CN113161829B - Separable integrated mobile phone charger and use method thereof - Google Patents

Abstract

The invention relates to the technical field of mobile phone accessories, in particular to a separable integrated mobile phone charger and a using method thereof. The push-pull data line containing structure can support the mobile phone to charge and simultaneously conveniently contain the data line, improves the convenience of charging the mobile phone and containing the data line, can clamp the USB connector on the USB interface by pressing the locking piece, prevents the USB connector from loosening, prolongs the service life of the charger, can rotate relative to the charger connector, is convenient to adjust a certain angle, and improves the use flexibility.

Description

Separable integrated mobile phone charger and use method thereof

Technical Field

The invention relates to a mobile phone charger, in particular to a separable integrated mobile phone charger and a using method thereof, belonging to the technical field of mobile phone accessories.

Background

The mobile phone charger is roughly classified into a travel charger, a stand type charger, and a maintenance type charger, and the travel charger is most sold in the market.

At present, a common mobile phone charger is generally of a separated type and is provided with a data line and a charging head, the charging head and a mobile phone are respectively connected through the data line for charging, the mobile phone and the charger are relatively separated in the using process, the charging head is plugged in a socket under the conventional condition, then the mobile phone is placed on a desktop, but when the socket is far away from the ground or other placeable positions, the socket is too high or too far to find the position for placing the mobile phone, the charging is very inconvenient, the data line is dragged, the USB joint and a data line interface are loosened in the long-term dragging process of the data line, once the loosening is generated, the electric connection is unstable, the charging effect is not obvious, the service life of the charger is reduced under the serious condition, and in addition, the charging head of the mobile phone and the connected data line are inconvenient to store and carry, lose easily and charge head or data line, the data line is in disorder or twine other article, inconvenient accomodating easily simultaneously, and external head that charges also can be damaged comparatively easily.

Chinese patent publication No. CN 108258765 a discloses a separable integrated mobile phone charger for charging a mobile phone, which includes a charging body, plugs and brackets respectively installed on the upper and lower surfaces of the charging body, and a data line disposed inside the charging body; a clamping groove is also formed in the charging body provided with the plug, and the plug can be rotated and placed in the clamping groove; a limiting groove is also arranged in the clamping groove, and a base of the plug can be arranged in the limiting groove to play a role in fixing; the support can be opened for holding the mobile phone during charging; the side surface of the charging body is also provided with a first port and a second port, and two ends of the data line can respectively extend out of the first port and the second port; the position that is close to the second port in the inside of the body that charges still is equipped with the port that charges, and the one end of data line is connected the port that charges or outside port is connected to cell-phone, the other end, can charge for the cell-phone, and a plurality of ports are too exposed, and the leakproofness is not good, and whole volume is too big moreover and can occupy more usage space, and the effect of accomodating is not obvious in addition, still can't avoid the not hard up problem of interface.

Therefore, there is a need for an improved detachable integrated mobile phone charger to solve the above problems.

Disclosure of Invention

The invention aims to provide a separable integrated mobile phone charger and a using method thereof.A data line storage structure is pushed and pulled, so that a data line can be conveniently stored while a mobile phone is supported to be charged, the convenience of charging the mobile phone and storing the data line is improved, a USB connector can be clamped on a USB interface by pressing a locking piece, the USB connector is prevented from loosening, the service life of the charger is prolonged, and meanwhile, a charger shell can rotate relative to the charger connector, so that a certain angle can be conveniently adjusted, and the use flexibility is improved.

In order to achieve the purpose, the invention adopts the main technical scheme that:

a separable integrated mobile phone charger comprises a charger shell, wherein a fixed plate is fixedly arranged in the charger shell, one end of the fixed plate is connected with a charger connector, the other end of the fixed plate is connected with a data line storage structure in a sliding manner, a fixed head magnetic chuck is fixedly arranged on one side, away from a metal pin, of the fixed plate, a movable head magnetic chuck matched with the fixed head magnetic chuck is fixedly arranged on one side of the charger connector, the fixed head magnetic chuck is magnetically connected with the movable head magnetic chuck, the fixed head magnetic chuck and the movable head magnetic chuck are both conductive magnetic chucks, and the other side of the charger connector is fixedly provided with the metal pin;

through above technical scheme, the inside at charger shell is fixed to the fixed plate, the fixed head magnetism of fixed plate one end is inhaled the dish contact with the first magnetism of moving on the charger connects with the first magnetism ring of moving on the fixed head magnetism of fixed plate one end, promote the stability in the rotation process, then just can make fixed head negative pole magnetism circle and move head negative pole magnetism circle magnetism and inhale mutually, fixed head positive pole magnetism circle and move head positive pole magnetism circle also inhale mutually, the in-process of inhaling mutually also can be switched on, consequently move head magnetism and can be fixed head magnetism relatively to the dish rotation, but at pivoted in-process fixed head negative pole magnetism circle and move head negative pole magnetism circle, fixed head positive pole magnetism circle and move head positive pole magnetism circle electric connection all the time, consequently, can adjust charger shell's rotation angle.

