CN114336117B

CN114336117B - Switching connector

Info

Publication number: CN114336117B
Application number: CN202110013881.0A
Authority: CN
Inventors: 张景棠; 何啟寿
Original assignee: Delta Electronics Inc
Current assignee: Delta Electronics Inc
Priority date: 2020-09-30
Filing date: 2021-01-06
Publication date: 2024-05-31
Anticipated expiration: 2041-01-06
Also published as: CN114336117A

Abstract

The present disclosure relates to a switching connector, which comprises a body, a plug, a first socket, a second socket, a first conductive component and a second conductive component. The body has a first end and a second end, wherein the first end is opposite to the second end. The plug is arranged at the first end of the body and comprises a first live wire terminal and a first neutral wire terminal. The first socket is arranged at the second end of the body and comprises a second live wire terminal and a second neutral wire terminal. The second socket is arranged at the second end of the body and comprises a third live wire terminal and a third neutral wire terminal. The three guide ends of the first guide assembly are respectively connected with the first live wire terminal, the second live wire terminal and the third live wire terminal. The three conductive terminals of the second conductive component are respectively connected with the first neutral line terminal, the second neutral line terminal and the third neutral line terminal.

Description

Switching connector

Technical Field

The present disclosure relates to a power transmission device, and more particularly to a switching connector.

Background

With the progress and development of technology, the working performance of the power supply device is gradually improved, so that the power provided by the power supply device is also increased. Currently, in the communication network device and the server device, as the power requirement of the power source is larger and larger, a high-power supply device is required to provide the power source for the client device. However, the power supply device uses a power socket whose specification is matched to the power of the power supply device, so that the power supply device with high power must use a socket capable of carrying a higher rated current, such as a C20 socket specified by the international electrotechnical commission (International Electrotechnical Commission, IEC 60320) standard. In addition, the client device needs to use a power line of a C19 plug, and the client device and the power supply device can be electrically connected through the inter-fit connection between the C19 plug and the C20 socket, so as to realize power transmission and power supply.

However, in practical applications, the client device portion may employ devices with lower power requirements, which typically use the power cord of the C13 plug. Because the rated current carried by the C13 plug is low, and the external profile of the C13 plug can only be matched and assembled with the C14 socket, and cannot be matched and assembled with the C20 socket of the high-power supply device, if the C13 plug is matched with the C20 socket of the high-power supply device, the client equipment must be changed or replaced, or the power supply device must be replaced, so that the application is limited and inconvenient.

Therefore, there is a need to develop a transfer connector to solve the problems of the prior art.

Disclosure of Invention

The present disclosure provides a transfer connector, which can provide a power transfer function, such as a dual C14 socket to single C19 plug, and can prevent wire damage caused by single-side power supply, and avoid electrical false touch, and achieve the effect of transferring a power line with low rated current to a high-power supply device, so as to realize power transmission.

In order to achieve the above object, a broader aspect of the present invention provides a transit connector, which includes a body, a plug, a first socket, a second socket, a first conductive component and a second conductive component. The body is provided with a first end and a second end, wherein the first end is opposite to the second end. The plug is arranged at the first end of the body and comprises a first live wire terminal and a first neutral wire terminal. The first socket is arranged at the second end of the body and comprises a second live wire terminal and a second neutral wire terminal. The first socket is configured on a first power line plug which can be accommodated in a pluggable manner and is electrically connected with the first power line. The second socket is arranged at the second end of the body and comprises a third live wire terminal and a third neutral wire terminal. The second socket is configured on a second power line plug which can be accommodated in a pluggable manner and is electrically connected with the second power line. The first guide component comprises a first guide end, a second guide end and a third guide end, wherein the second guide end is connected with the first live wire terminal, the first guide end is connected with the second live wire terminal, and the third guide end is connected with the third live wire terminal. The second conductive component comprises a fourth conductive end, a fifth conductive end and a sixth conductive end, wherein the fifth conductive end is connected with the first neutral line terminal, the sixth conductive end is connected with the second neutral line terminal, and the fourth conductive end is connected with the third neutral line terminal.

Drawings

Fig. 1 is a schematic view of the external appearance of a transfer connector according to a first embodiment of the present disclosure;

FIG. 2 is a schematic view of the adapter connector shown in FIG. 1 in another view;

FIG. 3 is a schematic diagram of the adapter connector shown in FIG. 1 applied to a power supply device;

FIG. 4 is a schematic structural view of the adaptor connector shown in FIG. 1, wherein the coating layer of the body is omitted;

FIG. 5 is a schematic view of the adapter connector shown in FIG. 4 in another view;

FIG. 6 is a schematic view of the adapter connector shown in FIG. 4 in a further view;

FIG. 7 is a schematic diagram illustrating a connection relationship of the first conductive component of the adaptor connector shown in FIG. 1, wherein the coating layer of the body, the second conductive component and the third conductive component are omitted;

FIG. 8 is a schematic diagram illustrating a connection relationship of a second conductive assembly of the adapter connector shown in FIG. 1;

FIG. 9 is a schematic cross-sectional view of the adapter connector of FIG. 1;

FIG. 10 is a schematic cross-sectional view of the adapter connector set of FIG. 1 connected to a first power line plug and a receptacle of a power supply device;

FIG. 11 is a schematic cross-sectional view of the adapter connector of FIG. 1;

FIG. 12 is a schematic cross-sectional view of the adapter connector set of FIG. 1 connected to a second power line plug and a receptacle of a power supply device;

fig. 13 is a schematic structural view of a transfer connector according to a second embodiment of the present disclosure, in which a coating layer of a body is omitted;

FIG. 14 is a schematic view of the adapter connector of FIG. 13 from another perspective;

FIG. 15 is a schematic diagram illustrating a connection relationship of the first conductive component of the adaptor connector shown in FIG. 13, wherein the coating layer of the body, the second conductive component and the third conductive component are omitted;

FIG. 16 is a schematic illustration of a connection relationship of a second docking assembly of the adapter connector of FIG. 13;

FIG. 17 is a schematic cross-sectional view of the adapter connector of FIG. 13;

FIG. 18 is a schematic cross-sectional view of the adapter connector set of FIG. 13 connected to a first power line plug and a receptacle of a power supply device;

FIG. 19 is a schematic cross-sectional view of the adapter connector of FIG. 13;

fig. 20 is a schematic cross-sectional view of the adapter connector set shown in fig. 13 connected to a second power line plug and a socket of a power supply device.

[ Symbolic description ]

100. 101: Switching connector

1: Body

1A: coating layer

1B: first end

1C: second end

2: Plug

21: First live wire terminal

22: First neutral terminal

23: First ground wire terminal

24: First slot

25: Second slot

26: Third slot

3: First socket

31: Second live wire terminal

32: Second neutral line terminal

33: Second ground wire terminal

34: First concave part

35: First side wall

35A: first through groove

35B: third through groove

36: A first bottom wall

4: Second socket

41: Third live wire terminal

42: Third neutral line terminal

43: Third ground wire terminal

44: Second concave part

45: A second side wall

45A: second through groove

45B: fourth through groove

46: A second bottom wall

5: First guide connection assembly

51: First movable guide connector

511: First segment

511A: a first contact part

511B: abutting part

512: Second section part

512A: a second contact part

512B: first conductive terminal

513: Connection section

52: First guide connector

521: Second conductive terminal

522: Contact terminal

53: Second guide connector

531: Third leading end

532: Contact terminal

54: Third movable guide connector

541: First segment

541A: contact portion

541B: abutting part

542: Third leading end

543: Connection section

55: First conductive bridge

551: First end

552: Second end

6: Second guide connection assembly

61: Second movable guide connector

611: First segment

611A: a first contact part

611B: abutting part

612: Second section part

612A: contact portion

612B: fourth conductive terminal

613: Connection section

62: Third guide connector

621: Fifth leading end

622: Contact terminal

63: Fourth guide connector

631: Sixth conductive terminal

632: Contact terminal

64: Fourth movable guide connector

641: First segment

641A: contact portion

641B: abutting part

642: Sixth conductive terminal

643: Connection section

65: Second conductive bridge

651: First end

652: Second end

7: Power supply device

70: Socket

8: First power line

80: First power line plug

9: Second power line

90: Second power line plug

10: Third guide connection assembly

Detailed Description

Some exemplary embodiments that exhibit the features and advantages of the present disclosure are described in detail in the following description. It will be understood that various changes can be made in the above-described embodiments without departing from the scope of the invention, and that the description and drawings are to be regarded as illustrative in nature and not as restrictive.

