CN216289171U - Socket - Google Patents
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- CN216289171U CN216289171U CN202122006721.1U CN202122006721U CN216289171U CN 216289171 U CN216289171 U CN 216289171U CN 202122006721 U CN202122006721 U CN 202122006721U CN 216289171 U CN216289171 U CN 216289171U
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Abstract
The utility model discloses a socket and belongs to the technical field of sockets. The socket includes: the detachable functional module, the fixing frame and the panel; the detachable functional module is detachably positioned in the fixed frame; the panel is magnetically connected with the top surface of the fixed frame. The magnetic connection between the panel and the top surface of the mount has at least the following advantages, enabling the panel to be quickly disassembled and assembled, saving time and labor, and simplifying the structure of the panel and the mount.
Description
Technical Field
The utility model relates to the technical field of sockets, in particular to a socket.
Background
With the increasing demand of users for socket functions, more and more users choose to use the multi-position combined socket, and the multi-position combined socket combines a plurality of functional modules to realize a plurality of functions, such as a switch function, a power socket function, a computer socket function, and the like.
The related art provides a multiple-unit type socket including: the panel comprises a plurality of detachable functional modules, a panel and a fixing frame, wherein the detachable functional modules are installed on the corresponding installation positions of the fixing frame, and the panel is clamped with the top surface of the fixing frame through corresponding clamping structures, so that the panel can be detached. Thus, the detachable functional module can be detached only after the panel is detached.
However, for the clamping manner of the panel and the fixing frame in the related art, when the panel is disassembled, a special tool is generally required to disassemble, which is time-consuming and labor-consuming.
SUMMERY OF THE UTILITY MODEL
In view of the above, the present invention provides a socket, which can solve the above technical problems.
Specifically, the method comprises the following technical scheme:
a socket, the socket comprising: the detachable functional module, the fixing frame and the panel;
the detachable functional module is detachably positioned in the fixed frame;
the panel is magnetically connected with the top surface of the fixing frame.
In some possible implementations, the receptacle further includes: a plurality of first magnetic members and a plurality of second magnetic members;
the plurality of first magnetic members are located on a bottom surface of the panel;
the plurality of second magnetic force pieces are located on the top surface of the fixing frame, the plurality of second magnetic force pieces correspond to the plurality of first magnetic force pieces one to one, and the second magnetic force pieces are connected with the corresponding first magnetic force pieces in a magnetic mode.
In some possible implementations, the receptacle further includes: a plurality of first fixing members;
the plurality of first fixing pieces are located on the bottom surface of the panel, the plurality of first fixing pieces correspond to the plurality of first magnetic pieces one to one, and the first fixing pieces are detachably connected with the corresponding first magnetic pieces.
In some possible implementations, the first fixture includes: the elastic fixing device comprises two opposite first fixing blocks, a first elastic cavity is arranged between the two opposite first fixing blocks, and a first limiting step is arranged on each first fixing block;
the first magnetic part is provided with a first step hole, the first step hole penetrates through two ends of the first magnetic part, and a second limiting step is arranged inside the first step hole;
the first magnetic part is sleeved outside the first fixing part through the first step hole, and the second limiting step is abutted against the first limiting step.
In some possible implementations, the plurality of first securing members are integrally formed with the panel.
In some possible implementations, the socket further includes a plurality of second fixtures,
the second fixing pieces correspond to the first fixing pieces one by one, and are positioned at corresponding positions on the top surface of the fixing frame;
the plurality of second fixing pieces correspond to the plurality of second magnetic pieces one by one, and the second fixing pieces are detachably connected with the corresponding second magnetic pieces.
In some possible implementations, the second fixture includes: the two opposite second fixed blocks are provided with second elastic cavities, and third limiting steps are arranged on the second fixed blocks;
the second magnetic part is provided with a second step hole, the second step hole penetrates through two ends of the second magnetic part, and a fourth limiting step is arranged inside the second step hole;
the second magnetic part is sleeved outside the second fixing part through the second step hole, and the fourth limiting step is abutted against the third limiting step.
In some possible implementations, the plurality of second fixing elements are integrally formed on the fixing frame.
In some possible implementations, the first magnetic member protrudes beyond a bottom surface of the panel;
a second accommodating groove is formed in the corresponding position on the top surface of the fixing frame, and comprises a first accommodating section and a second accommodating section which are connected;
the second magnetic piece is located in the first accommodating section, and the first magnetic piece is located in the second accommodating section.
In some possible implementations, the socket includes a plurality of functional modules, which are distributed in sequence;
at least one of the plurality of functional modules is the detachable functional module.
The technical scheme provided by the embodiment of the utility model has the beneficial effects that at least:
the socket provided by the embodiment of the utility model has the advantages that the panel is in magnetic connection with the top surface of the fixed frame, and the magnetic connection between the panel and the top surface of the fixed frame at least has the following advantages, so that the panel is quickly disassembled and assembled, time and labor are saved, the structures of the panel and the fixed frame are simplified, and the problems in the related technology are effectively solved.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
FIG. 1 is an exploded view of an exemplary receptacle provided by embodiments of the present invention;
FIG. 2 is a schematic diagram illustrating a connection relationship between an exemplary panel and a fixing frame according to an embodiment of the present invention;
FIG. 3 is an enlarged side view of an exemplary panel provided by embodiments of the present invention;
fig. 4 is a schematic view illustrating a connection relationship between an exemplary first magnetic member and a first fixing member according to an embodiment of the present invention;
FIG. 5 is a schematic diagram illustrating a connection relationship between an exemplary second magnetic member and a second fixing member according to an embodiment of the present invention;
FIG. 6 is a side view and partially enlarged view of an exemplary receptacle provided in accordance with embodiments of the present invention;
FIG. 7 is a schematic view of an exemplary fixing frame according to an embodiment of the present invention;
FIG. 8 is a schematic view of an exemplary fastening frame and a clamping mechanism according to an embodiment of the present invention;
FIG. 9 is an enlarged view of a portion of an exemplary removable functional module provided in accordance with an embodiment of the present invention;
fig. 10 is a schematic diagram and a partial enlarged view of an exemplary detachable functional module base according to an embodiment of the present invention;
FIG. 11 is an exploded view of an exemplary removable functional module provided in accordance with embodiments of the present invention;
FIG. 12 is a block diagram of an exemplary removable functional module according to an embodiment of the present invention;
FIG. 13 is a schematic diagram illustrating a connection between an exemplary cover and a base according to an embodiment of the present invention;
FIG. 14 is a side view of another exemplary receptacle provided by an embodiment of the present invention;
FIG. 15 is a schematic diagram of an exemplary receptacle with a panel removed according to an embodiment of the present invention;
fig. 16 is a schematic structural diagram of an exemplary detachable functional module with a cover removed according to an embodiment of the present invention.
The reference numerals denote:
1. a functional module; 100. a detachable functional module;
1a, a main body part; 1b, an extension;
11. a base; 111. a second accommodating cavity; 11a, a base body; 11b, a base extension;
12. a functional component;
121. a first electrical connection; 122. an electrical interface;
123. a circuit board; 123a, a wiring board main body portion; 123b, a circuit board extension part;
124. a second electrical connection;
13. a face cover; 13a, a face cover main body part; 13b, a face cover extension;
14. a second elastic fastener; 140. a second card hole;
15. a rigid fastener;
2. a clamping mechanism;
21. a first elastic fastener;
211. a first clamping section; 212. a fixed connection section; 213. a second clamping section;
22. unlocking the lock; 221. an arm portion; 222. a pressing part; 223. an anti-interference cavity;
23. a reinforcement; 24. a stop member;
3. a fixed mount; 301. a top plate; 302. a side frame;
31. a first accommodating cavity; 32. a first card hole; 33. a first accommodating groove;
34. a second accommodating groove; 341. a first accommodating section; 342. a second accommodating section;
4. a panel;
51. a first positioning member; 510. a first positioning groove; 52. a second positioning member;
61. a third positioning member; 610. a second positioning groove; 62. a fourth positioning member;
71. a first magnetic member; 711. a first stepped bore; 712. a second limit step;
71a, a first small diameter section; 71b, a first major diameter section;
72. a second magnetic member; 721. a second stepped bore; 722. a fourth limit step;
72a, a second small diameter section; 72b, a second large-diameter section;
81. a first fixing member;
811. a first fixed block; 812. a first elastic cavity; 813. a first limit step;
8111. a first body segment; 8112. a first snap section;
82. a second fixing member;
821. a second fixed block; 822. a second elastic cavity; 823. a third limiting step;
8211. a second body segment; 8212. a second snap section.
