TWM597521U - Multi-dimensional power socket device - Google Patents

Abstract

This invention includes several socket portions. Each socket portion includes an internal axial structure, an outer housing, and an electrical conductive structure. The internal axial housing contains a socket hole, a male casing, and a female casing. The electrical conductive structure includes a socket element and a set of wires. The socket element is secured on the outer housing and extends into the socket hole. The wires extend through the socket element, the male casing, and the female casing. The male casing and female casing are engaged together and can be relatively rotatable, so that it allows changing the inserting angle of the plug. The internal axial structure and the outer housing can be relatively rotatable so the socket element is movable in the socket hole accordingly. Thus, it can rotate for adjustment along the horizontal plane between two neighboring socket portions. The socket element is rotatable within a range of certain angles. It is possible to increase or decrease the number of the socket portions. In addition, the entire structure is simple.

Description

Multi-dimensional power socket device

This creation relates to a multi-dimensional power socket device, especially a type that has the ability to adjust the horizontal rotation adjustment of the space between two adjacent socket parts, the socket can be rotated within a predetermined angle, and the socket part can be added or removed at any time as needed Multi-dimensional power socket device with simple quantity and simple structure.

In the construction process of general buildings, the wires and pipelines are buried in the wall, and only the sockets exposed on the wall are used as plug-in power supply. However, the number and location of the original designed sockets may not meet the actual needs of users, so that An extension cord with at least one socket must be used to change the number or position of the socket. The extension cords (sockets) currently on the market still have the following problems: [1] The adjacent sockets cannot be adjusted horizontally according to the setting space. It is well-known that the elongated extension cable can be connected to the original socket on the wall and extend the power supply distance. However, the multiple sockets on the extension cable are of a fixed design and cannot be matched with different spatial designs (such as wall corners). Adjust the rotation position and meet the corner of the wall. The long extension cord socket can only be placed horizontally at the corner. After being unable to rotate, it is arranged vertically along the two walls, which is quite disordered and unsightly. Therefore, the adjacent sockets cannot be adjusted horizontally with the installation space. [2] Unable to turn the socket part may cause the wire to deform and break the skin and leak electricity. Most of the sockets on the traditional extension cable are mostly fixed-arranged designs, with only the vertical upward insertion angle. If the plug must be inserted from an inclined angle (such as a 45-degree angle), the socket cannot be rotated by a predetermined angle for adjustment And it is necessary to bend the wire, which will cause the wire to deform for a long time, and may break the skin and leak electricity from the deformation. Therefore, the failure of the socket member to rotate may cause the wire to be deformed, broken, and leaked. [3] The number of sockets cannot be increased or decreased at any time as required. The number of traditional extension cord sockets is fixed, such as 3 plugs, 5 plugs, and 7 plugs (this number is an example). If you purchase a 5 plug extension cord at the beginning, the number of sockets must be increased due to actual needs, or due to space restrictions If you need to reduce the number of sockets, you cannot increase or decrease. Therefore, the number of sockets cannot be increased or decreased at any time as required. In view of this, it is necessary to develop technology that can solve the above-mentioned conventional shortcomings.

