CN212849205U - Two-in-one data line capable of rotating in two directions and avoiding positions - Google Patents

Abstract

The utility model discloses a two-in-one data line capable of rotating in two directions and avoiding position, 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 guide chute is arranged at least at one side of the left side and the right side of the first joint shell; the guide chute is sleeved with a rotating shaft which can slide back and forth along the guide chute and can rotate in the guide chute, the outer side end of the rotating shaft is connected with a connecting arm, and the front end of the connecting arm is fixedly connected with the second joint. The utility model discloses a afterbody of linking arm sets up a pivot, inserts in order to realize in the first joint shell that the face can be or the back is rotatory through the pivot, extracts the back at the second joint like this, can slide back the bottom along the direction spout under its self action of gravity, falls 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 this kind of adjustable simultaneously.

Description

Two-in-one data line capable of rotating in two directions and avoiding positions

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.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is the defect of prior art, provide one kind and realize that simple structure, connection reliability are high, difficult fracture, additional joint can avoid basic joint, use more convenient, can two-way rotation keep away two unification data lines of position completely.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a two unification data lines that can two-wayly rotate avoiding position, includes 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, form to connect 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 guide sliding groove is formed in at least one of the left side and the right side of the first joint shell; a rotating shaft which can slide back and forth along the guide chute and can rotate in the guide chute is sleeved in the guide chute, the outer side end of the rotating shaft is connected with a connecting arm, and the connecting arm and the rotating shaft are in an L-shaped structure and can rotate by taking the rotating shaft as a shaft; the front end of the connecting arm is fixedly connected with the second joint to form a structure which can enable the second joint to rotate towards the positive and negative surfaces of the first joint so as to avoid the first joint.

Furthermore, the inner side end of the rotating shaft is connected with a circular chuck, and the chuck is clamped in the first joint shell to form a rotatable assembly structure for the rotating shaft, so that the rotating shaft is not easy to pull out.

Further, one side that corresponds to have the chuck at first joint colloid sets up to smooth plane of cutting, and the chuck is also for the planishing face towards the one side of cutting the plane to realize the laminating of chuck and first joint colloid side, make the linking arm more smooth and easy when rotatory, can fall down toward both sides rotation under the action of gravity that self and second connect automatically, until the subsides lean on the front or the reverse side that first connect, thereby realize two-wayly avoiding first joint completely.

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, a stop lug extends out of the front of the cutting plane, and the stop lug and the stop table are jointly separated into a front-back movement range of the chuck on the cutting plane.

Furthermore, the connecting arm is connected to the side face of the second joint colloid of the second joint, and the connecting arm, the chuck, 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 a afterbody of linking arm sets up a pivot, inserts in order to realize in the first joint shell that the face can be or the back is rotatory through the pivot, extracts the back at the second joint like this, can slide back the bottom along the direction spout under its self action of gravity, falls 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 this kind of adjustable simultaneously.

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 diagram of the utility model after the first joint housing is removed.

In the figure, 1 is a first joint, 2 is a first joint colloid, 21 is a stop table, 22 is a cutting plane, 23 is a butt joint limit table, 3 is a first joint shell, 31 is a guide 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, 72 is a chuck, and 8 is a wire rod.

Detailed Description

In this embodiment, referring to fig. 1, fig. 2 and fig. 3, the two-in-one data line capable of bidirectional rotation and avoiding position includes a wire 8, a first connector 1 (i.e., a basic connector) and a second connector 4 (i.e., an additional connector), where 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 as to implement 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 guide sliding groove 31 is formed in at least one of the left side and the right side of the first joint shell 3; a rotating shaft 71 which can slide back and forth along the guide chute 31 and can rotate in the guide chute 31 is sleeved in the guide chute 31, the outer side end of the rotating shaft 71 is connected with a connecting arm 7, and the connecting arm 7 and the rotating shaft 71 are in an L-shaped structure; the front end of the connecting arm 7 is connected and fixed with the second joint 4, so as to form a structure that the second joint 4 can rotate towards the front and back surfaces of the first joint 1 to avoid the first joint 1.

The inner end of the rotating shaft 71 is connected with a circular chuck 72, and the chuck 72 is clamped in the first joint housing 3 to form a rotatable assembly structure for the rotating shaft 71, so that the rotating shaft 71 is not easy to pull out.

Set up to smooth cutting plane 22 in the one side that first joint colloid 2 corresponds to having chuck 72, and the one side that chuck 72 faced cutting plane 22 also is the planishing face to realize the laminating of chuck 72 and first joint colloid 2 side, make linking arm 7 more smooth and easy when rotatory, can fall down toward both sides rotation under the action of self and the gravity of second joint 4 automatically, until the subsides lean on the front or the reverse side of first joint 1, thereby realize two-wayly keeping away from first joint 1 completely.

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 21 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 against the stop table 21.

A stop lug extends in front of the cutting plane 22, and the stop lug and the stop table 21 jointly form a forward and backward movement range of the chuck 72 on the cutting plane 22.

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 chuck 72, 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 (9)

1. The utility model provides a but two unification data lines of two-way rotation avoiding position, 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 combine, forms to connect 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 guide sliding groove is formed in at least one of the left side and the right side of the first joint shell; the guide chute is sleeved with a rotating shaft which can slide back and forth along the guide chute and can rotate in the guide chute, the outer side end of the rotating shaft is connected with a connecting arm, and the front end of the connecting arm is connected and fixed with the second joint to form a structure which can enable the second joint to rotate towards the front side and the back side of the first joint so as to avoid the first joint.

2. The bi-directional rotatable bit-avoiding two-in-one data line according to claim 1, wherein: the inner side end of the rotating shaft is connected with a circular chuck, and the chuck is clamped in the first joint shell to form a rotatable assembling structure for the rotating shaft.

3. The bi-directional rotatable bit-avoiding two-in-one data line according to claim 2, wherein: one side of the first joint colloid, which corresponds to the chuck, is provided with a smooth plane, and one side of the chuck, which faces the plane, is also a flat surface, so that the chuck is attached to the side surface of the first joint colloid.

4. The bi-directional rotatable bit-avoiding two-in-one data line according to 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 bi-directional rotatable bit-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 bi-directional rotatable bit-avoiding two-in-one data line according to claim 5, wherein: a stop lug extends out of the front of the cutting plane, and the stop lug and the stop table are jointly separated into a front-back movement range of the chuck on the cutting plane.

7. The bi-directional rotatable bit-avoiding two-in-one data line according to claim 2, wherein: the connecting arm is connected to the side face of the second joint colloid of the second joint, and the connecting arm, the chuck, the rotating shaft and the second joint colloid are of an integral structure and are manufactured by integral injection molding.

8. The bi-directional rotatable bit-avoiding two-in-one data line according to claim 7, wherein: a second joint shell is sleeved outside the second joint colloid.

9. The bi-directional rotatable bit-avoiding two-in-one data line according to 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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