With the above figures, certain embodiments of the utility model have been illustrated and described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the concepts of the application by those skilled in the art with reference to specific embodiments.
Detailed Description
In order to make the technical solutions and advantages of the present invention clearer, the following will describe embodiments of the present invention in further detail with reference to the accompanying drawings.
The terms of orientation, such as "upper", "lower", "side", etc., referred to in the embodiments of the present invention are generally based on the installation state of the socket on the target carrier, and these terms of orientation are only used to describe the structure and the relationship between the structures more clearly, and are not used to describe the absolute orientation. The direction of one side of the socket close to the target bearing object is used as 'lower' or 'bottom', the direction of one side of the socket far away from the target bearing object is used as 'upper' or 'top', and the direction of two sides of the socket parallel to the target bearing object is used as 'left' or 'right'.
The multi-position combined socket combines a plurality of detachable functional modules with different functions to realize multiple functions, such as a switch function, a power socket function, a computer socket function and the like.
The related art provides a multiple-unit type socket including: a plurality of dismantlement formula functional module, panel, mount, wherein, a plurality of dismantlement formula functional module are installed on corresponding installation position on the mount, and the panel carries out the joint through the joint structure that corresponds with the top surface of mount for the panel can be dismantled, like this, after dismantling the panel, can dismantle the dismantlement of formula functional module.
However, for the clamping manner of the panel and the fixing frame in the related art, when the panel is disassembled, a special tool is generally required to disassemble, which is time-consuming and labor-consuming.
An embodiment of the present invention provides a socket, as shown in fig. 1, including: the detachable functional module 100, the fixing frame 3 and the panel 4; the detachable functional module 100 is detachably located inside the fixing frame 3. The panel 4 is magnetically connected with the top surface of the fixed frame 3, and the protection effect and the appearance beautifying effect are provided for the socket through the panel 4.
The socket provided by the embodiment of the utility model includes but is not limited to a target bearing object socket, and the corresponding target bearing object is the target bearing object. In some examples, the embodiment of the present invention is exemplified by a target carrier socket, in which the top surface of the fixing frame 3 is the surface of the fixing frame 3 far away from the target carrier, and is actually the top surface of the top plate 301 of the fixing frame 3. Target supports include, but are not limited to: walls, support platforms such as provided by a desktop, etc.
According to the socket provided by the embodiment of the utility model, the panel 4 is in magnetic connection with the top surface of the fixed frame 3, and the magnetic connection between the panel 4 and the top surface of the fixed frame 3 at least has the advantages that the panel 4 is rapidly disassembled and assembled, time and labor are saved, the structures of the panel 4 and the fixed frame 3 are simplified, and the problems in the related technology are effectively solved.
In some possible implementations, as shown in fig. 2, the socket provided in the embodiment of the present invention further includes: a plurality of first magnetic force pieces 71 and a plurality of second magnetic force pieces 72, a plurality of first magnetic force pieces 71 are located on the bottom surface of the panel 4, a plurality of second magnetic force pieces 72 are located on the top surface of the fixing frame 3, a plurality of second magnetic force pieces 72 correspond to the plurality of first magnetic force pieces 71 one to one, and the second magnetic force pieces 72 are connected with the corresponding first magnetic force pieces 71 in a corresponding magnetic manner. The magnetic connection is achieved by providing corresponding magnetic elements on the panel 4 and the fixing, respectively.
In some possible implementations, as shown in fig. 2, the socket provided in the embodiment of the present invention further includes: a plurality of first fixing members 81 and a plurality of second fixing members 82. The first fixing members 81 are located on the bottom surface of the panel 4, the first fixing members 81 correspond to the first magnetic members 71 one by one, and the first fixing members 81 are detachably connected to the corresponding first magnetic members 71.
In some examples, the panel 4 and the first fixing member 81 are integrally formed, i.e. connected in an integrally formed manner, to form a unitary structure, which not only facilitates increasing the strength, but also further simplifies the installation process of the first magnetic member 71.
In some possible implementations, the socket provided in the embodiment of the present invention further includes a plurality of second fixing parts 82, the plurality of second fixing parts 82 correspond to the plurality of first fixing parts 81 one to one, and the plurality of second fixing parts 82 are located at corresponding positions on the top surface of the fixing frame 3. The plurality of second fixing members 82 correspond to the plurality of second magnetic members 72 one by one, and the second fixing members 82 are detachably connected to the corresponding second magnetic members 72.
In some examples, the fixing frame 3 and the second fixing member 82 are integrally formed, i.e. connected in an integrally formed manner, to form an integral structure, which not only facilitates increasing the strength, but also further simplifies the installation process of the first magnetic member 71.
In some examples, as shown in fig. 3, the plurality of first fixing members 81 are uniformly distributed along the circumferential direction of the panel 4, for example, the plurality of first fixing members 81 are only located on two opposite sides of the bottom surface of the panel 4, which may be two sides distributed along the length direction of the panel 4 (i.e., the two sides are the width sides of the panel 4). The positions of the second fixing parts 82 correspond to the positions of the first fixing parts 81 one by one, and after the positions of the first fixing parts 81 are determined, the positions of the second fixing parts 82 are designed adaptively, so that the second fixing parts 82 are located at the corresponding positions on the top surface of the fixing frame 3.
The panel 4 and the fixing frame 3 are respectively provided with a fixing piece to be detachably connected with the corresponding magnetic piece. So set up, not only be convenient for magnetic force spare the assembly and dismantle, can also prevent losing of magnetic force spare after panel 4 is dismantled.
In some possible implementations, the first fixing member 81 is clamped with the corresponding first magnetic member 71, and the second fixing member 82 is clamped with the corresponding second magnetic member 72, and the clamping manner has the advantages of simple structure, convenience in operation and the like.
In some examples, the first fixing member 81 and the second fixing member 82 are integrally formed, and the first magnetic member 71 and the second magnetic member 72 are integrally formed, i.e., the first fixing member and the second fixing member are respectively a unitary structure.
In some examples, as shown in fig. 3 and 4, the first fixing member 81 includes: the two opposite first fixing blocks 811 are provided with a first elastic cavity 812 between the two opposite first fixing blocks 811, and the first fixing blocks 811 are provided with a first limiting step 813.
The first magnetic member 71 has a first stepped hole 711, the first stepped hole 711 penetrates both ends of the first magnetic member 71, and the first stepped hole 711 has a second stopper step 712 therein. The first magnetic member 71 is sleeved outside the first fixing member 81 through the first step hole 711, and the second limiting step 712 abuts against the first limiting step 813.
In this way, the first fixing member 81 can be clamped with the first magnetic member 71. For example, the first fixed block 811 includes: the first main body section 8111 and the first buckle section 8112, the top end of the first main body section 8111 is connected with the bottom surface of the panel 4, the first buckle section 8112 is connected with the lower portion of the first main body section 8111, which is far away from the outer wall of the first elastic cavity 812, and the top end of the first buckle section 8112 serves as a first limit step 813.
