CN215070786U - Rotatable socket - Google Patents

Abstract

The application provides a rotatable row of inserting. The rotatable socket comprises a plurality of socket components which are connected in sequence, and each socket component is provided with at least one electric socket for inserting a plug; and each inserting assembly is provided with a first rotary connecting mechanism and a second rotary connecting mechanism, and two adjacent inserting assemblies are matched with each other through the first rotary connecting mechanism and the second rotary connecting mechanism to be in rotary connection. When the electric sockets on a plurality of plug assemblies are used simultaneously, the rotatable socket can avoid mutual interference and obstruction between two adjacent electric plugs, so that the problem that the electric sockets on the partial plug assemblies cannot be used is caused, and the utilization rate of the electric sockets is effectively improved.

Description

Rotatable socket

Technical Field

The utility model relates to an insert row technical field, especially relate to a rotatable row of inserting.

Background

The power strip is an indispensable electric appliance tool in daily life and is widely applied.

At present, a power strip is generally in a cuboid structure, a plurality of electric sockets are generally arranged on the surface of the power strip, and the plurality of electric sockets are arranged at intervals along the length direction of the power strip and are relatively fixed in position and used for inserting power plugs; but in order to save materials and make the overall structure of the power strip more compact, part of manufacturers set the distance between two adjacent electric sockets to be smaller; therefore, when a plurality of electric sockets are used simultaneously, interference and obstruction between two adjacent electric plugs are easily caused and cannot be completely inserted into the electric sockets on the surface of the power strip, so that part of the electric sockets cannot be used; and the charging wire is also messy, and the use is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The application provides a rotatable row of inserting can solve current row of inserting when a plurality of electric sockets use simultaneously, the unable problem of using of part electric socket takes place.

In order to solve the technical problem, the application adopts a technical scheme that: a rotatable power strip is provided. The rotatable socket comprises a plurality of socket components which are connected in sequence, and each socket component is provided with at least one electric socket for inserting a plug; and each inserting assembly is provided with a first rotary connecting mechanism and a second rotary connecting mechanism, and two adjacent inserting assemblies are matched with each other through the first rotary connecting mechanism and the second rotary connecting mechanism to be in rotary connection.

Wherein, still include two supporting seats, a plurality of position subassemblies of inserting are located between two supporting seats and with two supporting seat rotatable coupling, two supporting seats are used for making a plurality of unsettled settings of position subassembly of inserting.

Wherein, insert a position subassembly and include: the plug comprises a plug main body and a rotating piece; wherein, the inserting body is provided with a rotating hole as a first rotating connecting mechanism; the inserting position main body comprises an upper cover body and a lower cover body, the upper cover body and the lower cover body are arranged in an enclosing mode to form a cavity, and the rotating hole is communicated with the cavity; the rotating piece and the rotating hole are oppositely arranged on the inserting position main body to be used as a second rotating connecting mechanism; the rotating piece of the inserting assembly extends into the rotating hole of the adjacent inserting assembly to realize the rotatable connection of the rotating piece and the adjacent inserting assembly.

Wherein, the two supporting seats are respectively a first supporting seat and a second supporting seat; wherein, first supporting seat includes rotatory hole, and the second supporting seat includes the rotating member, and a plurality of rotating members who inserts the position subassembly of inserting of the first end in the position subassembly stretch into the rotatory hole of first supporting seat, and the rotating member of second supporting seat stretches into a plurality of rotatory holes of inserting the position subassembly of inserting of the second end in the position subassembly to realize swivelling joint.

Wherein, the rotating member includes: a rotating part and a stopper part; the rotating part is connected with the inserting main body and is used for extending into the rotating hole of the adjacent inserting component so as to realize rotatable connection with the adjacent inserting component; the backstop portion sets up the tip at the rotating part, and is located the cavity for carry out the backstop to the removal of rotating part along its axial direction, drop in order to prevent that the rotating part from rotating the hole.

