TWI660546B - Assemblable socket structure - Google Patents

Assemblable socket structure Download PDF

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Publication number
TWI660546B
TWI660546B TW106123442A TW106123442A TWI660546B TW I660546 B TWI660546 B TW I660546B TW 106123442 A TW106123442 A TW 106123442A TW 106123442 A TW106123442 A TW 106123442A TW I660546 B TWI660546 B TW I660546B
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TW
Taiwan
Prior art keywords
socket
rotation
conductive sheet
plug
fixed
Prior art date
Application number
TW106123442A
Other languages
Chinese (zh)
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TW201909493A (en
Inventor
廖生興
Original Assignee
廖生興
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Filing date
Publication date
Application filed by 廖生興 filed Critical 廖生興
Priority to TW106123442A priority Critical patent/TWI660546B/en
Publication of TW201909493A publication Critical patent/TW201909493A/en
Application granted granted Critical
Publication of TWI660546B publication Critical patent/TWI660546B/en

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Abstract

A combination socket structure includes a fixed group and a rotating group. The fixing group includes a main body, and the two opposite sides of the main body are respectively provided with a plug pin and a plug hole. A first conductive sheet is provided on the inner side of the plug hole, and the first conductive sheet is electrically connected to the plug pin. A through hole is provided on the side, and a second conductive sheet is provided on the inner side of the through hole. The second conductive sheet is a general-purpose conductive sheet, and the second conductive sheet is electrically connected to the pin. The rotation group is set on the outside of the body of the fixed group. The rotation group can be rotated on the fixed group. Multiple groups of socket holes are provided at intervals on the rotation group. The rotation group can be rotated to select a group of sockets of the required size on the rotation group. The holes correspond to the through holes of the fixing group and the second conductive sheet. In this way, a variety of plugs of different specifications can be plugged in, and can be easily changed to the socket holes of the required specification, and multiple socket structures can be used in series.

Description

Combined socket structure
The invention relates to a combinable socket structure, in particular to a socket structure with a function of an adapter, which can be used for plugs of various specifications.
At present, the specifications of sockets and plugs in different countries are different. For example, the existing technology has two-hole and three-hole sockets. In different countries, some of the two holes are long flat holes and some are round holes. Or travellers are often troubled because the electrical appliances they carry may not be usable due to different plug specifications.
In summary, the inventor feels that the above-mentioned defects can be improved. However, with intensive research and the application of scientific theory, he finally proposed a present invention with a reasonable design and effective improvement of the above-mentioned defects.
The technical problem to be solved by the present invention is to provide a combinable socket structure, which can be used for plugs of a variety of different specifications, is convenient to use, can be easily changed to the required specification of the socket hole, and can connect multiple sockets Structures are used in series.
In order to solve the above technical problems, the present invention provides a combinable socket structure, which includes: a fixing group, the fixing group includes a body, and the two opposite sides of the body are respectively provided with plug pins and plug holes, and the plug A first conductive sheet is provided on the inner side of the hole, the first conductive sheet is electrically connected to the plug pin, a through hole is provided on the other side of the body, a second conductive sheet is provided on the inner side of the through hole, and the second The conductive sheet is a general-purpose conductive sheet. The second conductive piece is electrically connected to the pin; and a rotating group, the rotating group is a hollow body, the rotating group is sleeved outside the body of the fixed group, and the rotating group can rotate on the fixed group. The rotation group is provided with multiple sets of socket holes at intervals. The rotation group can be rotated, and a group of socket holes of a required specification on the rotation group is selected to correspond to the through holes of the fixed group and the second conductive piece.
In order to solve the above technical problems, the present invention also provides a combinable socket structure, which includes: a fixing group, the fixing group includes a body, and the two opposite sides of the body are provided with plug pins and plug holes, respectively. A first conductive sheet is provided on the inner side of the contact hole, the first conductive sheet is electrically connected to the plug pin, a second conductive sheet is provided inside the body, the second conductive sheet is a general-purpose conductive sheet, and the second The conductive sheet is electrically connected to the pin; and a rotating group, the rotating group is a hollow body, the rotating group is sleeved on the outside of the body of the fixed group, and the rotating group can rotate on the fixed group. A plurality of socket holes are arranged on the rotation group at intervals, and the rotation group can be rotated. A group of socket holes of a required specification on the rotation group is selected to correspond to the second conductive piece of the fixed group.