As shown in fig. 4, the first magnetic member 71 includes: a first small diameter section 71a and a first large diameter section 71b, the diameter of the first small diameter section 71a being smaller than that of the first large diameter section 71b to form a first stepped hole 711. A portion of the bottom end of the first small diameter section 71a is connected to the top end of the first large diameter section 71b, and the remaining portion of the bottom end of the first small diameter section 71a serves as a second stopper step 712.
When the first fixing member 81 is engaged with the first magnetic member 71, the second limiting step 712 of the first magnetic member 71 abuts against the first limiting step 813, and the top end of the first magnetic member 71 abuts against the bottom surface of the panel 4.
In some examples, the outer profile of the first magnetic member 71 is a cylindrical structure, the first step hole 711 is a cylindrical hole with different diameters and coaxially connected, and accordingly, the first main body section 8111 is a circular arc column structure, and the first fastening section 8112 is a circular arc block structure.
In application, the first magnetic member 71 is inserted into and presses the first fastening section 8112 of the first fixing member 81 from the first fastening section 8112 through the first stepped hole 711, and due to the existence of the first elastic cavity 812, the first fastening section 8112 is compressed and deformed toward the first elastic cavity 812 to smoothly pass through the small-diameter portion of the first stepped hole 711 and enter the large-diameter portion of the first stepped hole 711 until the first main body 8111 is located at the small-diameter portion of the first stepped hole 711. At this time, the first fastening section 8112 returns to the original position, and the second limit step 712 of the first magnetic member 71 abuts against the first limit step 813.
When the first magnetic member 71 needs to be detached, only the two first fastening sections 8112 need to be pressed in opposite directions, and due to the existence of the first elastic cavity 812, the first fastening sections 8112 are compressed and deformed in the direction of the first elastic cavity 812, so that the small-diameter portion of the first step hole 711 on the first magnetic member 71 smoothly passes through the first fastening section 8112, and detachment can be completed.
In order to enable the first fastening section 8112 to smoothly pass through the first stepped hole 711 of the first magnetic member 71, the lower portion of the outer wall of the first fixing block 811 is in a chamfered structure, that is, at least a portion of the outer wall of the first fastening section 8112 is in a chamfered structure, and the radial thickness of the first fastening section 8112 is gradually reduced from the top end of the first fastening section 8112 to the bottom end thereof, so that the outer wall of the first fastening section 8112 can play a role in guiding the first fastening section 8112 to be inserted into the first stepped hole 711. Wherein the outer wall of the first snap section 8112 refers to the wall of the first snap section 8112 distal from the first resilient cavity 812.
The second fixing member 82 and the second magnetic member 72 may be assembled in the same manner as the first fixing member 81 and the first magnetic member 71. In some examples, as shown in fig. 5, the second fixing member 82 includes: two opposite second fixing blocks 821, a second elastic cavity 822 is provided between the two opposite second fixing blocks 821, and a third limiting step 823 is provided on the second fixing block 821.
As shown in fig. 5, the second magnetic member 72 has a second stepped hole 721, the second stepped hole 721 penetrates through two ends of the second magnetic member 72, and a fourth limiting step 722 is provided inside the second stepped hole 721. The second magnetic member 72 is sleeved outside the second fixing member 82 through the second stepped hole 721, and the fourth limiting step 722 abuts against the third limiting step 823. In this way, the second fixing member 82 can be clamped with the second magnetic member 72.
For example, as shown in fig. 5, the second fixing block 821 includes: a second main body section 8211 and a second fastening section 8212, a bottom end of the second main body section 8211 is connected to the top surface of the fixing frame 3, the second fastening section 8212 is connected to an upper portion of the second main body section 8211, which is far away from the outer wall of the second elastic cavity 822, and the bottom end of the second fastening section 8212 serves as a third limiting step 823.
As shown in fig. 5, the second magnetic member 72 includes: a second small diameter section 72a and a second large diameter section 72b, the diameter of the second small diameter section 72a being smaller than that of the second large diameter section 72b to form a second stepped hole 721. A part of the top end of the second small diameter section 72a is connected to the bottom end of the second large diameter section 72b, and the remaining part of the top end of the second small diameter section 72a serves as a fourth limit step 722. When the second fixing element 82 is clamped with the second magnetic element 72, the fourth limiting step 722 of the second magnetic element 72 abuts against the third limiting step 823, and the bottom end of the second magnetic element 72 abuts against the top surface of the fixing frame 3.
In some examples, the outer contour of the second magnetic member 72 is a cylindrical structure, the second stepped hole 721 is a cylindrical hole with different diameters and coaxially connected, and accordingly, the second main body section 8211 is a circular arc cylindrical structure, and the second fastening section 8212 is a circular arc block cylindrical structure. When in use, the second magnetic member 72 is sleeved in and presses the second fastening section 8212 of the second fixing member 82 from the second fastening section 8212 through the second stepped hole 721, and due to the existence of the second elastic cavity 822, the second fastening section 8212 is compressed and deformed toward the second elastic cavity 822 so as to smoothly pass through the small-diameter portion of the second stepped hole 721 and enter the large-diameter portion of the second stepped hole 721 until the second main body section 8211 is located at the small-diameter portion of the second stepped hole 721. At this time, the second latching section 8212 is restored to the original position, and the fourth limit step 722 of the second magnetic member 72 abuts against the third limit step 823.
When the second magnetic member 72 needs to be detached, only two second fastening sections 8212 need to be pressed in opposite directions, and due to the existence of the second elastic cavity 822, the second fastening sections 8212 are compressed and deformed in the direction of the second elastic cavity 822, so that the small diameter portion of the second stepped hole 721 on the second magnetic member 72 smoothly passes through the second fastening section 8212, and detachment can be completed.
In order to make the second fastening section 8212 smoothly pass through the second step hole 721 of the second magnetic member 72, the upper portion of the outer wall of the second fixing block 821 is in a chamfered structure, that is, the outer wall of the second fastening section 8212 is in a chamfered structure, and the radial thickness of the second fastening section 8212 is gradually increased from the top end of the second fastening section 8212 to the bottom end thereof, so that the outer wall of the second fastening section 8212 can play a role in guiding the second fastening section 8212 to be inserted into the second step hole 721. Wherein the outer wall of the second snap section 8212 refers to the wall of the second snap section 8212 remote from the second resilient cavity 822.
The bottom surface of the first magnetic member 71 and the bottom surface of the first fixing member 81 may be flush (see fig. 2), or may protrude below the bottom surface of the first fixing member 81; the top surface of the second magnetic member 72 may be flush with the top surface of the second fixing member 82 (see fig. 2), or may protrude above the top surface of the second fixing member 82.
With the above design, surface-to-surface contact between the bottom surface of the first magnetic member 71 and the top surface of the second magnetic member 72 can be achieved to achieve magnetic connection.
In some possible implementations, as shown in fig. 2, the first magnetic member 71 protrudes out of the bottom surface of the panel 4, the top surface of the fixing frame 3 has a second receiving groove 34 at a corresponding position, the second receiving groove 34 includes a first receiving section 341 and a second receiving section 342 connected to each other, the second magnetic member 72 is located in the first receiving section 341, and the first magnetic member 71 is located in the second receiving section 342.
Wherein, the second magnetic member 72 is located in the first receiving section 341 and further includes: the second fixing member 82 is connected to the first receiving portion 341. Under the situation, the contact type magnetic connection between the first magnetic piece 71 and the second magnetic piece 72 can be realized, the surface-to-surface contact between other parts of the panel 4 and other parts of the top surface of the fixed frame 3 is not influenced, the increase of the thickness of the target socket along the direction vertical to the target bearing object is avoided, and the thinning development of the target socket is facilitated.