Wherein the stopping part is a stopping block or a stopping ring; the stopping part and the rotating part are integrally formed, and/or the rotating part and the inserting body are integrally formed; and the rotating piece is provided with a through hole which is communicated with the cavity and is used for leading the lead to pass through.

The first limiting part of the next inserting assembly is matched with the second limiting part of the previous inserting assembly to limit the rotating range between the first limiting part and the second limiting part.

The first limiting part is a first limiting block arranged on the rotating part, and the first limiting block extends along the radial direction of the rotating part and protrudes out of the rotating part; the second limiting part is a second limiting block arranged on the inner side wall of the inserting main body, and the second limiting block avoids the rotating path of the rotating part and is positioned in the rotating path of the first limiting block and used for stopping the rotation of the first limiting block.

And a third limiting part is further arranged on one side surface of the inserting assembly corresponding to the rotating hole, and the first limiting part of the subsequent inserting assembly is matched with the third limiting part of the previous inserting assembly so that two adjacent inserting assemblies are relatively fixed after rotating to the preset position.

Wherein, a plurality of position subassemblies of inserting include AC exchange socket, Type-A mouth socket, Type-A and compatible socket of Type-C mouth, Type-C mouth socket and Type-A and compatible socket of Type-C mouth one or more.

According to the rotatable socket provided by the application, a plurality of socket assemblies which are connected in sequence are arranged, and each socket assembly is provided with at least one electric socket for inserting a plug; meanwhile, each inserting assembly is provided with a first rotary connecting mechanism and a second rotary connecting mechanism, so that the adjacent two inserting assemblies can be matched through the first rotary connecting mechanism and the second rotary connecting mechanism to realize the rotary connection of the two inserting assemblies, when the electric sockets on the plurality of inserting assemblies are used simultaneously, the electric sockets on the adjacent two inserting assemblies can be staggered at a certain angle through rotation, and the problems that the electric sockets on the adjacent two inserting assemblies are close in distance and the electric plugs are interfered and blocked with each other to cause the electric sockets on partial inserting assemblies to be unavailable are avoided, and the utilization rate of the electric sockets is effectively improved; meanwhile, the rotatable power strip is in rotary connection through the rotary connecting mechanism of the power strip, so that the rotatable power strip does not need to be additionally and specially provided with a rotary main shaft, the materials can be saved, the cost can be reduced, the overall length of the rotatable power strip can be adjusted at any time, the number of the power strips on the rotatable power strip can be selected according to actual requirements, and the application range of the rotatable power strip can be effectively enlarged; it can be understood that, if the insertion assemblies rotate around the rotating main shaft, the number of the insertion assemblies that can be installed on the rotating main shaft is limited under the condition that the rotating main shaft is determined, and the insertion assemblies cannot be additionally arranged according to actual requirements, so that the application range of the rotatable power strip is greatly limited.

Drawings

FIG. 1 is a schematic diagram of an overall structure of a rotatable socket according to an embodiment of the present disclosure;

FIG. 2 is a first visual, disassembled schematic view of the structure shown in FIG. 1 according to one embodiment of the present disclosure;

FIG. 3 is a second, visually disassembled, schematic view of the structure shown in FIG. 1 according to one embodiment of the present disclosure;

fig. 4a is a disassembled schematic view of two adjacent insertion assemblies according to an embodiment of the present application;

FIG. 4b is a disassembled schematic view of two adjacent insertion assemblies according to another embodiment of the present disclosure;

FIG. 5 is a schematic structural diagram of a rotating member according to an embodiment of the present disclosure;

FIG. 6 is a schematic diagram of an overall structure of a rotatable socket according to another embodiment of the present application;

FIG. 7 is a first visual, disassembled schematic view of the structure of FIG. 6 according to one embodiment of the present application;

fig. 8 is a second visual disassembly schematic diagram of the structure shown in fig. 6 according to an embodiment of the present application.