The purpose of this creation is to provide a multi-dimensional power socket device, which has the space between the two adjacent sockets to adjust the horizontal rotation adjustment, the socket can be rotated within a predetermined angle, and the socket can be added or removed at any time as needed The number, and simple structure and other advantages. In particular, the problem to be solved in this creation is that the adjacent sockets cannot be adjusted horizontally with the setting space, the socket pieces cannot be rotated, which may cause the wires to deform and break and leak, and the number of sockets cannot be increased or decreased at any time. The technical means to solve the above problem is to provide a multi-dimensional power socket device, which includes: An inner shaft structure includes a central shaft portion, a male connecting portion and a female connecting portion; the central shaft portion has a socket movable hole; the male connecting portion extends from the central shaft portion and extends substantially horizontally Go out. The female connecting part extends horizontally from the central shaft part in the opposite direction of the male connecting part; the central shaft part, the male connecting part and the female connecting part communicate with each other, and the male connecting part At least one of the part and the female connecting part is for the adjacent socket parts to be pivotally connected to each other; An outer shell structure is sleeved on the inner shaft structure and can rotate coaxially and relatively; the outer shell structure includes an outer shell cover and an outer shell plate; the outer shell cover has a rotating shell cover hole, a receiving space and a set of plugs Hole; the accommodating space is connected to the casing rotating hole and the set of insertion holes, the central shaft portion is provided in the accommodating space, the female connecting portion extends out of the casing rotating hole, for corresponding to the male The connecting parts are pivotally connected to each other, and the female connecting part can be coaxially and relatively rotated with the shell rotating hole, the shell plate is used to connect the shell cover, and then covers the central shaft portion, the shell plate has a shell plate A rotating hole, the male connecting part extends out of the shell plate rotating hole to pivotally connect with the adjacent socket part, and the male connecting part can rotate coaxially with the shell plate rotating hole; A conductive structure includes a socket member and a conductive wire body; the socket member corresponds to a socket movable hole, is fixed inside the housing cover, and can move relative to the socket movable hole; the conductive wire system is electrically connected to the Socket parts; and the conductive wire system communicates with the central shaft part, the male connection part and the female connection part; Thereby, the male and female connecting parts are provided for relative rotation of the adjacent socket parts to change the angle at which the socket member is used to insert the power supply, and the inner shaft structure and the housing structure are relatively rotated to make the socket The relative movement of the component and the movable hole of the socket also changes the angle of insertion power supply. It is not difficult to gain an in-depth understanding from the detailed description and drawings of the selected embodiments below for the above purposes and advantages of this creation. The following examples and drawings are used to explain this creation in detail:

