wall groove and is limited in the side wall groove through structures such as a limiting pin. Alternatively, each side wall may be engaged or fitted with each side wall groove.

The first side wall 2 is provided with a first cover plate groove and a first positioning groove. A second cover plate groove and a second positioning groove are arranged on the third side wall 4. The first cover plate groove and the second cover plate groove each extend along an extending direction of the opening of the socket cavity 10. In specific implementation, the first cover plate groove and the second cover plate groove can be arranged in parallel. The second side wall 3 is provided with a first positioning portion 31 and a second positioning portion 32 which are respectively matched with the first positioning groove and the second positioning groove. The fit between the first positioning portion 31 and the second positioning portion 32 and the first positioning groove and the second positioning groove may be, for example, a fit of a protrusion and a groove, or a fit of a slide rail and a slide groove.

The board member 5 is fixedly connected with the outer side surface of the socket housing 1, and the board member 5 and the socket housing 1 form a cover plate positioning cavity 50 with an opening. The structure of the fork-strap elements 5 can be, for example, a U-shaped plate, or a frame-like structure. The fixed connection between the fork strap section 5 and the socket housing 1 can be realized by welding or bolting. The cover positioning cavity 50 may be used for insertion and positioning of the cover 6. In order to ensure that the cover plate 6 is securely and reliably positioned in the cover plate positioning cavity 50, the cover plate positioning cavity 50 may be shaped to match the outer contour of the cover plate 6, and the depth of the cover plate positioning cavity 50 may be at least 50% of the length of the cover plate 6.

The two ends of the cover plate 6 are respectively provided with a first sliding part and a second sliding part. The first sliding part is in sliding fit with the first cover plate groove, and the second sliding part is in sliding fit with the second cover plate groove. The sliding fit between the first and second sliding portions and the first and second cover plate grooves may be, for example, a projection and chute fit, or the like.

The cover 6 has a closed state and an open state.

In the closed state, the first sliding portion and the second sliding portion of the cover 6 are respectively located in the first cover groove and the second cover groove, and both ends of the cover 6 along the extending direction of the opening of the socket cavity 10 are respectively matched with the top end of the second side wall 3 and the socket piece 5, so that the cover 6 closes the opening of the socket cavity 10. The engagement between the cover 6 and the top end of the second side wall 3 may be, for example, the surface of the cover 6 in the width direction abutting against the end surface of the top end of the second side wall 3, or the surface of the cover 6 in the thickness direction abutting against or fitting into the side surface of the top end of the second side wall 3. The fitting between the lid plate 6 and the fork plate 5 may be, for example, such that the surface of the lid plate 6 in the thickness direction abuts against or engages with the outer surface of the fork plate 5 or the inner wall surface of the lid plate positioning cavity 50.

In the closed state, the cover plate 6 covers the opening of the socket cavity 10, thereby protecting the socket assembly in the socket cavity 10 and preventing the jacks on the socket assembly from contacting with external impurities.

In the open state, the cover 6 is separated from the first and third side walls 2 and 4, i.e., the first and second sliding portions of the cover 6 are separated from the first and second cover grooves, respectively. A separate cover plate 6 may be inserted and positioned within the cover plate positioning cavity 50.

When the socket needs to be used, the cover plate 6 in the closed state slides out from the first side wall 2 and the third side wall 4 through the sliding fit of the first sliding part and the second sliding part with the first cover plate groove and the second cover plate groove, at this time, the cover plate 6 is separated from the first side wall 2 and the third side wall 4, and the cover plate 6 is in the open state. To avoid the loss of the cover plate 6, the cover plate 6 may be inserted and positioned in the cover plate positioning cavity 50.

After the socket is used, the cover plate 6 positioned in the cover plate positioning cavity 50 is taken out, the cover plate 6 is fixed between the first side wall 2 and the third side wall 4 through the sliding fit of the first sliding portion and the second sliding portion with the first cover plate groove and the second cover plate groove, and the two ends of the cover plate 6 along the extending direction of the opening of the socket cavity 10 are respectively matched with the top end of the second side wall 3 and the plug piece 5. The cover 6 closes the opening of the socket cavity 10 and the cover 6 is in a closed state.

In use, the sealed socket of the present disclosure may have the cover plate 6 inserted and positioned in the cover plate positioning cavity 50, thereby exposing the opening of the socket cavity 10 so that the jack of the socket assembly is in a usable state in the socket cavity 10. When it is desired to close the socket cavity 10, the cover plate 10 may close the opening of the socket cavity 10 by cooperating with the first side wall 2, the second side wall 3, the third side wall 4 and the fork strap section 5.

