CN212162277U - Data line - Google Patents

Abstract

The utility model relates to an electronic equipment accessory field especially relates to a data line. The data line comprises an insertion portion, a connection portion, a switching portion and a line body connected with the switching portion, when the insertion portion is inserted into the charging interface of the electronic equipment, the connection portion is located on a second plane of the electronic equipment, a support piece is arranged on the connection portion, and the support piece supports the second plane of the electronic equipment. Support piece and desktop or other planes of setting on connecting portion lean on and then support electronic equipment's second plane, make to have certain space between electronic equipment and the desktop, perhaps form certain inclination between electronic equipment and the desktop, perhaps support piece carries out stable support to electronic equipment again, provides the holding power to electronic equipment, convenience of customers electronic equipment of taking, look over electronic equipment or auxiliary user operate electronic equipment, improve customer experience and feel.

Description

Data line

[ technical field ] A method for producing a semiconductor device

The utility model relates to an electronic equipment accessory field especially relates to a data line.

[ background of the invention ]

With the development of science and technology, electronic devices have become essential articles for people in life. People can watch movies, novels or games with electronic equipment at idle time, the electronic equipment is usually operated in a transverse screen mode for more convenient use and more comfortable experience, and the electronic equipment needs to be charged frequently due to the fact that the electronic equipment is frequently used and the electric quantity of the electronic equipment is consumed very fast; when a user charges the electronic equipment or plays games or other operations on the charged electronic equipment, some auxiliary parts such as a bracket, a game handle and the like are often needed, so that the user can use the electronic equipment more conveniently. It is often inconvenient to operate electronic equipment in the charging process, if set up the experience sense when extra auxiliary structure influences user operation electronic equipment more.

The existing data line is often single in function, so that the user of the electronic equipment has great inconvenience in operating the electronic equipment in the charging process.

[ Utility model ] content

To the simple problem of inconvenient user's use of current data line structure, the utility model provides a data line.

The utility model provides a technical problem's scheme provides a data line, its interface that charges that is arranged in inserting electronic equipment, the interface that charges is seted up on electronic equipment's first plane, the data line includes insertion portion, connecting portion, switching portion and the line body that links to each other with switching portion, insertion portion and switching portion pass through connecting portion and connect, when insertion portion inserts electronic equipment's the interface that charges, connecting portion are located on the second plane with electronic equipment, first plane and second plane are crossing, be provided with support piece on the connecting portion, support piece supports electronic equipment's second plane, support piece rotates to be connected on the connecting portion, support piece can with connecting portion form stable bearing structure.

Preferably, the support member is far away from the wire body, or the wire body can be threaded through the support member and can move relative to the support member.

Preferably, the connecting portion includes a turning portion near one end of the insertion portion and a straight portion connected to the turning portion, the straight portion further includes an extension section extending to a side away from the turning portion, and the support member is disposed on the extension section.

Preferably, a connecting hole is formed in the extending section, the supporting piece is partially penetrated through the connecting hole and is rotationally connected with the connecting hole, and when the supporting piece is rotated to abut against the inner wall of the connecting hole, a stable supporting structure is formed between the supporting piece and the extending section.

Preferably, the extension section is further provided with a recessed groove, the recessed groove is recessed towards the inside of the extension section along the surface of the extension section, the extending direction of the length dimension of the recessed groove is consistent with the length direction of the extension section, and the support member can be partially accommodated in the recessed groove by rotating the support member.

Preferably, the support member is U-shaped, D-shaped, folded, ring-shaped or folded bracket-shaped.

Preferably, the length dimension of the connecting part is greater than or equal to half of the length dimension of the second plane of the electronic device, and the connecting position of the supporting part and the connecting part corresponds to the midpoint position of the second plane of the electronic device.

Preferably, connecting portion are including the connected linkage segment and the straight portion, straight portion is including the bendable section and the straight section, the linkage segment with the portion of inserting is connected, the straight section is connected with the portion of switching, bendable section one end is connected with the linkage segment, and the relative other end is connected with the straight section, and when the portion of inserting during electronic equipment, the straight section and/or the at least part of bendable section is laminated with electronic equipment mutually, the bendable section is soft wire rod, the thickness of bendable section is 1-2.5 mm.

Preferably, straight portion is including the straight section that links to each other and plastic section, straight section is connected with switching portion, plastic section is connected with the portion of inserting, plastic section can bend, just connecting portion keep the laminating with electronic equipment's second plane.

Compared with the prior art, the utility model provides a data line, in the interface that charges for inserting electronic equipment, for electronic equipment charges and/or data transmission, when the portion of inserting charges of electronic equipment in, connecting portion are located electronic equipment's second plane, support piece and desktop or other planes that set up on connecting portion support and lean on and then support electronic equipment's second plane, certain space has between electronic equipment and the desktop, or form certain inclination between electronic equipment and the desktop, perhaps support piece carries out stable support to electronic equipment again, provide the holding power to electronic equipment, convenience of customers takes electronic equipment, look over electronic equipment or auxiliary user and operate electronic equipment, improve customer experience and feel.

Support piece rotates to be connected on connecting portion and forms stable bearing structure with connecting portion, and the relative desktop of second plane or other planes that conveniently adjust electronic equipment through rotating support piece have different inclination, and further convenience of customers operates electronic equipment through different postures to obtain better user experience and feel.

The support piece is kept away from the line body, or the line body can wear to establish through support piece and relative support piece is mobile for when support piece supports electronic equipment or rotates support piece and adjust support piece's gradient, when the line body of avoiding that can be fine moves, influence support piece's support performance, lead to electron to rock, and then influence user's experience and feel.

Straight portion increases the length of straight portion including extending the section, and then increases straight portion and the electronic equipment second plane and the region of straight portion coincide, when support piece setting was on extending the section, increased support piece to the stability of electronic equipment support.

The extension section is provided with a concave groove for accommodating part of the supporting piece, so that the supporting piece can be conveniently accommodated in the concave groove when the data line is idle, the data line is conveniently carried, and the supporting piece can be well prevented from being damaged.

The support piece is arranged to be U-shaped, D-shaped, folded and annular or folded, so that the support pieces with different shapes can be conveniently arranged correspondingly when the support pieces are arranged at different positions on the connecting part, and the electronic equipment can be better supported.