Please refer to fig. 1 to 8. Fig. 1 is a schematic view of an external structure of a transit connector according to a first embodiment of the present disclosure, fig. 2 is a schematic view of an external structure of the transit connector according to fig. 1 at another viewing angle, fig. 3 is a schematic view of the transit connector according to fig. 1 applied to a power supply device, fig. 4 is a schematic view of a structure of the transit connector according to fig. 1, wherein a coating layer of a body is omitted, fig. 5 is a schematic view of the transit connector according to fig. 4 at another viewing angle, fig. 6 is a schematic view of the transit connector according to fig. 4 at yet another viewing angle, fig. 7 is a schematic view of a connection relationship of a first conductive member of the transit connector according to fig. 1, wherein the coating layer of the body, The second conductive component and the third conductive component are omitted, and fig. 8 is a schematic diagram of connection relationship of the second conductive component of the adaptor connector shown in fig. 1. The adaptor connector 100 comprises a body 1, a plug 2, a first socket 3, a second socket 4, a first conductive component 5 and a second conductive component 6. The plug 2 is disposed at the first end 1b of the body 1 and includes a first live wire terminal 21 and a first neutral wire terminal 22, and the plug 2 is configured to be inserted in a pluggable manner and electrically connected to a socket 70 of a power supply device 7. The first socket 3 is disposed at the second end 1c of the body 1, the second end 1c is opposite to the first end 1b, and the first socket 3 includes a second live wire terminal 31 and a second neutral wire terminal 32, and the first socket 3 is configured on a first power cord plug 80 that is removably received and electrically connected to the first power cord 8. The second socket 4 is disposed at the second end 1c of the body 1 and is adjacent to one side of the first socket 3, and the second socket 4 includes a third live wire terminal 41 and a third neutral wire terminal 42. The second socket 4 is configured on a second power cord plug 90 that is removably received and electrically connected to the second power cord 9. The first conductive component 5 is disposed in the body 1, is located between the plug 2, the first socket 3 and the second socket 4, and is disconnectably connected between the first live wire terminal 21, the second live wire terminal 31 and the third live wire terminal 41. The first conductive component 5 includes a first conductive terminal 512b, a second conductive terminal 521 and a third conductive terminal 531, the second conductive terminal 521 is connected to the first live wire terminal 21, the first conductive terminal 512b is connected to the second live wire terminal 31, and the third conductive terminal 531 is connected to the third live wire terminal 41. When the first power cord plug 80 is mated with the first receptacle 3, the first docking assembly 5 interconnects the first, second and third power cord terminals 21, 31 and 41. The second conductive component 6 is disposed in the body 1, is located between the plug 2, the first socket 3 and the second socket 4, and is disconnectably connected between the first neutral terminal 22, the second neutral terminal 32 and the third neutral terminal 42. The second conductive connection assembly 6 includes a fourth conductive connection end 612b, a fifth conductive connection end 621 and a sixth conductive connection end 631, the fifth conductive connection end 621 is connected to the first neutral terminal 22, the sixth conductive connection end 631 is connected to the second neutral terminal 32, and the fourth conductive connection end 612b is connected to the third neutral terminal 42. When the second power cord plug 90 is mated with the second receptacle 4, the second conductive contact assembly 6 interconnects the first neutral terminal 22, the second neutral terminal 32, and the third neutral terminal 42.

In the present embodiment, the plug 2 further includes a first ground terminal 23, the first socket 3 further includes a second ground terminal 33, and the second socket 4 further includes a third ground terminal 43. The adaptor connector 100 further includes a third conductive connection assembly 10, where the third conductive connection assembly 10 is disposed in the body 1, is located between the plug 2, the first socket 3 and the second socket 4, and is constantly connected to the first ground terminal 23, the second ground terminal 33 and the third ground terminal 43, so that the first ground terminal 23, the second ground terminal 33 and the third ground terminal 43 are connected to each other.

In this embodiment, the first socket 3 and the second socket 4 are respectively C14 sockets specified by IEC 60320 standard, and the first power line plug 80 and the second power line plug 90 are respectively C13 plugs specified by IEC 60320 standard. The C14 socket and the C13 plug are in pluggable inter-fit connection. Plug 2 is a C19 plug specified by the IEC 60320 standard, wherein the receptacle 70 of the power supply 7 is a C20 receptacle specified by the IEC 60320 standard. The C19 plug and the C20 socket are in pluggable inter-fit assembly. In this embodiment, the adapter connector 100 is a dual C14 socket to single C19 plug adapter connector. It should be emphasized that the specifications of the plug 2, the first socket 3 and the second socket 4 of the adaptor connector 100 are not limited to the above embodiments, and may be changed according to practical application requirements.

As shown in fig. 1 and 4, the plug 2 includes a first slot 24, a second slot 25 and a third slot 26, wherein the first slot 24, the second slot 25 and the third slot 26 penetrate the plug 2 from the end face of the plug 2. The first live wire terminal 21, the first neutral wire terminal 22 and the first ground wire terminal 23 of the plug 2 are respectively provided in the first slot 24, the second slot 25 and the third slot 26. As shown in fig. 2,4 to 6, the first socket 3 includes a first recess 34, a first sidewall 35 and a first bottom wall 36, wherein the first recess 34 is defined by the first sidewall 35 and the first bottom wall 36. The second live wire terminal 31, the second neutral wire terminal 32 and the second ground wire terminal 33 are separated from each other, and are all partially disposed in the first recess 34, partially embedded in the first bottom wall 36, and partially extend outwardly from the outer surface of the first bottom wall 36 in a direction away from the first recess 34. The first sidewall 35 of the first socket 3 has a first through slot 35a, and the first through slot 35a penetrates the first sidewall 35 and communicates with the first recess 34. The second socket 4 includes a second recess 44, a second side wall 45 and a second bottom wall 46, wherein the second recess 44 is defined by the second side wall 45 and the second bottom wall 46. The third live wire terminal 41, the third neutral wire terminal 42 and the third ground wire terminal 43 are separated from each other, are partially disposed in the second recess 44, partially embedded in the second bottom wall 46, and partially extend outwardly from the outer surface of the second bottom wall 46 in a direction away from the second recess 44. The second sidewall 45 of the second socket 4 has a second through slot 45a (as shown in fig. 8), and the second through slot 45a penetrates the second sidewall 45 and communicates with the second recess 44. In this embodiment, the body 1 includes a coating layer 1a, which covers the first socket 3, the second socket 4, a portion of the plug 2, the first conductive component 5 and the second conductive component 6.