Referring to Figures 1, 2 and 3, this creation is a multi-dimensional power socket device, which is composed of a plurality of socket parts, each of which includes: An inner shaft structure 10 includes a central shaft portion 11, a male connecting portion 12, and a female connecting portion 13. The central shaft portion 11 has a socket movable hole 111; the male connecting portion 12 extends horizontally from the central shaft portion 11. The female connecting portion 13 extends horizontally from the central shaft portion 11 in the opposite direction of the male connecting portion 12. The central shaft portion 11, the male connecting portion 12 and the female connecting portion 13 are in communication with each other, and at least one of the male connecting portion 12 and the female connecting portion 13 is provided for the adjacent socket portions to be pivotally connected to each other. An outer shell structure 20 is sleeved on the inner shaft structure 10 and can rotate coaxially and relatively. The shell structure 20 includes a shell cover 21 and a shell plate 22. The housing cover 21 has a housing rotation hole 211, a receiving space 212 and a set of insertion holes 213. The accommodating space 212 communicates with the casing rotation hole 211 and the set of insertion holes 213, the central shaft portion 11 is provided in the accommodation space 212, and the female coupling portion 13 extends out of the casing rotation hole 211 to communicate with Correspondingly, the male connecting portion 12 is pivotally connected to each other, and the female connecting portion 13 can rotate relative to the housing rotation hole 211 coaxially and relatively. The outer shell plate 22 is used to connect the outer shell cover 21 to further cover the central shaft portion 11, the outer shell plate 22 has a shell rotation hole 221, and the male connection portion 12 extends out of the shell rotation hole 221, It is used to pivotally connect the corresponding female connecting portion 13 with each other, and the male connecting portion 12 can be coaxially and relatively rotated with the shell rotation hole 221. A conductive structure 30 includes a socket member 31 and a conductive wire 32. The socket member 31 corresponds to the socket movable hole 111, is fixed inside the housing cover 21, and can move relative to the socket movable hole 111. The conductive wire 32 is electrically connected to the socket 31; and the conductive wire 32 is connected to the central shaft portion 11, the male connecting portion 12 and the female connecting portion 13. Thereby, the male and female connecting portions 12 and 13 are provided for relative rotation of the adjacent socket portion to change the angle at which the socket member 31 is inserted into the power supply. The relative rotation of the inner shaft structure 10 and the outer shell structure 20 relatively moves the socket member 31 and the socket movable hole 111, and also changes the angle of power supply insertion. In practice, this creation also includes a pivoting device 40, which includes: A group of pivot holes 40A are respectively provided at the corresponding positions of the male and female connecting parts 12 and 13; A pivoting structure 40B is used to penetrate the set of pivoting holes 40A and pivotally connect the male and female connecting portions 12 and 13. The pivot structure 40B includes: A screw 41 has an axis portion 411 and a locking portion 412; the axis portion 411 is used to pass through the set of pivot holes 40A on the male and female connecting portions 12 and 13 and extend out The locking portion 412 is located at a position where the shaft portion 411 extends. A nut 42 is connected to the locking portion 412 to pivotally fix the male and female connecting portions 12 and 13 to each other. This creation has the following two modes of rotation to adjust the insertion power angle, as described below: [a] Horizontal rotation mode: refer to Figures 4 and 5, between the two adjacent socket parts, the male and female connecting parts 12 and 13 can be positioned between them, relatively rotating horizontally (for example, in a first (Angle θ1, a second angle θ2, a third angle θ3 and a fourth angle θ4 are relatively rotated to adjust the angle). [b] Axial rotation mode: refer to Figures 6 and 7, corresponding to each socket part, the inner shaft structure 10 and the outer shell structure 20 can rotate relatively coaxially (see Figure 6 for example, relative rotation to a first An axial angle θA, or refer to FIG. 7, for example, relative rotation to a second axial angle θB), so that the socket member 31 can move relative to the socket movable hole 111 (see FIG. 6, for example, from an original The position P1 is moved to a first adjustment position P2, or referring to FIG. 7, for example, from the original position P1 to a second adjustment position P2), the angle of insertion power supply is also changed. Referring to FIG. 8, under the restriction of no spatial angle, between the adjacent two socket parts, the male and female connecting parts 12 and 13 can be rotated relatively horizontally, and the shape of a centipede is almost. Moreover, the socket member 31 on each socket part can be rotated to a different angle with at least one electrical object 90 placed in different positions, which can reduce the length of the wire and reduce the twisting of the plug wire Case. Referring to FIG. 9, under the restriction of the space angle, assuming that it is applied to the corner between the two walls, the two socket parts close to the two walls can be used. The male and female connecting parts 12 and 13 in between can correspond to the corner The relative rotation of the angle allows the remaining socket parts to be arranged neatly along the corresponding wall surface. Similarly, the socket member 31 on each socket part can still follow the electrical object 90 in different positions, and Rotating to different angles with it can reduce the problem that the plug wire may be turned for a long time and may be broken. The advantages and effects of this creation can be summarized as follows: [1] The space between two adjacent sockets can be adjusted horizontally according to the setting space. Between the two adjacent socket parts in this creation, the male and female connecting parts can be adjusted for relative horizontal rotation, which can be adapted to different spatial designs, such as stairs and wall corners (special interior space design, wall corners) It may be greater or less than ninety degrees), and rotate to adjust the position, so that the socket part can be distributed along the wall as much as possible, reducing the problem of disordered distribution of the socket part. Therefore, the space between the two adjacent sockets can be adjusted horizontally according to the installation space. [2] The socket part can rotate within a predetermined angle. The inner shaft structure and the outer shell structure of each socket part of this creation can be relatively rotated, so that the socket member can move relatively with the socket movable hole, and can be adjusted to a suitable position within a predetermined angle, which can reduce the plug to be inserted into the socket And deflecting the wire causes the wire or plug to deform for a long time. Therefore, the socket member can rotate within a predetermined angle. [3] The number of socket parts can be increased or decreased as needed. In this creation, male and female connecting parts are provided at both ends of each socket part for pivotal connection and detachment from adjacent socket parts. The number of socket parts can be increased or decreased at any time according to the needs of the actual use place (the internal conductive wire body can be extended only by re-electrical connection, which is an easy-to-implement technology). Therefore, the number of outlets can be increased or decreased as needed. [4] The structure is simple. The inner shaft shell and the outer shell structure of this creation can be produced by injection molding technology, and the socket parts can be directly applied by devices on the market. Therefore, the structure is simple. The above is only a detailed description of the creation through the preferred embodiment. Any simple modifications and changes made to the embodiment will not deviate from the spirit and scope of the creation.