The middle point position of the electronic equipment generally corresponds to the gravity center position of the electronic equipment, and the connecting part of the supporting part and the connecting part is arranged at the position of the connecting part corresponding to the middle point position of the second plane of the electronic equipment, so that the supporting part can more stably support the electronic equipment, and the user can further conveniently operate the electronic equipment.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of a conventional charging cable and an electronic device.

Fig. 2 is a schematic structural diagram of the adapting device and the electronic device according to the first embodiment of the present invention.

Fig. 3a is a schematic perspective view of an adapter according to a first embodiment of the present invention.

Fig. 3b is a schematic front view of the adapter device according to the first embodiment of the present invention.

Fig. 4a is a schematic perspective view of a connecting portion according to a first embodiment of the present invention.

Fig. 4b is a schematic front view of the connecting portion according to the first embodiment of the present invention.

Fig. 4c is a right-side view schematic structure of the connecting portion according to the first embodiment of the present invention.

Fig. 5a is a schematic perspective view of an adapter device including a suction cup according to a first embodiment of the present invention.

Fig. 5b is a schematic front view of the adaptor device including the suction cup according to the first embodiment of the present invention.

Fig. 5c is a schematic front view of a variation of the adaptor device including a suction cup according to the first embodiment of the present invention.

Fig. 5d is an exploded view of a first embodiment of the adaptor device of the present invention including a modified form of the suction cup.

Fig. 5e is a schematic front view of a variation of the adapter device according to the first embodiment of the present invention including a supporting member.

Fig. 5f is an exploded view of a first embodiment of the adaptor device of the present invention including a variation of the support member.

Fig. 5g is a schematic front view of a variation of the first embodiment of the adaptor support of the present invention disposed in the extension section.

Fig. 5h is a structural diagram of a deformed state when the support member of the adapter device according to the first embodiment of the present invention is disposed at the extension section and the relatively straight portion of the support member has a certain inclination.

Fig. 5i is a schematic front view of the support member of the adapter device according to the first embodiment of the present invention fixed to the end of the extension section away from the insertion portion.

Fig. 5j is a schematic view of an exploded structure of the first embodiment of the adaptor support secured to the end of the extension remote from the insert.

Fig. 5k is a schematic structural view illustrating the supporting member in the first embodiment of the present invention in a U-shape.

Fig. 5l is a schematic structural view of the supporting member in the first embodiment of the present invention in the form of a finger ring.

Fig. 5m is a schematic structural view of the support member in the first embodiment of the present invention in a D-shape.

Fig. 5n is a schematic structural view of the first embodiment of the present invention when the supporting member is in a folded shape.

Fig. 6a is a schematic perspective view of the connection between the FPC, the insertion portion, and the PCB according to the first embodiment of the present invention.

Fig. 6b is a schematic rear view of the connection between the FPC, the insertion portion, and the PCB according to the first embodiment of the present invention.

Fig. 7 is a schematic view of the adapter device according to the first embodiment of the present invention when the bracket is in use.

Fig. 8a is a schematic structural diagram of another embodiment of the adapter device according to the first embodiment of the present invention, which realizes a bent and straight state.

Fig. 8b is a schematic structural diagram of another bending state of the adapter device according to the first embodiment of the present invention, which realizes bending.

Fig. 9a is a schematic view of a first perspective structure of an adapter device according to a first modified embodiment of the present invention.

Fig. 9b is a schematic view of a second perspective structure of the adapter device according to the first modified embodiment of the present invention.

Fig. 10a is a schematic perspective view of an adapter according to a second modified embodiment of the first embodiment of the present invention.

Fig. 10b is a schematic front view of an adapter device according to a second modified embodiment of the first embodiment of the present invention.

Fig. 10c is a right-side view schematically illustrating an adapter according to a second modified embodiment of the first embodiment of the present invention.

Fig. 11 is a schematic structural diagram of connection between an adaptor device and an electronic device according to a third modified embodiment of the present invention.

Fig. 12a is a schematic structural diagram of the adapting device according to the fourth modified embodiment of the present invention, which is engaged with an electronic device.

Fig. 12b is another schematic structural diagram of the adapting device according to the fourth modified embodiment of the present invention, which is engaged with an electronic device.

Fig. 13 is a schematic structural diagram of the adaptor device according to the fifth modified embodiment of the present invention, which is engaged with an electronic device.

Fig. 14a is a schematic front view illustrating the adapting device according to a sixth variant embodiment of the present invention and an electronic device.

Fig. 14b is a rear view schematically illustrating the adapting device according to a sixth variant embodiment of the present invention, which is mated with an electronic device.

Fig. 15 is a rear view schematically illustrating the cooperation of the adapter device according to the seventh modified embodiment of the present invention and the electronic device.

Fig. 16 is a schematic perspective view of an adapter according to an eighth modified embodiment of the present invention.

Fig. 17a is a schematic structural diagram of an adapter device according to a ninth modified embodiment of the first embodiment of the present invention.

Fig. 17b is a schematic structural view of an adapter device according to a ninth modified embodiment of the present invention in a bent state.

Fig. 18a is a schematic perspective view of a charging device according to a second embodiment of the present invention.

Fig. 18b is a schematic front view of a charging device according to a second embodiment of the present invention.

Fig. 18c is a right-side schematic view of a charging device according to a second embodiment of the present invention.

Fig. 19 is a schematic structural view of a protective case according to a third embodiment of the present invention.

Fig. 20 is a schematic structural diagram of a data line according to a fourth embodiment of the present invention.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 2, the adapter 10 of the first embodiment of the present invention is provided with two electrically connected ends, one end of which can be electrically inserted into the interface 201 of the electronic device 20, and the other end of which can be electrically connected to a charging wire (not shown) to charge the electronic device 20 or transmit data. When the user plays a game and charges while using the electronic device 20, the charging wire does not interfere with the operation of the user, the user has a comfortable game experience, and the use is very convenient. The electronic device 20 comprises a first plane 21 forming the charging interface 201 and a second plane 23 intersecting the first plane, preferably the first plane 21 and the second plane 23 are perpendicular.