Please refer to fig. 4 to 7, 9 and 10. Fig. 9 is a schematic cross-sectional view of the transit connector shown in fig. 1, and fig. 10 is a schematic cross-sectional view of the transit connector set of fig. 1 assembled with a first power line plug and a socket of a power supply device. In the present embodiment, the first conductive element 5 includes a first movable conductive element 51, a first conductive element 52 and a second conductive element 53. The first movable connector 51 includes a first section 511, a second section 512 and a connecting section 513, wherein the connecting section 513 connects the first section 511 and the second section 512. The first section 511 includes a top portion 511b and a first contact portion 511a, the first section 511 is disposed on a surface of the first sidewall 35 of the first socket 3, the top portion 511b is accommodated in the first through slot 35a, the top portion 511b is partially exposed in the first recess 34, and the first contact portion 511a is located at an end of the first section 511. In one embodiment, the top portion 511b is a resilient concave portion. In the present embodiment, the first conductive end 512b of the first conductive component 5 is an end portion of the second section 512, wherein the first conductive end 512b of the second section 512 contacts a portion of the second live wire terminal 31 of the first socket 3 exposed outside the first bottom wall 36, and the other end of the second section 512 opposite to the first conductive end 512b has a second contact portion 512a. In the present embodiment, the second conductive end 521 of the first conductive component 5 is an end portion of the first conductive member 52, wherein the second conductive end 521 of the first conductive member 52 is connected and fixed to the first live terminal 21 of the plug 2. The contact end 522 of the first guide 52 is a free end and is adjacent to the second contact portion 512a of the second section 512 of the first moving guide 51, wherein the first guide 52 is a multi-section bent guide. In the present embodiment, the third conductive end 531 of the first conductive component 5 is an end portion of the second conductive member 53, wherein the third conductive end 531 of the second conductive member 53 is connected and fixed to the third live wire terminal 41 of the second socket 4. The contact end 532 of the second guide 53 is a free end and is adjacent to the first contact portion 511a of the first segment 511 of the first moving guide 51, and the second guide 53 is a multi-segment bent guide. The contact end 522 of the first conductive member 52 and the second contact portion 512a of the second section portion 512 of the first movable conductive member 51 are separated from each other, and the contact end 532 of the second conductive member 53 and the first contact portion 511a of the first section portion 511 of the first movable conductive member 51 are separated from each other. As shown in fig. 10, when the first power cord plug 80 is inserted into the first socket 3, the first power cord plug 80 abuts against the abutting portion 511b of the first segment 511 of the first moving connector 51 of the first connector assembly 5, so that the abutting portion 511b is deformed by force to drive the first segment 511 to move toward the plug 2, and at this time, the first contact portion 511a of the first segment 511 contacts with the contact end 532 of the second connector 53. Further, the first segment 511 moves the second segment 512 toward the plug 2 through the connecting segment 513, and at this time, the first leading end 512b of the second segment 512 moves correspondingly and constantly contacts the portion of the second live wire terminal 31 exposed to the outside of the first bottom wall 36, and the second contact portion 512a of the second segment 512 contacts and is connected to the contact end 522 of the first lead 52. Thus, when the first power cord plug 80 is not inter-assembled with the first receptacle 3, the first docking assembly 5 is the first live terminal 21 of the disconnection plug 2, the second live terminal 31 of the first receptacle 3, and the third live terminal 41 of the second receptacle 4. When the first power cord plug 80 is mated with the first receptacle 3, the first movable contact 51, the first contact 52, and the second contact 53 of the first contact assembly 5 interconnect the first power cord terminal 21 of the plug 2, the second power cord terminal 31 of the first receptacle 3, and the third power cord terminal 41 of the second receptacle 4.

Please refer to fig. 4-6, 8, 11 and 12. Fig. 11 is a schematic cross-sectional view of the transit connector shown in fig. 1, and fig. 12 is a schematic cross-sectional view of the transit connector set of fig. 1 assembled with a second power cord plug and a socket of a power supply device. In the present embodiment, the second conductive element 6 includes a second movable conductive element 61, a third conductive element 62 and a fourth conductive element 63. The second movable connector 61 includes a first segment 611, a second segment 612, and a connecting segment 613, wherein the connecting segment 613 connects the first segment 611 and the second segment 612. The first segment 611 includes a top portion 611b and a first contact portion 611a, the first segment 611 is disposed on a surface of the second sidewall 45 of the second socket 4, the top portion 611b is accommodated in the second through slot 45a, the top portion 611b is partially exposed in the second recess 44, and the first contact portion 611a is located at an end of the first segment 611. In one embodiment, the top portion 611b is a resilient concave portion. In the present embodiment, the fourth conductive terminal 612b of the second conductive component 6 is an end portion of the second segment 612, wherein the fourth conductive terminal 612b of the second segment 612 is in contact with a portion of the third neutral terminal 42 of the second socket 4 exposed outside the second bottom wall 46, and the other end of the second segment 612 opposite to the fourth conductive terminal 612b has a second contact portion 612a. In the present embodiment, the fifth conductive end 621 of the second conductive component 6 is an end portion of the third conductive member 62, wherein the fifth conductive end 621 of the third conductive member 62 is connected and fixed to the first neutral terminal 22 of the plug 2. The contact end 622 of the third guide 62 is a free end and is adjacent to the second contact portion 612a of the second segment 612 of the second moving guide 61, wherein the third guide 62 is a multi-segment bent guide. In the present embodiment, the sixth conductive terminal 631 of the second conductive component 6 is an end portion of the fourth conductive member 63, wherein the sixth conductive terminal 631 of the fourth conductive member 63 is connected and fixed to the second neutral terminal 32 of the first socket 3. The contact end 632 of the fourth guide 63 is a free end and is adjacent to the first contact portion 611a of the first segment 611 of the second moving guide 61, and the fourth guide 63 is a multi-segment bent guide. The contact end 622 of the third conductive member 62 and the second contact portion 612a of the second section 612 of the second movable conductive member 61 are separated from each other, and the contact end 632 of the fourth conductive member 63 and the first contact portion 611a of the first section 611 of the second movable conductive member 61 are separated from each other. As shown in fig. 12, when the second power cord plug 90 is inserted into the second socket 4, the second power cord plug 90 abuts against the abutting portion 611b of the first segment 611 of the second movable connector 61 of the second connector assembly 6, so that the abutting portion 611b is forced to deform to drive the first segment 611 to move toward the plug 2, and at this time, the first contact portion 611a of the first segment 611 contacts and is connected with the contact end 632 of the fourth connector 63. Further, the first segment 611 moves the second segment 612 toward the plug 2 through the connecting segment 613, at this time, the fourth conductive end 612b of the second segment 612 moves correspondingly and constantly contacts the portion of the third neutral terminal 42 of the second receptacle 4 exposed to the outside of the second bottom wall 46, and the second contact portion 612a of the second segment 612 contacts the contact end 622 of the third conductive piece 62 to be connected. Thus, when the second power cord plug 90 is not inter-assembled with the second receptacle 4, the second conductive assembly 6 is the first neutral terminal 22 of the disconnect plug 2, the second neutral terminal 32 of the first receptacle 3, and the third neutral terminal 42 of the second receptacle 4. When the second power cord plug 90 is mated with the second receptacle 4, the conductive connections between the second movable conductive connector 61, the third conductive connector 62, and the fourth conductive connector 63 of the second conductive connector assembly 6 interconnect the first neutral terminal 22 of the plug 2, the second neutral terminal 32 of the first receptacle 3, and the third neutral terminal 42 of the second receptacle 4.