In some possible implementations, as shown in fig. 11 and 12, the detachable functional module 100 includes: the base 11, the functional component 12 and the face lid 13, wherein, the face lid 13 is covered on the top surface of the base 11, and the functional component 12 is located inside the second accommodating cavity 111 of the base 11.
Regarding the magnetic connection between the panel 4 and the top surface of the fixing frame 3, further, the panel 4 may be magnetically connected to the rest position of the top surface of the face cover 13 of some of the functional modules 1 to enhance the installation stability of the panel 4. The magnetic connection between the panel 4 and the top surface of the cover 13 of the functional module 1 may be the same as any of the embodiments described above with respect to the magnetic connection between the other portions of the panel 4 and the top surface of the fixing frame 3, and will not be described in detail herein.
The following is a further description of the socket-to-socket configuration with the socket as the socket:
an embodiment of the present invention provides a socket, as shown in fig. 1, including: the detachable functional module 100, the clamping mechanism 2, the fixing frame 3 and the panel 4. The panel 4 covers the top surface of the fixing frame 3, wherein the top surface of the fixing frame 3 is the surface of the fixing frame 3 far away from the target bearing object, and the panel 4 provides a protection effect and an appearance beautifying effect for the socket.
In the embodiment of the present invention, as shown in fig. 1, the socket includes one or more functional modules 1, when one functional module 1 is included, the functional module 1 is the detachable functional module 100, when a plurality of functional modules 1 are included (for example, two or more functional modules 1), at least one of the functional modules 1 is the detachable functional module 100, for example, all the functional modules 1 are the detachable functional module 100, or a part of the functional modules 1 are the detachable functional module 100. When the outlet includes a plurality of functional modules 1, the functions of the plurality of functional modules 1 may be different from each other, may be partially the same, or may be all the same. By way of example, the functions of the plurality of functional modules 1 include, but are not limited to: switch function, power socket function, computer socket function, audio socket function, etc., and the corresponding socket may also be referred to as a multi-position combination socket.
When the socket includes a plurality of detachable functional modules 100, the detachable functional modules 100 are detached from the socket in the same manner, and the detachment of the detachable functional modules 100 is exemplarily described as follows:
in some possible implementations, the detachable functional module 100 is detached by the latch mechanism 2. In some examples, the removable functional module 100 is a unitary structure with the latch mechanism 2.
The detachable functional module 100 corresponds to two latch mechanisms 2, and the two latch mechanisms 2 are respectively located on two opposite first outer side walls of the detachable functional module 100. As shown in fig. 1, the "two first outer side walls of the detachable functional module 100" referred to herein refer to two outer side walls distributed along the width direction of the socket, and adjacent sides of the two first outer side walls are left vacant to facilitate the pressing operation.
The detachable functional module 100 is detachably connected to the fixing frame 3 through two clamping mechanisms 2, and the following exemplary description is provided on the connection mode between the detachable functional module 100 and the fixing frame 3:
as shown in fig. 1, the latch mechanism 2 includes: the first elastic clamping piece 21 is connected with the unlocking piece 22, the first end of the first elastic clamping piece 21 is connected with the first outer side wall of the detachable functional module 100, and the second end of the first elastic clamping piece 21 is connected with the unlocking piece 22. The fixing frame 3 is provided with a first accommodating cavity 31 and a first clamping hole 32, the detachable functional module 100 is located in the first accommodating cavity 31, and the first elastic clamping piece 21 is clamped with the first clamping hole 32, so that the detachable functional module 100 is fixed in the fixing frame 3. The unlocking piece 22 is configured to be capable of a pressing motion in a direction parallel to the target carrier to press the first elastic latch 21 so that the first elastic latch 21 is released from the engagement with the first engagement hole 32.
As shown in fig. 6, when the clamping between the detachable functional module 100 and the fixing frame 3 needs to be released, the unlocking piece 22 of the two clamping mechanisms 2 is pressed simultaneously along the first direction D1 (the pressing directions of the two unlocking pieces 22 are opposite), the unlocking piece 22 performs pressing movement, the unlocking piece 22 performing pressing movement extrudes the first elastic clamping piece 21, so that the first elastic clamping piece 21 generates corresponding extrusion deformation movement, the first elastic clamping piece 21 moves to release the clamping with the first clamping hole 32, and the detachable functional module 100 can be taken out along the second direction D2. That is to say, the latch mechanism 2 includes the joint state and the unblock state, and first elasticity fastener 21 has joint position and non-joint position in the socket, and under the joint state, first elasticity fastener 21 is located joint position and blocks mutually with first calorie of hole 32, and under the unblock state, first elasticity fastener 21 withdraws from to non-joint position and releases the joint with first calorie of hole 32.
It can be seen that the socket provided in the embodiment of the present invention includes the detachable functional module 100, and the detachable functional module 100 is connected to the fixing frame 3 through the fastening mechanism 2, so that the detachable functional module 100 is detachable with respect to the fixing frame 3. Like this, the user not only can come to change dismantlement formula functional module 100 according to the in-service use scene with adaptability, has improved the range of application of socket, in case dismantlement formula functional module 100 takes place to damage, the user only need change the dismantlement formula functional module 100 that damages moreover, and need not replace whole socket, has reached the purpose of resource rationalization make full use of, and the cost is reduced.
In addition, by positioning the latch mechanism 2 on the detachable functional module 100, the first latch hole 32 is positioned on the fixing frame 3, which is beneficial to simplify the internal structure of the socket. Because clamping mechanism 2 contains first elasticity fastener 21 and unblock piece 22 simultaneously, when needs are relieved the joint, press two clamping mechanism 2's unblock piece 22 simultaneously along the direction that is on a parallel with the target and bear the object, can make first elasticity fastener 21 and first calorie of hole 32 relieve the joint, this makes the fixed of dismantlement formula functional module 100 on mount 3 and dismantles all easy to operate, has higher adaptability to the socket of installing on the target bears the object.
In some possible implementations, as shown in fig. 7, the fixing frame 3 includes: a top plate 301 and a side frame 302, wherein the top plate 301 is connected with the top end of the side frame 302, and the top plate 301 is arranged outside the side frame 302 in a surrounding way. Wherein, the top end of the side frame 302 is the end of the side frame 302 far away from the target bearing object; the top plate 301 is also used to connect with the panel 4 so that the panel 4 is covered on the top surface of the fixing frame 3.
As shown in fig. 7, the first receiving cavity 31 is located inside the side frame 302, the first engaging hole 32 is located at a connection position of the top plate 301 and the side frame 302, the top plate 301 has a first receiving groove 33, the first receiving groove 33 is communicated with the first engaging hole 32, and the first receiving groove 33 receives the unlocking member 22 and allows a pressing movement of the unlocking member 22 (see fig. 8). That is to say, under the assembled state, unlocking piece 22 is located inside first storage tank 33, and to latch mechanism 2, first elasticity fastener 21, unlocking piece 22 distribute in proper order towards the outside direction of socket, and when first elasticity fastener 21 was connected with first card hole 32, unlocking piece 22 lapped on first storage tank 33 on roof 301, and when releasing the joint, unlocking piece 22 was along the diapire of first storage tank 33 press the motion can.
The design of the clamping mechanism 2 makes full use of the inner space of the socket, and the socket is more compact in structure and cannot be additionally increased in size on the premise of meeting the requirement of multi-functionalization of the socket.
In some possible implementations, as shown in fig. 9, the first elastic latch 21 is disposed obliquely, and there is a gap between the first elastic latch 21 and the first outer side wall of the detachable functional module 100.
For example, the first elastic latch 21 is plate-shaped, and the width of the gap gradually increases from the first end of the first elastic latch 21 to the second end thereof.