The beneficial effect of the present invention: The socket structure of the present invention includes a fixed group and a rotating group. The rotating group can be rotated on the fixed group. The user can use the rotation of the rotating group to make a set of socket holes of the required size on the rotating group correspond to The second conductive piece of the fixed group, so that the plug pins of the plug of the electrical appliance can be inserted into the fixed group through the socket holes of the rotation group, and the plug pins of the plug of the electrical appliance can be connected with the second pin of the fixed group. The conductive sheet contacts to achieve an electrical connection, so that power or signals can be transmitted to electrical appliances.
The opposite sides of the body of the fixing group of the present invention are provided with plug pins and plug holes, respectively. The plug pins of one socket structure can be plugged into the plug holes of the other socket structure, so that the plug pins are connected with The corresponding first conductive pieces are contacted, so that the socket structures are connected in series and electrically connected.
Therefore, the socket structure of the present invention can be used for plugging a variety of plugs of different specifications, and is convenient to use. It can be easily converted to a socket hole of a required specification, and multiple socket structures can be used in series.
In order to further understand the features and technical contents of the present invention, please refer to the following detailed description of the present invention and the accompanying drawings, but the drawings are only for reference and explanation, and are not intended to limit the present invention.
1‧‧‧ fixed group
11‧‧‧ Ontology
12‧‧‧ Plug
13‧‧‧Plug hole
14‧‧‧ the first conductive sheet
15‧‧‧ the first wire
16‧‧‧through hole
17‧‧‧Second conductive sheet
18‧‧‧Second Lead
19‧‧‧ round cylinder
20‧‧‧ extension
21‧‧‧electrical connector
22‧‧‧Plug
23‧‧‧Connecting cable
3‧‧‧rotation group
31‧‧‧ round pivot hole
32‧‧‧Socket hole
4‧‧‧ turntable
41‧‧‧ rear socket hole
5‧‧‧lifting seat
6‧‧‧ Motor
7‧‧‧ Transmission mechanism
71‧‧‧first gear
72‧‧‧Second Gear
FIG. 1 is a schematic perspective view of a first embodiment of a socket structure according to the present invention.
FIG. 2 is a schematic sectional view of a first embodiment of a socket structure according to the present invention.
3 is a schematic perspective view of a second embodiment of a socket structure according to the present invention.
FIG. 4 is a schematic sectional view of a second embodiment of a socket structure according to the present invention.
FIG. 5 is a schematic perspective view of a third embodiment of the socket structure of the present invention.
FIG. 6 is a schematic sectional view of a third embodiment of a socket structure according to the present invention.
FIG. 7 is a schematic diagram of a combined state of the fourth embodiment of the socket structure of the present invention.
FIG. 8 is a schematic diagram of a combined state of the fifth embodiment of the socket structure of the present invention.
FIG. 9 is a schematic cross-sectional view of a sixth embodiment of a socket structure according to the present invention.
FIG. 10 is a schematic perspective view of a seventh embodiment of the socket structure according to the present invention.
FIG. 11 is a schematic perspective view of an eighth embodiment of the socket structure according to the present invention.
FIG. 12 is a schematic perspective view of a ninth embodiment of a socket structure according to the present invention.
13 is a schematic cross-sectional view of a tenth embodiment of the socket structure according to the present invention.
[First embodiment]
Please refer to FIG. 1 and FIG. 2. The present invention provides a combination socket structure including a fixed group 1 and a rotating group 3.
The fixing group 1 includes a main body 11 made of an insulating material such as plastic. The main body 11 may be a single piece or a plurality of pieces. The structure is not limited and may be appropriately changed according to requirements. The opposite sides (front and rear) of the main body 11 are provided with plug pins 12 and plug holes 13, respectively. The plug pins 12 are made of conductive material, and the plug pins 12 can be used to plug into appropriate socket devices. Used to enter the required power or signal. Docking The hole 13 penetrates the inner wall and the outer wall of the body 11, and the plug pins 12 and the plug holes 13 are oppositely arranged so as to connect and combine multiple socket structures in series. The number of the insertion pins 12 and the insertion holes 13 is not limited, and may be two or three.
