CN215870118U

CN215870118U - Transmission line structure

Info

Publication number: CN215870118U
Application number: CN202121818227.9U
Authority: CN
Inventors: 吴明城
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-05
Filing date: 2021-08-05
Publication date: 2022-02-18
Anticipated expiration: 2031-08-05

Abstract

The utility model discloses a transmission line structure, which comprises a first connecting end group, a base and a rotating part, wherein one end of the base is convexly provided with a pivot and is provided with a shaft hole, a transmission disc is arranged on the peripheral ring of the pivot and is connected with a transmission extension section, the transmission extension section is axially extended, a pressing piece is arranged on the transmission extension section, two guide rails are formed between two sides of the pressing piece and the base, the rotating part is provided with a body, a through hole is arranged at the position close to the center of the body, two transmission nodes are arranged at the bottom end of the body and are pivotally connected with the shaft hole of the pivot through a positioning piece, so that the two transmission nodes can be electrically connected with the transmission disc of the base, and a first port and a second port are respectively arranged at two ends of the body; a second connection end group, which is provided with a base part, and the base part is provided with a third port; and one end of the wire body is connected with the transmission extension section of the first connecting end group, and the other end of the wire body is connected with the base of the second connecting end group. The utility model can simultaneously connect two mobile devices.

Description

Transmission line structure

Technical Field

The utility model discloses a transmission line structure, in particular to a transmission line structure with a plurality of ports for transmission and charging of a mobile device.

Background

Nowadays, people are highly dependent on mobile devices such as mobile phones, notebook computers, tablet computers, and the like, and hold a large proportion of mobile devices at the same time, and because the mobile devices are inconvenient to be used outside and have power supplies to supply charging at any time, most of the mobile devices are prepared with mobile power supplies and output power supplies to the mobile devices through transmission lines to achieve the charging effect.

However, the conventional charging line or transmission line can only be connected to a single mobile power source and connected to a single mobile device for one-to-one electrical connection, so that if there are other mobile devices requiring transmission or charging, the other mobile devices need to wait for completion one by one and then charge one by one, and thus, charging and transmission efficiency cannot be provided.

SUMMERY OF THE UTILITY MODEL

Therefore, it is a primary objective of the claimed invention to provide a transmission line structure, and more particularly, to a transmission line structure with multiple ports for transmission and charging of a mobile device.

Another objective of the present invention is to provide a transmission line structure, wherein one end of the transmission line structure is connected to a mobile device, and the other end of the transmission line structure is connected to a power supply device or a computer, so as to achieve the charging and transmission effects, the end connected to the mobile device can selectively charge and transmit one or two mobile devices through a pivotable rotating portion, and the opposite end of the transmission line structure also has at least two ports, so that the transmission line structure can be connected to the mobile device through an appropriate port, so as to charge and transmit the mobile device.

The technical scheme is as follows: a transmission line structure, comprising at least:

a first connection end group, which comprises a base, a rotation part, wherein one end of the base is convexly provided with a pivot shaft and is provided with a shaft hole, the periphery of the pivot shaft is annularly provided with a transmission disc and is connected with a transmission extension section, the transmission extension section is axially extended, the transmission extension section is provided with a pressing piece, two guide rails are formed between two sides of the pressing piece and the base, the rotation part is provided with a body, a through hole is arranged at the position near the center of the body, two transmission nodes are arranged at the bottom end of the body, and a positioning piece penetrates through the through hole and is pivotally connected with the shaft hole of the pivot shaft so that the two transmission nodes are electrically connected with the transmission disc of the base;

a second connection end group, which has a base part, and the base part is provided with a third port; and

one end of the wire body is connected with the transmission extension section of the first connecting end group, and the other end of the wire body is connected with the base of the second connecting end group.

Furthermore, the first connection end group further comprises a sliding cover, the sliding cover is in an inverted C shape, two side ends of the sliding cover respectively extend inwards to form a guide part, and the sliding cover is slidably arranged in the sliding rail of the base through each guide part and can form a first accommodation seat.

Furthermore, the upper end of the pressing piece of the first connecting end group is provided with a stop convex part, and the sliding cover is provided with a limit groove corresponding to the end of the pressing piece, so that the stop convex part can move in the limit groove.

Further, the first connecting end group is in a circular arc shape.

Furthermore, the base of the second connection end group is connected with a bending part, two sides of the base are respectively provided with a first convex column, the bending part is provided with a fourth port, two sides of the bending part are respectively provided with two extension arms in an extending manner, the inner side of each extension arm is provided with a second limit strip groove, and each first convex column of the base is arranged in each second limit strip groove, so that the bending part is pivoted on the base and can slide and bend.

Furthermore, the base of the second connection end group is connected with a bending part, two sides of the base are respectively provided with a first limit strip groove, the bending part is provided with a fourth port, two sides of the bending part are respectively provided with two extension arms in an extending manner, the inner side of each extension arm is inwards provided with a second convex column, and each second convex column of each extension arm is arranged in each first limit strip groove, so that the bending part is pivoted on the base and can slide and bend.