The data line receiving structure comprises a receiving bin supporting arm, a push-pull plate is fixedly arranged at one end, far away from the charger shell, of the receiving bin supporting arm, a sealing plate is fixedly arranged at one end, close to the charger shell, of the receiving bin supporting arm, a lock piece groove is formed in one end, close to the push-pull plate, of the receiving bin supporting arm, a USB interface is fixedly arranged inside the lock piece groove, one end of the USB interface is electrically connected with the fixed-head magnetic chuck through a lead, a USB connector is connected to the port of the USB interface, a data connecting line is connected to the USB connector, a connector chip which is connected with the USB interface in an inserting and combining mode is arranged on the USB connector, and symmetrically distributed locking columns are arranged on two sides of the connector chip;

a locking piece is arranged inside the locking piece groove and comprises a transmission rod and a right-angle transmission arm, the transmission rod is meshed with the right-angle transmission arm and is used for rotating the right-angle transmission arm, the transmission rod penetrates through the supporting arm of the storage bin and extends to the outside of the supporting arm of the storage bin, the bottom of the transmission rod is connected with a spring, the upper end of the spring is fixed on the transmission rod, the lower end of the spring is fixedly arranged on the USB interface, a lock head is fixedly arranged at one end of the right-angle transmission arm, locking grooves which are connected with the lock columns in an inserting and combining mode are formed in the two sides of the USB interface, and lock holes corresponding to the lock heads are formed in the lock columns;

through the technical scheme, the USB interface is arranged inside the locking piece groove, the locking piece is arranged above the USB interface, when the USB connector needs to be pulled out, the locking piece is pressed by a hand, in the pressing process, the transmission rod at the bottom of the locking piece slides downwards, then the right-angle transmission arm rotates upwards under the action of the transmission shaft, the lock head on the right-angle transmission arm is tilted upwards, the lock head is separated from the lock hole on the lock column, the connector chip inside the USB interface can be pulled out, and under the normal condition, the lock head is inserted into the lock hole of the lock column, so that the USB connector cannot be taken out, meanwhile, the USB connector can be prevented from loosening, and the stability in the using process is improved;

preferably, when the data line containing structure is pulled out of the charger shell, the mobile phone can be placed between the sealing plate and the push-pull plate, so that the mobile phone can be conveniently and directly placed on the charger for charging, the structure is simple, and the use convenience is improved;

more preferably, the USB interface passes through wire and magnetism antiskid cover electric connection, the closing plate plays sealed effect, can prevent that charger shell's inside from intaking, promote the security of use, the push-and-pull board can conveniently accomodate the inside that the structure was pushed and pulled to charger shell with the data line, after on the storage chamber support arm with the winding of data connection line, whole data line accomodates the inside that the structure impeld charger shell, conveniently accomodate the data line, prevent that the data line from losing, save the real space of using of data line, promote the convenience of use.

Preferably, a circular mounting hole is formed in one side surface of the charger shell close to the metal pin, the movable head magnetic chuck penetrates through the circular mounting hole and is rotatably arranged in the charger shell, the metal pin on the charger joint is electrically connected with the movable head magnetic chuck through a lead, a fixed head magnetic steel ring is fixedly arranged on the fixed head magnetic chuck, a fixed head anode magnetic suction ring is fixedly arranged in the middle of the fixed head magnetic steel ring, a fixed head cathode magnetic suction ring is fixedly arranged between the fixed head magnetic steel ring and the fixed head anode magnetic suction ring, a movable head magnetic steel ring which is magnetically connected with the fixed head magnetic steel ring is fixedly arranged on the movable head magnetic chuck, a movable head anode magnetic suction ring which is magnetically connected with the fixed head anode magnetic suction ring is arranged in the middle of the movable head magnetic chuck, and a movable head cathode magnetic suction ring is arranged between the movable head magnetic steel ring and the movable head anode magnetic suction ring, the movable head negative pole magnetic attraction ring is magnetically connected with the fixed head negative pole magnetic attraction ring.

Preferably, the transfer line with fixed limiting plate that is provided with between the latch fitting, the right angle drive arm passes through the transmission shaft and rotates the setting and is in the inside in latch fitting groove, the bottom of tapered end is the arc structure, be used for with the lockhole block is connected.

Preferably, a square mounting groove is formed in the data line accommodating structure, a fixed support arm slidably connected with the square mounting groove is fixedly arranged on the fixed plate, a limit sliding block is arranged on the outer side surface of the fixed support arm, a limit sliding groove slidably connected with the limit sliding block is formed in the square mounting groove, the limit sliding groove does not penetrate through the data line accommodating structure, and the limit sliding groove is used for limiting the limit sliding block;

through above technical scheme, the spacing slider on the fixed support arm can accomodate the inside slip of the square mounting groove on the structure at the data line, and spacing spout does not run through the data line simultaneously and accomodates the structure, and spacing spout is used for spacing to spacing slider, can prevent that the data line from accomodating the structure roll-off from the fixed support arm, and simple structure promotes the convenience of using.

Preferably, a magnetic anti-slip sleeve is fixedly arranged on the outer side surface of the holding bin supporting arm, the magnetic anti-slip sleeve is fixedly arranged on the outer side surface of the holding bin supporting arm in a glue binding mode, an iron wire net is fixedly arranged inside the data connecting wire, and the magnetic anti-slip sleeve is used for adsorbing the iron wire net on the data connecting wire;

preferably, the push-pull plate is provided with a second handle groove, one end of the charger housing, which is close to the data line storage structure, is provided with a first handle groove, and the first handle groove and the second handle groove are on the same horizontal axis.