Detailed Description

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

The terms "first", "second" and "third" in this application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any indication of the number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise. All directional indications (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the movement, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indication is changed accordingly. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The present application will be described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1 to 5, fig. 1 is a schematic view of an overall structure of a rotatable socket according to an embodiment of the present disclosure; FIG. 2 is a first visual, disassembled schematic view of the structure shown in FIG. 1 according to one embodiment of the present disclosure; FIG. 3 is a second, visually disassembled, schematic view of the structure shown in FIG. 1 according to one embodiment of the present disclosure; fig. 4a is a disassembled schematic view of two adjacent insertion assemblies according to an embodiment of the present application; FIG. 5 is a schematic structural diagram of a rotating member according to an embodiment of the present disclosure; in the present embodiment, a rotatable socket 10 is provided, the rotatable socket 10 may be a rectangular parallelepiped, and a plurality of electrical sockets 110 are disposed along a length direction a of the rotatable socket 10 for inserting plugs.

Specifically, the rotatable socket 10 comprises a plurality of socket assemblies 11 connected in sequence to form a rectangular rotatable socket 10; each socket assembly 11 is provided with an electrical socket 110 along the length direction a of the rotatable socket 10, which is taken as an example in the following embodiment; of course, in other embodiments, two or three electrical sockets 110 may be provided at intervals in the circumferential direction perpendicular to the direction a of each socket assembly 11, so as to improve the utilization rate of the socket 10.

In a specific embodiment, to facilitate user usage and meet the requirements of different electrical plugs, the plurality of docking assemblies 11 may include one or more of a forward AC outlet 11a, a Type-a outlet 11b, a reverse AC outlet 11C, a Type-a and Type-C compatible outlet 11d, and a Type-C outlet 11e, so that the rotatable strip 10 has different types of electrical outlets 110. Specifically, referring to fig. 1 to 3, the rotatable socket 10 may include 6 sequentially connected socket assemblies 11, and the 6 socket assemblies 11 may be sequentially a forward AC outlet 11a, a Type-a outlet 11b, a reverse AC outlet 11C, a Type-a and Type-C compatible outlet 11d, and a Type-C outlet 11 e.

Specifically, each plug assembly 11 has a first rotary connection mechanism and a second rotary connection mechanism, and two adjacent plug assemblies 11 are matched with each other through the first rotary connection mechanism and the second rotary connection mechanism to realize rotary connection, so that the electric sockets 110 on two adjacent plug assemblies 11 can be arranged in a staggered manner at a certain angle along the circumferential direction of the plug assemblies 11, and when the electric sockets 110 on a plurality of adjacent plug assemblies 11 are used simultaneously, two adjacent electric plugs can be positioned at different positions along the circumferential direction of the plug assemblies 11, that is, staggered at a certain angle, so that the problem that the electric sockets 110 on part of the plug assemblies 11 cannot be used due to the fact that the two adjacent electric plugs are fixed in position and are close to each other to interfere with each other is avoided, and the utilization rate of the electric sockets 110 is effectively improved; in addition, since the rotatable socket 10 can avoid the interference between two adjacent electrical plugs by rotating circumferentially, the rotatable socket 10 has low requirement on the spacing between two adjacent electrical sockets 110, and therefore, the rotatable socket 10 can further reduce the spacing between the electrical sockets 110, so as to reduce the production cost while reducing the product volume.

Specifically, referring to fig. 4a, the insertion assembly 11 includes an insertion body 111 and a rotary member 112.

The inserting body 111 comprises an upper cover body 111a and a lower cover body 111b, and the upper cover body 111a and the lower cover body 111b are enclosed to form a cavity for accommodating devices such as a power line, a display lamp and a circuit board; in a specific embodiment, the insertion body 111 is provided with a rotation hole 1110, and the rotation hole 1110 is communicated with the cavity so as to allow a wire to pass through; in a particular embodiment, swivel holes 1110 are used as the first swivel connection mechanism.