Furthermore, a second receptacle is concavely disposed at the other end of the bending portion opposite to the fourth port for receiving the third port.

So that those skilled in the art can further understand the structure, characteristics and other objects of the present invention, several preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and the embodiments will be apparent to those skilled in the art.

Drawings

Fig. 1 is a schematic perspective view of a transmission line structure disclosed in the present invention.

Fig. 2 is a schematic diagram illustrating a first connection end set of the transmission line structure according to the present invention.

Fig. 3 is a schematic diagram illustrating a first connection end set of the transmission line structure according to the disclosure.

Fig. 4 is a schematic diagram of the displacement of the sliding cover of the first connection end group of the transmission line structure disclosed in the present invention.

Fig. 5 is a schematic view of the pivoting of the first connection end group rotating part of the transmission line structure disclosed in the present invention.

Fig. 6 is a schematic diagram of an embodiment of the transmission line structure disclosed in the present invention.

Fig. 7 is a schematic diagram of another embodiment of the transmission line structure disclosed in the present invention.

Fig. 8 is a schematic diagram of another preferred embodiment of the transmission line structure disclosed in the present invention.

Fig. 9 is a schematic diagram of another preferred embodiment of the transmission line structure disclosed in the present invention.

Fig. 10 is a schematic diagram of another preferred embodiment of the transmission line structure disclosed in the present invention.

Fig. 11 is a schematic diagram of another preferred embodiment of the transmission line structure disclosed in the present invention.

Wherein:

100 transmission line structure

1 first connection end group

10: base

11: pivot

111 shaft hole

112 transport plate

113 transport extension

12 pressing piece

121: guide rail

122 stopping convex part

20 rotating part

21: main body

22: through hole

211 transmission node

23, positioning piece

24 first port

25 second port

3: wire body

30 sliding closure

31 guide part

32 first receptacle

33, a limit groove

40: mobile power supply

50: mobile device

6: second connection terminal group

61 base part

611 the first convex column

612 first limit strip groove

62 third port

63 a bent part

64 fourth port

641 extending arm

642 second limiting strip groove

643 the second convex column

65 second receptacle

The specific implementation mode is as follows:

the present invention discloses a transmission line structure, and in the embodiments and components thereof shown in the accompanying drawings, all references to front and rear, left and right, top and bottom, upper and lower, and horizontal and vertical are intended only for convenience of description, and not to limit the utility model, nor to limit the components thereof to any position or spatial orientation. The dimensions specified in the figures and the description may vary depending on the design and requirements of the utility model without departing from the scope of the claims.

Please refer to fig. 1 to 7, which illustrate a preferred embodiment of the present invention.

A transmission line structure 100, comprising:

a first connection end group 1, comprising a base 10, a rotation part 20, one end of the base 10 is protruded with a pivot 11 and has a shaft hole 111, and the periphery ring of the pivot 11 is provided with a transmission disc 112 and connected with a transmission extension section 113, the transmission extension section 113 is extended axially, the transmission extension section 113 is provided with a pressing piece 12, and two guide rails 121 are formed between two sides of the pressing piece 12 and the base 10, the rotation part 20 has a body 21, the body 21 is provided with a through hole 22 near the center and two transmission nodes 211 are provided at the bottom end of the body 21, and are pivotally connected with the shaft hole 111 of the pivot 11 through a positioning piece 23 passing through the through hole 22, so that the two transmission nodes 211 can be electrically connected with the transmission disc 112 of the base 10, two ends of the body 21 are provided with a first port 24 and a second port 25 respectively;

a second connecting terminal set 6 having a base portion 61, wherein the base portion 61 is provided with a third port 62; and

a wire 3, one end of the wire 3 is connected to the transmission extension 113 of the first connection end group 1, and the other end of the wire 3 is connected to the base 61 of the second connection end group 6.

Further, the first connection end group 1 further includes a sliding cover 30, the sliding cover 30 is in an inverted C shape, two side ends of the sliding cover 30 respectively extend inward to form a guiding portion 31, the sliding cover 30 is slidably disposed in the sliding rail 121 of the base 10 through each guiding portion 31, and a first receptacle 32 can be formed.

Wherein, the upper end of the pressing element 12 of the first connecting end group 1 is provided with a stop protrusion 122, and the sliding cover 30 is provided with a limit groove 33 corresponding to the end of the pressing element 12, so that the stop protrusion 122 can move in the limit groove 33.

To sum up, when the transmission line structure 100 disclosed by the present invention is to be charged or transmitted, the third port 62 of the second connection end group 6 is connected to the computer or the mobile power source 40, and the first connection end group 1 is partially slid through the sliding cover 30, the first connection end group 1 rotates one end of the first port 24 or the second port 25 to expose out of the upper end of the first connection end group 1, then slides the sliding cover 30 to position, so that the first port 24 or the second port 25 can be selected to be connected to the mobile device 50 for charging or transmission, at this time, the transmission node 211 of the body 21 is still electrically connected to the transmission disc 112 of the base 10 to achieve the effect, if two mobile devices are to be charged, the sliding cover 30 is slid to completely expose the body 21, then the body 21 is rotated 90 degrees to make the body 21 and the base 10 present a vertical state, and then the sliding cover 30 is slid to reset, at this time, the transmission node 211 below the body 21 should still be electrically connected to the transmission panel 112 above the base 10, so that the first port 24 and the second port 25 of the body 21 can be connected to the mobile device 50 respectively for charging.

