CN212810785U - Unidirectional rotation of stable structure keeps away two unification data lines in position - Google Patents

Abstract

The utility model discloses a unidirectional rotation avoidance two-in-one data line with stable structure, which comprises a wire rod, a first joint and a second joint, wherein a first joint shell is sleeved on a first joint colloid of the first joint, and a avoidance chute is arranged on the front surface or the back surface of the first joint shell; a guide sliding groove is formed in the position, corresponding to the avoidance sliding groove, of the first connector colloid, a connecting arm is arranged on the second connector, and the tail end of the connecting arm is arranged in the guide sliding groove; two sides of the tail part of the connecting arm respectively extend out of a rotating shaft which is clamped in the guide sliding groove. The utility model discloses a respectively set up a pivot in the afterbody both sides of linking arm, can face openly or the back is rotatory in order to realize in the first joint colloid of pivot embedding, realize avoiding completely with first joint to can satisfy user's use better and experience. Moreover, the structure that the connecting arm is embedded into the first connector is more attractive, does not occupy extra space, and does not scratch the mobile phone due to the fact that the connecting arm protrudes out of the mobile phone.

Description

Unidirectional rotation of stable structure keeps away two unification data lines in position

Technical Field

The utility model relates to an electronic equipment charges and signal connection technical field, concretely relates to two unification data lines that two kinds of different grade types connect.

Background

In the electronic industry, a data line is also a main tool for charging and data transmission of equipment (such as a smart phone) at present, and a conventional data line generally includes a wire and USB standard interfaces and equipment connectors (currently, a TYPE-C connector, a light-ing connector or a MIRCO-USB connector and the like are generally used) at two ends of the wire. Although the data line has a simple structure, one end of the data line is only provided with one connector, only one type of interface can be plugged, and the data line is not universal among electronic products with different interfaces. In the use process, different data lines need to be selected according to the electronic equipment, and the whole data line needs to be replaced when the data transmission is carried out on different electronic equipment, so that the waste of data line resources is caused. For this reason, two-in-one data cable has been invented, i.e. one end is designed with two different types of connectors, one connector is used as the basic connector, the other connector is used as the additional connector, and generally flexible plastic and wire materials are used to connect the basic connector, and slidable connecting arms are used to connect the additional connector. The two connectors can be separated or combined, and when the two connectors are separated, the two connectors are used as one type of connector, and when the two connectors are combined, the two connectors are used as the other type of connector, so that the electronic equipment with two different interface types can be plugged. However, such two-in-one data lines on the market at present have some problems, for example, the fixed connection by using soft glue or wire is easy to break, which causes the loss of the additional joint; when the hard rubber connecting arm is used for connection, the hard rubber connecting arm is inconvenient to use, and when a basic connector needs to be inserted, the additional connector needs to be pulled aside to a certain position to be inserted, so that the operation is inconvenient, the avoiding range is small, and the hard rubber connecting arm is easy to pull off. In addition, the problems of poor appearance, occupied space when the connecting arm extends outside and easy scraping of the mobile phone screen exist.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is the defect of prior art, provide a two unification data lines of keeping away position of unidirectional rotation that realizes simple structure, connection reliability height, difficult fracture, use more convenient, whole more pleasing to the eye, the structure is firm.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a two unification data lines of position are kept away in unidirectional rotation that structure is firm, including wire rod, first joint (being basic joint) and second joint (being additional joint), first joint and wire rod electric connection, second joint accessible its tail end and first joint are pegged graft and are combined, realize taking the second joint as the grafting interface of data line, its characterized in that: a first joint shell is sleeved on a first joint colloid of the first joint, and a position avoiding sliding groove is formed in the front or back of the first joint shell; a guide sliding groove is formed in the position, corresponding to the position avoiding sliding groove, of the first connector colloid, and the opening width of the position avoiding sliding groove is smaller than that of the guide sliding groove; the second joint is provided with a connecting arm extending backwards, and the tail end of the connecting arm is arranged in the guide sliding groove to form a structure capable of sliding forwards and backwards along the guide sliding groove; the two sides of the tail part of the connecting arm respectively extend out of a rotating shaft which can rotate in the guide sliding groove, the rotating shaft is clamped in the guide sliding groove by the first joint shell, the connecting arm is movably embedded in the avoidance sliding groove, and the connecting arm is rotated by the rotating shaft to form a structure which can drive the second joint to rotate towards the front or the back of the first joint so as to avoid the first joint.

Furthermore, a spacing groove is connected to the front end of the guide sliding groove in an abutting mode, the width of the spacing groove is the same as that of the spacing sliding groove so as to accommodate the connecting arm, but the width of the spacing groove is smaller than that of the guide sliding groove, and rotating shafts on two sides of the connecting arm are blocked by the bottom ends of the side walls on two sides of the spacing groove, so that the connecting arm cannot be pulled out of the first connector.

Furthermore, after the second connector is combined with the first connector in a butt joint mode, the surface of the connecting arm is flush with the surface of the first connector shell, so that the connecting arm is more attractive, and does not protrude out, not only can the occupied space be reduced, but also the mobile phone screen cannot be scraped due to the protruding connecting arm.