10: inner shaft structure 11: Center axis 111: socket movable hole 12: Public Link Department 13: Female connection 20: Shell structure 21: Shell cover 211: Shell cover hole 212: Accommodation space 213: Shell Jack 22: Shell board 221: Shell plate hole 30: Conductive structure 31: socket parts 32: conductive wire 40: Pivot device 40A: pivot hole 40B: Pivot structure 41: Screw 411: Axis part 412: Locking part 42: Nut 90: electrical objects θ1: first angle θ2: second angle θ3: third angle θ4: fourth angle θA: first axial angle θB: second axial angle P1: original position P2: first adjustment position P3: third adjustment position

Figure 1 is a schematic diagram of this creation Figure 2 is an exploded view of part of the structure of this creation Figure 3 is a cross-sectional view of part of the structure of this creation Figure 4 is a schematic diagram of the first application example of the horizontal rotation between the socket parts of this creation Figure 5 is a schematic diagram of a second application example in which the socket parts of this creation are horizontally rotated Fig. 6 is a cross-sectional view of the first application example in which the socket member of the present invention is axially rotated Figure 7 is a cross-sectional view of a second application example in which the socket piece of this creation is axially rotated Figure 8 is a schematic diagram of the first application example of this creation Figure 9 is a schematic diagram of the second application example of this creation

10: inner shaft structure

11: Center axis

111: socket movable hole

12: Public Link Department

13: Female connection

20: Shell structure

21: Shell cover

211: Shell cover hole

212: Accommodation space

213: Shell Jack

22: Shell board

221: Shell plate hole

30: Conductive structure

31: socket parts

32: conductive wire

40A: pivot hole

Claims (3)

A multi-dimensional power socket device is composed of a plurality of socket parts, and each socket part includes: An inner shaft structure includes a central shaft portion, a male connecting portion and a female connecting portion; the central shaft portion has a socket movable hole; the male connecting portion extends from the central shaft portion and extends substantially horizontally Go out; the female connecting portion extends horizontally from the central shaft portion in the opposite direction of the male connecting portion; the central shaft portion, the male connecting portion and the female connecting portion are in communication with each other, and the At least one of the male connecting part and the female connecting part is for the adjacent socket parts to be pivotally connected to each other; An outer shell structure is sleeved on the inner shaft structure and can rotate coaxially and relatively; the outer shell structure includes an outer shell cover and an outer shell plate; the outer shell cover has a rotating shell cover hole, a receiving space and a set of plugs Hole; the accommodating space is connected to the casing rotating hole and the set of insertion holes, the central shaft portion is provided in the accommodating space, the female connecting portion extends out of the casing rotating hole, for corresponding to the male The connecting parts are pivotally connected to each other, and the female connecting part can be coaxially and relatively rotated with the shell rotating hole, the shell plate is used to connect the shell cover, and then covers the central shaft portion, the shell plate has a shell plate A rotating hole, the male connecting part extends out of the shell plate rotating hole to pivotally connect with the adjacent socket part, and the male connecting part can rotate coaxially with the shell plate rotating hole; A conductive structure includes a socket member and a conductive wire body; the socket member corresponds to a socket movable hole, is fixed inside the housing cover, and can move relative to the socket movable hole; the conductive wire system is electrically connected to the Socket parts; and the conductive wire system communicates with the central shaft part, the male connection part and the female connection part; Thereby, the male and female connecting parts are provided for relative rotation of the adjacent socket parts to change the angle at which the socket member is used to insert the power supply, and the inner shaft structure and the housing structure are relatively rotated to make the socket The relative movement of the component and the movable hole of the socket also changes the angle of insertion power supply. The multi-dimensional power outlet device as described in claim 1, which further includes: A pivoting device, including: A group of pivot holes are respectively provided at corresponding positions of the male connecting part and the female connecting part; A pivot connection structure is used to penetrate the set of pivot connection holes to pivotally connect the male connection portion and the female connection portion. The multi-dimensional power socket device according to claim 2, wherein the pivot structure includes: A screw part has an axial core portion and a locking portion; the axial core portion is used to pass through the set of pivot holes on the male and female connecting portions and extend out, and the locking portion is located on the The location where the axis extends; A nut is connected to the locking part for pivotally fixing the male and female connecting parts to each other.

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