Referring to fig. 2, fig. 3a and fig. 3b together, the adaptor device 10 includes an insertion portion 11, a connection portion 13 and an adaptor portion 15, the insertion portion 11 is electrically insertable into a charging interface 201 of the electronic device 20, the adaptor portion 15 is used for inserting a charging wire and electrically connecting with the charging wire, the insertion portion 11 and the adaptor portion 15 are connected by the connection portion 13, wherein the insertion portion 11 protrudes out of one end of the connection portion 13, and the adaptor portion 15 is embedded in the other end of the connection portion 13. The length L of the insertion part 11 is 5.4-6 mm, and when the length L of the insertion part 11 is within the range, the service life of the insertion part 11 can be prolonged, and the insertion part 11 is prevented from being damaged due to long-term insertion and extraction, and preferably, the length L of the insertion part 11 is 6 mm. When the insertion portion 11 is inserted into the charging interface 201 of the electronic device 20, the adaptor portion 15 and the connection portion 13 are located on a plane parallel to the second plane 23 of the electronic device 20. For example: the charging interface 201 is opened on the bottom surface of the electronic device 20, and the adaptor 15 is located on the back surface of the electronic device 20. The insertion portion 11 is inserted into the charging interface 201 from a first direction a, the charging wire is inserted into the adaptor portion 15 from a second direction B, the first direction a intersects with the second direction B, and preferably, the first direction a is perpendicular to the second direction B.

The user uses electronic equipment 20 to play when playing the game generally need carry out the horizontal screen operation, and user's palm supports and leans on first plane 21, and the charging wire is followed second plane 23 or the plane access parallel with second plane 23, and the linear type of charging wire connects can not support user's hand, and the user has fine gaming experience when using electronic equipment to play the game. The direction that the inserting portion 11 inserts the charging interface 201 of the electronic device 20 is a first direction a, the direction that the charging wire inserts the switching portion 15 is a second direction B, and the first direction a intersects with the second direction B. Preferably, the first direction a is perpendicular to the second direction B. The insertion portion 11 can be any one of a USB connector, a Type-C connector, a Micro connector, a Lighting Dock connector and an HDMI connector, and the switching portion 15 can be any one of a USB interface, a Type-C interface, a Micro interface, a Lighting Dock interface and an HDMI interface.

Referring to fig. 4a, 4b and 4c, the connecting portion 13 includes a turning portion 131 and a straight portion 133 formed integrally, the turning portion 131 is connected to the inserting portion 11, the straight portion 133 is connected to the adapting portion 15, and the connecting portion 13 is provided with an internal circuit to electrically connect the inserting portion 11 and the adapting portion 15. The turning part 131 includes a short flat section 1311 and a bent section 1313 connected to each other, the short flat section 1311 is disposed in a plane parallel to the first plane 21 and connected to the insertion part 11, and the bent section 1313 is disposed at a junction of the first plane 21 and the second plane 23 and connected to the straight part 133, wherein the short flat section 1311 may be omitted, and one end of the bent section 1313 is connected to the insertion part 11 and the other end is connected to the straight part 133. It can be understood that the bending section 1313 may be an arc smooth transition or a right-angle transition, when the bending section 1313 is an arc smooth transition, the bending radius R of the bending section 1313 is 0.5-2 mm, preferably 1mm, and when the bending radius R of the bending section 1313 is within this range, the elasticity of the bending section 1313 is optimal, which not only avoids that the bending section 1313 is broken due to too large plasticity when used for a long time, but also avoids that the elasticity is too large, and the problem that the connection is unstable due to looseness is easily caused. The thickness D1 of the straight portion 133 in the direction perpendicular to the second plane 23 is 0.1-3 mm, and when the thickness D1 of the straight portion 133 is within this range, the user has a good game experience, and preferably, the thickness D1 of the straight portion 133 is 2 mm. Preferably, the thickness D2 of the bent section 1313 is 1-10 mm, and more preferably 2-8 mm. When the user connects the adaptor device 11 with the electronic device 20 and plays a game while charging, the hand of the user will abut against the turning part 131, and the thickness of the bending section 1313 is 1-10 mm, preferably 2-8 mm, which has an important influence on the user's good game experience when playing the game with the electronic device. When the adapter device 10 is connected to the electronic device 20, the bent section 1313 and/or the flat section 133 preferably conforms to the surface of the electronic device 20. Specifically, the flat portion 133 is attached to the second plane 23 of the electronic device 20. Preferably, the connecting portion 13 is substantially shaped like a "J", an "L" or a "U", so that the connecting portion 13 and the electronic device 20 are more firmly attached, and the connection stability between the inserting portion 11 and the electronic device 20 is better. Preferably, the width D3 of the connecting portion 13 is 5 to 40mm, more preferably 10mm, and the width D3 of the connecting portion 13 is within this range, so that the strength and the close contact between the connecting portion 13 and the electronic device 20 can be ensured. As a variant, the straight portion 133 may be omitted, and the transition portion 15 is directly connected to the turning portion 131.

Preferably, the adapting device 10 further includes an auxiliary attaching member 135, the auxiliary attaching member 135 is disposed on a surface of the flat portion 133, which is attached to the electronic device 20 or close to the electronic device, and the auxiliary attaching member 135 and the flat portion 133 can be fixed by any one of vacuum adhesion, glue adhesion, concave-convex clamping, or magnetic adhesion. The auxiliary engaging member 135 is connected to the electronic device 20 to enhance the engaging effect between the adapter device 10 and the electronic device 20. Preferably, the auxiliary attaching member 135 is connected to the electronic device 20 by magnetic absorption, nano micro-absorption, or glue adhesion. When the auxiliary attachment member 135 is connected to the electronic device 20 by magnetic attraction, the auxiliary attachment member 135 is an electromagnet, a permanent magnet, or a ferromagnetic material.

Referring to fig. 5a and 5b, the auxiliary attachment member 135 is a suction cup, the suction cup 135 is disposed at a position where the connection portion 13 is connected to the adapter portion 15, and the suction cup 135 is disposed on a surface of the adapter device 10 near the electronic device 20 and is partially embedded in the connection portion 13. When the adapter device 10 is used to charge the electronic device 20, a force is applied to the suction cup 135 in a direction perpendicular to the back surface of the electronic device 20, so that the suction cup 135 can be attached to the back surface of the electronic device 20 by vacuum suction, the suction force between the adapter device 10 and the back surface of the electronic device 20 is enhanced, and in order to prevent the adapter device 10 from loosening and causing unstable or even broken electrical connection between the adapter device 10 and the electronic device 20, preferably, the height of the suction cup 135 exposed out of the connecting portion 13 is 0.5-3 mm.