The above-described design of the first elastic latch 21 makes the first elastic latch 21 elastic, and the gap serves as an elastic deformation space of the first elastic latch 21. When the first elastic latch 21 is pressed by the unlocking member 22, the first elastic latch 21 compresses the gap and approaches in a direction away from the fixing frame 3 to withdraw from the engagement with the first engaging hole 32 of the fixing frame 3.
In addition, when the detachable functional module 100 is located inside the first accommodating cavity 31 of the fixing frame 3, the second end of the first elastic clip 21 is closer to the fixing frame 3 than the first end thereof, so that the second end of the first elastic clip 21 can extend into the first clipping hole 32 to be clipped therewith.
With respect to the manner of clipping between the second end of the first elastic catch 21 and the first clipping hole 32, in some examples, as shown in fig. 10, the second end of the first elastic catch 21 includes: first joint section 211, fixed connection section 212 and second joint section 213, first joint section 211, fixed connection section 212, second joint section 213 connect in order, for example, fixed connection section 212 is located the intermediate position between first joint section 211 and second joint section 213.
The first clamping section 211 and the second clamping section 213 are respectively used for clamping with the first clamping hole 32, wherein the first clamping hole 32 is provided with a clamping wall, the first clamping section 211 and the second clamping section 213 are respectively abutted with the corresponding positions of the clamping wall, and the abutting direction is along the direction perpendicular to the target bearing object, so that the first elastic clamping piece 21 is prevented from being separated from the first clamping hole 32 along the direction far away from the target bearing object. In addition, the fixed connection section 212 is connected with the connecting end of the unlocking piece 22, and it can be seen that, the above design of the second end of the first elastic clamping piece 21 enables the second end of the first elastic clamping piece 21 to simultaneously undertake the purposes of clamping with the first clamping hole 32 and connecting with the unlocking piece 22, and on the premise of ensuring that the clamping mechanism 2 simultaneously has clamping and self-unlocking functions, the structure of the clamping mechanism 2 is more compact, which is beneficial to the volume miniaturization development of the socket.
In the embodiment of the present invention, the first fastening hole 32 is located at the connection position of the top plate 301 and the side frame 302, for example, the first fastening hole 32 includes a first hole section and a second hole section that are communicated with each other, the first hole section is opened on the side frame 302, the second hole section is opened on the top plate 301, and a portion of the top plate 301 located at one side of the second hole section serves as a fastening wall of the first fastening hole 32.
When the first elastic latch 21 is latched with the first latching hole 32, the top surface of the first latching section 211 and the top surface of the second latching section 213 of the first elastic latch 21 are abutted with the bottom surface of the latching wall. The wall portion of the top plate 301 on one side of the second hole segment is further formed with a groove to communicate with the first engaging hole 32, and the groove is used as a portion of the first receiving groove 33 to receive the connecting end of the unlocking member 22.
In some possible implementations, as shown in fig. 10, the latch mechanism 2 provided by the embodiment of the present invention further includes: and a reinforcing member 23, the reinforcing member 23 being connected to the connection end of the unlocking member 22 and the surface of the first resilient latch 21 facing the first outer sidewall of the detachable functional module 100, respectively.
For example, a first surface of the reinforcing member 23 is connected with a surface of the first elastic latch 21, and a top surface of the reinforcing member 23 adjacent to the first surface is connected with a connecting end of the unlocking member 22.
Through setting up above-mentioned reinforcement 23, can strengthen the intensity of the junction of first elasticity fastener 21 and unblock piece 22, improve the fatigue resistance of this junction.
Further, as shown in fig. 10, the socket provided by the embodiment of the present invention further includes a stop member 24, and the stop member 24 is located on the first outer side wall of the detachable functional module 100. The stopper 24 is configured such that the stopper 24 abuts against the reinforcement 23 when the first resilient latch 21 moves to release the engagement with the first engagement hole 32.
When the unlocking piece 22 performs a pressing motion to release the first elastic clamping piece 21 from the first clamping hole 32, the reinforcing piece 23 can abut against the stop piece 24 to realize a stop. Therefore, the first elastic clamping piece 21 can be prevented from being excessively extruded and deformed, and the service life of the clamping mechanism 2 is prolonged.
Illustratively, the surface of the stopper 24 facing the reinforcement member 23 is a plane (e.g., the stopper 24 is a rectangular block), and correspondingly, the surface of the reinforcement member 23 facing the stopper 24 is also a plane. In this way, the contact between the stopper 24 and the reinforcement 23 is contact between the surface surfaces, and has a larger contact area, which is beneficial to optimizing the stopper effect.
In the embodiment of the present invention, as shown in fig. 9, each latch mechanism 2 includes two first elastic latches 21, and the two first elastic latches 21 are symmetrically arranged with respect to an unlocking member 22. That is, the first ends of the two first elastic latches 21 are respectively connected to both sides of the first outer sidewall of the detachable functional module 100, and the second ends of the two first elastic latches 21 are respectively connected to both sides of the connecting end of the unlocking member 22.
By having each clamping mechanism 2 comprising two symmetrically distributed first resilient latches 21, this facilitates obtaining an evenly distributed clamping force and improves the clamping stability.
In some possible implementations, as shown in fig. 9, unlocking member 22 includes: the arm portion 221 and the pressing portion 222; wherein, the first end of the arm 221 is connected with the first end of the pressing portion 222, and the second end of the arm 221 is connected with the second end of the first elastic catch 21; as shown in fig. 8, the second end of the pressing portion 222 serves as a pressing end located outside the sidewall of the fixing frame 3.
The pressing end of the pressing portion 222 penetrates through the sidewall of the fixing frame 3 and is exposed to the outside of the fixing frame, so that the pressing end of the pressing portion 222 is exposed to the outside of the sidewall of the fixing frame 3, so that a user can easily press the pressing end, and further press the pressing portion 222.
The structure of the first receiving groove 33 on the top plate 301 of the fixing frame 3 is matched with the structure of the unlocking piece 22, so that the purpose that the first receiving groove 33 limits the unlocking piece 22 in a specific direction can be achieved, and the unlocking piece 22 can only move along the pressing direction.
Further, the top plate 301 has a pressing groove on the outer side thereof, the pressing groove being in communication with the first receiving groove 33, the pressing groove being configured to receive a finger of a user so as to facilitate pinching a pressing end of the pressing portion 222 with the finger.
Illustratively, the pressing portion 222 and the arm portion 221 are each in a plate shape, and a first end of the pressing portion 222 is connected to an intermediate position of a first end of the arm portion 221. For example, the length of the pressing portion 222 is the same as the width of the finger of the user, and the length of the arm portion 221 is the same as the width of the first outer sidewall of the detachable functional module 100.
In some possible implementations, as shown in fig. 8, the socket provided in the embodiment of the present invention further includes: a first positioning member 51, and a plurality of second positioning members 52. As shown in fig. 7, the fixing frame 3 includes: the first positioning member 51 is connected to a side portion of the top plate 301 facing the first receiving cavity 31, and a plurality of first positioning grooves 510 are formed on a surface of the first positioning member 51 facing the first receiving cavity 31. As shown in fig. 9, the plurality of second positioning members 52 are located on the first outer sidewall of the detachable functional module 100, the plurality of second positioning members 52 correspond to the plurality of first positioning slots 510 one by one, and the second positioning members 52 are located in the corresponding first positioning slots 510 (refer to fig. 8). The first positioning groove 510 is configured to provide positioning of the second positioning member 52 in a first direction and a second direction, wherein the first direction is a direction parallel to the panel 4, and the second direction is a direction perpendicular to the panel 4.
Illustratively, the number of the first positioning slots 510 and the second positioning members 52 is two, and the first positioning slots 510 are rectangular slots, and the two second positioning members 52 are located between the two first elastic latches 21. The first positioning groove 510 has a groove bottom wall, a first groove side wall, a second groove side wall and a third groove side wall, wherein the first groove side wall, the second groove side wall and the third groove side wall are vertically connected in sequence, and the three are connected with the groove bottom wall. Between the adjacent two first positioning grooves 510, there is a positioning spacer having one surface for serving as a first groove sidewall of one of the adjacent two first positioning grooves 510 and the other surface for serving as a third groove sidewall of the other of the adjacent two first positioning grooves 510.