In one embodiment of the sealed socket of the present disclosure, in order to more conveniently assemble the sealing mechanism and the socket body together, the first sidewall groove and the third sidewall groove are symmetrically disposed, and both ends of the second sidewall groove are respectively communicated with the first sidewall groove and the third sidewall groove. In addition, the side wall groove is arranged in such a way that each side wall is more beneficial to being stably installed in the socket body.

Furthermore, the first side wall groove and the third side wall groove are perpendicular to the second side wall groove.

In one embodiment of the sealed socket of the present disclosure, the second side wall 3 is a sliding fit with the second side wall groove. The top end of the second side wall 3 is arranged against the cover plate 6. The first positioning portion 31 is slidably engaged with the first positioning groove, and the second positioning portion 32 is slidably engaged with the second positioning groove. The sealing mechanism further comprises a second sidewall elastic member 7. The second side wall elastic member 7 is located in the second side wall groove, and the second side wall elastic member 7 can be used for providing an elastic force to the second side wall 3 towards the cover plate 6 in the closed state. The contact of the top end of the second side wall 3 with the cover 6 means that the end surface of the top of the second side wall 3 contacts the surface of the cover 6 in the width direction. In practice, the elastic force provided by the second sidewall elastic member 7 to the second sidewall 3 may be perpendicular to the cover plate 6.

By providing the second side wall elastic member 7, the cover plate 6 can be more reliably attached to the second side wall 3 in the closed state, thereby achieving a better closing effect. The second side wall elastic element 7 may be a compression spring or a spring plate, for example. Further, the second sidewall elastic members 7 may be symmetrically disposed at both ends of the second sidewall groove.

In order to avoid uncontrolled play of the second side wall spring 7 in the second side wall groove, a structure for fixing the second side wall spring 7 may also be provided in the second side wall groove. For example, when the second side wall elastic member 7 is a spring, a fixing post adapted to a central hole of the spring may be provided in the second side wall groove.

Furthermore, the first positioning groove is parallel to the second positioning groove. The extending direction of the first positioning groove is vertical to that of the first cover plate groove, and the extending direction of the second positioning groove is vertical to that of the second cover plate groove. Thus, the second sidewall 3 can slide relative to the first and third sidewalls 2 and 4 along the first and second detents of the first and third sidewalls 2 and 4 by the elastic force provided to the second sidewall 3 by the second sidewall elastic member 7. In specific implementation, the first positioning groove may be a groove located on the first side wall 2 and extending along the height direction of the socket housing 1, and a certain distance is provided between two ends of the first positioning groove and the edge of the first side wall 2; the second positioning groove may be a groove located on the third sidewall 4 and extending along the height direction of the socket housing 1, and a distance is provided between two ends of the second positioning groove and the edge of the third sidewall 4.

In one embodiment of the sealed socket of the present disclosure, the insert plate member 5 is disposed opposite to the first sidewall 2 in order to improve the compactness of the entire structure of the sealed socket.

In one embodiment of the sealed socket of the present disclosure, the cross section of the board inserting part 5 is U-shaped, and both side walls of the board inserting part 5 are fixedly connected with the outer side surface of the socket housing 1. The bottom wall of the fork strap part 5 is spaced apart from the outer side of the socket housing 1, so that the fork strap part 5 and the socket housing 1 form a cover plate positioning chamber 50. The distance between the two side walls of the fork strap member 5 can be matched to the end of the cover plate 6, so that the end of one side of the cover plate 6 is matched to the cover plate positioning cavity 50 in the closed state.

Further, a third positioning portion is disposed on the first side wall 2. The third side wall 4 is provided with a fourth positioning portion. And a third positioning groove and a fourth positioning groove are respectively arranged on two side walls of the fork plate piece 5. The third positioning part is matched with the third positioning groove, and the fourth positioning part is matched with the fourth positioning groove. By providing the third positioning portion on the first side wall 2 and the fourth positioning portion on the third side wall 4, the reliability of positioning of the first side wall 2 and the third side wall 4 on the outlet housing 1 can be improved.

The cooperation between the third positioning portion and the fourth positioning portion and the third positioning groove and the fourth positioning groove can be, for example, the cooperation of a protrusion and a groove, or the cooperation of a slide rail and a slide groove, etc.