Preferably, a plurality of first magnetic steels are fixedly arranged on one side surface of the data line containing structure close to the charger shell, second magnetic steels corresponding to the first magnetic steels are fixedly arranged on one end surface of the charger shell, and the contact surfaces of the first magnetic steels and the second magnetic steels are opposite in magnetism;

through above technical scheme, the first magnet steel on the structure is accomodate to the in-process data line that pushes away and the second magnet steel on the charger casing inter attraction can promote the stability that push-and-pull board and electrical apparatus casing are connected, can effectually prevent that the data line from accomodating the structure roll-off, promotes the stability that the structure was accomodate to the data line.

Preferably, a wire arranging hole is formed in one end, close to the data wire receiving structure, of the fixing plate, and the wire arranging hole is used for extending the data connecting wire to the outside of the charger shell;

an anti-slip ring is fixedly arranged on the outer side surface of the charger shell, and a soft rubber waterproof pad is fixedly arranged at the joint of the metal pin and the charger joint;

through above technical scheme, the friction between increase and the hand promotes the convenience of using, and the metal is participated in and is provided with the waterproof pad of flexible glue with the fixed soft glue that is provided with in junction that the charger connects, and the waterproof pad of flexible glue can increase the frictional force between charger joint and the socket, prevents that the charger joint from droing, promotes the stability that the charger connects, and the waterproof pad of flexible glue can play certain waterproof effect simultaneously, prevents that water from entering into the inside of socket along the charger joint, promotes the security of using.

A use method of a separable integrated mobile phone charger comprises the following steps:

s1: firstly, a connector chip on a USB connector of a data line is inserted into the USB interface, then a lock column on the USB connector is inserted into a lock groove, so that a transmission rod moves upwards under the action of a spring, and then a lock head is inserted into a lock hole;

s2: when the mobile phone support does not need to be charged, the data wire is taken down from the support arm of the storage bin, then clamped in the wire arranging hole, and pulled out;

s3: when the mobile phone needs to be supported and charged, the data line storage structure is pulled out through the second handle groove on the push-pull plate and the first handle groove on the charger shell, and then the mobile phone is placed on the sealing plate and the storage bin supporting arm of the push-pull plate;

s4: then the charger joint is inserted on a power socket, and the angle between the charger shell and the charger joint is rotated;

s5: after the use, take off through pressing the USB joint on the latch fitting with the data line, then with the data line winding on the collecting storage support arm, again with the inside that the structure was accomodate to the data line pushed into charger casing.

Preferably, a switching mechanism is arranged between the charger connector and the metal pin, the switching mechanism comprises a rotating shaft, a standby connecting seat, a pin connecting seat, a switching button, a standby metal pin, a clamping piece, a matching groove, a telescopic piece and a conductive end, the rotating shaft is rotatably arranged in the charger connector, the conductive end is fixedly arranged in the charger connector, one end of the conductive end is connected with the movable head magnetic chuck, one end of the conductive end, far away from the movable head magnetic chuck, is arranged at the center of the rotating shaft and is in surface contact connection with the rotating shaft, the switching button is arranged outside the charger connector and is connected with the rotating shaft, the standby connecting seat and the pin connecting seat are fixedly arranged on the surface of the rotating shaft, and the standby connecting seat and the pin connecting seat are arranged at a right angle, the metal pin is arranged inside the pin connecting seat through a telescopic piece, the spare metal pin is arranged inside the spare connecting seat through a telescopic piece, the fit grooves are formed in one side surface, provided with the metal pin, of the charger connector, the number of the fit grooves is two, the two fit grooves correspond to the pin connecting seat and the spare connecting seat respectively, the clamping pieces are symmetrically arranged on the inner wall surfaces of the two sides of the fit grooves respectively, the clamping pieces are clamped with the spare connecting seat and the side surface of the pin connecting seat respectively, and the rotating shaft, the spare connecting seat, the inner wall of the pin connecting seat, the spare metal pin, the telescopic piece and the conductive end are all made of conductive materials.

The invention has at least the following beneficial effects:

1. the locking piece is arranged in the locking piece groove, in the pressing process, the transmission rod at the bottom of the locking piece slides downwards, then the right-angle transmission arm rotates upwards under the action of the transmission shaft, the lock head on the right-angle transmission arm is tilted upwards, the lock head is separated from the lock hole on the lock column, and then the connector chip in the USB interface can be pulled out, the USB connector cannot be taken out under the normal condition, and meanwhile, the USB connector can be prevented from loosening, and the stability in the using process is improved;

2. when drawing out the structure from charger shell's inside with the data line, can place the cell-phone between closing plate and push-and-pull board, conveniently directly place the cell-phone on the charger and charge, moreover, the steam generator is simple in structure, promote the convenience of use, simultaneously can twine the data connection line on the collecting storage support arm, whole data line structure of accomodating impels charger shell's inside, conveniently accomodate the data line, prevent that the data line from losing, save the real space of usefulness of data line, promote the convenience of use.