A first conductive sheet 14 is provided on the inner side of the plug hole 13, and the first conductive sheet 14 can be electrically connected to the plug pin 12 through a first wire 15, a conductive material, or a circuit board, so that power or signals can be inserted through the plug. The pins 12 are transmitted to the first conductive sheet 14. When the plug pin of the plug of the electrical appliance or the plug pin 12 of another socket structure is inserted into the plug hole 13, it can be in contact with the first conductive sheet 14 in order to transmit power or signals to the electrical appliance or another socket structure.
The other side of the body 11 may be provided with a through hole 16, which penetrates the inner wall and the outer wall of the body 11. The through hole 16 may be a universal (or universal) jack, so as to facilitate the plugs of various specifications. The plug pins can be inserted into the through holes 16. The body 11 is provided with a second conductive sheet 17, which can be disposed inside the through hole 16. The second conductive sheet 17 is a general-purpose conductive sheet and can be used for plugging with various plugs of different specifications. The feet are electrically connected. The second conductive sheet 17 can be electrically connected to the pin 12 through a second wire 18, a conductive material, or a circuit board, so that power or signals can be transmitted to the second conductive sheet 17 through the pin 12. When the plug pins of the plugs of the electrical appliances are inserted into the rotation group 3 and the through holes 16, they can be in contact with the second conductive sheet 17 so as to transmit power or signals to the plugs of the electrical appliances.
The rotation group 3 is a hollow body, which can be polygonal or circular, and its shape is not limited. The rotation group 3 is set on the outside of the body 11 of the fixed group 1. The rotation group 3 can rotate on the fixed group 1. In this embodiment, a circular pivot hole 31 is provided inside the rotation group 3, and a corresponding circular cylinder 19 is formed on the outside of the body 11 of the fixed group 1. The circular pivot hole 31 of the rotation group 3 is set The circular cylinder 19 provided on the fixed group 1 allows the rotation group 3 to rotate freely on the fixed group 1.
The rotation group 3 is provided with a plurality of socket holes 32 at intervals. The socket holes 32 penetrate the inner wall and the outer wall of the rotation group 3. The socket holes 32 are of different specifications, for example, they can include one hole, two holes, and three holes. Porosity and other number of porous patterns, can include long flat holes The shape of the socket holes 32 is not limited, and may be various specifications such as Taiwan, China, Italy, the United States, Australia, and Europe.
The user can rotate the rotation group 3 to select a group of socket holes 32 of the required specifications on the rotation group 3 corresponding to the through holes 16 and the second conductive piece 17 of the fixing group 1, so that the plugs of the electrical appliances can be inserted. The pins are inserted into the through holes 16 of the fixing group 1 by rotating the socket holes 32 of the group 3, and the plug pins of the plug of the electrical appliance can contact the second conductive piece 17 of the fixing group 1 to achieve an electrical connection. Allows power or signals to be transmitted to electrical appliances.
When using the plug pins of plugs of electrical appliances of different specifications, the user can turn the rotation group 3 again, so that the other group of socket holes 32 on the rotation group 3 with the same specifications as the plug pins correspond to the fixing group 1 through hole 16 and the second conductive sheet 17, so that the plug pins of the plug of the electrical appliance can pass through the socket hole 32 of the rotation group 3, and then be inserted into the through hole 16 of the fixed group 1, The plug pins of the plug can contact the second conductive piece 17 of the fixing group 1 to achieve an electrical connection, so that the power supply or signal can be transmitted to the electrical appliances.
In another embodiment, the plug pins 12, the plug holes 13 and the first conductive sheet 14 may be omitted. A second conductive sheet (conductive sheet) 17 is provided inside the body 11 of the fixing group 1. The second conductive sheet 17 is a general-purpose conductive sheet. The second conductive sheet 17 is electrically connected to a transmission member such as a connection line, so that power or signals can be transmitted to the second conductive sheet 17 through the transmission member. The rotation group 3 is set on the outside of the body 11 of the fixed group 1. The rotation group 3 can be rotated on the fixed group 1. The rotation group 3 is provided with multiple sets of socket holes 32 at intervals. The rotation group 3 can be rotated. A group of socket holes 32 of a desired size selected on the rotation group 3 corresponds to the second conductive piece 17 of the fixing group 1. The socket structure can also be used in multiple stacks.