Specifically, referring to fig. 4a, a side wall of the upper cover 111a facing the lower cover 111b has a first arc-shaped groove, the lower cover 111b has a second arc-shaped groove corresponding to the first arc-shaped groove, and the first arc-shaped groove and the second arc-shaped groove surround to form the rotation hole 1110.

Wherein, the rotating member 112 is disposed on the inserting body 111 opposite to the rotating hole 1110, in a specific embodiment, the rotating member 112 serves as a second rotating connection mechanism; the rotating member 112 of one of the two adjacent socket assemblies 11 extends into the rotating hole 1110 of the other socket assembly 11 to realize rotatable connection therebetween.

Specifically, referring to fig. 5, the rotating member 112 may be a hollow circular turntable, that is, the rotating member 112 has a through hole 112c, and the through hole 112c is communicated with the cavity for passing a wire therethrough, so as to achieve electrical connection between two adjacent insertion assemblies 11; specifically, the rotating member 112 and the inserting body 111 can be integrally formed.

In a specific embodiment, referring to fig. 4a and 5, the rotating member 112 may include a rotating portion 112a and a stopper portion 112 b. The rotation portion 112a and the stopper portion 112b may be integrally formed.

The rotating part 112a is connected with the inserting body 111 and is used for extending into the rotating hole 1110 of the adjacent inserting component 11 so as to realize rotatable connection with the adjacent inserting component 11; in an embodiment, the rotating portion 112a may be a hollow cylinder to facilitate rotation.

The stopping portion 112b is disposed at one end of the rotating portion 112a facing away from the inserting body 111, and extends along a radial direction (a direction perpendicular to a) of the rotating portion 112a toward a direction facing away from the rotating portion 112 a; in a specific embodiment, the stopping portion 112b is located in the cavity and is used for stopping the movement of the rotating portion 112a along the axial direction thereof, so as to prevent the rotating portion 112a from falling out of the rotating hole 1110. The axial direction of the rotating portion 112a is parallel to the direction a; it is understood that the radial dimension of the position of the rotation member 112 where the stopper 112b is provided is larger than the hole diameter of the rotation hole 1110.

Specifically, the stopping portion 112b may be a stopping ring, that is, the stopping portion 112b is disposed along the circumferential direction of the rotating portion 112a by one turn, so as to prevent the radial dimension of the rotating portion 112a from being much smaller than the aperture of the rotating hole 1110, and the stopping portion 112b is disposed in the rotating hole 1110 in an inclined manner, which causes the problem that the rotating member 112 falls off from the rotating hole 1110, which is taken as an example in the present application; of course, the stopping portion 112b may be a stop, that is, the stopping portion 112b is only located at a partial position of the rotating portion 112a along the circumferential direction of the rotating portion 112a, so as to reduce the production cost.

Referring to fig. 4a, in an embodiment, in order to prevent the insertion assembly 11 from rotating infinitely in the same rotation direction, which may cause winding, pulling, or breaking of the charging cable, the present application further provides a first limiting member 13 on a side surface of the insertion assembly 11 corresponding to the rotating member 112, and a second limiting member 14 on a side surface corresponding to the rotating hole 1110, so that in an embodiment, the first limiting member 13 of a subsequent insertion assembly 11 is matched with the second limiting member 14 of a previous insertion assembly 11, so as to limit a rotation range therebetween, that is, after the insertion assembly 11 rotates to a preset position in the same rotation direction, the insertion assembly 11 can only rotate in a direction opposite to the current rotation direction, and similarly, during the rotation in the opposite direction, after the insertion assembly 11 rotates to the preset position, the insertion assembly 11 can only rotate in a direction opposite to the current rotation direction, so as to effectively prevent the insertion assembly 11 from rotating infinitely in the same rotation direction, the problems of winding, disorder and inconvenient use of the charging wire are caused; it can be understood that the first limiting member and the second limiting member 14 collide at the predetermined position to stop the current rotation.