3. The fixed head magnetic chuck of fixed plate one end and the contact of the first magnetic chuck that moves on the charger joint, the fixed head magnetic steel ring on the fixed head magnetic chuck and the first magnetic steel ring that moves on the first magnetic chuck inhale mutually, promote the stability in the rotation process, then just can make fixed head negative pole magnetic chuck inhale mutually with move first negative pole magnetic chuck magnetism, fixed head positive pole magnetic chuck also inhales mutually with moving head positive pole magnetic chuck, the in-process of inhaling mutually also can switch on, consequently move first magnetic chuck and can move head magnetic chuck relatively and rotate, but at pivoted in-process fixed head negative pole magnetic chuck and move head negative pole magnetic chuck, fixed head positive pole magnetic chuck and move first positive pole magnetic chuck electric connection all the time, consequently, the rotation angle of charger casing can be adjusted, the flexibility of using is promoted.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a diagram illustrating the effect of the present invention;

FIG. 3 is a perspective view of the present invention;

FIG. 4 is a perspective view of a fixed head magnetic chuck in accordance with the present invention;

FIG. 5 is a perspective view of a USB connector of the present invention;

FIG. 6 is a block diagram of the lock of the present invention;

FIG. 7 is a cross-sectional view of the present invention;

FIG. 8 is a block diagram of a fixed head magnetic chuck in accordance with the present invention;

fig. 9 is a schematic structural view of the conversion mechanism of the present invention.

In the figure, 1-charger shell, 101-circular mounting hole, 102-first handle groove, 2-fixing plate, 201-fixing support arm, 202-limit slider, 3-data line receiving structure, 301-sealing plate, 302-push-pull plate, 303-second handle groove, 304-square mounting groove, 305-limit sliding groove, 4-charger joint, 5-receiving bin support arm, 501-USB interface, 502-locking groove, 503-locking groove, 6-locking piece, 7-fixed head magnetic suction disc, 701-fixed head magnetic steel ring, 702-fixed head negative magnetic suction ring, 703-fixed head positive magnetic suction ring, 8-movable head magnetic suction disc, 801-movable head magnetic steel ring, 802-movable head negative magnetic suction ring, 803-movable head positive magnetic suction ring, 9-USB joint, 901-connector chip, 902-lock column, 903-lock hole, 10-metal pin, 11-drive rod, 12-right angle drive arm, 13-lock head, 14-spring, 15-data connecting wire, 16-wire netting, 17-magnetic anti-slip cover, 18-anti-slip ring, 19-soft rubber waterproof pad, 20-first magnetic steel, 21-second magnetic steel, 22-line hole, 23-limit plate, 24-switching mechanism, 2401-rotating shaft, 2402-spare connecting seat, 2403-pin connecting seat, 2404-conjunction groove, 2405-spare metal pin, 2406-conductive end.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

As shown in fig. 1-9, the detachable integrated mobile phone charger provided in this embodiment includes a charger housing 1, a fixed plate 2 is fixedly disposed inside the charger housing 1, a charger connector 4 is connected to one end of the fixed plate 2, a data line receiving structure 3 is slidably connected to the other end of the fixed plate 2, a fixed head magnetic chuck 7 is fixedly disposed on one side of the fixed plate 2, a movable head magnetic chuck 8 adapted to the fixed head magnetic chuck 7 is fixedly disposed on one side of the charger connector 4 away from a metal pin 10, the fixed head magnetic chuck 7 is magnetically connected to the movable head magnetic chuck 8, both the fixed head magnetic chuck 7 and the movable head magnetic chuck 8 are conductive magnetic chucks, a metal pin 10 is fixedly disposed on the other side of the charger connector 4, when the metal pin 10 is inserted into the socket, the charger connector 4 can rotate relative to the charger housing 1, and has a simple structure, the data wire can be directly wound on the charger connector 4, so that the storage is convenient, and the use convenience is improved;

a circular mounting hole 101 is arranged on one side surface of the charger shell 1 close to the metal pin 10, a movable head magnetic suction disc 8 penetrates through the circular mounting hole 101 and is rotatably arranged in the charger shell 1, the metal pin 10 on the charger joint 4 is electrically connected with the movable head magnetic suction disc 8 through a lead, a fixed head magnetic steel ring 701 is fixedly arranged on the fixed head magnetic suction disc 7, a fixed head anode magnetic suction ring 703 is fixedly arranged in the middle of the fixed head magnetic steel ring 701, a fixed head cathode magnetic suction ring 702 is fixedly arranged between the fixed head magnetic steel ring 701 and the fixed head anode magnetic suction ring 703, a movable head magnetic steel ring 801 which is magnetically connected with the fixed head magnetic steel ring 701 is fixedly arranged on the movable head magnetic suction disc 8, a movable head anode magnetic suction ring 803 which is magnetically connected with the fixed head anode magnetic suction ring 703 is arranged in the middle of the movable head magnetic suction disc 8, a movable head cathode magnetic suction ring 802 is arranged between the movable head magnetic steel ring 801 and the movable head anode magnetic suction ring 803, the moving-head negative pole magnetic attraction ring 802 is magnetically connected with the fixed-head negative pole magnetic attraction ring 702;

the fixed plate 2 is fixed inside the charger shell 1, the fixed head magnetic chuck 7 at one end of the fixed plate 2 is contacted with the movable head magnetic chuck 8 on the charger joint 4, the fixed head magnetic steel ring 701 on the fixed head magnetic chuck 7 is attracted with the movable head magnetic steel ring 801 on the movable head magnetic chuck 8, the stability in the rotating process is improved, then the fixed head negative magnetic chuck 702 and the movable head negative magnetic chuck 802 are magnetically attracted, the fixed head positive magnetic chuck 703 and the movable head positive magnetic chuck 803 are also attracted, and the movable head magnetic chuck 8 can be electrified in the attracting process, so that the movable head magnetic chuck 8 can rotate relative to the fixed head magnetic chuck 7, but the fixed head negative magnetic chuck 702 and the movable head negative magnetic chuck 802, and the fixed head positive magnetic chuck 703 and the movable head positive magnetic chuck 803 are electrically connected all the time in the rotating process, so that the rotating angle of the charger shell 1 can be adjusted;