[Second embodiment]
Please refer to FIG. 3 and FIG. 4. The structure of this embodiment is substantially the same as that of the first embodiment. The only difference is that one or both sides of the body 11 of the fixing group 1 is further extended with an extension portion 20. The portion 20 is provided with at least one electrical connector 21, the The electrical connector 21 may be various types of electrical connectors such as a USB connector, an IEEE1394 connector, an HDMI connector, an AV terminal, or a DC terminal. The electrical connector 21 may also be connected by a wire, a conductive material, or a circuit board (not shown). The method is electrically connected to the pin 12 so that power or signals can be transmitted to the electrical connector 21, so that electrical appliances can also be inserted into the electrical connector 21 to provide the required power or signals.
[Third embodiment]
Please refer to FIG. 5 and FIG. 6. The structure of this embodiment is substantially the same as that of the first embodiment. The only difference is that the plug hole 13 on the side of the body 11 is a universal (or universal) jack. The first conductive sheet 14 is a general-purpose conductive sheet, which can be used to achieve electrical connection with the pins of a plurality of plugs of different specifications. An extension portion 20 is formed on a side of the main body 11 of the fixing group 1 away from the plug 12. The extension portion 20 is provided with a turntable 4. The turntable 4 is rotatably disposed on the extension portion 20. The turntable 4 is provided with a plurality of sets of rear socket holes 41 at intervals. The rear socket holes 41 are of different specifications, for example, they may include one hole, two holes, three holes, and other types of porous types. The shape of the circular socket holes 41 is not limited, and may be various specifications such as Taiwan, China, Italy, the United States, Australia, or Europe.
The user can rotate the turntable 4 to select a set of rear socket holes 41 of the required specifications on the turntable 4 corresponding to the first conductive piece 14, so that the plug pins of the plug of the electrical appliance can pass through the plug hole 13 and then be inserted. At the corresponding rear socket hole 41 and the first conductive sheet 14, the plug pins of the plug of the electrical appliance can contact the first conductive sheet 14 of the fixing group 1 to achieve an electrical connection, so that the power supply or signal can be transmitted to the electrical appliance. .
[Fourth embodiment]
Please refer to FIG. 7, the present invention can also use a plurality of socket structures in series connection, that is, the plug pin 12 of one socket structure can be inserted into the plug hole 13 of another socket structure to make the plug pin 12 is in contact with the corresponding first conductive sheet 14, so that the socket structures can be connected in series and electrically connected.
[Fifth embodiment]
Please refer to FIG. 8, the present invention is connected in series to a front-end socket structure. The pin 12 on the front side of the body 11 can also be provided on a plug 22. The pin 12 is electrically connected to the first conductive piece 14 and the second conductive piece 17 by a connecting line 23, so that the power supply or signal can be sequentially It is transmitted to the first conductive sheet 14 and the second conductive sheet 17 through the pin 12 and the connecting wire 23. The plurality of socket structures in this embodiment are connected in series to form an extension cord socket.
[Sixth embodiment]
Please refer to FIG. 9. In this embodiment, the socket structure includes a fixed group 1 and a plurality of rotating groups 3. The opposite sides of the main body 11 of the fixed group 1 are provided with plug pins 12 and plug holes 13 respectively. A first conductive sheet 14 is provided on the inner side of the contact hole 13, and the first conductive sheet 14 is electrically connected to the plug pin 12. A plurality of through holes 16 may be provided on the other side of the body 11. A second conductive sheet 17 is provided. The second conductive sheets 17 are general-purpose conductive sheets. The second conductive sheets 17 are electrically connected to the pin 12. The rotation groups 3 are hollow bodies. The rotation groups 3 are set on the outside of the body 11 of the fixed group 1. The rotation groups 3 can be rotated on the fixed group 1. The rotation groups 3 are arranged at intervals. The group of socket holes 32 can rotate the rotation groups 3, and a group of socket holes 32 of the required specifications on the rotation groups 3 corresponds to the through holes 16 and the second conductive piece 17 of the fixed group 1. The through hole 16 may be omitted, and the side of the main body 11 corresponding to the second conductive sheet 17 is designed as an opening (not shown). The usage method of this embodiment is the same as that of the first embodiment, and will not be described again.