Furthermore, the first connecting end group 1 is arc-shaped.

Referring to fig. 8 to 9, which are another preferred embodiment of the present invention, the base portion 61 of the second connecting end set 6 is connected to a bending portion 63, two sides of the base portion 61 are respectively provided with a first protruding column 611, the bending portion 63 has a fourth port 64, two sides of the bending portion extend to form two extending arms 641, an inner side of each extending arm 641 is provided with a second limiting strip groove 642, and each first protruding column 611 of the base portion 61 is disposed in each second limiting strip groove 642, so that the bending portion 63 is pivotally connected to the base portion 61 and can slide and bend.

Further, a second receptacle 65 is recessed from the other end of the bending portion 63 opposite to the fourth port 64 for receiving the third port 62.

Referring to fig. 10 to 11, in another preferred embodiment of the present invention, the base portion 61 of the second connecting end set 6 is connected to a bending portion 63, two sides of the base portion 61 are respectively provided with a first limiting strip groove 612, the bending portion 63 has a fourth port 64, two sides of the bending portion are respectively extended with two extending arms 641, an inner side of each extending arm 641 is inwardly provided with a second protruding pillar 643, and each second protruding pillar 643 of the extending arm 641 is disposed in each first limiting strip groove 612, so that the bending portion 63 is pivoted on the base portion 61 and can slide and bend.

Therefore, the second connecting terminal set 6 can have the third port 62 and the fourth port 64 through the bending portion 63, and the ports can be in two different formats such as: USB, TYPE-C, etc. so that the second connection terminal set 6 of the present invention can select and connect with the corresponding format according to the mobile power source 40 or the output port of the computer, so that the transmission line structure 100 of the present invention can simultaneously correspond to the ports of the mobile devices 50 with different formats, and can also simultaneously correspond to two mobile devices 50, and the other end thereof has at least two ports to correspondingly adjust to the applicable ports for transmission and charging, thereby greatly increasing the practicability and convenience of the present invention.

In summary, it can be understood that the transmission line structure disclosed in the present invention can effectively solve the problems encountered in the prior art, and greatly improve the efficiency, and the same or similar products are not disclosed in the same technical field.

Claims

1. A transmission line structure, comprising:

a first connection end group, which comprises a base and a rotation part, wherein one end of the base is convexly provided with a pivot and is provided with a shaft hole, the periphery of the pivot is annularly provided with a transmission disc and is connected with a transmission extension section, the transmission extension section is axially extended and is provided with a pressing piece, two guide rails are formed between two sides of the pressing piece and the base, the rotation part is provided with a body, a through hole is arranged at the position near the center of the body, two transmission nodes are arranged at the bottom end of the body, and a positioning piece penetrates through the through hole and is pivotally connected with the shaft hole of the pivot so that the two transmission nodes are electrically connected with the transmission disc of the base;

2. The transmission line structure according to claim 1, wherein the first connection terminal set further includes a sliding cover, the sliding cover is of an inverted C shape, two side ends of the sliding cover respectively extend inward to form a guiding portion, the sliding cover is slidably disposed in the sliding rail of the base through each guiding portion, and can form a first receptacle.

3. The transmission line structure according to claim 2, wherein the pressing member of the first connection terminal set has an abutting protrusion at an upper end thereof, and the sliding cover has a limiting groove at an end thereof opposite to the pressing member, so that the abutting protrusion is movably disposed in the limiting groove.

4. The transmission line structure of claim 1, wherein the first set of connection ends are arcuate.

5. The transmission line structure according to claim 1, wherein the base portion of the second connection terminal set is connected to a bending portion, the two sides of the base portion are respectively provided with a first protrusion, the bending portion has a fourth port, the two sides of the bending portion are respectively extended with two extension arms, the inner side of each extension arm is provided with a second limiting groove, and each first protrusion of the base portion is disposed in each second limiting groove, so that the bending portion is pivotally connected to the base portion and can slide and bend.

6. The transmission line structure according to claim 1, wherein the base portion of the second connection terminal set is connected to a bending portion, two sides of the base portion are respectively provided with a first position-limiting groove, the bending portion has a fourth port, two sides of the bending portion are respectively extended with two extension arms, an inner side of each extension arm is inwardly provided with a second protruding pillar, and each second protruding pillar of the extension arm is disposed in each first position-limiting groove, so that the bending portion is pivotally connected to the base portion and can slide and bend.

7. The transmission line structure as claimed in claim 5 or 6, wherein the other end of the bending portion opposite to the fourth port is recessed with a second receptacle for receiving the third port.