meanwhile, a magnetic anti-slip sleeve 17 is fixedly arranged on the outer side surface of the storage bin supporting arm 5, the magnetic anti-slip sleeve 17 is fixedly arranged on the outer side surface of the storage bin supporting arm 5 in a cementing manner, an iron wire 16 is fixedly arranged inside the data connecting wire 15, and the magnetic anti-slip sleeve 17 is used for adsorbing the iron wire 16 on the data connecting wire 15;

consequently can adsorb data connection line 15 through the magnetism antiskid cover 17 on the collecting storage support arm 5 at the in-process that uses to with data connection line 15 winding on collecting storage support arm 5, can rotate charger housing 1 at the winding in-process, twine data connection line 15 through rotating charger housing 1, simple structure convenient to use promotes the convenience of using.

The data line accommodating structure 3 comprises an accommodating bin supporting arm 5, one end of the accommodating bin supporting arm 5, which is far away from the charger shell 1, is fixedly provided with a push-pull plate 302, one end of the accommodating bin supporting arm 5, which is close to the charger shell 1, is fixedly provided with a sealing plate 301, one end of the accommodating bin supporting arm 5, which is close to the push-pull plate 302, is provided with a lock piece groove 503, a USB interface 501 is fixedly arranged inside the lock piece groove 503, one end of the USB interface 501 is electrically connected with a fixed head magnetic chuck 7 through a lead wire, a USB connector 9 is connected at the port of the USB interface 501, a data connecting wire 15 is connected onto the USB connector 9, a connector chip 901 which is connected with the USB interface 501 in an inserting and combining manner is arranged on the USB connector 9, and locking columns 902 which are symmetrically distributed are arranged on two sides of the connector chip 901;

a locking piece 6 is arranged in the locking piece groove 503, the locking piece 6 comprises a transmission rod 11 and a right-angle transmission arm 12, the transmission rod 11 is meshed with the right-angle transmission arm 12, the transmission rod 11 is used for rotating the right-angle transmission arm, the transmission rod 11 penetrates through the storage bin supporting arm 5 and extends to the outside of the storage bin supporting arm 5, the bottom of the transmission rod 11 is connected with a spring 14, the upper end of the spring 14 is fixed on the transmission rod 11, the lower end of the spring 14 is fixedly arranged on the USB interface 501, a locking head 13 is fixedly arranged at one end of the right-angle transmission arm 12, locking grooves 502 which are connected with the locking columns 902 in an inserting and combining mode are formed in the two sides of the USB interface 501, and locking columns 902 are provided with locking holes 903 corresponding to the locking heads 13;

a limiting plate 23 is fixedly arranged between the transmission rod 11 and the locking piece 6 to prevent the transmission rod 11 from being ejected, the structure is simple, the operation is convenient, the right-angle transmission arm 12 is rotatably arranged inside the locking piece groove 503 through the transmission shaft, and the bottom end of the locking head 13 is of an arc structure and is used for being clamped and connected with the locking hole 903;

the USB interface 501 is arranged in the lock groove 503, the lock 6 is arranged above the USB interface 501, when the USB connector 9 needs to be pulled out, the lock 6 is pressed by a hand, in the pressing process, the transmission rod 11 at the bottom of the lock 6 slides downwards, then the right-angle transmission arm 12 rotates upwards under the action of the transmission shaft, the lock head 13 on the right-angle transmission arm 12 tilts upwards, the lock head 13 is separated from the lock hole 903 on the lock column 902, the connector chip 901 in the USB interface 501 can be pulled out, and in a normal situation, the lock head 13 is inserted in the lock hole 903 of the lock column 902, so that the USB connector 9 cannot be taken out, meanwhile, the USB connector 9 can be prevented from loosening, and the stability in the using process is improved;

further, when the data line accommodating structure 3 is pulled out from the interior of the charger housing 1, the mobile phone can be placed between the sealing plate 301 and the push-pull plate 302, so that the mobile phone can be directly placed on the charger for charging conveniently, the structure is simple, and the use convenience is improved;

further, the USB interface 501 passes through wire and magnetism antiskid cover 7 electric connection, sealing plate 301 plays sealed effect, can prevent that the inside of charger housing 1 from intaking, promote the security of use, push-and-pull plate 302 can conveniently accomodate the inside of structure 3 push-and-pull to charger housing 1 with the data line, after winding data connection line 15 on collecting storage support arm 5, whole data line accomodates the inside that structure 3 impeld charger housing 1, conveniently accomodate the data line, prevent that the data line from losing, save the real space of using of data line, promote the convenience of use.

In this embodiment, as shown in fig. 1, a square mounting groove 304 is formed on the data line receiving structure 3, a fixed supporting arm 201 slidably connected to the square mounting groove 304 is fixedly disposed on the fixed plate 2, a position-limiting sliding block 202 is disposed on an outer side surface of the fixed supporting arm 201, a position-limiting sliding groove 305 slidably connected to the position-limiting sliding block 202 is formed inside the square mounting groove 304, the position-limiting sliding groove 305 does not penetrate through the data line receiving structure 3, the position-limiting sliding groove 305 is used for limiting the position of the position-limiting sliding block 202, the position-limiting sliding block 202 on the fixed supporting arm 201 can slide inside the square mounting groove 304 on the data line receiving structure 3, meanwhile, the limiting sliding groove 305 does not penetrate through the data line receiving structure 3, the limiting sliding groove 305 is used for limiting the limiting sliding block 202, can prevent that the data line from accomodating structure 3 and follow fixed support arm 201 and go up the roll-off, simple structure promotes the convenience of using.