In an embodiment, referring to fig. 4a, the first limiting member 13 may be a first limiting member disposed on the rotating member 112, the first limiting member extends along a radial direction of the rotating member 112 and protrudes from the rotating member 112; the second limiting member 14 is a second limiting member disposed on the inner sidewall of the insertion body 111, and the second limiting member avoids the rotation path of the rotating member 112 and is located in the rotation path of the first limiting member for stopping the rotation of the first limiting member, so that the rotating member 112 can only rotate in one direction by 360 degrees; of course, in an embodiment, if the number of the second limiting members 14 is two and two second limiting members 14 are disposed at intervals, the rotating member 14 can only rotate within an angle range defined by the two second limiting members 14, and the angle range defined by the two second limiting members 14 may be specifically 60 degrees, 120 degrees, 180 degrees or 360 degrees; preferably, it may be 180 degrees; the present application is not so limited; specifically, the second limiting member 14 may be two stop blocks close to each other.

Of course, in other embodiments, referring to fig. 4b, fig. 4b is a disassembled schematic view of two adjacent insertion assemblies provided in another embodiment of the present application; in order to enable the electrical sockets 110 of every two adjacent insertion assemblies 11 to be arranged at a preset angle in a staggered manner and fixed at the preset angle, so as to improve the utilization rate of the electrical sockets 110, a third limiting member 15 may be arranged on a side surface of the insertion assembly 11 corresponding to the rotating hole 1110, and after the first limiting member 13 of the subsequent insertion assembly 11 is matched with the third limiting member 15 of the previous insertion assembly 11, the two adjacent insertion assemblies 11 are rotated to the preset position, and then are limited at the preset position, so that the two adjacent insertion assemblies 11 cannot be rotated continuously.

Specifically, the third limiting members 15 are disposed on the inner side wall of the inserting assembly 11, and may specifically be a plurality of limiting grooves disposed at equal intervals, in a specific implementation process, if two adjacent inserting assemblies 11 need to be rotated, the rotating portion 112a can be moved toward a direction departing from the inserting body 111 so as to make the first limiting member 13 and the third limiting member 15 dislocate along the direction a and rotate, and after the two adjacent inserting assemblies 11 rotate to a preset position, the rotating portion 112a is moved toward a direction close to the inserting body 111, and the first limiting member 13 is clamped in the limiting groove at a corresponding position, so as to fix the rotation angles of the two adjacent inserting assemblies 11, so that the two adjacent inserting assemblies are relatively fixed at the current position and cannot rotate; at this time, the electrical sockets 110 on two adjacent plug assemblies 11 are arranged in a direction perpendicular to the direction a at a preset angle, so as to avoid mutual interference between two adjacent electrical plugs; wherein the preset angle can be 30 degrees, 60 degrees or 90 degrees, and the like; it will be appreciated that when it is desired to rotate the next adjacent socket assembly 11, the next socket assembly 11 may be rotated and secured in the same manner, and the electrical socket 110 of the next socket assembly 11 is offset from the electrical socket 110 of the next socket assembly 11 by a predetermined angle, which may also be 30 °, 60 ° or 90 °, in a direction perpendicular to direction a.

In an embodiment, the rotatable power strip 10 includes two plug position assemblies 11 at two ends, one plug position assembly 11 may be provided with an electrical plug, and the other plug position assembly 11 may be provided with another electrical socket 110, so that when the number of electrical sockets 110 of the current rotatable power strip 10 cannot meet the user requirement, the two rotatable power strips 10 may be plugged to increase the number of electrical sockets 110; specifically, the electrical plug or socket 110 added to the socket assembly 11 may be located on other surfaces different from the first surface and the second surface; the first surface is a surface of the current socket assembly 11 opposite to the adjacent socket assembly 11, and the second surface is a surface of the socket assembly 11 where the initial electrical socket 110 is located.

In a specific embodiment, after two rotatable power strips 10 are plugged, the electrical sockets 110 of the adjacent plug-in assemblies 11 of the two rotatable power strips 10 are not coplanar, so as to avoid the problem that the electrical sockets 110 cannot be used because the two adjacent electrical plugs interfere with each other.