Referring to fig. 5c and 5d together, one end of the connecting portion 13 connected to the adaptor portion 15 extends a length in a direction away from the insertion portion 11, that is, the straight portion 133 further includes an extending portion 138 extending to a side away from the turning portion 131, the suction cup 135 is disposed on a surface of the extending portion 138 facing the electronic device 20, and the suction cup 135 slightly protrudes from the surface or is flush with the surface to ensure that the suction cup 135 can contact the electronic device 20. Specifically, a receiving groove 1381 is formed on a surface of the extending section 138 facing the electronic device 20, a through hole 1383 is formed on a bottom wall of the receiving groove 1381, an end of the suction cup 135 penetrates through the through hole 1383 and is tightly fitted therewith, the suction cup 135 is partially received in the receiving groove 1381, and a surface of the suction cup 135 close to the electronic device 20 protrudes from a surface of the connecting section 13 close to the electronic device 20 or is flush with the surface of the connecting section 13 close to the electronic device 20.

Referring to fig. 5e and 5f together, in some embodiments of the present invention, the adapter device 10 further includes a supporting member 136, and the supporting member 136 is disposed on a side of the straight portion 133 where the adapter portion 15 is disposed. Preferably, the support 136 is disposed at a position intermediate the length dimension of the straight portion 133. Alternatively, when the length dimension of the flat portion 133 is greater than or equal to half the length of the second plane 23 of the electronic device, the fixing position of the supporting member 136 and the flat portion 133 corresponds to the midpoint position of the second plane 23 of the electronic device 20. It can be understood that the midpoint of the second plane of the electronic device 20 is generally the center of gravity of the electronic device 20, the supporting member 136 is disposed at a position corresponding to the center of gravity of the electronic device 20, and after the supporting member 136 supports the electronic device 20, the electronic device 20 has better balance, which further facilitates the user to operate the electronic device 20. The flat portion 13 further includes a fixing portion 1361 disposed thereon, and the supporting member 136 is rotatably connected to the fixing portion 1361 and can form a stable supporting structure with the fixing portion 1361. Specifically, the fixing portion 1361 is opened with a connection hole 1363, and the supporting member 136 is partially inserted through the connection hole 1363, so that the supporting member 136 is rotatably connected in the connection hole 1363. The supporting member 136 and the connecting hole 1363 are interference-fitted, and when the supporting member 136 is rotated by applying an external force thereto, the supporting member 136 is rotated with respect to the flat portion 133, and the supporting member 136 is adjusted to have different inclination angles with respect to the flat portion 133. The supporting member 136 has a fixed inclination with respect to the straight portion 133, and one end of the supporting member 136 away from the fixing portion 1361 abuts against a desktop or other planes, so as to support the adaptor device 10 well, and further support the electronic device after the adaptor device 10 is connected with the electronic device 20, thereby facilitating a user to operate the electronic device through different postures.

Of course, the fixing portion 1361 may not be provided on the flat portion 13, the connection hole 1363 is directly opened on the flat portion 13, and the support member 136 is rotatably connected in the connection hole 1361.

In other embodiments, the supporting member 136 may be disposed at other positions on the connecting portion 13, such as on the turning portion 131.

Referring to fig. 5g and 5h together, in another embodiment of the present invention, when the flat portion 133 further includes an extending section 138 extending to a end far away from the turning portion 131, a connecting hole 1363 (not shown in fig. 5j and 5 h) is formed at an end of the extending section 138 close to the inserting portion 11 for rotatably connecting the supporting member 136, and an end of the supporting member 136 is rotatably connected to the connecting hole 1363. Preferably, the extension section 138 is provided with a concave groove 1381, and the concave groove 1381 is concave towards the inside of the extension section 138 along the end surface of the extension section 138. The length of the recess 1381 is extended in the same direction as the length of the extension 138. One end of the recess groove 1381 is connected to the connection hole 1363 and communicated with the connection hole 1363. When the supporting member 136 is rotated, the supporting member 136 abuts against the inner wall of the connecting hole 1363, and thus the supporting member 136 and the flat portion 133 form a stable supporting structure therebetween. Meanwhile, when the supporting member 136 is rotated to be partially parallel to the straight portion 133, the supporting member 136 may be partially received in the recess 1381, so that the supporting member 136 may be conveniently stored, particularly, may be conveniently carried when going out, and simultaneously, the supporting member 136 may be prevented from being damaged.

Referring to fig. 5i and 5j together, it can be understood that the connection hole 1363 can also be disposed on an end of the extension 138 away from the inserting portion 11, and the supporting member 136 is rotatably connected in the connection hole 1363. At this time, the portion of the supporting member 136 passing through the connecting hole 1363 is closed, and the opposite end is open.

After the adapting device 10 is connected to the electronic device 20, the supporting member 136 is rotated, so that the supporting member 136 has different inclinations relative to the straight portion 133, and the supporting member 136 abuts against the desktop, so that the electronic device 20 can be well supported, and a user can conveniently view the electronic device 20 or operate the electronic device 20.

Referring to fig. 5k, 5l, 5m and 5n, the supporting member 136 may be U-shaped, ring-shaped, D-shaped, folded, foldable, or other shapes. The support members 136 are configured in different shapes, so that the support members 136 with suitable shapes can be selected according to the specific positions of the support members 136 on the connecting portion 13. For example, when the supporting member 136 is disposed at an end of the flat portion 133 close to the insertion portion 11, the supporting member 136 is disposed in a foldable bracket shape, which facilitates increasing a contact point of the supporting member 136 with a desk top, thereby enabling the supporting member 136 to support the electronic device more stably. When the brace 136 is flap-shaped, it has some compliance. It is to be understood that when the shape of the supporting member 136 is different, the manner of fixing it to the straight portion 133 is not limited to the fixing manner provided in the above-described embodiment. For example, when the supporting member 136 is in the shape of a ring in fig. 5l, the supporting member 136 is rotatably connected with a fixing plate 1364, and is fixed to the flat portion 133 by bonding or magnetically attracting the fixing plate 1364. Or, when the supporting member 136 is shaped like a folded sheet as shown in fig. 5n, one end of the supporting member 136 may be fixed to the flat portion 133 by glue, and the separated portions have bending properties, so that the flat portion 133 may have different inclinations with respect to the table top by bending to different degrees.