When the first power line plug 80 is inserted into the first socket 3 and the second power line plug 90 is not inserted into the second socket 4, only the first movable lead 51, the first lead 52 and the second lead 53 of the first lead assembly 5 are connected to each other by the leads between the first live wire terminal 21 of the plug 2, the second live wire terminal 31 of the first socket 3 and the third live wire terminal 41 of the second socket 4, and the second movable lead 61, the third lead 62 and the fourth lead 63 of the second lead assembly 6 are separated from each other by the leads between the first neutral wire terminal 22 of the plug 2, the second neutral wire terminal 32 of the first socket 3 and the third neutral wire terminal 42 of the second socket 4, so that the socket 70 of the power supply device 7 does not transmit power to the first socket 3 and the second socket 4 via the plug 2 of the adapter connector 100. In this way, under the condition that only the first power line plug 80 and the first socket 3 are connected in a single-side mating manner, the power supply device 7 does not supply power, so that the user is prevented from being electrically and mistakenly touched when connecting the second socket 4 and the second power line plug 90, and the risk of wire damage caused by overlarge current of single-side power supply can be avoided.

Similarly, when the second power cord plug 90 is inserted into the second receptacle 4 and the first power cord plug 80 is not inserted into the first receptacle 3, only the second movable lead 61, the third lead 62 and the fourth lead 63 of the second docking assembly 6 are connected to each other by the second neutral terminal 22 of the plug 2, the second neutral terminal 32 of the first receptacle 3 and the third neutral terminal 42 of the second receptacle 4, and the first movable lead 51, the first lead 52 and the second lead 53 of the first docking assembly 5 are separated from each other by the first movable lead 21, the second live lead 31 of the first receptacle 3 and the third live lead 41 of the second receptacle 4 of the plug 2, so that the receptacle 70 of the power supply device 7 does not transmit power to the first receptacle 3 and the second receptacle 4 via the plug 2 of the adapter connector 100. In this way, under the condition that only the second power cord plug 90 and the second socket 4 are connected in a single-side mating manner, the power supply device 7 will not supply power, so as to avoid the user from being touched by mistake when connecting the first power cord plug 80 and the first socket 3, and also avoid the risk of wire damage caused by overlarge current of the single-side power supply.

In the present embodiment, when the first power cord plug 80 is plugged into the first socket 3 and the second power cord plug 90 is plugged into the second socket 4, the first movable lead 51, the first lead 52 and the second lead 53 of the first docking assembly 5 are connected to each other by the conductive connection between the first live wire terminal 21 of the plug 2, the second live wire terminal 31 of the first socket 3 and the third live wire terminal 41 of the second socket 4, and the second movable lead 61, the third lead 62 and the fourth lead 63 of the second docking assembly 6 are connected to each other by the conductive connection between the first neutral wire terminal 22 of the plug 2, the second neutral wire terminal 32 of the first socket 3 and the third neutral wire terminal 42 of the second socket 4, so that the socket 70 of the power supply device 7 can transmit power to the first socket 3 and the second socket 4 via the plug 2 of the transit connector 100 to provide power to the first power cord 8 and the second power cord 9. In some embodiments, the multiple client devices applied by the transit connector 100 are on the same power supply system of the power supply device, so that the damage caused by the phase difference can be avoided.

In another embodiment, the first conductive member 5 is constantly connected between the first live wire terminal 21, the second live wire terminal 31 and the third live wire terminal 41, and the second conductive member 6 is constantly connected between the first neutral wire terminal 22, the second neutral wire terminal 32 and the third neutral wire terminal 42. Through the arrangement mode of the first guide connection component 5 and the second guide connection component 6, the effect of switching a single plug to two sockets can be achieved.

Referring to fig. 13 to 16, fig. 13 is a schematic structural view of a transfer connector according to a second embodiment of the present disclosure, in which a coating layer of a body is omitted, fig. 14 is a schematic structural view of the transfer connector shown in fig. 13 from another perspective, fig. 15 is a schematic connecting relationship of a first conductive component of the transfer connector shown in fig. 13, in which a coating layer of the body, a second conductive component and a third conductive component are omitted, and fig. 16 is a schematic connecting relationship of a second conductive component of the transfer connector shown in fig. 13. The transit connector 101 of the present embodiment is similar to the transit connector 100 shown in fig. 1 to 8, wherein like reference numerals refer to like elements and functions, and thus, the description thereof is omitted. In the present embodiment, the first conductive component 5 is disposed in the body 1, is located between the plug 2, the first socket 3 and the second socket 4, and is disconnectably connected between the first live wire terminal 21, the second live wire terminal 31 and the third live wire terminal 41. The first conductive component 5 includes a first conductive terminal 512b, a second conductive terminal 521 and a third conductive terminal 542, the second conductive terminal 521 is connected to the first live terminal 21, the first conductive terminal 512b is connected to the second live terminal 31, and the third conductive terminal 542 is connected to the third live terminal 41. The second conductive component 6 is disposed in the body 1, is located between the plug 2, the first socket 3 and the second socket 4, and is disconnectably connected between the first neutral terminal 22, the second neutral terminal 32 and the third neutral terminal 42. The second conductive connecting assembly 6 includes a fourth conductive connecting end 612b, a fifth conductive connecting end 621 and a sixth conductive connecting end 642, the fifth conductive connecting end 621 is connected to the first neutral terminal 22, the sixth conductive connecting end 642 is connected to the second neutral terminal 32, and the fourth conductive connecting end 612b is connected to the third neutral terminal 42.

The first conductive member 5 of the transit connector 101 of the present embodiment is disconnectably connected to the first live wire terminal 21, the second live wire terminal 31 and the third live wire terminal 41. When the first power cord plug 80 (shown in fig. 3) is mated with the first socket 3, the first docking assembly 5 is connected to the first and second power terminals 21 and 31. When the first power cord plug 80 (shown in fig. 3) is mated with the first socket 3, and the second power cord plug 90 (shown in fig. 3) is mated with the second socket 4, the first conductive assembly 5 connects the first live wire terminal 21, the second live wire terminal 31 and the third live wire terminal 41 to each other. Similarly, the second docking assembly 6 is disconnectably connected to the first 22, second 32 and third 42 neutral terminals. When the second power cord plug 90 (shown in fig. 3) is mated with the second receptacle 4, the second conductive assembly 6 is connected to the first neutral terminal 22 and the third neutral terminal 42. When the first power cord plug 80 (shown in fig. 3) is mated with the first socket 3, and the second power cord plug 90 (shown in fig. 3) is mated with the second socket 4, the second conductive connection assembly 6 connects the first neutral terminal 22, the second neutral terminal 32, and the third neutral terminal 42 to each other.

Please refer to fig. 14 to 16. The first side wall 35 of the first socket 3 of the present embodiment further has a third through slot 35b, and the third through slot 35b penetrates through the first side wall 35 and is in communication with the first recess 34, wherein the first through slot 35a and the third through slot 35b are respectively disposed on opposite sides of the first side wall 35. The second sidewall 45 of the second socket 4 of the present embodiment further has a fourth through slot 45b, and the fourth through slot 45b penetrates through the second sidewall 45 and is in communication with the second recess 44, wherein the second through slot 45a and the fourth through slot 45b are respectively disposed at two opposite sides of the second sidewall 45.