In the rotatable power strip 10 provided by the present embodiment, a plurality of plug position assemblies 11 are sequentially connected, and each plug position assembly 11 has at least one electrical socket 110 for inserting a plug; meanwhile, each inserting assembly 11 is provided with a first rotary connecting mechanism and a second rotary connecting mechanism, so that the adjacent two inserting assemblies 11 are matched through the first rotary connecting mechanism and the second rotary connecting mechanism to realize rotary connection, when the electric sockets 110 on the plurality of inserting assemblies 11 are used simultaneously, the electric sockets 110 on the adjacent two inserting assemblies 11 can be staggered at a certain angle through rotation, so that the problem that the electric sockets 110 on the adjacent two inserting assemblies 11 cannot be used due to the fact that the electric sockets 110 on the partial inserting assemblies 11 are close to each other and the electric plugs interfere with each other and are blocked is avoided, and the utilization rate of the electric sockets 110 is effectively improved; meanwhile, the rotatable power strip 10 is rotationally connected through a rotary connecting mechanism of the power strip 11, so that the rotatable power strip 10 does not need to be specially provided with a rotary main shaft, the material consumption can be saved, the cost can be reduced, the overall length of the rotatable power strip 10 can be adjusted at any time, the number of the power strip 11 on the rotatable power strip 10 can be selected according to actual requirements, and the application range of the rotatable power strip 10 can be effectively expanded; it can be understood that, if the bit insertion assemblies 11 rotate around the rotating main shaft, the number of the bit insertion assemblies 11 that can be mounted on the rotating main shaft is limited if the rotating main shaft is determined, and the additional bit insertion assemblies 11 cannot be added according to actual requirements, which greatly limits the application range of the rotatable power strip 10.

Referring to fig. 6 to 8, fig. 6 is a schematic view of an overall structure of a rotatable socket according to another embodiment of the present application; FIG. 7 is a first visual, disassembled schematic view of the structure of FIG. 6 according to one embodiment of the present application; FIG. 8 is a second, visual, exploded view of the structure of FIG. 6 according to one embodiment of the present application; in an embodiment, the rotatable socket 10 further includes at least one supporting seat 12, and the at least one supporting seat 12 is used for supporting a plurality of inserting components 11, so that the plurality of inserting components 11 are suspended on the supporting seat 12, and the inserting components 11 are convenient to rotate. Specifically, the support base 12 may be a tripod.

In an embodiment, the number of the supporting seats 12 may be two, that is, a first supporting seat 12 and a second supporting seat 12, and the plurality of insert assemblies 11 are located between the first supporting seat 12 and the second supporting seat 12 and are rotatably connected to the first supporting seat 12 and the second supporting seat 12.

In a specific embodiment, the first supporting seat 12 includes a rotation hole, the second supporting seat 12 includes a rotation member, the rotation member 112 of the insertion assembly 11 at a first end of the plurality of insertion assemblies 11 extends into the rotation hole of the first supporting seat 12, and the rotation member of the second supporting seat 12 extends into the rotation hole 1110 of the insertion assembly 11 at a second end of the plurality of insertion assemblies 11 to realize the rotational connection therebetween; for a specific scheme of the rotary connection between the inserting assemblies 11 and the supporting base 12 through the rotary member 112 and the rotary hole 1110, reference may be made to the above specific scheme of the rotary connection between two adjacent inserting assemblies 11 through the rotary member 112 and the rotary hole 1110, and the same or similar technical effects may be achieved, and for the specific scheme, reference may be made to the above and no further description is provided herein.

The rotatable row 10 of inserting that this embodiment provided can play certain supporting role to a plurality of position subassemblies 11 of inserting through further addding supporting seat 12 to make a plurality of unsettled settings of position subassemblies 11 of inserting, thereby not only make things convenient for a plurality of position subassemblies 11 rotations of inserting, and can avoid inserting position subassembly 11 and direct and plummer surface contact, there is a small amount of liquid on the plummer surface to get into the problem that the electric socket 110 of inserting position subassembly 11 leads to the electric leakage to take place.