Furthermore, a convex butt joint limiting table is arranged on the front end face of the first joint colloid, a butt joint limiting groove matched with the butt joint limiting table is arranged at the rear end of the second joint colloid of the second joint, and when the second joint is in butt joint with the first joint, the butt joint limiting table is embedded into the butt joint limiting groove, so that the accuracy and the reliability of a butt joint process can be improved.

Furthermore, a circle of stopping table forming a protruding structure is arranged at the position, close to the tail end, of the first joint colloid, and the tail end of the first joint shell is abutted to the stopping table.

Furthermore, the connecting arm is connected to the front side or the back side of the tail end of the second joint colloid of the second joint, and the connecting arm, the rotating shaft and the second joint colloid are of an integral structure and are manufactured by integral injection molding. The novel bamboo charcoal fiber can be made into various colors, is more attractive, and is not easy to break due to the movable property.

Furthermore, a second joint shell is sleeved outside the second joint colloid.

Preferably, the first linker is a TYPE-C linker, a light-ing linker or a MIRCO-USB linker and the second linker is a USB-a linker, a TYPE-C linker, a light-ing linker or a MIRCO-USB linker, but the second linker is of a different interface TYPE than the first linker, e.g. if the first linker is a TYPE-C linker, the second linker can only be a USB-a linker, a light-ing linker or a MIRCO-USB linker. The specific type of joint is not limited and can be selected as desired.

The utility model discloses an afterbody both sides at the linking arm respectively set up a pivot, can openly or the back is rotatory in order to realize in embedding first joint colloid through the pivot, connects to extract the back at the second like this, can slide back the bottom along the direction spout under its self action of gravity, falls to one side through the rotation simultaneously, realizes avoiding completely with first joint to can satisfy user's use better and experience, realization simple structure with adjustable this kind simultaneously. Moreover, the structure that the connecting arm is embedded into the first connector is more attractive, does not occupy extra space, and does not scratch the mobile phone due to the fact that the connecting arm protrudes out of the mobile phone.

Drawings

Fig. 1 is a schematic structural diagram of the interface docking process (not combined) of the present invention;

fig. 2 is a schematic structural diagram of the interface of the present invention in a separated state;

fig. 3 is a schematic structural view of the interface of the present invention in another angle;

fig. 4 is a schematic structural diagram of the interface docking process (not combined) after the first joint housing is removed;

fig. 5 is a structural diagram illustrating the interface separated state after the first joint housing is removed.

In the figure, 1 is a first joint, 2 is a first joint colloid, 21 is a guide chute, 22 is a avoiding groove, 23 is a butt joint limit table, 3 is a first joint shell, 31 is a avoiding chute, 4 is a second joint, 5 is a second joint colloid, 51 is a butt joint limit groove, 6 is a second joint shell, 7 is a connecting arm, 71 is a rotating shaft, and 8 is a wire rod.

Detailed Description

In this embodiment, referring to fig. 1, fig. 2 and fig. 3, the stable-structure unidirectional rotation avoidance two-in-one data line includes a wire 8, a first connector 1 (i.e., a basic connector) and a second connector 4 (i.e., an additional connector), the first connector 1 is electrically connected to the wire 8, and the second connector 4 can be inserted into and combined with the first connector 1 through a tail end thereof, so that the second connector 4 is used as an insertion interface of the data line; a first joint shell 3 is sleeved on the first joint colloid 2 of the first joint 1, and a avoiding sliding chute 31 is arranged on the front surface or the back surface of the first joint shell 3; a guide chute 21 is arranged at the position of the first joint colloid 2 corresponding to the avoiding chute 31, and the opening width of the avoiding chute 31 is narrower than that of the guide chute 21; the second joint 4 is provided with a connecting arm 7 extending backwards, and the tail end of the connecting arm 7 is arranged in the guide sliding groove 21 to form a structure capable of sliding forwards and backwards along the guide sliding groove 21; two sides of the tail part of the connecting arm 7 respectively extend out of a rotating shaft 71 which can rotate in the guide sliding chute 21, the rotating shaft 71 is clamped in the guide sliding chute 21 by the first connector shell 3, the connecting arm 7 is movably embedded in the avoiding sliding chute 31, and the connecting arm 7 is rotated through the rotating shaft 71 to form a structure which can drive the second connector 4 to rotate towards the front or the back of the first connector 1 so as to avoid the first connector 1 completely.

A spacing groove 22 is connected to the front end of the guiding sliding groove 21, the width of the spacing groove 22 is the same as the width of the spacing sliding groove 31 to accommodate the connecting arm 7 (when the second joint 4 is combined with the first joint 1), but the width of the spacing groove 22 is smaller than the width of the guiding sliding groove 21, so that the rotating shafts 71 on two sides of the connecting arm 7 are blocked by the bottom ends of the side walls on two sides of the spacing groove 22, and the connecting arm 7 cannot be pulled out of the first joint 1.