In this embodiment, as shown in fig. 2, the push-pull plate 302 is provided with a second handle groove 303, one end of the charger housing 1 close to the data line storage structure 3 is provided with a first handle groove 102, the first handle groove 102 and the second handle groove 303 are on the same horizontal axis, the data line storage structure 3 can be conveniently pulled out through the second handle groove 303 on the second handle groove 302 and the first handle groove 102 on the charger housing 1, the structure is simple, and meanwhile, the second handle groove 303 and the first handle groove 102 can be provided with a plurality of groups, so that the convenience in use is improved;

a plurality of first magnetic steels 20 are fixedly arranged on one side surface of the data line accommodating structure 3 close to the charger shell 1, second magnetic steels 21 corresponding to the first magnetic steels 20 are fixedly arranged on one end surface of the charger shell 1, and the contact surfaces of the first magnetic steels 20 and the second magnetic steels 21 have opposite magnetism;

the first magnetic steel 20 on the data line storage structure 3 and the second magnetic steel 21 on the charger shell 1 attract each other in the pushing process, so that the stability of connection between the push-pull plate 302 and the electric appliance shell 1 can be improved, the data line storage structure 3 can be effectively prevented from slipping out, and the stability of the data line storage structure 3 is improved.

Fixing plate 2 is close to the one end that structure 3 was accomodate to the data line and has been seted up winding displacement hole 22, and winding displacement hole 22 is used for extending data connection line 15 to charger shell 1's outside, can pull out the data line from winding displacement hole 22, conveniently charges under the condition that does not need the support to the cell-phone, promotes the flexibility of using.

In this embodiment, as shown in fig. 2, fixed antiskid circle 18 that is provided with on the lateral surface of charger housing 1, friction between increase and the hand, promote the convenience of using, the fixed waterproof pad 19 of soft glue that is provided with of junction of metal prong 10 and charger joint 4, waterproof pad 19 of soft glue can increase the frictional force between charger joint 4 and the socket, prevent that charger joint 4 from droing, promote the stability of charger joint 4, waterproof pad 19 of soft glue can play certain water-proof effects simultaneously, prevent that water from entering into the inside of socket along charger joint 4, promote the security of using.

A use method of a separable integrated mobile phone charger comprises the following steps:

s1: firstly, a connector chip 901 on a data line USB connector 9 is inserted into the USB interface 501, then a lock column 902 on the USB connector 9 is inserted into the lock groove 502, so that a transmission rod 11 moves upwards under the action of a spring 14, and then a lock head 13 is inserted into the lock hole 903;

s2: when the mobile phone support is not required to be charged, the data wire is taken down from the storage bin support arm 5 and then clamped in the wire arranging hole 22, and the data wire is pulled out;

s3: when the mobile phone needs to be supported and charged, the data line storage structure 3 is pulled out through the second handle groove 303 on the push-pull plate 302 and the first handle groove 102 on the charger shell 1, and then the mobile phone is placed on the sealing plate 301 and the storage bin support arm 5 of the push-pull plate 302;

s4: then the charger joint 4 is inserted on a power socket, and the angle between the charger shell 1 and the charger joint 4 is rotated;

s5: after use, the USB connector 9 on the data cable is removed by pressing the locking member 6, and then the data cable is wound around the housing support arm 5, and the data cable housing structure 3 is pushed into the charger housing 1.

Furthermore, a switching mechanism 24 is arranged between the charger connector 4 and the metal pin 10, the switching mechanism 24 includes a rotating shaft 2401, a spare connecting seat 2402, a pin connecting seat 2403, a switching button, a spare metal pin 2405, a clip, a fitting groove 2404, an expansion member, and a conductive end 2406, the rotating shaft 2401 is rotatably arranged inside the charger connector 4, the conductive end 2406 is fixedly arranged inside the charger connector 4, one end of the conductive end 2406 is connected with the moving head magnetic chuck 8, one end of the conductive end 2406, which is far away from the moving head magnetic chuck 8, is arranged at the center of the rotating shaft 2401 and is in surface contact with the rotating shaft 2401, the switching button is arranged outside the charger connector 4 and is connected with the rotating shaft 2401, the spare connecting seat 2402 and the pin connecting seat 2403 are both fixedly arranged on the surface of the rotating shaft 2401, the spare connecting seat 2402 and the pin connecting seat 2403 are arranged at a right angle, the metal pin 10 is arranged inside the pin connecting seat 2403 through a telescopic piece, the spare metal pins 2405 are arranged inside the spare connecting seat 2402 through telescopic pieces, the matching grooves 2404 are arranged on one side surface of the charger connector 4 where the metal pins 10 are arranged, the number of the fitting grooves 2404 is two, the two fitting grooves 2404 correspond to the pin connecting seat 2403 and the spare connecting seat 2402 respectively, the fasteners are symmetrically arranged on the inner wall surfaces of two sides of the fitting grooves 2404 respectively, and the clips are respectively clipped with the side surfaces of the spare connecting seat 2402 and the pin connecting seat 2403, the rotating shaft 2401, the spare connecting seat 2402, the inner wall of the pin connecting seat 2403, the spare metal pin (2405), the telescopic piece and the conductive end 2406 are all made of conductive materials.