Referring to fig. 13, 15 and 17-20, fig. 17 is a schematic cross-sectional view of the adaptor connector shown in fig. 13, fig. 18 is a schematic cross-sectional view of the adaptor connector shown in fig. 13 assembled with the first power line plug and the socket of the power supply device, fig. 19 is a schematic cross-sectional view of the adaptor connector shown in fig. 13, and fig. 20 is a schematic cross-sectional view of the adaptor connector shown in fig. 13 assembled with the second power line plug and the socket of the power supply device. In the present embodiment, the first conductive component 5 includes a first movable conductive member 51, a third movable conductive member 54, a first conductive member 52 and a first conductive bridge 55. The first moving guide 51 includes a first segment 511, a first guide end 512b, and a connection segment 513, where the connection segment 513 connects the first segment 511 and the first guide end 512b, and the first segment 511 of the first moving guide 51 includes a supporting portion 511b and a first contact portion 511a, and the supporting portion 511b is accommodated in the first through slot 35a, and the supporting portion 511b is partially exposed in the first recess 34, and the first contact portion 511a is located at an end of the first segment 511, and the first guide end 512b of the first moving guide 51 is in contact with a portion of the second live wire terminal 31 of the first socket 3 exposed outside the first bottom wall 36. The second conductive terminal 521 is an end portion of the first conductive member 52, and the second conductive terminal 521 of the first conductive member 52 is connected and fixed to the first live terminal 21 of the plug 2. The other end of the first conductive member 52 opposite the second conductive end 521 is a contact end 522, and the contact end 522 is fixedly and permanently connected to the second live terminal 31. That is, the first live wire terminal 21 of the plug 2 and the second live wire terminal 31 of the first receptacle 3 are constantly connected to each other by the conduction of the first conduction member 52. The third movable connector 54 includes a first segment 541, a third connector 542, and a connecting segment 543, where the connecting segment 543 connects the first segment 541 and the third connector 542, and the first segment 541 of the third movable connector 54 includes a supporting portion 541b and a contact portion 541a, the first segment 541 is disposed on a surface of the second sidewall 45 of the second socket 4, the supporting portion 541b is accommodated in the fourth through slot 45b, and the supporting portion 541b is partially exposed in the second recess 44. The contact portion 541a is located at an end portion of the first segment 541, where the third conductive end 542 of the third movable conductive member 54 is in contact with a portion of the third live wire terminal 41 of the second socket 4 exposed outside the second bottom wall 46. The first end 551 of the first bridge 55 is adjacent to the first contact portion 511a of the first segment 511 of the first movable contact 51, and the second end 552 of the first bridge 55 is adjacent to the contact portion 541a of the first segment 541 of the third movable contact 54. In the present embodiment, the first conductive bridge 55 is fixed to a coating layer (not shown) of the body 1, but not limited thereto.

As shown in fig. 17, when the first socket 3 does not receive the first power cord plug 80 (as shown in fig. 3), the first end 551 of the first conductive bridge 55 and the first contact portion 511a of the first segment 511 of the first movable conductive member 51 are separated from each other. As shown in fig. 19, when the second power cord plug 90 (shown in fig. 3) is not received in the second socket 4, the second end 552 of the first conductive bridge 55 and the contact portion 541a of the first segment 541 of the third movable conductive member 54 are separated from each other. As shown in fig. 18, when the first power cord plug 80 is inserted into the first socket 3, the first power cord plug 80 abuts against the abutting portion 511b of the first section 511 of the first movable conductive member 51 of the first conductive assembly 5, so that the abutting portion 511b is deformed by force to drive the first section 511 to move toward the plug 2, and the first contact portion 511a of the first section 511 of the first movable conductive member 51 contacts the first end 551 of the first conductive bridge 55 to be connected. As shown in fig. 20, when the second power cord plug 90 is inserted into the second socket 4, the second power cord plug 90 abuts against the abutting portion 541b of the first segment 541 of the third moving connector 54 of the first connector assembly 5, so that the abutting portion 541b is forced to deform to drive the first segment 541 to move toward the plug 2, and the contact portion 541a of the first segment 541 is contacted with the second end 552 of the first connector bridge 55 to be connected. As shown in fig. 18 and 20, when the first power line plug 80 is inserted into the first receptacle 3 and the second power line plug 90 is inserted into the second receptacle 4, the first live wire terminal 21 of the plug 2, the second live wire terminal 31 of the first receptacle 3 and the third live wire terminal 41 of the second receptacle 4 are connected to each other by the first movable guide 51, the third movable guide 54, the first guide 52 and the first guide bridge 55 of the first guide assembly 5.

Please refer to fig. 13, 16-20. In the present embodiment, the second conductive element 6 includes a second movable conductive element 61, a fourth movable conductive element 64, a third conductive element 62 and a second conductive bridge 65. The second movable connector 61 includes a first segment 611, a fourth connector 612b, and a connecting segment 613, and the connecting segment 613 connects the first segment 611 and the fourth connector 612b. The first segment 611 of the second movable connector 61 includes a supporting portion 611b and a first contact portion 611a, the first segment 611 is disposed on the surface of the second sidewall 45 of the second socket 4, the supporting portion 611b is accommodated in the second through slot 45a, and the supporting portion 611b is partially exposed in the second recess 44, the first contact portion 611a is located at an end of the first segment 611, wherein the fourth connector 612b of the second movable connector 61 is in contact with a portion of the third neutral terminal 42 of the second socket 4 exposed outside the second bottom wall 46. The fifth conductive terminal 621 is an end portion of the third conductive member 62, and the fifth conductive terminal 621 of the third conductive member 62 is connected and fixed to the first neutral terminal 22 of the plug 2. The other end of the third conductive member 62 opposite to the fifth conductive end 621 is a contact end 622, and the contact end 622 is fixedly and permanently connected to the third neutral terminal 42. That is, the first neutral terminal 22 of the plug 2 and the third neutral terminal 42 of the second receptacle 4 are constantly connected to each other by the conduction of the third conduction member 62. The fourth movable joint 64 includes a first segment 641, a sixth joint 642, and a connecting segment 643, and the connecting segment 643 connects the first segment 641 and the sixth joint 642. The first section 641 is a surface of the first side wall 35 of the first socket 3, the first section 641 includes a supporting portion 641b and a contact portion 641a, the supporting portion 641b is accommodated in the third through groove 35b, the supporting portion 641b is partially exposed in the first recess 34, and the contact portion 641a is located at an end of the first section 641. Wherein the sixth conductive end 642 of the fourth movable conductive element 64 is in contact with a portion of the second neutral terminal 32 of the first receptacle 3 exposed outside the first bottom wall 36. The first end 651 of the second bridge 65 is adjacent to the first contact portion 611a of the first segment 611 of the second movable leader 61, and the second end 652 of the second bridge 65 is adjacent to the contact portion 641a of the first segment 641 of the fourth movable leader 64. In the present embodiment, the second conductive bridge 65 is fixed to a coating layer (not shown) of the body 1, but not limited thereto.

As shown in fig. 19, when the second receptacle 4 does not receive the second power cord plug 90 (as shown in fig. 3), the first end 651 of the second conductive bridge 65 and the first contact portion 611a of the first segment 611 of the second movable conductive member 61 are separated from each other. As shown in fig. 17, when the first socket 3 does not receive the first power line plug 80 (as shown in fig. 3), the second end 652 of the second conductive bridge 65 and the contact portion 641a of the first segment 641 of the fourth movable conductive member 64 are separated from each other. As shown in fig. 20, when the second power cord plug 90 is inserted into the second socket 4, the second power cord plug 90 abuts against the abutting portion 611b of the first segment 611 of the second movable connector 61 of the second connector assembly 6, so that the abutting portion 611b is forced to deform to drive the first segment 611 to move toward the plug 2, and the first contact portion 611a of the first segment 611 of the second movable connector 61 contacts and is connected with the first end 651 of the second connector 65. As shown in fig. 18, when the first power cord plug 80 is inserted into the first socket 3, the first power cord plug 80 abuts against the abutting portion 641b of the first segment 641 of the fourth moving conductive member 64 of the second conductive assembly 6, so that the abutting portion 641b is deformed by force to drive the first segment 641 to move toward the plug 2, and the contact portion 641a of the first segment 641 is contacted with the second end 652 of the second conductive bridge 65 to be connected. As shown in fig. 18 and 20, when the first power line plug 80 is inserted into the first receptacle 3 and the second power line plug 90 is inserted into the second receptacle 4, the first neutral terminal 22 of the plug 2, the second neutral terminal 32 of the first receptacle 3 and the third neutral terminal 42 of the second receptacle 4 are connected to each other by the conductive connection between the second movable conductive piece 61, the fourth movable conductive piece 64, the third conductive piece 62 and the second conductive bridge 65 of the second conductive assembly 6.