It can be understood that the portion of the insertion portion 11, the connection portion 13 and the adaptor portion 15 include a coating layer (not shown) formed by injection molding, that is, the coating layer covers a section of the electrical element of the insertion portion 11, the entire electrical element of the connection portion 13 and the entire electrical element of the adaptor portion 15, preferably, the coating layer is made of TPE, and further preferably, the hardness of the coating layer is 95A to 100A. Referring to fig. 6a and 6b, the connection portion 13 includes an FPC (flexible circuit board) 132 and a PCB (printed circuit board) 134 disposed in the cladding layer, one end of the FPC132 is connected to the insertion portion 11, the other end opposite to the one end is connected to the PCB134, and the PCB134 is connected to the electrical components of the adaptor portion 15. The FPC132 is flexible, so it can be bent at the hinge 131 without affecting the electrical connection. It is understood that when the insertion portion 11 is not inserted into the electronic device 20, the FPC132 is straight and is bent only when the electronic device 20 is inserted into use, and thus the insertion portion 11 at this time may be coplanar or perpendicular to the FPC 132. It will also be appreciated that for convenience, the end of FPC132 that connects to insertion portion 11 is bent at an angle to the plane of the rest of FPC 132.

It can be understood that, during manufacturing, after the FPC132 is connected to the insertion portion 11 and the PCB134 by a one-step molding process, the molding process may be dispensing or spot welding, and then the section of the electrical component of the insertion portion 11, the FPC132, the PCB134 and the electrical component of the adapter portion 15 are encapsulated by an injection molding process to form a coating layer. It can be understood that the coating layer formed by injection molding needs to be subjected to two injection molding processes, the first injection molding process is to perform injection molding in a plane parallel to the first plane 21 to coat a section of the electrical component of the insertion portion 11, and the second injection molding process is to perform injection molding in a plane parallel to the second plane 23 to coat the electrical components of the FPC132, the PCB134 and the interposer 15, wherein the hardness of the material used for the second injection molding is lower than that of the material used for the first injection molding. It is understood that the second injection molding process may be divided into two injection molding processes, the first injection molding process coats one of the end surfaces of the electrical component of the interposer 15 close to the electronic device 20 or the end surface far away from the electronic device 20 with the FPC132 and the PCB134, and rotates 180 ° to coat the other by the second injection molding process, so that the bonding wires (not shown) formed by the two injection molding processes are located on two side surfaces of the interposer 10, and the two side surfaces are perpendicular to the first plane 21 and the second plane 23. As a variant, the coating layer may be formed by one-shot injection molding, i.e. injection molding is performed simultaneously in a plane parallel to the first plane 21 and in a plane parallel to the second plane 23 to coat a section of the electrical component of the insertion portion 11, the FPC132, the PCB134 and the electrical component of the interposer 15, and the hardness of the material of the coating layer at the section of the insertion portion 11 is higher than that of the material at the sections of the connection portion 13 and the interposer 15. It is understood that when the electrical components of the insertion part 11, the FPC132, the PCB134, and the electrical components of the connector 15 are all in one plane, the coating layer may be formed by one injection molding. If the insertion part 11 is a Lightning connector, a charging chip (not shown) is disposed on the PCB 134; if the insertion part 11 is a Type-C connector, a resistor (not shown) is provided on the PCB 134. As a modification, the PCB134 may be omitted, the FPC132 is directly connected to the interposer 15, and a charging chip or a resistor is provided on the FPC132, preferably at a position where the FPC132 is connected to the interposer 15.

Referring to fig. 7, it can be understood that a metal wire (not shown) having a certain plasticity may be provided in the coating layer during injection molding, the metal wire has a hardness that can be flexibly bent and can keep the coating layer in a bent state, and preferably, the metal wire is an iron wire or an aluminum wire having a certain hardness. The coating layer can be kept in a bent state under the action of the metal wire, so that the switching device 10 can realize a bracket function, for example, when the electronic equipment 20 is used for watching videos, the switching device 10 can support the electronic equipment 20; it can be further understood that the straight portion 133 is a plane line, and when the adapter device 10 is used as a stand, the straight portion 133 is easy to bend and has a larger contact area with an electronic device, so that the support is more stable. It will also be appreciated that the cover may be made of a memory metal, and the user may fold adapter 10 into any desired shape. It can be understood that a portion of the coating layer of the straight portion 133 may be made of a hard material, and a portion of the coating layer may be made of a soft material, so that the hard material portion may support the straight portion 133 after bending.

It is understood that the turning part 131 may be omitted and the straight part 133 may be partially plasticized. Referring to fig. 8a and 8b together, the insertion portion 11 and the adaptor portion 15 are respectively disposed on two opposite surfaces of the adaptor device 10, and preferably, a direction in which the insertion portion 11 is inserted into the electronic device 20 is parallel to a direction in which the charging wire is inserted into the adaptor portion 15. The straight portion 133 includes a straight section 1331 and a plastic section 1333 connected to each other, where the plastic section 1333 is connected to the insertion portion 11, the straight section 1331 is connected to the connection portion 15, the plastic section 1333 can be bent to any angle according to the user's requirement, the straight portion 133 can be attached to the second plane 23 of the electronic device 20, and it can be understood that the plastic section 1333 can maintain the bent state and simultaneously attach to the first plane 21 and the second plane 23 of the electronic device 20; or the plastic section 1333 is made of a soft material, and the straight section 1331 is attached to the second plane 23 of the electronic device 20. It can be understood that the utility model provides a laminating can be whole laminating or partial laminating. When the user plays a hand game with the electronic device 20 and needs to charge, the plastic section 1333 is bent at a certain angle, so that the insertion portion 11 and the charging interface 201 of the electronic device 20 are stably connected, and the straight section 1331 is attached to the back surface of the electronic device 20. It can be understood that the distance between the insertion portion 11 and the flat portion 133 can be adjusted by adjusting the bending degree of the plastic section 1333, so that the adapting device 10 is suitable for electronic devices 20 with different thickness sizes or electronic devices 20 equipped with protective cases with different thickness sizes.