In specific implementation, two sidewalls of the fork board 5 may be partially exposed in the first sidewall groove and the third sidewall groove, respectively, and the third positioning groove and the fourth positioning groove may be disposed on portions of the two sidewalls of the fork board 5 exposed in the first sidewall groove and the third sidewall groove, respectively. Portions of both side walls of the outlet member 5 not exposed in the first and third side wall grooves may be used to be fixedly coupled with the outlet housing 1.

Further, the first sidewall 2 is slidably fitted in the first sidewall groove, and the third sidewall 4 is slidably fitted in the third sidewall groove. The third positioning part is in sliding fit with the third positioning groove, and the fourth positioning part is in sliding fit with the fourth positioning groove.

The sealing mechanism further includes a first sidewall elastic member (not shown) and a third sidewall elastic member (not shown). The first side wall elastic member is located in the first side wall groove, and the first side wall elastic member can be used for providing an elastic force towards the direction of the cover plate 6 in the closed state for the first side wall 2. The third sidewall elastic element is located in the third sidewall groove, and the third sidewall elastic element can be used for providing an elastic force to the third sidewall 4 towards the cover plate 6 in the closed state. In an implementation, the elastic force provided by the first sidewall elastic member to the first sidewall 2 may be perpendicular to the cover plate 6, and the elastic force provided by the third sidewall elastic member to the third sidewall 4 may be perpendicular to the cover plate 6.

Through setting up first lateral wall elastic component and third lateral wall elastic component, can make first lateral wall 2 and third lateral wall 4 all have the trend towards the direction removal of apron 6 to make apron 6 and the inseparabler cooperation of first apron groove on first lateral wall 2 and the second apron groove on third lateral wall 4 be in the same place, avoid apron 6 drunkenness, reach better closed effect. The first and third sidewall elastic members may be, for example, compression springs or elastic pieces, etc. Further, the first sidewall elastic pieces may be symmetrically disposed at both ends of the first sidewall groove, and the third sidewall elastic pieces may be symmetrically disposed at both ends of the third sidewall groove.

To avoid uncontrolled play of the first sidewall spring within the first sidewall channel, structure may also be provided within the first sidewall channel for securing the first sidewall spring. For example, when the first side wall elastic member is a spring, a fixing post adapted to a central hole of the spring may be disposed in the first side wall groove.

In order to avoid uncontrolled play of the third side wall spring in the third side wall groove, a structure for fixing the third side wall spring may also be provided in the third side wall groove. For example, when the third sidewall elastic member is a spring, a fixing post adapted to a central hole of the spring may be provided in the third sidewall groove.

When all being equipped with the lateral wall elastic component in first lateral wall groove, second lateral wall groove and the third lateral wall inslot, first lateral wall 2, second lateral wall 3 and third lateral wall 4 can play the mutual spacing effect of interact each other to sealing mechanism's leakproofness and reliability have effectively been improved.

Furthermore, the third positioning groove is parallel to the fourth positioning groove. The extending direction of the third positioning groove is vertical to the extending direction of the first cover plate groove, and the extending direction of the fourth positioning groove is vertical to the extending direction of the second cover plate groove. Thus, the first side wall 2 is slidable relative to the fork strap member 5 along the third detent by the resilient force provided to the first side wall by the first side wall spring, and the first and third side walls 2, 4 are slidable relative to the fork strap member 5 along the third and fourth detents by the resilient force provided to the third side wall 4 by the third side wall spring. In specific implementation, the third positioning groove may be a groove located on one side wall of the board inserting piece 5 and extending along the height direction of the socket housing 1, and a certain distance is provided between two ends of the third positioning groove and an edge of the side wall of the board inserting piece 5 along the height direction of the socket housing 1; the fourth positioning groove may be a groove located on the other side wall of the board member 5 and extending along the height direction of the socket housing 1, and a certain distance is provided between two ends of the fourth positioning groove and the edge of the side wall of the board member 5 along the height direction of the socket housing 1.