When the first power line plug 80 is inserted into the first socket 3 and the second power line plug 90 is not inserted into the second socket 4, the adaptor connector 101 connects the first live wire terminal 21 of the plug 2 with the second live wire terminal 31 of the first socket 3 only by the connection between the first movable guide 51, the first guide 52 and the first guide bridge 55 of the first guide assembly 5, and the third movable guide 54 of the first guide assembly 5 is separated from the first movable guide 51, the first guide 52 and the first guide bridge 55, so that the third live wire terminal 41 of the second socket 4 is not connected with the first live wire terminal 21 of the plug 2 or the second live wire terminal 31 of the first socket 3, and is further disconnected, and the fourth movable guide 64 of the second guide assembly 6 of the adaptor connector 101 is separated from the second movable guide 61 and the third guide bridge 62, so that the first neutral wire terminal 22 of the plug 2, the second neutral terminal 32 of the first socket 3 and the second neutral terminal 4 of the second socket 3 are disconnected from each other by the adaptor connector 101 and the neutral wire terminal 4 of the second socket 3 (the second power line plug 3 is not connected to the second socket 3) as shown in fig. 3). In this way, under the condition that only the first power line plug 80 and the first socket 3 are connected in a single-side mating manner, the power supply device 7 does not supply power, so that the user is prevented from being electrically and mistakenly touched when connecting the second socket 4 and the second power line plug 90, and the risk of wire damage caused by overlarge current of single-side power supply can be avoided.

Similarly, when the second power cord plug 90 is inserted into the second socket 4 and the first power cord plug 80 is not inserted into the first socket 3, the adaptor connector 101 connects the first neutral cord terminal 22 of the plug 2 with the third neutral cord terminal 42 of the second socket 4 only by the connection between the second movable contact 61, the third contact 62 and the second contact bridge 65 of the second contact assembly 6, and the fourth movable contact 64 of the second contact assembly 6 is separated from the second movable contact 61, the third contact 62 and the second contact bridge 65, so that the second neutral cord terminal 32 of the first socket 3 is not connected with the first neutral cord terminal 22 of the plug 2 or the third neutral cord terminal 42 of the second socket 4, and the third movable contact 54 of the first contact assembly 5 of the adaptor connector 101 is separated from the first movable contact 51 and the first contact bridge 52, and the first terminal 21 of the plug 2, the second terminal 3 and the second terminal 31 of the second socket 4 are not connected with the first socket 4, and the live cord is not connected with the second socket 4 via the first socket 3 and the second socket 4, and the live cord connector 101 is not connected with the live cord device 4. In this way, under the condition that only the second power cord plug 90 and the second socket 4 are connected in a single-side mating manner, the power supply device 7 will not supply power, so as to avoid the user from being touched by mistake when connecting the first power cord plug 80 and the first socket 3, and also avoid the risk of wire damage caused by overlarge current of the single-side power supply.

In the present embodiment, when the first power cord plug 80 is inserted into the first socket 3 and the second power cord plug 90 is inserted into the second socket 4, the first movable conductive member 51, the third movable conductive member 54, the first conductive member 52 and the third neutral terminal 42 of the second socket 4 of the first conductive member 5 are connected to each other, so that the first live wire terminal 21 of the plug 2, the second live wire terminal 31 of the first socket 3 and the third live wire terminal 41 of the second socket 4 are connected to each other, and the second movable conductive member 61, the fourth movable conductive member 64, the third conductive member 62 and the third neutral terminal 42 of the second socket 4 of the second conductive member 6 are connected to each other, so that the socket 70 of the power supply device 7 can transmit power to the first socket 3 and the second socket 4 via the plug 2 of the adapter connector 101 to provide power to the first power cord 8 and the second power cord 9. In some embodiments, the multiple client devices applied by the transit connector 101 are on the same power supply system of the power supply device, so that the damage caused by the phase difference can be avoided.

In summary, the adapter connector of the present disclosure matches the high-power supply device to a plurality of power lines capable of carrying a low rated current, so that the outputted high current is evenly distributed to the plurality of power lines, and damage caused by receiving an excessive high current by the power lines with the low rated current or the client device powered by the power lines can be avoided. On the other hand, the adapter connector can avoid the risk of damage caused by the high current received by a single power line by the disconnected design and configuration of the first guide connection component and the second guide connection component when the plug of the power line is only connected to the corresponding socket of the adapter connector in a single-side plugging manner. In addition, when the plug of the power line is only in unilateral plugging connection with the corresponding socket of the adapter connector, power cannot be supplied, and the risk of electric false touch during operation of a user can be avoided. Furthermore, the adaptor connector of the present invention can provide a power adaptor function for converting a dual C14 socket into a single C19 plug, thereby enabling the client device to be applied to a power supply device with a C20 socket by using a power cord with a C13 plug, so as to improve the application convenience.

The present application is modified in a manner known to those skilled in the art without departing from the scope of the appended claims.

Claims

1. A transit connector, comprising:

A body having a first end and a second end, wherein the first end is opposite to the second end;

The plug is arranged at the first end of the body and comprises a first live wire terminal and a first neutral wire terminal;

The first socket is arranged at the second end of the body and comprises a second live wire terminal and a second neutral wire terminal, wherein the first socket is a first power wire plug which is arranged in a pluggable manner and is electrically connected with a first power wire;

The second socket is arranged at the second end of the body and comprises a third live wire terminal and a third neutral wire terminal, wherein the second socket is a second power wire plug which is arranged in a pluggable manner and is electrically connected with a second power wire;

The first guide connection component comprises a first guide connection end, a second guide connection end and a third guide connection end, wherein the second guide connection end is connected with the first live wire terminal, the first guide connection end is connected with the second live wire terminal, and the third guide connection end is connected with the third live wire terminal; and

The second conductive connecting component comprises a fourth conductive connecting end, a fifth conductive connecting end and a sixth conductive connecting end, wherein the fifth conductive connecting end is connected with the first neutral line terminal, the sixth conductive connecting end is connected with the second neutral line terminal, and the fourth conductive connecting end is connected with the third neutral line terminal;

the first guide connection component is arranged among the plug, the first socket and the second socket and is connected with the first live wire terminal, the second live wire terminal and the third live wire terminal in a disconnectable manner, wherein when the first power wire plug is assembled with the first socket in an inter-fit manner, the first guide connection component enables the first live wire terminal, the second live wire terminal and the third live wire terminal to be connected;

The first docking assembly includes:

a first movable guide connector comprising the first guide connector end;

a first guide connector comprising the second guide connector; and

A second conductive connecting piece including the third conductive connecting end,

The first movable guide connector is separated from the first guide connector and the second guide connector, and the first movable guide connector moves and is connected with the first guide connector and the second guide connector when the first power line plug is assembled with the first socket in an inter-fit manner.

2. The transit connector of claim 1, wherein the second conductive element is disposed between the plug, the first receptacle and the second receptacle, and the second conductive element is disconnectably connected to the first neutral terminal, the second neutral terminal and the third neutral terminal, wherein the second conductive element connects the first neutral terminal, the second neutral terminal and the third neutral terminal when the second power cord plug is mated with the second receptacle.