The above embodiments are merely examples and are not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present disclosure or those directly or indirectly applied to other related technical fields are intended to be included in the scope of the present disclosure.

Claims (10)

1. A rotatable socket is characterized by comprising a plurality of socket components which are connected in sequence, wherein each socket component is provided with at least one electric socket for inserting a plug; and each inserting assembly is provided with a first rotary connecting mechanism and a second rotary connecting mechanism, and every two adjacent inserting assemblies are in rotary connection through the matching of the first rotary connecting mechanism and the second rotary connecting mechanism.

2. The rotatable socket of claim 1, further comprising two support bases, wherein a plurality of said socket assemblies are disposed between and rotatably connected to the two support bases, and the two support bases are configured to suspend the plurality of socket assemblies.

3. The rotatable power strip of claim 2, wherein the docking assembly comprises:

the inserting body is provided with a rotating hole to serve as the first rotating connecting mechanism; the inserting position main body comprises an upper cover body and a lower cover body, the upper cover body and the lower cover body are arranged in an enclosing mode to form a cavity, and the rotating hole is communicated with the cavity;

the rotating piece is arranged on the inserting position main body opposite to the rotating hole and used as the second rotating connecting mechanism; the rotating piece of the inserting assembly extends into the rotating hole of the adjacent inserting assembly to realize rotatable connection of the rotating piece and the rotating hole.

4. The rotatable socket of claim 3 wherein said two said support seats are a first support seat and a second support seat, respectively; wherein, first supporting seat includes rotatory hole, the second supporting seat includes the rotating member, and is a plurality of the rotating member of inserting the position subassembly of the first end in inserting the position subassembly stretches into the rotatory hole of first supporting seat, the rotating member of second supporting seat stretches into a plurality of insert the rotatory hole of the position subassembly of the second end in inserting the position subassembly to realize swivelling joint.

5. The rotatable socket of claim 3 wherein said rotary member comprises:

the rotating part is connected with the inserting main body and used for extending into the rotating hole of the adjacent inserting assembly so as to realize rotatable connection with the adjacent inserting assembly;

the stopping portion is arranged at the end portion of the rotating portion and located in the cavity and used for stopping the movement of the rotating portion along the axial direction of the rotating portion so as to prevent the rotating portion from falling off from the rotating hole.

6. The rotatable power strip of claim 5, wherein the stop is a stop or stop ring; the stopping part and the rotating part are integrally formed, and/or the rotating part and the inserting body are integrally formed; and the rotating piece is provided with a through hole which is communicated with the cavity and is used for leading a lead to pass through.

7. The rotatable socket of claim 3, wherein the socket assembly has a first stop member disposed on a side corresponding to the rotation member, and a second stop member disposed on a side corresponding to the rotation hole, and the first stop member of the latter socket assembly cooperates with the second stop member of the former socket assembly to limit the rotation range therebetween.

8. The rotatable socket of claim 7, wherein the first limiting member is a first limiting member disposed on the rotating member, the first limiting member extending in a radial direction of the rotating member and protruding from the rotating member;

the second limiting part is a second limiting block arranged on the inner side wall of the inserting main body, and the second limiting block avoids the rotating path of the rotating part and is positioned in the rotating path of the first limiting block and used for stopping the rotation of the first limiting block.

9. The rotatable socket of claim 7, wherein a third limiting member is further disposed on a side surface of the socket assembly corresponding to the rotation hole, and the first limiting member of the next socket assembly cooperates with the third limiting member of the previous socket assembly to make two adjacent socket assemblies relatively fixed after rotating to a predetermined position.

10. The rotatable patch panel of claim 1, wherein the plurality of patch assemblies include one or more of AC outlets, Type-a and Type-C compatible outlets, Type-C outlets, and Type-a and Type-C compatible outlets.

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