Although certain specific embodiments of the present invention have been described in detail by way of example, it should be understood by those skilled in the art that the foregoing examples are for purposes of illustration only and are not intended to limit the scope of the invention. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims (10)

1. A sealed socket is characterized by comprising a socket body and a sealing mechanism; wherein the content of the first and second substances,

the socket body comprises a socket assembly and a socket shell, the socket assembly is provided with a jack, a socket cavity with an opening is arranged in the socket shell, the socket assembly is installed in the socket cavity, the side wall of the socket cavity is provided with a first side wall groove, a second side wall groove and a third side wall groove, the first side wall groove and the third side wall groove are oppositely arranged, and the second side wall groove is positioned between the first side wall groove and the third side wall groove;

the sealing mechanism comprises a first side wall, a second side wall, a third side wall, a fork plate piece and a cover plate, wherein the first side wall, the second side wall and the third side wall are respectively positioned in the first side wall groove, the second side wall groove and the third side wall groove, the first side wall is provided with a first cover plate groove and a first positioning groove, the third side wall is provided with a second cover plate groove and a second positioning groove, the first cover plate groove and the second cover plate groove both extend along the extending direction of the opening of the socket cavity, and the second side wall is provided with a first positioning part and a second positioning part which are respectively matched with the first positioning groove and the second positioning groove;

the plug board piece is fixedly connected with the outer side face of the socket shell, and the plug board piece and the socket shell form a cover plate positioning cavity with an opening;

a first sliding part and a second sliding part are respectively arranged at two ends of the cover plate, the first sliding part is in sliding fit with the first cover plate groove, and the second sliding part is in sliding fit with the second cover plate groove;

the cover plate has a closed state and an open state;

in the closed state, the first sliding portion and the second sliding portion of the cover plate are respectively located in the first cover plate groove and the second cover plate groove, and two ends of the cover plate along the extending direction of the opening of the socket cavity are respectively matched with the top end of the second side wall and the plug-in board piece, so that the cover plate closes the opening of the socket cavity;

in the open state, the cover plate is separated from the first side wall and the third side wall, and the cover plate is inserted into and positioned in the cover plate positioning cavity.

2. The sealed socket of claim 1, wherein said first sidewall groove and said third sidewall groove are symmetrically disposed, and both ends of said second sidewall groove are respectively communicated with said first sidewall groove and said third sidewall groove.

3. The sealed receptacle of claim 2, wherein said first sidewall channel and said third sidewall channel are perpendicular to said second sidewall channel.

4. The sealed socket of claim 1, wherein said second sidewall is slidably engaged with said second sidewall slot, a top end of said second sidewall is disposed against said cover plate, said first detent is slidably engaged with said first detent, and said second detent is slidably engaged with said second detent;

the sealing mechanism further comprises a second side wall elastic member, the second side wall elastic member is located in the second side wall groove, and the second side wall elastic member is configured to provide an elastic force to the second side wall in a direction towards the cover plate in the closed state.

5. The sealed receptacle of claim 4, wherein said first detent and said second detent are parallel;

the extending direction of the first positioning groove is perpendicular to the extending direction of the first cover plate groove, and the extending direction of the second positioning groove is perpendicular to the extending direction of the second cover plate groove.

6. The sealed receptacle of claim 1, wherein said fork strap member is disposed opposite said first sidewall.

7. The sealed receptacle of claim 1, wherein said fork strap section is U-shaped in cross-section and both side walls of said fork strap section are fixedly attached to the outside of said receptacle housing.

8. The sealed socket of claim 7, wherein a third detent is provided on the first sidewall and a fourth detent is provided on the third sidewall;

a third positioning groove and a fourth positioning groove are respectively formed in two side walls of the inserting plate piece;

the third positioning part is matched with the third positioning groove, and the fourth positioning part is matched with the fourth positioning groove.

9. The sealed socket of claim 8, wherein said first sidewall is in sliding engagement with said first sidewall channel, said third sidewall is in sliding engagement with said third sidewall channel, said third detent is in sliding engagement with said third detent, and said fourth detent is in sliding engagement with said fourth detent;

the sealing mechanism further comprises a first side wall elastic member and a third side wall elastic member;

the first side wall elastic piece is positioned in the first side wall groove and is arranged to provide elastic force towards the direction of the cover plate in the closed state for the first side wall;

the third side wall elastic piece is positioned in the third side wall groove, and the third side wall elastic piece is arranged to provide elastic force to the third side wall towards the direction of the cover plate in the closed state.

10. The sealed socket of claim 9, wherein said third detent and said fourth detent are parallel;

the extending direction of the third positioning groove is perpendicular to the extending direction of the first cover plate groove, and the extending direction of the fourth positioning groove is perpendicular to the extending direction of the second cover plate groove.

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