In the present embodiment, as shown in fig. 9, the metal pins 10 are converted by the conversion mechanism 24, spare metal pins 2405 for adapting to different sockets may be provided in the spare connection holder 2402, and during the conversion process, when the spare metal pin 2405 is needed, the metal pin 10 is pressed to be retracted into the pin connecting seat 2403 through the telescopic piece, then, the conversion button is rotated to drive the spare connecting seat 2402 and the pin connecting seat 2403 to rotate through the rotating shaft 2401 until the spare connecting seat 2402 is vertical to the surface of the charger connector 4 connected with the charger connector 4, meanwhile, the pin connecting seat 2403 is clamped and matched with the matching groove 2404 through a clamping piece, so that the pin connecting seat 2403 is stably arranged in the matching groove 2404, then, after the spare metal pin 2405 is inserted into the socket, the current is transmitted to the conductive end 2406 through the spare metal pin 2405, the spare connecting seat 2402 and the rotating shaft 2401 in sequence.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to achieve the technical effect basically.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or system in which the element is included.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A separable integrated mobile phone charger comprises a charger shell (1) and is characterized in that, a fixing plate (2) is fixedly arranged inside the charger shell (1), one end of the fixing plate (2) is connected with a charger joint (4), the other end of the fixed plate (2) is connected with a data line containing structure (3) in a sliding way, a fixed head magnetic suction disc (7) is fixedly arranged on one side of the fixed plate (2), a movable head magnetic suction disc (8) matched with the fixed head magnetic suction disc (7) is fixedly arranged on one side of the charger joint (4) far away from the metal pin (10), the fixed head magnetic suction disc (7) is magnetically connected with the movable head magnetic suction disc (8), and the fixed head magnetic suction disc (7) and the movable head magnetic suction disc (8) are both conductive magnetic suction discs, the other side of the charger joint (4) is fixedly provided with a metal pin (10);

the data line storage structure (3) comprises a storage bin supporting arm (5), a push-pull plate (302) is fixedly arranged at one end, far away from the charger shell (1), of the storage bin supporting arm (5), a sealing plate (301) is fixedly arranged at one end, close to the charger shell (1), of the storage bin supporting arm (5), a lock piece groove (503) is formed in one end, close to the push-pull plate (302), of the storage bin supporting arm (5), a USB interface (501) is fixedly arranged inside the lock piece groove (503), one end of the USB interface (501) is electrically connected with the fixed-head magnetic chuck (7) through a lead, a USB connector (9) is connected to a port of the USB interface (501), a data connecting line (15) is connected to the USB connector (9), and a connector chip (901) connected with the USB interface (501) in an inserting and combining manner is arranged on the USB connector (9), lock columns (902) which are symmetrically distributed are arranged on two sides of the joint chip (901);

the inside in fastener groove (503) is provided with latch fitting (6), latch fitting (6) are including transfer line (11) and right angle drive arm (12), transfer line (11) with right angle drive arm (12) meshing connection, transfer line (11) are used for rotating right angle drive arm (12), transfer line (11) run through storage bin support arm (5) and extend to the outside of storage bin support arm (5), the bottom of transfer line (11) is connected with spring (14), the upper end of spring (14) is fixed on transfer line (11), the lower extreme of spring (14) is fixed to be set up on USB interface (501), the fixed tapered end (13) that is provided with in one end of right angle drive arm (12), the both sides of USB interface (501) seted up with lock groove (502) that lock post (902) inserted and shut and are connected, the lock cylinder (902) is provided with a lock hole (903) corresponding to the lock head (13).

2. The detachable integrated mobile phone charger according to claim 1, wherein: a circular mounting hole (101) is formed in one side face, close to the metal pin (10), of the charger shell (1), the movable head magnetic chuck (8) penetrates through the circular mounting hole (101) and is rotatably arranged inside the charger shell (1), the metal pin (10) on the charger joint (4) is electrically connected with the movable head magnetic chuck (8) through a wire, a fixed head magnetic steel ring (701) is fixedly arranged on the fixed head magnetic chuck (7), a fixed head positive magnetic suction ring (703) is fixedly arranged in the middle of the fixed head magnetic steel ring (701), a fixed head negative magnetic suction ring (702) is fixedly arranged between the fixed head magnetic steel ring (701) and the fixed head positive magnetic suction ring (703), a movable head magnetic steel ring (801) which is magnetically connected with the fixed head magnetic steel ring (701) is fixedly arranged on the movable head magnetic suction ring (8), move the middle part of first magnetic chuck (8) be provided with move first anodal magnetic attraction circle (803) that decide first anodal magnetic attraction circle (703) magnetism to be connected, move first magnetic steel ring (801) with it moves to be provided with between first anodal magnetic attraction circle (803) and moves first negative pole magnetic attraction circle (802), move first negative pole magnetic attraction circle (802) with decide first negative pole magnetic attraction circle (702) magnetism to be connected.

3. The detachable integrated mobile phone charger according to claim 1, wherein: transfer line (11) with fixed limiting plate (23) of being provided with between latch fitting (6), right angle drive arm (12) rotate through the transmission shaft and set up the inside of latch fitting groove (503), the bottom of tapered end (13) is the arc structure, be used for with lockhole (903) block is connected.