Preferably, when the insertion portion 11 is electrically inserted into the interface 201 of the electronic device 20, the turning portion 131 is attached to the edge of the electronic device 20, the straight portion 133 is attached to the back or side of the electronic device 20, and the connection portion 13 is firmly connected to the electronic device 20, so that the electrical connection between the adapter 10 and the electronic device 20 is not broken due to slight shaking. Preferably, the outline of the part of the turning part 131 attached to the edge of the electronic device 20 is consistent with the outline of the edge of the electronic device 20, for example, when the edge of the electronic device 20 is square, the outline of the part of the turning part 131 attached to or close to the electronic device 20 is also square, and the size of the part is consistent with the edge of the electronic device 20; when the edge of the electronic device 20 is arc-shaped, the contour of the portion of the turning part 131 attached to or close to the electronic device 20 is also arc-shaped, and the two arcs are the same. When the electronic device 20 is covered with a protective shell (not shown), the turning portion 131 is attached to an edge of the protective shell, and the straight portion 133 is attached to a back surface or a side surface of the protective shell. More preferably, the material of the portion of the hinge 131 attached to the electronic device 20 is a soft material to prevent the edge of the electronic device 20 from being scratched. Preferably, the length of the straight portion 133 is 0.2 to 0.8 times, more preferably 0.5 to 0.6 times, and still more preferably 20 to 100mm of the length of the electronic device 20. The straight portion 133 within the size range does not interfere with the operation of the user using the electronic device 20, and the adaptor portion 13 can be ensured to be attached to the electronic device 20.

It can be understood that the present invention provides that the adaptor portion 15 and/or the flat portion 133 is located in the second plane 23 of the electronic device 20, and the adaptor portion 15 and/or the flat portion 133 completely adheres to the second plane 23 or partially adheres to the second plane 23, or when the adaptor device 10 is mounted on a mobile phone, a gap between the adaptor portion 15 and the electronic device 20 is less than 4 mm.

Referring to fig. 9a and 9b together, as a first modified embodiment of the first embodiment of the present invention, the adapting device 10a further includes a housing 17a and an inclined portion 19a, the inclined portion 19a is disposed between the turning portion 131a and the flat portion 133a, the inclined portion 19a has an inclination angle C of 1 to 5 °, and more preferably 3 °, and when the inclination angle C is within this range, the stability of the connection between the adapting device 10a and the electronic device 20 is not affected, and the adapting device 10a and the electronic device 20 are easily assembled and disassembled, the housing 17a is disposed at the connection position of the flat portion 133a and the adapting portion 15a, the housing 17a includes an upper housing 171a and a lower housing 173a, the lower housing 173a is connected to the flat portion 133a, the upper housing 171a and the lower housing 173a are fastened to form a receiving space, the fixing mode of the two can be concave-convex clamping, riveting or welding. The thickness H1 of the shell 17a is 2-8 mm, more preferably 4mm, and when the thickness H1 of the shell 17a is within the range, the appearance is attractive, and the shell 17a is convenient to assemble and disassemble. The adapter part 15a is partially accommodated in the accommodating space and partially exposed out of the accommodating space, and the height H2 of the part of the adapter part 15a exposed out of the accommodating space is 0.5-3 mm, and more preferably 1.5 mm. The first direction a1 is perpendicular to the second direction B1, and the second direction B1 is perpendicular to the second plane 23 of the electronic device 20. The width D4 of the turning part 131a is 1-40 mm, preferably 6-15 mm, and more preferably 9mm, and the width D5 of the shell 17a is 1-40 mm, preferably 6-15 mm, and more preferably 10 mm. As a modification, the housing 17a or the inclined portion 19a may be omitted.

Referring to fig. 10a, 10b and 10c, as a second modified embodiment of the first embodiment of the present invention, the auxiliary attaching member 335 is fixedly connected to an end of the connecting portion 33 away from the inserting portion 31, and the connecting manner may be any one of welding, integral molding, glue bonding or magnetic attraction connection. As another variation, the insertion portion 31 may be a magnetic connector, which includes a first connection terminal 311 and a second connection terminal 313, the first connection terminal 311 and the second connection terminal 313 are separately disposed and magnetically connected to each other, the first connection terminal 311 can be electrically inserted into the interface 201 of the electronic device 20, a groove 3311 is disposed in the turning portion 331, and the second connection terminal 313 is disposed in the groove 3311 and electrically connected to the internal circuit of the connection portion 33 so as to electrically communicate with the switching portion 35. As a modification, the insertion portion 31 may be omitted, and a connection terminal 313 is disposed in the groove 3311 of the turning portion 331, the connection terminal 313 is used for connecting with an electrical component inserted into the charging interface 201 of the electronic device 20, and the connection mode of the connection terminal 313 and the electrical component is preferably a magnetic connection, and when the connection terminal 313 is connected with the electrical component inserted into the charging interface 201 of the electronic device 20, the adaptor portion 35 is located in the second plane 23 of the electronic device 20.

Referring to fig. 11, as a third modified embodiment of the first embodiment of the present invention, the adaptor 45 is located on a side surface of the electronic device 20, the side surface is the second plane 23, the charging interface 201 is located on a bottom surface of the electronic device 20, the bottom surface is the first plane 21, and the second plane 23 is perpendicular to the first plane 21. In addition, the insertion part 41 is inserted into the electronic device 20 from the first direction a2, and a charging wire (not shown) is inserted into the adaptor 45 from the second direction B2, and the second direction B2 is perpendicular to the first direction a 21.

Referring to fig. 12a and 12b together, as a fourth modified embodiment of the first embodiment of the present invention, when the adaptor 55 is located on the back surface of the electronic device 20, the back surface of the electronic device 20 is the second plane 23, and the charging interface (not shown) is located on the bottom surface of the electronic device 20, which is the first plane 21. The insertion direction of the insertion portion 51 into the electronic device 20 is a first direction A3, the insertion direction of a charging wire (not shown) into the adaptor portion 55 is a second direction B3, and the second direction B3 forms an obtuse angle (as shown in fig. 8 a) or an acute angle (as shown in fig. 8B) with the first direction A3.

Referring to fig. 13, as a fifth modified embodiment of the first embodiment of the present invention, the charging interface 201 is opened at a side surface of the electronic device 20, that is, the side surface of the electronic device 20 is a first plane 21, the transition end 65 is located at a bottom surface of the electronic device 20, that is, the bottom surface of the electronic device is a second plane 23, and the second plane 23 is perpendicular to the first plane 21.