3. The transit connector of claim 2, wherein the second docking assembly comprises:

A second movable guide connector comprising the fourth guide connector;

a third guide connector comprising the fifth guide connector; and

A fourth conductive connecting piece including the sixth conductive connecting end,

The second movable conductive connector is separated from the third conductive connector and the fourth conductive connector, wherein the second movable conductive connector moves and is connected with the third conductive connector and the fourth conductive connector when the second power line plug is assembled with the second socket in an inter-fit manner.

4. The transit connector of claim 1, wherein the plug comprises a first ground terminal, the first receptacle comprises a second ground terminal, and the second receptacle comprises a third ground terminal.

5. The adapter connector of claim 4, further comprising a third conductive assembly, wherein the third conductive assembly is disposed between the plug, the first receptacle and the second receptacle and is permanently connected to the first ground terminal, the second ground terminal and the third ground terminal.

6. The adapter connector of claim 4, wherein the plug comprises a first slot, a second slot and a third slot, wherein the first live wire terminal, the first neutral wire terminal and the first ground wire terminal of the plug are respectively disposed in the first slot, the second slot and the third slot.

7. The adapter connector according to claim 4, wherein the first receptacle includes a first recess, a first side wall and a first bottom wall, wherein the first recess is defined by the first side wall and the first bottom wall, the second live wire terminal, the second neutral wire terminal and the second ground wire terminal are separated from each other, are partially disposed in the first recess, partially embedded in the first bottom wall and partially extend outwardly from an outer surface of the first bottom wall in a direction away from the first recess, wherein the first side wall of the first receptacle has a first through slot penetrating through the first side wall and communicating with the first recess.

8. The adapter connector of claim 7, wherein the first docking assembly comprises:

The first movable guide piece comprises a first section part, a second section part and a connecting section part, wherein the connecting section part is used for connecting the first section part and the second section part, the first section part comprises a propping part and a first contact part, the first section part is arranged on the surface of the first side wall of the first socket, the propping part is accommodated in the first through groove and is partially exposed in the first concave part, the first contact part is positioned at one end of the first section part, the first guide end is one end of the second section part, the first guide end of the second section part is in contact with the second live wire terminal of the first socket, and the other end of the second section part is provided with a second contact part;

The second guide end is an end part of the first guide piece, the second guide end of the first guide piece is fixed on the first live wire terminal, and a contact end of the first guide piece is adjacent to the second contact part of the second section part; and

A second guide member, wherein the third guide end is an end of the second guide member, the third guide end of the second guide member is fixed on the third live wire terminal, a contact end of the second guide member is adjacent to the first contact portion of the first section,

When the first socket does not contain the first power line plug, the contact end of the second guide piece and the first contact part of the first section part are separated from each other.

9. The adapter connector of claim 8, wherein when the first power cord plug is inserted into the first receptacle, the first power cord plug abuts against the abutting portion of the first segment of the first movable conductive member of the first conductive member, so that the abutting portion is deformed to force the first segment to move toward the plug, and the first contact portion of the first segment contacts the contact end of the second conductive member to connect the second live wire terminal of the first receptacle and the third live wire terminal of the second receptacle to each other through the first conductive member.

10. The adapter connector of claim 8, wherein the contact end of the first conductive member and the second contact portion of the second section are separated from each other when the first receptacle does not receive the first power cord plug.

11. The adapter connector of claim 10 wherein when the first power cord plug is inserted into the first receptacle, the first power cord plug abuts against the abutment of the first segment of the first moving guide of the first guide assembly, causing the abutment to deform and force the first segment to move in the direction of the plug, the first segment moving the second segment in the direction of the plug through the connecting segment and causing the second contact of the second segment to contact the contact end of the first guide assembly, such that the first live terminal of the plug and the second live terminal of the first receptacle are connected to each other by the first guide assembly.

12. The adapter connector according to claim 7, wherein the second socket includes a second recess, a second side wall and a second bottom wall, wherein the second recess is defined by the second side wall and the second bottom wall, the third live wire terminal, the third neutral wire terminal and the third ground wire terminal are separated from each other, are partially disposed in the second recess, partially embedded in the second bottom wall and partially extend outwardly from an outer surface of the second bottom wall in a direction away from the second recess, wherein the second side wall of the second socket has a second through slot penetrating through the second side wall and communicating with the second recess.

13. The transit connector of claim 12, wherein the second docking assembly comprises:

The second movable guide connecting piece comprises a first section part, a second section part and a connecting section part, wherein the connecting section part is used for connecting the first section part and the second section part, the first section part comprises a propping part and a first contact part, the first section part is arranged on the surface of the second side wall of the second socket, the propping part is accommodated in the second through groove and is partially exposed in the second concave part, the first contact part is positioned at one end part of the first section part, the fourth guide connecting end is one end part of the second section part, the fourth guide connecting end of the second section part is contacted with the third neutral terminal of the second socket, and the other end of the second section part is provided with a second contact part;

A third conductive member, wherein the fifth conductive end is an end of the third conductive member, the fifth conductive end of the third conductive member is fixed to the first neutral terminal of the plug, and a contact end of the third conductive member is adjacent to the second contact portion of the second section of the second movable conductive member; and

A fourth conductive member, wherein the sixth conductive terminal is an end of the fourth conductive member, the sixth conductive terminal of the fourth conductive member is fixed to the second neutral terminal of the first socket, a contact end of the fourth conductive member is adjacent to the first contact portion of the first segment of the first movable conductive member,

When the second socket does not contain the second power line plug, the contact end of the fourth guide member and the first contact part of the first section part of the second movable guide member are separated from each other.

14. The adapter connector of claim 13, wherein when the second power cord plug is inserted into the second receptacle, the second power cord plug abuts against the abutting portion of the first segment of the second movable conductive member of the second conductive member, the abutting portion is deformed to force the first segment to move toward the plug, and the first contact portion of the first segment contacts the contact end of the fourth conductive member to connect the second neutral cord terminal of the first receptacle and the third neutral cord terminal of the second receptacle to each other via the second conductive member.

15. The adapter connector of claim 13, wherein the contact end of the third conductive member and the second contact portion of the second section of the first movable conductive member are separated from each other when the second receptacle does not receive the second power cord plug.

16. The adapter connector of claim 15, wherein when the second power cord plug is inserted into the second receptacle, the second power cord plug abuts against the abutting portion of the first segment of the second movable conductive member of the second conductive member, the abutting portion is deformed to force the first segment to move toward the plug, the first segment moves the second segment toward the plug through the connecting segment, and the second contact portion of the second segment contacts the contact end of the third conductive member to connect the first neutral terminal of the plug and the second neutral terminal of the first receptacle to each other through the second conductive member.

17. The transit connector of claim 1, wherein the first receptacle and the second receptacle are C14 receptacles specified by IEC 60320 standard, and the plug is a C19 plug specified by IEC 60320 standard.