In another embodiment, the insertion pins 12, the insertion holes 13 and the first conductive sheet 14 may also be omitted. The body 11 of the fixing group 1 is provided with a plurality of second conductive sheets (conductive sheets) 17. The second conductive sheets 17 are general-purpose conductive sheets. The second conductive sheets 17 are electrically connected to a transmission member such as a connection line, so that power or signals can be transmitted to the second conductive sheet 17 through the transmission member. A plurality of rotation groups 3 are set outside the body 11 of the fixed group 1. The rotation groups 3 can be rotated on the fixed group 1. The rotation groups 3 are provided with multiple sets of socket holes 32 at intervals. For some of the rotation groups 3, a set of socket holes 32 of the required specifications on the rotation groups 3 is selected to correspond to the second conductive piece 17 of the fixing group 1.
[Seventh, Eighth, Ninth Embodiment]
Please refer to FIGS. 10, 11 and 12. In these embodiments, the socket structure is applied to a floor socket or a desktop socket (as shown in FIG. 10), a wall socket (as shown in FIG. 11), and a liftable socket ( (As shown in Figure 12). When the socket structure is applied to a floor socket or a desktop socket (as shown in FIG. 10), the socket structure can be lifted up or closed. When the socket structure is applied to a liftable socket (as shown in FIG. 12), the socket structure can be arranged on a lift base 5, and the socket structure can be raised or lowered along with the lift base 5. In this embodiment, the plug pins 12, the plug holes 13 and the first conductive sheet 14 may also be omitted. The body 11 of the fixing group 1 is provided with a plurality of second conductive sheets (conductive sheets) 17. The second conductive sheets 17 are general-purpose conductive sheets, and the second conductive sheets 17 are electrically connected to a transmission member such as a connection line, so that power or signals can be transmitted to the second conductive sheet 17 through the transmission member. The rotation group 3 can be rotated on the fixed group 1 (not shown). The user can use the rotation of the rotation group 3 to make a set of socket holes 32 of the required size on the rotation group 3 correspond to the second conductive piece 17 of the fixed group 1. (Conductive sheet), so that the plug pins of the electrical appliance plug can be inserted into the fixing group 1 through the socket hole 32 of the rotation group 3, and the plug pins of the electrical appliance plug can be connected with the first The two conductive sheets 17 are in contact with each other to achieve an electrical connection, so that power or signals can be transmitted to electrical appliances.
[Tenth embodiment]
Please refer to FIG. 13. In this embodiment, the socket structure is provided with a motor 6 and a transmission mechanism 7. At least one of the motor 6 and the transmission mechanism 7 is provided. The motor 6 can be fixed on the fixed group 1 and the motor 6 can be switched by a switch. (Figure omitted) drive. The motor 6 can be connected to the rotation group 3 through a transmission mechanism 7. In this embodiment, the transmission mechanism 7 is a gear group. The gear group includes a first gear 71 connected to the motor 6 and a gear set provided on the rotation group 3. The second gear 72, the first gear 71, and the second gear 72 mesh with each other. When the driving motor 6 rotates, the rotation group 3 can be driven to rotate by the first gear 71 and the second gear 72 so as to rotate the rotation group 3 electrically. All or part of the rotation group 3 of the socket structure can be rotated by electric means.
The socket structure of the present invention includes a fixed group and a rotating group. The user can use the rotation of the rotation group to make a set of socket holes of the required size on the rotation group correspond to the second conductive piece (conductive piece) of the fixed group. In this way, the plug pins of the electrical appliance plug can be inserted. By plugging the socket holes of the rotating group into the fixed group, the plug pins of the plug of the electrical appliance can contact the second conductive piece of the fixed group to achieve an electrical connection, so that the power supply or signal can be transmitted to the electrical appliance.
Furthermore, the opposite sides of the body of the fixing group of the present invention are provided with plug pins and plug holes, respectively. The plug pins of one socket structure can be plugged into the plug holes of another socket structure, so that the plug can be connected. The foot is in contact with the corresponding first conductive sheet, so that the socket structures can be connected in series and electrically connected.
Therefore, the socket structure of the present invention can be used for plugging a variety of plugs of different specifications, and is convenient to use. It can be easily converted to a socket hole of a required specification, and multiple socket structures can be used in series.
The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of patent protection of the present invention. Therefore, any equivalent changes made using the description and drawings of the present invention are also included in the scope of protection of the present invention. Inside.