Referring to fig. 14a and 14b together, as a sixth modified embodiment of the first embodiment of the present invention, the charging interface 201 is opened on the bottom surface of the electronic device 20, that is, the bottom surface of the electronic device 20 is a first plane 21, the adaptor 75 is located on the back surface of the electronic device 20, that is, the back surface of the electronic device 20 is a second plane 23, and the first plane 21 is perpendicular to the second plane 23. The insertion portion 71 is inserted into the charging interface 201 from the first direction a4, and the charging wire is inserted into the adaptor portion 75 from the second direction B4, the first direction a4 being perpendicular to the second direction B4. When the user holds the electronic device 20 to perform the landscape operation, the top end of the side of the screen of the electronic device 20 is defined as the first end face 25, the bottom end thereof is defined as the second end face 27, and the second direction B3 is the extending direction extending from the second end face 27 to the first end face 25.

Referring to fig. 15, as a seventh modified embodiment of the first embodiment of the present invention, the adapting device 100 further includes two claws 107, the two claws 107 are respectively disposed on two sides of the straight portion 103 and connected thereto, the claws 107 have certain elasticity and can elastically deform to a certain extent, and a distance between the two claws 107 is variable, preferably, the distance between the two claws 107 is 0.9 to 1 times the width of the electronic device 20. When the adapter 100 is connected to the electronic device 20, the two claws 107 respectively clamp two sides of the electronic device 20, so as to ensure that the adapter 100 is stably connected to the electronic device, is not easy to loosen, and is convenient to assemble and disassemble.

Referring to fig. 16, as a modified example eight of the first embodiment of the present invention, the adaptor device 100 may further be provided with a different decoration 109, the decoration is detachably connected to the adaptor portion 105 or formed by injection molding, and the detachable connection manner may be a snap connection, a snap connection or a rivet connection. For example, a fan, a sword, an axe, or the like is disposed on the adapter device 100, so that the adapter device 100 has various shapes to meet aesthetic requirements of different consumers. It is understood that the decoration member 109 may be detachably fastened to the connection portion 103 or integrally formed by injection molding.

It can be understood that the electronic device 20 can be any electronic device, and when the electronic device is charged and operated, if there is a charging wire to obstruct the user's convenient operation, it can be adopted that the switching device disclosed by the utility model changes the access position of the charging wire.

Referring to fig. 17a and 17b together, a ninth modified embodiment of the present invention further provides an adapter 110, which is different from the first embodiment only in that the connecting portion 113 is at least partially bendable, the inserting portion 111 and the adapter 115 are respectively disposed on two opposite surfaces of the connecting portion 113, the connecting portion 113 includes a connecting section 112 and a straight portion 133, the straight portion 133 includes a bendable section 1331 and a straight section 1332, the connecting section 112 is connected to the inserting portion 111, one end of the bendable section 1331 is connected to the connecting section 112, and the other end is connected to the straight section 1332, preferably, the bendable section 1331 is made of a soft material, so that the bendable section 1331 can be bent freely. The thickness of the bendable section is 1-2.5 mm. When the adaptor 110 is used to charge an electronic device, the insertion portion 111 is inserted into a charging interface of the electronic device, the charging interface is opened on a first plane of the electronic device, and the straight section 1332 and/or the bendable section 1331 at least partially adhere to a second plane of the electronic device, where the adhesion may be partial adhesion or integral adhesion, and the first plane intersects with the second plane. Preferably, the first plane is perpendicular to the second plane, and more preferably, the first plane is a bottom surface of the electronic device, and the second plane is a back surface of the electronic device. Because the bendable section 1331 is made of a soft material, it can eliminate the stress existing in the adapter device 110 itself, so that the straight section 1332 can be kept attached to the electronic device without easily separating from the electronic device due to the existence of the stress itself or shaking caused by external force. Preferably, the length of the straight section 1332 is 0.2 to 0.8 times, more preferably 0.5 to 0.6 times, the length of the straight section 1332 is further preferably 20 to 100mm, the straight section 1332 in the size range does not interfere with the operation of the user using the electronic device 20, and the adapter 113 can be ensured to be attached to the electronic device. When the adaptor 110 is used to charge the electronic device, the direction of inserting the insertion portion 111 into the charging interface of the electronic device is the first direction a5, the direction of inserting the charging wire into the adaptor 115 is the second direction B5, the first direction a5 intersects the second direction B5, and preferably, the first direction a5 is perpendicular to the second direction B5. Preferably, the thickness of linkage segment 112 is 1 ~ 10mm, and further preferred is 2 ~ 8mm, when using switching device 110 to charge for electronic equipment, the both ends of electronic equipment are held to user's both hands, can not bring the operation discomfort for the user when the thickness of linkage segment 112 is in this scope, brings good recreation experience for the user. Preferably, the bendable section 1331 is made of a soft plastic material, and more preferably, the bendable section 1331 is made of a silicon gel, a soft foam, a plastic, or the like. Preferably, the adapter device 110 further includes a suction cup 119, the suction cup 119 is disposed on a surface of the adapter device 110 close to the electronic device, and preferably, the suction cup 119 is disposed on a side of the adapter portion 115 far from the insertion portion 111. It can be understood that the distance between the insertion portion 111 and the straight section 1332 can be adjusted by adjusting the bending degree of the bendable section 1331, so that the adapting device 110 is suitable for electronic devices with different thickness sizes or electronic devices equipped with protective cases with different thickness sizes.

Referring to fig. 18a, 18b and 18c together, as a second embodiment of the present invention, the present invention provides a charging device 8, wherein the charging device 8 includes an adapter 80 and a charging wire 81, and the adapter 80 is consistent with the first embodiment or its modified embodiment. Switching portion 805 includes first switching terminal 8051 and second switching terminal 8053, first switching terminal 8051 and second switching terminal 8053 components of a whole that can function independently set up and both connect in order to realize the electrical property to switch on through magnetism, first switching terminal 8051 and straight portion 8053 keep away from the one end fixed connection who inserts end 801 and with the internal circuit electric intercommunication of connecting portion 803, second switching terminal 8053 and charging wire 81 are integrated into one piece and make and both electrical property switch on, first switching terminal 8051 is connected with the fixed connection mode of straight portion 8033 by integrated into one piece. When the electronic device 20 needs to be charged, the second adapter terminal 8053 only needs to be close to the first adapter terminal 8051, and the two can be connected through magnetic attraction to realize electrical conduction. One of the first and second adapter terminals 8051 and 8053 is provided with a permanent magnet, an electromagnet, or other materials capable of adsorbing magnetic materials, and the other is provided with a permanent magnet, an electromagnet, or ferromagnetic materials capable of being adsorbed by a magnet. Preferably, the first adapter terminal 8051 and the second adapter terminal 8053 can rotate 360 ° relatively and keep electrical connection, so that the use is very convenient. It can be understood that the charging wire 81 may also be fixedly connected to the adaptor 805 of the adaptor 80, or the charging wire 81 is inserted into the adaptor 805 of the adaptor 80 to achieve connection.