Correspondingly, the second positioning member 52 has a positioning bottom wall, a first positioning sidewall, a second positioning sidewall and a third positioning sidewall, wherein the first positioning sidewall, the second positioning sidewall and the third positioning sidewall are vertically connected in sequence, and the three are connected with the positioning bottom wall. Adjacent two second positioning members 52 have a positioning gap therebetween, and the positioning gap is used for accommodating a positioning partition plate. When the detachable functional module 100 is applied, the second positioning element 52 is located in the corresponding first positioning groove 510, and the first positioning sidewall, the second positioning sidewall, and the third positioning sidewall of the second positioning element 52 are respectively abutted against the first groove sidewall, the second groove sidewall, and the third groove sidewall of the first positioning groove 510, so that the detachable functional module 100 cannot move in any direction parallel to the panel 4 in the first accommodating cavity 31 of the fixing frame 3.
The bottom positioning wall of the second positioning member 52 abuts against the bottom wall of the first positioning groove 510, so that the detachable functional module 100 cannot move in the first accommodating cavity 31 of the fixing frame 3 toward the target object.
Through the design of the positioning piece, the installation stability of the detachable functional module 100 in the fixing frame 3 can be further increased, and the detachment of the detachable functional module 100 from the fixing frame 3 is not affected. After the first elastic clip 21 is released from the first clip hole 32, the detachable functional module 100 is taken out of the first accommodating cavity 31 along the direction away from the target bearing object.
In some examples, as shown in fig. 9, the arm 221 has an interference prevention cavity 223 thereon, and in conjunction with fig. 8, the interference prevention cavity 223 is configured to receive the first positioning member 51 when the first resilient latch 21 is disengaged from the first latching hole 32.
The interference prevention chamber 223 is designed to prevent the unlocking member 22 from interfering with the first positioning member 51 when the pressing motion is performed. In addition, this causes the arm 221 to assume a U-shaped configuration due to the design of the anti-interference cavity 223.
For the socket provided by the embodiment of the present invention, as shown in fig. 11 and 12, the detachable functional module 100 includes: a base 11, a functional component 12 and a face cover 13; the base 11 has a second accommodating cavity 111, and the functional component 12 is located inside the second accommodating cavity 111; the top end of the base 11 is covered by the surface cover 13, and the surface cover 13 is detachably connected with the base 11. The "first outer side wall of the detachable functional module 100" according to the embodiment of the present invention refers to an outer side wall at a corresponding position on the base 11, that is, the outer side wall is considered to be the first outer side portion of the base 11.
In some examples, the latch mechanism 2 and the base 11 of the detachable functional module 100 are connected in an integrated manner, that is, the latch mechanism 2 and the base 11 are formed as a unitary structure. In the embodiment of the utility model, the surface cover 13 is detachably connected with the base 11, so that the functional components 12 in the surface cover are convenient to replace or maintain, and when the functional components 12 are damaged, only the functional components 12 in the surface cover need to be replaced, so that the maintenance operation of the detachable functional module 100 is more convenient.
In some examples, the detachable connection between the face cover 13 and the base 11 includes, but is not limited to: clamping, screw connection, pin connection and the like.
For example, the surface cover 13 and the base 11 are detachably connected by a clamping manner, in this case, as shown in fig. 11 and fig. 12, the detachable functional module 100 provided in the embodiment of the present invention further includes: a plurality of second resilient latches 14 and a plurality of rigid latches 15. The second elastic latch 14 is connected with the lateral edge of the face cover 13, and the plurality of second elastic latches 14 are distributed around the circumferential direction of the face cover 13 at intervals. The rigid latches 15 are connected to the outer side wall of the base 11, and a plurality of rigid latches 15 are distributed at intervals around the circumference of the base 11. The plurality of second elastic clamping pieces 14 correspond to the plurality of rigid clamping pieces 15 one by one, second clamping holes 140 are formed in the second elastic clamping pieces 14, and the rigid clamping pieces 15 are clamped with the corresponding second clamping holes 140 in the second elastic clamping pieces 14.
The rigid clamping pieces 15 correspond to the second elastic clamping pieces 14 in arrangement positions one by one, for example, the rigid clamping pieces 15 are arranged on two opposite second outer side walls of the base 11 (the clamping mechanism 2 is arranged on the first outer side wall of the base 11), and two or more rigid clamping pieces 15 are arranged on each second outer side wall of the base 11. This does benefit to the idle space on the lateral wall of make full use of base 11 for base 11 is satisfying under the prerequisite of multi-functionalization, and base 11's structure is compacter.
Illustratively, the face cover 13 includes: the face cover comprises a face cover panel and a face cover side edge, wherein the face cover panel is connected with the top end of the face cover side edge, and the second elastic clamping piece 14 is connected with the bottom of the face cover side edge and extends towards the direction close to the target bearing object.
In some examples, as shown in fig. 11, the second elastic latch 14 has a rectangular plate-shaped structure with a simple structure, and the second latch hole 140 of the second elastic latch 14 has a rectangular hole, a trapezoidal hole, or the like with a simple structure. The rigid card 15 has a trapezoidal block structure, and the surface of the rigid card 15 facing the second elastic card 14 is provided as an inclined plane, which causes the thickness of the rigid card 15 to gradually increase from the top end of the rigid card 15 to the bottom end thereof.
The inclined plane of the rigid latch 15 can guide the latching of the rigid latch 15 into the second latching hole 140, and when the face cover 13 is covered on the base 11, the second elastic latch 14 moves downward along the inclined plane of the rigid latch 15 (accordingly, the rigid latch 15 presses the second elastic latch 14 to deform it to allow it to move downward) until the second latching hole 140 on the second elastic latch 14 is opposite to the rigid latch 15, and the rigid latch 15 enters the second latching hole 140. Therefore, the second elastic clamping piece 14 elastically restores to the original position, the bottom wall of the rigid clamping piece 15 is abutted to the bottom wall of the second clamping hole 140 of the second elastic clamping piece 14, and the rigid clamping piece 15 is clamped with the second clamping hole 140.
In some possible implementations, as shown in fig. 13, the detachable functional module 100 further includes: a plurality of third positioning members 61 and a plurality of fourth positioning members 62; the plurality of third positioning members 61 are respectively connected to the bottom surface of the surface cover 13, wherein the bottom surface of the surface cover 13 is a surface of the surface cover 13 facing the target object. The plurality of fourth positioning members 62 are respectively connected to the inner side wall of the second accommodating cavity 111 of the base 11, and the plurality of fourth positioning members 62 correspond to the plurality of third positioning members 61 one to one. The fourth positioning element 62 abuts against the corresponding third positioning element 61 for providing positioning of the facing cover 13 in a first direction, wherein the first direction is a direction parallel to the panel 4.
The third positioning members 61 are connected to the bottom surface of the front cover panel and located in the inner cavity of the side edge of the front cover, and the fourth positioning members 62 are connected to the inner sidewall of the base 11 (i.e., the inner sidewall of the second receiving cavity 111).
In some examples, the connection lines between the plurality of third positioning members 61 are formed in a specific geometric shape, such as a rectangular shape, a convex shape, a triangular shape, etc., which may be adaptively designed according to the structure of the base 11.