Claims (22)

  1. A combiable socket structure includes: a fixing group, the fixing group includes a body, and two opposite sides of the body are respectively provided with a plug pin and a plug hole, and a first conductive sheet is provided on the inner side of the plug hole, The first conductive sheet is electrically connected to the plug pin, a through hole is provided on the other side of the body, a second conductive sheet is provided on the inner side of the through hole, and the second conductive sheet is a general-purpose conductive sheet. Two conductive pieces are electrically connected to the pin; and a rotating group, the rotating group is a hollow body, the rotating group is set on the outside of the body of the fixed group, and the rotating group can rotate on the fixed group, Multiple sets of socket holes are provided at intervals on the rotation group, and the socket holes are of different specifications. The rotation group can be rotated, and a set of socket holes of the required specification on the rotation group corresponds to the through holes of the fixed group and Second conductive sheet.
  2. The combinable socket structure according to claim 1, wherein the through hole is a universal jack.
  3. The combinable socket structure according to claim 1, wherein the rotation group is polygonal or circular.
  4. The combinable socket structure according to claim 1, wherein the inside of the rotating group is provided with a circular pivot hole, and the outside of the body of the fixed group forms a circular cylinder, and the circular pivot hole of the rotating group is sleeved A circular cylinder in the fixed group.
  5. The combinable socket structure according to claim 1, wherein one or both sides of the body of the fixing group is formed with an extension, and the extension is provided with at least one electrical connector, and the at least one electrical connector is electrically Connected to this pin.
  6. The combinable socket structure according to claim 1, wherein the plug-in hole of the body is a general-purpose jack, and the first conductive piece is a universal-type conductive piece, and the body of the fixing group is far away from the plug-in pin. An extension is formed on one side. The extension is provided with a turntable. The turntable is provided with a plurality of sets of rear socket holes at intervals. The turntable can be rotated to select a set of rear socket holes of the required specifications on the turntable corresponding to the fixing. The first conductive sheet of the group.
  7. The combinable socket structure according to claim 1, wherein the plug pin is disposed on a plug, and the plug pin is electrically connected to the first conductive sheet and the second conductive sheet by a connecting wire.
  8. The combinable socket structure according to claim 1, further comprising a motor, which is connected to the rotation group through a transmission mechanism to rotate the rotation group electrically.
  9. A combiable socket structure includes: a fixing group, the fixing group includes a body, and two opposite sides of the body are respectively provided with a plug pin and a plug hole, and a first conductive sheet is provided on the inner side of the plug hole, The first conductive sheet is electrically connected to the plug pin, and a second conductive sheet is provided inside the body, the second conductive sheet is a general-purpose conductive sheet, and the second conductive sheet is electrically connected to the plug pin; And a rotating group, the rotating group is a hollow body, the rotating group is sleeved on the outside of the body of the fixed group, the rotating group can rotate on the fixed group, and multiple groups of socket holes are arranged on the rotating group at intervals. The socket holes are of different specifications. The rotation group can be rotated, and a group of socket holes of a required specification on the rotation group is selected to correspond to the second conductive piece of the fixed group.
  10. The combinable socket structure according to claim 9, wherein the inside of the rotating group is provided with a circular pivot hole, and the outside of the body of the fixed group forms a circular cylinder, and the circular pivot hole of the rotating group is sleeved A circular cylinder in the fixed group.
  11. The combinable socket structure according to claim 9, wherein one or both sides of the body of the fixing group are formed with extensions, and the extensions are provided with at least one electrical connector, and the at least one electrical connector is electrically Connected to this pin.
  12. The combinable socket structure according to claim 9, wherein the plug-in hole of the body is a general-purpose jack, and the first conductive piece is a universal-type conductive piece, and the body of the fixing group is far from the plug-in pin. An extension is formed on one side. The extension is provided with a turntable. The turntable is provided with a plurality of sets of rear socket holes at intervals. The turntable can be rotated to select a set of rear socket holes of the required specifications on the turntable corresponding to the fixing. The first conductive sheet of the group.
  13. The combinable socket structure according to claim 9, wherein the plug pin is disposed on a plug, and the plug pin is electrically connected to the first conductive sheet and the second conductive sheet by a connecting wire.