Referring to fig. 19, as a third embodiment of the present invention, the present invention further provides a protective housing 9, where the protective housing 9 includes a housing 91 and an adapter 93, and the adapter 93 is identical to the first embodiment or its modified embodiment of the present invention. The adapter 93 is attached to the surface of the housing 91 or integrally formed with the housing 91, or the adapter 93 is disposed in the housing. For example: the adapter 93 is attached to the outer surface of the shell 91 or integrally formed with the outer surface of the shell; alternatively, the adapting device 93 is attached to the inner surface of the housing 91, and the housing 91 is opened with an opening (not shown) at the corresponding position of the insertion portion 931 and the adapting portion 935 to expose the insertion portion 931 and the adapting portion 935. As a modification, the housing 91 and the adaptor 93 are provided separately.

Referring to fig. 2 and 20 together, as a fourth embodiment of the present invention, the present invention further provides a data line 120 for charging and/or data transmission of the electronic device 20. The electronic device 20 comprises a first plane 21 forming the charging interface 201 and a second plane 23 intersecting the first plane, preferably the first plane 21 and the second plane 23 are perpendicular. The data line 120 includes the line body 1205, public head 1207 and switching device, switching device with the utility model discloses a unanimous in first embodiment or its modified embodiment. The adapter device comprises an insertion part 11, an adapter part 15 and a connecting part 13 connecting the insertion part 11 and the adapter part 15. When the insertion portion 11 is inserted into the charging port 201 of the electronic device 20, the connection portion 13 and the adaptor portion 15 are located on the second plane 23 of the electronic device 20. One end of the wire body 1205 is connected with the adapter 15, and the other end is connected with the male head 1207, wherein the male head 1207 is used for being connected with an adapter, a mobile power supply, a computer or other devices capable of supplying power. The insertion part 1201 may be any one of a Type-C connector, a Micro Usb connector, a Lighting Dock connector, and an HDMI connector.

The data line 120 further includes a support 136 disposed on the connection part 13. Preferably, the support member 136 is rotatably coupled to the connecting portion 13. The supporting member 136 is rotated to adjust the supporting member 136 to have different tilt angles with respect to the desktop or other platforms, so as to support the electronic device 20, thereby facilitating the user to operate the electronic device 20. The support 136 is disposed at an end distal from the wire body 1205. When support piece 136 supported or rotated support piece 136 to electronic equipment 20, support piece 136 or the relative support piece 136 of line body can be worn to establish by the line body 1205 movably through support piece 136 or line body, and when avoiding line body 1205 to remove, line body 1205 influences support piece 136 to electronic equipment 20's support performance, leads to electronic equipment 20 to rock, influences the customer experience and feels.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, and improvements made within the principle of the present invention should be included within the protection scope of the present invention.

Claims (9)

1. A data line is used for being inserted into a charging interface of electronic equipment, the charging interface is arranged on a first plane of the electronic equipment, and the data line is characterized by comprising an insertion portion, a connecting portion, a switching portion and a line body connected with the switching portion, the insertion portion and the switching portion are connected through the connecting portion, when the insertion portion is inserted into the charging interface of the electronic equipment, the connecting portion is located on a second plane of the electronic equipment, the first plane and the second plane are intersected, a supporting piece is arranged on the connecting portion, the supporting piece supports the second plane of the electronic equipment, the supporting piece is rotatably connected to the connecting portion, and the supporting piece and the connecting portion can form a stable supporting structure.

2. The data line of claim 1, wherein: the support piece is far away from the wire body, or the wire body can penetrate through the support piece and can move relative to the support piece.

3. The data line of claim 1, wherein: the connecting portion including be close to the turning portion of insertion portion one end and with the straight portion that the turning portion links to each other, straight portion still includes to keeping away from the extension section that turning portion one side extended, support piece sets up on the extension section.

4. The data line of claim 3, wherein: the extension section is provided with a connecting hole, the support part is partially penetrated through the connecting hole and is rotationally connected with the connecting hole, and when the support part is rotated to abut against the inner wall of the connecting hole, a stable supporting structure is formed between the support part and the extension section.

5. The data line of claim 4, wherein: the extension section is further provided with a concave groove, the concave groove is concavely arranged towards the inside of the extension section along the surface of the extension section, the extending direction of the length dimension of the concave groove is consistent with the length direction of the extension section, and the support piece can be partially accommodated in the concave groove by rotating the support piece.

6. The data line of claim 1, wherein: the supporting piece is U-shaped, D-shaped, folded, annular or folded bracket-shaped.

7. The data line of any one of claims 1-6, wherein: the length dimension of the connecting part is larger than or equal to half of the length dimension of the second plane of the electronic equipment, and the connecting position of the supporting part and the connecting part corresponds to the midpoint position of the second plane of the electronic equipment.

8. The data line of claim 7, wherein: the connecting portion is including the flat portion of linkage segment that links to each other, flat portion is including the flat portion of bendable section, the linkage segment with the portion of inserting is connected, the flat portion is connected with switching portion, bendable section one end is connected with the linkage segment, and the relative other end is connected with the flat portion, and when the portion of inserting during the electronic equipment, the flat portion and/or the at least part of section of can bending is laminated with electronic equipment mutually, the section of can bending is soft wire rod, the thickness of the section of can bending is 1-2.5 mm.

9. The data line of claim 3, wherein: straight portion is including the straight section that links to each other and plastic section, straight section is connected with switching portion, plastic section is connected with the portion of inserting, plastic section can bend, just connecting portion keep laminating with electronic equipment's second plane.

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