Correspondingly, the connecting line between the plurality of fourth positioning members 62 is also shaped correspondingly, and the plurality of fourth positioning members 62 cooperate to form a positioning cavity having the specific shape, such as the rectangular positioning cavity shown in fig. 13. The plurality of third positioning members 61 are located inside the positioning cavity formed by the plurality of fourth positioning members 62, and the third positioning members 61 and the fourth positioning members 62 are abutted against each other. Thus, the fourth positioning element 62 can provide a stop for the third positioning element 61, preventing the third positioning element 61 from moving in any direction parallel to the panel 4, and further positioning the front cover 13.
In order to facilitate the plurality of third positioning members 61 to smoothly and rapidly enter the positioning cavity formed by the plurality of fourth positioning members 62, as shown in fig. 13, a chamfer structure is disposed on a surface of a side portion of the third positioning member 61 facing the base 11 to play a guiding role in guiding the third positioning member 61 to enter the positioning cavity.
Further, as shown in fig. 13, the side of the third positioning member 61 facing the base 11 is provided with a second positioning groove 610, and the second positioning groove 610 is used for accommodating the side wall of the base 11 at the corresponding position to provide positioning for the face cover 13 along a second direction, wherein the second direction is a direction perpendicular to the panel 4.
In this case, since the second positioning groove 610 of the third positioning member 61 overlaps the top end of the side wall at the corresponding position of the base 11, not only the positioning in the first direction but also the positioning in the second direction between the face cover 13 and the base 11 is enabled, and a more stable positioning effect is obtained.
Further, as shown in fig. 13, the bottom end of the third positioning element 61 is abutted against the top end of the functional component 12, so that when the face cover 13 is mounted on the base 11, the second positioning section is pressed on the top end of the functional component 12 at the same time to limit the functional component 12, so that the functional component 12 is stably placed on the base 11.
In some examples, the third positioning member 61 includes: first location section and second location section, the top of first location section is connected with the bottom surface of face lid 13, and the bottom of first location section is connected with the top of second location section, and forms second constant head tank 610 between the bottom of first location section and the second location section. The width of the first positioning section is greater than that of the second positioning section, so that the top end of the second positioning section is connected with only one part of the bottom end of the first positioning section, and the rest part of the bottom end of the first positioning section is idle and is matched with the side part of the second positioning section to form a second positioning groove 610.
The top end of the sidewall of the base 11 abuts against the bottom end of the first positioning section in the second positioning groove 610, and meanwhile, the second positioning section abuts against the corresponding fourth positioning member 62. In this case, since the idle portion at the bottom end of the first positioning section is overlapped with the top end of the side wall at the corresponding position of the base 11, the positioning between the face cover 13 and the base 11 along the second direction is also formed, and the positioning between the second positioning section and the fourth positioning member 62 along the first direction is formed, so as to obtain a more stable positioning effect.
In addition, the bottom end of the second positioning segment is abutted against the top end of the functional component 12, and further, in order to improve the limiting effect of the third positioning element 61 on the functional component 12, the third positioning element 61 may further include: and the other side of the first positioning section is vertically connected with the middle position of the upper part of the third positioning section, and the other side of the second positioning section is vertically connected with the middle position of the lower part of the third positioning section, so that the bottom end of the third positioning section and the bottom end of the second positioning section are simultaneously abutted against the top end of the functional component 12.
For example, the first positioning section, the second positioning section and the third positioning section are all plate-shaped structures, so that the top end of the third positioning member 61 is in a T-shaped structure, which is provided by the top end of the first positioning section and the top end of the third positioning section; the bottom end of the third positioning member 61 also presents a T-shaped configuration, which is provided by the top end of the second positioning segment and the top end of the third positioning segment.
As shown in fig. 1 or fig. 15, the socket according to any of the above-mentioned embodiments includes a plurality of functional modules 1, the functional modules 1 are distributed in sequence, and at least one of the functional modules 1 is the detachable functional module 100 shown above.
According to the socket provided by the embodiment of the utility model, the panel 4 is detachably connected with the top surface of the fixed frame 3, so that the panel 4 is more conveniently detached from the fixed frame 3, and the detachable functional module 100 can be replaced or maintained in the fixed frame 3 after the panel 4 is detached. The "top surface of the holder 3" described herein refers to the top surface of the top plate 301 of the holder 3.
The panel 4 includes a panel body and a panel side edge, wherein the panel body is connected with the top end of the panel side edge in some examples, and the panel side edge is located outside the pressing end of the unlocking piece 22 of the latch mechanism 2 to cover the pressing end of the unlocking piece 22, which is beneficial to improving the aesthetic property of the socket. In addition, the bottom surface of the panel 4 according to the embodiment of the present invention may be regarded as the bottom surface of the panel body. The panel body of the panel 4 is adaptively designed according to the specific arrangement of the plurality of functional modules 1, and for example, the panel body is provided with an insertion hole, an exposure hole for exposing the face cover 13, and the like.
As shown in fig. 11, the functional module 12 includes: a first electric connector 121, an electric interface 122 and a circuit board 123, wherein the first electric connector 121 and the electric interface 122 are respectively connected with the circuit board 123, the first electric connector 121 penetrates and is exposed under the base 11, and the electric interface 122 penetrates and is exposed on the face cover 13.
Referring to fig. 14, the fixing frame 3 is provided with a second electrical connector 124, and the second electrical connector 124 is connected to the first electrical connector 121, and the connection includes both mechanical connection and electrical connection.
By arranging the first electrical connector 121 in the detachable functional module 100 and by providing the second electrical connector 124 in the mounting bracket 3, the first electrical connector 121 of the detachable functional module 100 can be connected to the second electrical connector 124 of the mounting bracket 3 when the detachable functional module 100 is mounted, and thus the electrical continuity of the detachable functional module 100 in the socket can be achieved.
Since the electrical interface 122 and the first electrical connector 121 are both connected to the circuit board 123, the electrical interface 122 and the first electrical connector 121 are electrically connected, so that the detachable functional module 100 can perform corresponding functions on an external electrical device.
Thus, in use, the electrical connector of the external electrical device is connected to the electrical interface 122. This kind of mode has not only improved the compatibility between socket and a plurality of dismantlement formula functional module 100, and has reduced the assembly degree of difficulty of dismantlement formula functional module 100 in mount 3, improves assembly efficiency, has simplified the inner structure of socket.
In addition, the first electrical connector 121 and the second electrical connector 124 are both located inside the socket, which is beneficial to improving the aesthetic appearance of the socket. Compared with the way of wiring by using external wires for example to realize the electrical conduction of the detachable functional module 100 in the socket, the way of connecting the first electrical connector 121 and the second electrical connector 124 by the embodiment of the utility model is simpler and easier to operate, and is also beneficial to reducing the internal wiring of the socket.
The structure of the electrical interface 122 may be adaptively designed according to the actual usage scenario, for example, the electrical interface 122 may be designed as a power interface, a USB interface, an HDMI interface, a network cable interface, an optical fiber interface, or the like.
In the embodiment of the present invention, the connection manner between the second electrical connector 124 and the first electrical connector 121 includes: a pin-socket connection (see fig. 14), a pin-socket connection, or a contact-contact connection, for example, in the form of a silver dot. As shown in fig. 14, first electrical connector 121 is a pin and second electrical connector 124 is a socket, e.g., an R-socket, both of which are pin-socket connections.
In some possible implementations, as shown in fig. 15, the socket includes a plurality of functional modules 1 distributed in sequence, and at least one of the functional modules 1 is a detachable functional module 100. For example, when one of the functional modules 1 is the detachable functional module 100, the other one is the fixed functional module 1.
The detachable functional module 100 can be electrically connected to the socket in the same manner as the fixed functional module 1. For example, the electrical connectors of the fixed functional modules 1 are in the form of sockets, and the second electrical connectors 124 of the removable functional modules 100 are in the form of sockets, and the sockets are connected together to a conductive connecting strip (e.g., a copper strip).