18. A transit connector, comprising:

the first guide connection component is arranged among the plug, the first socket and the second socket and is connected with the first fire wire terminal, the second fire wire terminal and the third fire wire terminal in a disconnectable manner, wherein when the first power wire plug is assembled with the first socket in an inter-fit manner, the first guide connection component enables the first fire wire terminal and the second fire wire terminal to be connected, and when the first power wire plug is assembled with the first socket in an inter-fit manner and the second power wire plug is assembled with the second socket in an inter-fit manner, the first guide connection component enables the first fire wire terminal, the second fire wire terminal and the third fire wire terminal to be connected;

The first docking assembly includes:

the first guide piece comprises the second guide end and is connected with the first live wire terminal and the second live wire terminal;

a first movable guide connector comprising the first guide connector end;

a third movable guide connector comprising the third guide connector end; and

A first conductive bridge comprising a first end and a second end, wherein the first end is adjacent to the first movable conductive member, and the second end is adjacent to the third movable conductive member;

The first movable conductive piece and the third movable conductive piece are respectively separated from the first conductive bridge, the third movable conductive piece is separated from the first conductive piece, the first movable conductive piece moves and is connected with the first end of the first conductive bridge and the first conductive piece when the first power line plug and the first socket are mutually assembled, the third movable conductive piece moves and is connected with the second end of the first conductive bridge when the first power line plug and the first socket are mutually assembled and the second power line plug and the second socket are mutually assembled, and the first movable conductive piece, the third movable conductive piece, the first conductive bridge and the first conductive piece are connected.

19. The transit connector of claim 1, wherein the second conductive assembly is disposed between the plug, the first receptacle and the second receptacle, and the second conductive assembly is disconnectably connected to the first neutral terminal, the second neutral terminal and the third neutral terminal, wherein the second conductive assembly connects the first neutral terminal and the third neutral terminal when the second power plug is mated with the second receptacle, wherein the second conductive assembly connects the first neutral terminal and the third neutral terminal when the first power plug is mated with the first receptacle and the second power plug is mated with the second receptacle.

20. The transit connector of claim 19, wherein the second docking assembly comprises:

a third conductive connection part including the fifth conductive connection end and connected to the first neutral terminal and the third neutral terminal;

A second movable guide connector comprising the fourth guide connector;

a fourth movable guide connector comprising the sixth guide connector; and

A second conductive bridge comprising a first end and a second end, wherein the first end is adjacent to the second movable conductive member, and the second end is adjacent to the fourth movable conductive member;

The second movable conductive piece and the fourth movable conductive piece are respectively separated from the second conductive bridge, the second movable conductive piece is separated from the third conductive piece, the second movable conductive piece moves and is connected with the first end of the second conductive bridge and the third conductive piece when the second power line plug is assembled with the second socket, the fourth movable conductive piece moves and is connected with the second end of the second conductive bridge when the second power line plug is assembled with the second socket and the first power line plug is assembled with the first socket, and the second movable conductive piece, the fourth movable conductive piece, the second conductive bridge and the third conductive piece are connected.

21. The adapter connector of claim 12, wherein the first sidewall of the first receptacle has a third through slot extending through the first sidewall and communicating with the first recess, and wherein the second sidewall of the second receptacle has a fourth through slot extending through the second sidewall and communicating with the second recess.

22. The transit connector of claim 21, wherein the first docking assembly comprises:

The first movable guide piece comprises a first section part, a first guide end and a connecting section part, wherein the connecting section part is used for connecting the first section part and the first guide end, the first section part of the first movable guide piece comprises a propping part and a first contact part, the first section part is arranged on the surface of the first side wall of the first socket, the propping part is accommodated in the first through groove and is partially exposed in the first concave part, and the first contact part is positioned at one end part of the first section part, wherein the first guide end is contacted with the second live wire terminal of the first socket;

The first guide piece is provided with a first guide end, a second guide end and a first connecting piece, wherein the second guide end of the first guide piece is fixed on the first live wire terminal, and the first guide piece is provided with a contact end fixed on the second live wire terminal;

The first section part of the third movable guide piece comprises a propping part and a contact part, the first section part is arranged on the surface of the second side wall of the second socket, the propping part is accommodated in the fourth through groove and is partially exposed in the second concave part, and the contact part is positioned at one end part of the first section part, wherein the third guide end of the third movable guide piece is contacted with the third live wire terminal of the second socket; and

A first bridge, wherein a first end of the first bridge is adjacent to the first contact portion of the first section of the first movable contact member, a second end of the first bridge is adjacent to the contact portion of the first section of the third movable contact member,

Wherein the first end of the first conductive bridge and the first contact portion of the first segment of the first movable conductive member are separated from each other when the first receptacle does not receive the first power cord plug, and wherein the second end of the first conductive bridge and the contact portion of the first segment of the third movable conductive member are separated from each other when the second receptacle does not receive the second power cord plug.

23. The adapter connector of claim 22, wherein when the first power cord plug is inserted into the first receptacle, the first power cord plug is pressed against the pressing top portion of the first segment of the first moving guide of the first guide assembly, the pressing top portion is pressed against the pressing top portion to move the first segment toward the plug, and the first contact portion of the first segment of the first moving guide is contacted with the first end of the first guide bridge, wherein when the second power cord plug is inserted into the second receptacle, the second power cord plug is pressed against the pressing top portion of the first segment of the third moving guide of the first guide assembly, the pressing top portion is pressed against the first segment to move toward the plug, and the first contact portion of the first segment is contacted with the second end of the first guide bridge, wherein when the first power cord plug is inserted into the second receptacle, the second power cord plug is contacted with the first end of the first guide bridge, and the first power cord plug is connected with the first guide terminal.

24. The transit connector of claim 21, wherein the second docking assembly comprises:

The second movable guide connector comprises a first section part, a fourth guide connector and a connecting section part, wherein the connecting section part is used for connecting the first section part and the fourth guide connector, the first section part of the second movable guide connector comprises a propping part and a contact part, the first section part is arranged on the surface of the second side wall of the second socket, the propping part is accommodated in the second through groove, the propping part is partially exposed in the second concave part, the contact part is positioned at one end part of the first section part, and the fourth guide connector of the second movable guide connector is contacted with the third neutral terminal of the second socket;

a third conductive member, wherein the fifth conductive end is an end of the third conductive member, the fifth conductive end of the third conductive member is fixed to the first neutral terminal, and a contact end of the third conductive member is fixed to the third neutral terminal;

A fourth movable conductive member, wherein the fourth movable conductive member comprises a first section, a sixth conductive terminal and a connection section, the first section of the fourth movable conductive member comprises a contact portion and a supporting portion, the first section is disposed on the surface of the first sidewall of the first socket, the supporting portion is accommodated in the third through slot and is partially exposed in the first recess, the contact portion is located at an end of the first section, and the sixth conductive terminal of the fourth movable conductive member is in contact with the second neutral terminal of the first socket;

A second conductive bridge, wherein a first end of the second conductive bridge is adjacent to the contact portion of the first section of the second movable conductive member, a second end of the second conductive bridge is adjacent to the contact portion of the first section of the fourth movable conductive member,

Wherein the first end of the second conductive bridge and the contact portion of the first section of the second movable conductive member are separated from each other when the second receptacle does not receive the second power cord plug, and wherein the second end of the second conductive bridge and the contact portion of the first section of the fourth movable conductive member are separated from each other when the first receptacle does not receive the first power cord plug.

25. The transit connector of claim 24, wherein when the second power cord plug is inserted into the second receptacle, the second power cord plug is pressed against the pressing top portion of the first segment of the second movable conductive member of the second conductive assembly, the pressing top portion is deformed to move the first segment toward the plug, and the contact portion of the first segment of the second movable conductive member is contacted with the first end of the second conductive bridge, wherein when the first power cord plug is inserted into the first receptacle, the first power cord plug is pressed against the pressing top portion of the first segment of the fourth movable conductive member of the second conductive member, the pressing top portion is deformed to move the first segment toward the plug, and the contact portion of the first segment is contacted with the second end of the second conductive bridge, wherein when the first power cord plug is inserted into the first receptacle, the second power cord plug is contacted with the second end of the second conductive bridge, the neutral cord plug is contacted with the second conductive member, the neutral terminal, and the neutral terminal are connected with each other.