  14. The combinable socket structure according to claim 9, further comprising a motor, which is connected to the rotation group through a transmission mechanism to rotate the rotation group electrically.
  15. A combiable socket structure includes: a fixing group, the fixing group includes a body, and two opposite sides of the body are respectively provided with a plug pin and a plug hole, and a first conductive sheet is provided on the inner side of the plug hole, The first conductive sheet is electrically connected to the plug pin. The other side of the body is provided with a plurality of through holes. Each of the insides of the through holes is provided with a second conductive sheet. The second conductive sheets are universal. A conductive sheet, the second conductive sheets are electrically connected to the plug pin; and a plurality of rotation groups, the rotation groups are hollow bodies, the rotation groups are sleeved on the outside of the body of the fixed group, and the rotations The group can be rotated on the fixed group. Multiple groups of socket holes are provided on the rotation groups at intervals. The socket holes are of different specifications. The rotation groups can be rotated to select one of the required specifications on the rotation groups. The group socket holes correspond to the through holes of the fixed group and the second conductive sheet.
  16. The combinable socket structure according to claim 15, further comprising at least one motor, the at least one motor is connected to at least one of the rotation groups through a transmission mechanism to rotate the rotation group electrically.
  17. A combiable socket structure includes: a fixing group, the fixing group includes a body, and two opposite sides of the body are respectively provided with a plug pin and a plug hole, and a first conductive sheet is provided on the inner side of the plug hole, The first conductive sheet is electrically connected to the pin, and a plurality of second conductive sheets are provided inside the body. The second conductive sheets are general-purpose conductive sheets, and the second conductive sheets are electrically connected to the plug. Plug-in pins; and a plurality of rotation groups, the rotation groups are hollow bodies, the rotation groups are set on the outside of the body of the fixed group, the rotation groups can rotate on the fixed group, and the rotation groups Multiple sets of socket holes are provided at intervals. The socket holes are of different specifications. The rotation groups can be rotated. A group of socket holes of the required specifications on the rotation groups are selected to correspond to the second conductive piece of the fixed group.
  18. The combinable socket structure according to claim 17, further comprising at least one motor, the at least one motor is connected to at least one of the rotation groups through a transmission mechanism to rotate the rotation group electrically.
  19. A combinable socket structure includes: a fixed group, the fixed group includes a body, the body is provided with a plurality of conductive sheets, the conductive sheets are general-purpose conductive sheets, and the conductive sheets are electrically connected to the transmission Pieces; and a plurality of rotation groups, the rotation groups are hollow bodies, the rotation groups are set outside the body of the fixed group, the rotation groups can rotate on the fixed group, and the rotation groups are spaced apart. A plurality of sets of socket holes are provided. The socket holes are of different specifications. The rotation groups can be rotated. A group of socket holes of the required specifications on the rotation groups are selected to correspond to the conductive pieces of the fixed group.
  20. The combinable socket structure according to claim 19, further comprising at least one motor, the at least one motor is connected to at least one of the rotation groups through a transmission mechanism to rotate the rotation group electrically.
  21. A combinable socket structure includes: a fixing group, the fixing group including a body, a conductive sheet is provided inside the body, the conductive sheet is a general-purpose conductive sheet, and the conductive sheet is electrically connected to a transmission member; and Rotating group, the rotating group is a hollow body, the rotating group is set on the outside of the body of the fixed group, the rotating group can be rotated on the fixed group, and multiple groups of socket holes are arranged on the rotating group at intervals. The socket holes are of different specifications. The rotation group can be rotated, and a group of socket holes of the required specification on the rotation group is selected to correspond to the conductive piece of the fixed group.
  22. The combinable socket structure according to claim 21, further comprising a motor, which is connected to the rotation group through a transmission mechanism to rotate the rotation group electrically.
TW106123442A 2017-07-13 2017-07-13 Assemblable socket structure TWI660546B (en)

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TWI660546B true TWI660546B (en) 2019-05-21

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWM495021U (en) * 2014-07-28 2015-02-01 gui-tang Huang Module type extension wire socket
TWI591911B (en) * 2015-06-02 2017-07-11 羅新平 Socket outlet

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWM495021U (en) * 2014-07-28 2015-02-01 gui-tang Huang Module type extension wire socket
TWI591911B (en) * 2015-06-02 2017-07-11 羅新平 Socket outlet

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