For example, when all of the plurality of functional modules 1 are the detachable functional modules 100, the electrical conduction modes of the detachable functional modules 100 in the socket may be the same.
For example, for the detachable functional modules 100, the second electrical connectors 124 and the first electrical connectors 121 are all connected by a pin-and-socket connection (in which, as shown in fig. 14, the first electrical connectors 121 are pins, and the second electrical connectors 124 are sockets, for example, R-shaped sockets), and these sockets can be connected together with a conductive connecting strip. The above embodiments can not only fully utilize the internal structure of the socket, make the structure compact, and the volume miniaturized, but also be beneficial to reducing the cost.
In some possible implementations, as shown in fig. 15, the socket includes a plurality of functional modules 1 distributed in sequence, and at least one of the functional modules 1 is a detachable functional module 100.
As shown in fig. 15, the detachable functional module 100 includes: a main body part 1a and an extension part 1b, the extension part 1b being connected to a second side of the main body part 1a, wherein the second side is a side of the main body part 1a facing the adjacent functional module 1; referring to fig. 16, the first electrical connection member 121 is included in the extension portion 1 b.
Through the design, the first electrical connector 121 is arranged in the extension portion 1b and located on the second side of the main body portion 1a, and the implementation manner not only can make full use of the internal idle space of the socket, but also avoids increasing the thickness of the socket, and is beneficial to development of lightness and thinness of the socket.
When the detachable functional module 100 has two opposite second sides, that is, two adjacent functional modules 1 are located on two sides of the detachable functional module, the extending portion 1b is located on one of the second sides of the main body portion 1a, so as to meet the purpose of reducing the material consumption of the electrical connector in the socket.
For example, when the connection manner between the second electrical connector 124 in the detachable functional module 100 and the first electrical connector 121 built in the fixing frame 3 is a plug-and-socket connection manner, the position of the extension portion 1b may be sufficient to reduce the usable length of the conductive connecting strip.
When the detachable functional module 100 is designed to include the main body portion 1a and the extension portion 1b, the base 11, the circuit board 123 of the functional module 12, and the face cover 13 thereof are also designed to have the main body portion and the extension portion accordingly.
For example, as shown in fig. 16, the base 11 includes: and a base main body part 11a and a base extension part 11b connected, the base main body part 11a having one part of the second receiving cavity 111, and the base extension part 11b having the other part of the second receiving cavity 111.
The wiring board 123 includes: and the circuit board main body part 123a and the circuit board extension part 123b are connected, wherein the circuit board main body part 123a is positioned inside the base main body part 11a, and the circuit board extension part 123b is positioned inside the base extension part 11 b.
Referring to fig. 12, the face cover 13 includes: a face cover main body part 13a and a face cover extension part 13b which are connected, wherein the face cover main body part 13a covers the top end of the base main body part 11a, and the face cover extension part 13b covers the top end of the base extension part 11 b.
The first electrical connector 121 is connected to the circuit board extension portion 123b, and the first electrical connector 121 penetrates and is exposed below the base extension portion 11 b. The electrical interface 122 is connected to the wiring board main body portion 123a, and the electrical interface 122 is exposed on the face cover main body portion 13 a.
In summary, the socket according to the embodiment of the utility model enables a user to obtain a corresponding new function only by replacing the detachable functional module if the function is upgraded when the user uses the socket for a long time, thereby significantly reducing the replacement cost of the socket and improving the user experience. The socket is convenient to assemble, and has high assembly efficiency, low cost and high product quality control stability.
In embodiments of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The term "plurality" means two or more unless expressly limited otherwise.
The above description is only for facilitating the understanding of the technical solutions of the present invention by those skilled in the art, and is not intended to limit the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A socket, comprising: the detachable functional module (100), the fixing frame (3) and the panel (4);
the detachable functional module (100) is detachably positioned in the fixed frame (3);
the panel (4) is magnetically connected with the top surface of the fixed frame (3).
2. The receptacle of claim 1, further comprising: a plurality of first magnetic members (71) and a plurality of second magnetic members (72);
the plurality of first magnetic members (71) are located on a bottom surface of the panel (4);
the plurality of second magnetic members (72) are located on the top surface of the fixed frame (3), the plurality of second magnetic members (72) correspond to the plurality of first magnetic members (71) one by one, and the second magnetic members (72) are magnetically connected with the corresponding first magnetic members (71).
3. The receptacle of claim 2, further comprising: a plurality of first fixing pieces (81);
the plurality of first fixing pieces (81) are located on the bottom surface of the panel (4), the plurality of first fixing pieces (81) correspond to the plurality of first magnetic pieces (71) one by one, and the first fixing pieces (81) are detachably connected with the corresponding first magnetic pieces (71).
4. A socket according to claim 3, wherein the first fixing member (81) comprises: the fixing device comprises two opposite first fixing blocks (811), wherein a first elastic cavity (812) is formed between the two opposite first fixing blocks (811), and a first limiting step (813) is arranged on each first fixing block (811);
the first magnetic piece (71) is provided with a first step hole (711), the first step hole (711) penetrates through two ends of the first magnetic piece (71), and a second limiting step (712) is arranged inside the first step hole (711);
the first magnetic member (71) is sleeved outside the first fixing member (81) through the first stepped hole (711), and the second limiting step (712) is abutted against the first limiting step (813).
5. A socket according to claim 3, wherein the plurality of first fixing members (81) are integrally formed with the panel (4).
6. A socket according to claim 3, wherein the socket further comprises a plurality of second fixing members (82);
the second fixing pieces (82) correspond to the first fixing pieces (81) one by one, and the second fixing pieces (82) are positioned at corresponding positions on the top surface of the fixing frame (3);
the second fixing pieces (82) correspond to the second magnetic pieces (72) one by one, and the second fixing pieces (82) are detachably connected with the corresponding second magnetic pieces (72).
7. The receptacle of claim 6, wherein the second fixture (82) comprises: the fixing device comprises two opposite second fixing blocks (821), a second elastic cavity (822) is arranged between the two opposite second fixing blocks (821), and a third limiting step (823) is arranged on each second fixing block (821);
the second magnetic part (72) is provided with a second stepped hole (721), the second stepped hole (721) penetrates through two ends of the second magnetic part (72), and a fourth limiting step (722) is arranged inside the second stepped hole (721);
the second magnetic member (72) is sleeved outside the second fixing member (82) through the second stepped hole (721), and the fourth limiting step (722) is abutted against the third limiting step (823).
8. Socket according to claim 6, wherein the plurality of second fixing elements (82) are integrally formed in the fixing frame (3).
9. A socket according to any one of claims 2 to 8, wherein the first magnetic member (71) projects beyond the bottom surface of the faceplate (4);
a second accommodating groove (34) is formed in the corresponding position on the top surface of the fixed frame (3), and the second accommodating groove (34) comprises a first accommodating section (341) and a second accommodating section (342) which are connected;
the second magnetic piece (72) is positioned in the first accommodating section (341), and the first magnetic piece (71) is positioned in the second accommodating section (342).
10. A socket according to claim 1, characterized in that the socket comprises a plurality of functional modules (1), the plurality of functional modules (1) being distributed in sequence;
at least one of the plurality of functional modules (1) is the removable functional module (100).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122006721.1U CN216289171U (en) | 2021-08-24 | 2021-08-24 | Socket |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122006721.1U CN216289171U (en) | 2021-08-24 | 2021-08-24 | Socket |
Publications (1)
Publication Number | Publication Date |
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CN216289171U true CN216289171U (en) | 2022-04-12 |
Family
ID=81061526
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202122006721.1U Active CN216289171U (en) | 2021-08-24 | 2021-08-24 | Socket |
Country Status (1)
Country | Link |
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CN (1) | CN216289171U (en) |
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2021
- 2021-08-24 CN CN202122006721.1U patent/CN216289171U/en active Active
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