4. The detachable integrated mobile phone charger according to claim 1, wherein: the data line is accomodate and has been seted up square mounting groove (304) on structure (3), fixed being provided with on fixed plate (2) with square mounting groove (304) sliding connection's fixed support arm (201), be provided with spacing slider (202) on the lateral surface of fixed support arm (201), the inside of square mounting groove (304) seted up with spacing slider (202) sliding connection's spacing spout (305), spacing spout (305) do not run through data line is accomodate structure (3), spacing spout (305) are used for right spacing slider (202) carry on spacingly.

5. The detachable integrated mobile phone charger according to claim 1, wherein: the outer side face of the storage bin supporting arm (5) is fixedly provided with a magnetic anti-skidding sleeve (17), the magnetic anti-skidding sleeve (17) is fixedly arranged on the outer side face of the storage bin supporting arm (5) in a cementing mode, an iron wire net (16) is fixedly arranged inside the data connecting line (15), and the magnetic anti-skidding sleeve (17) is used for adsorbing the iron wire net (16) on the data connecting line (15).

6. The detachable integrated mobile phone charger according to claim 1, wherein: the push-pull plate (302) is provided with a second handle groove (303), one end, close to the data line storage structure (3), of the charger shell (1) is provided with a first handle groove (102), and the first handle groove (102) and the second handle groove (303) are on the same horizontal axis.

7. The detachable integrated mobile phone charger according to claim 1, wherein: a plurality of first magnetic steels (20) are fixedly arranged on one side surface of the data line accommodating structure (3) close to the charger shell (1), second magnetic steels (21) corresponding to the first magnetic steels (20) are fixedly arranged on one end surface of the charger shell (1), and the contact surfaces of the first magnetic steels (20) and the second magnetic steels (21) are opposite in magnetism; a line arranging hole (22) is formed in one end, close to the data line containing structure (3), of the fixing plate (2), and the line arranging hole (22) is used for extending a data connecting line (15) to the outside of the charger shell (1); an anti-slip ring (18) is fixedly arranged on the outer side surface of the charger shell (1), and a soft rubber waterproof pad (19) is fixedly arranged at the joint of the metal plug pin (10) and the charger joint (4).

8. The detachable integrated mobile phone charger according to claim 1, wherein: a switching mechanism (24) is arranged between the charger connector (4) and the metal plug pins (10), the switching mechanism (24) comprises a rotating shaft (2401), a standby connecting seat (2402), a plug pin connecting seat (2403), a switching button, standby metal plug pins (2405), a clamping piece, a matching groove (2404), a telescopic piece and a conductive end (2406), the rotating shaft (2401) is rotatably arranged in the charger connector (4), the conductive end (2406) is fixedly arranged in the charger connector (4), one end of the conductive end (2406) is connected with the movable head magnetic chuck (8), one end, far away from the movable head magnetic chuck (8), of the conductive end (2406) is arranged at the center of the rotating shaft (2401) and is in surface contact connection with the rotating shaft (2401), the switching button is arranged on the outer side of the charger connector (4) and is connected with the rotating shaft (2401), the spare connecting seat (2402) and the pin connecting seat (2403) are fixedly arranged on the surface of the rotating shaft (2401), the spare connecting seat (2402) and the pin connecting seat (2403) are arranged at a right angle, the metal pins (10) are arranged inside the pin connecting seat (2403) through telescopic pieces, the spare metal pins (2405) are arranged inside the spare connecting seat (2402) through telescopic pieces, the conjunction grooves (2404) are arranged on one side surface of the charger connector (4) where the metal pins (10) are arranged, the number of the conjunction grooves (2404) is two, the two conjunction grooves (2404) correspond to the pin connecting seat (2403) and the spare connecting seat (2402) respectively, the clamping pieces are symmetrically arranged on the inner wall surfaces of two sides of the conjunction grooves (2404) respectively, and are clamped with the side surfaces of the spare connecting seat (2402) and the pin connecting seat (2403) respectively, the rotating shaft (2401), the spare connecting seat (2402), the inner wall of the pin connecting seat (2403), the spare metal pin (2405), the telescopic piece and the conductive end (2406) are all made of conductive materials.

9. A method for using the separable integrated mobile phone charger according to any one of claims 1 to 8, wherein: the method comprises the following steps:

s1: firstly, a connector chip (901) on a data line USB connector (9) is inserted into a USB interface (501), then a lock column (902) on the USB connector (9) is inserted into a lock groove (502), so that a transmission rod (11) moves upwards under the action of a spring (14), and then a lock head (13) is inserted into a lock hole (903);

s2: when the mobile phone support is not needed to be charged, the data wire is taken down from the storage bin support arm (5), then clamped in the wire arranging hole (22), and pulled out;

s3: when the mobile phone needs to be supported and charged, the data line storage structure (3) is pulled out through the second handle groove (303) on the push-pull plate (302) and the first handle groove (102) on the charger shell (1), and then the mobile phone is placed on the sealing plate (301) and the storage bin supporting arm (5) of the push-pull plate (302);

s4: then the charger joint (4) is inserted into a power socket, and the angle between the charger shell (1) and the charger joint (4) is rotated;

s5: after the use is finished, the USB connector (9) on the data line is taken down by pressing the locking piece (6), then the data line is wound on the supporting arm (5) of the storage bin, and the data line storage structure (3) is pushed into the charger shell (1).

Images