After the second joint 4 and the butt joint of first joint 1 combine, the surface of linking arm 7 flushes each other with the surface of first joint shell 3, so firstly more for pleasing to the eye, secondly linking arm 7 can not the protrusion in the outside, so not only can reduce the space that occupies, can not scrape the cell-phone screen because of linking arm 7 protrusion simultaneously.

The front end face of the first joint colloid 2 is provided with a convex butt joint limit table 23, the rear end of the second joint colloid 5 of the second joint 4 is provided with a butt joint limit groove 51 matched with the butt joint limit table 23, and when the second joint 5 is in butt joint with the first joint 1, the butt joint limit table 23 is embedded in the butt joint limit groove 51, so that the accuracy and the reliability of the butt joint process can be improved.

A circle of stop table (not marked) forming a protruding structure is arranged at the position, close to the tail end, of the first joint colloid 2, and the tail end of the first joint shell 3 is abutted to the stop table.

The connecting arm 7 is connected to the side surface of the second joint colloid 5 of the second joint 4, and the connecting arm 7, the rotating shaft 71 and the second joint colloid 5 are of an integral structure and are manufactured by integral injection molding. The novel bamboo charcoal fiber can be made into various colors, is more attractive, and is not easy to break due to the movable property.

A second joint housing 6 is sleeved outside the second joint colloid 5.

The first connector 1 is a TYPE-C connector, a light-tning connector or a MIRCO-USB connector and the second connector 4 is a USB-a connector, a TYPE-C connector, a light-tning connector or a MIRCO-USB connector, but the second connector 4 is of a different interface TYPE than the first connector 1, e.g. if the first connector 1 is a TYPE-C connector, the second connector 4 can only be a USB-a connector, a light-tning connector or a MIRCO-USB connector. The specific type of joint is not limited and can be selected as desired.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (8)

1. The utility model provides a two unification data lines of position are kept away in unidirectional rotation that structure is firm, connects including wire rod, first joint and second, first joint and wire rod electric connection, and the second connects its tail end of accessible and first joint and pegs graft and combines, realizes connecting as the grafting interface of data line with the second, its characterized in that: a first joint shell is sleeved on a first joint colloid of the first joint, and a position avoiding sliding groove is formed in the front or back of the first joint shell; a guide sliding groove is formed in the position, corresponding to the position avoiding sliding groove, of the first connector colloid, and the opening width of the position avoiding sliding groove is smaller than that of the guide sliding groove; the second joint is provided with a connecting arm extending backwards, and the tail end of the connecting arm is arranged in the guide sliding groove to form a structure capable of sliding forwards and backwards along the guide sliding groove; the two sides of the tail part of the connecting arm respectively extend out of a rotating shaft which can rotate in the guide sliding groove, the rotating shaft is clamped in the guide sliding groove by the first joint shell, the connecting arm is movably embedded in the avoidance sliding groove, and the connecting arm is rotated by the rotating shaft to form a structure which can drive the second joint to rotate towards the front or the back of the first joint so as to avoid the first joint.

2. The stable structure unidirectional rotation avoidance two-in-one data line of claim 1, wherein: the front end of the guide sliding groove is connected with a spacing groove, the width of the spacing groove is the same as that of the spacing sliding groove so as to contain the connecting arm, but the width of the spacing groove is smaller than that of the guide sliding groove, so that the rotating shafts on two sides of the connecting arm are blocked by the bottom ends of the side walls on two sides of the spacing groove.

3. The stable structure unidirectional rotation avoidance two-in-one data line of claim 1, wherein: after the second joint is in butt joint with the first joint, the surface of the connecting arm is flush with the surface of the first joint shell.

4. The stable structure unidirectional rotation avoidance two-in-one data line of claim 1, wherein: the front end face of the first joint colloid is provided with a convex butt joint limiting table, the rear end of the second joint colloid of the second joint is provided with a butt joint limiting groove matched with the butt joint limiting table, and when the second joint is in butt joint with the first joint, the butt joint limiting table is embedded into the butt joint limiting groove.

5. The stably structured unidirectional rotation avoiding two-in-one data line according to claim 3, wherein: and a circle of stop table forming a protruding structure is arranged at the position, close to the tail end, of the first joint colloid, and the tail end of the first joint shell is abutted against the stop table.

6. The stable structure unidirectional rotation avoidance two-in-one data line of claim 1, wherein: the connecting arm is connected to the front side or the back side of the tail end of the second joint colloid of the second joint, and the connecting arm, the rotating shaft and the second joint colloid are of an integral structure and are manufactured by integral injection molding.

7. The stably structured unidirectional rotation avoiding two-in-one data line according to claim 6, wherein: a second joint shell is sleeved outside the second joint colloid.

8. The stable structure unidirectional rotation avoidance two-in-one data line of claim 1, wherein: the first connector is a TYPE-C connector, a LIGHT-TNING connector or a MIRCO-USB connector, and the second connector is a USB-A connector, a TYPE-C connector, a LIGHT-TNING connector or a MIRCO-USB connector, but the interface TYPE of the second connector is different from that of the first connector.

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