CN109347169B

CN109347169B - Multifunctional energy-saving charger baby

Info

Publication number: CN109347169B
Application number: CN201811332765.XA
Authority: CN
Inventors: 曲铭凯
Original assignee: Hangzhou Tanbu Technology Co ltd
Current assignee: Ma Jinyu
Priority date: 2018-11-09
Filing date: 2018-11-09
Publication date: 2020-04-07
Anticipated expiration: 2038-11-09
Also published as: CN109347169A

Abstract

The invention discloses a multifunctional energy-saving charger baby, which comprises two shells capable of rotating relatively; a left handle assembly is mounted in one of the housings; a right handle component is arranged in the other shell; the right handle assembly comprises a right handle and a right handle linkage rod rotatably mounted in the housing. A right handle rotating hole which is rotationally connected with the right handle linkage rod is formed at the end part of the side wall of the right handle close to one side; a cam part is formed at one end of the right handle close to the right handle rotating hole; the opposite sides of the two shells are respectively fixedly connected with a cover body; each cover body is formed with a sliding sleeve; a left button and a right button which can be relatively inserted and fixed are respectively installed in each sliding sleeve in a sliding way; a generator is arranged in the shell. According to the invention, the right handle is in a contraction state, the left button and the right button are mutually inserted, so that the two shells are relatively fixed, and meanwhile, the left handle and the right handle can synchronously rotate; and rotating the right handle to enable the right handle to be in an extending state, holding the right handle, and rotating the shell to generate power.

Description

Multifunctional energy-saving charger baby

Technical Field

The invention belongs to the technical field of daily sundries, and particularly relates to a multifunctional energy-saving charger.

Background

Chinese patent document No. CN108206557A discloses a multifunctional energy-saving charger, which is characterized in that the charger includes a charger body and a concave cavity, the concave cavity is disposed on one side of the charger body, a plurality of air holes penetrating through the concave cavity and the charger body are disposed on the joint surface of the concave cavity and the charger body, the air holes are connected with a micro air pump disposed in the charger body through a conduit, a receiving groove is formed by outwardly extending the sidewall of the charger body, and the receiving groove and the charger body are integrally manufactured by a punching machine or an injection molding machine. The mobile phone charger has the advantages that the redundant wires are arranged in the accommodating groove, the mobile phone is well attached to the charger, the problems that wires of various interfaces of the usb are long and are cumbersome and easy to slide are well solved, and the mobile phone charger has the advantages of being simple in structure, easy to carry and convenient to use.

Above-mentioned patent is in the use, and when the user is outdoor, if the battery internal power consumption light, can't carry out emergent charging.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: to the not enough that prior art exists, provide the multi-functional energy-conserving treasured that charges that can carry out hand power generation.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a multifunctional energy-saving charger baby comprises two shells which can rotate relatively; one of the shells is a left shell, and the other shell is a right shell; and a storage battery is respectively arranged in each shell.

A right handle groove is formed in one side, far away from the left shell, of the upper end of the right shell; a right handle assembly is mounted in the right shell; the right handle assembly comprises a right handle arranged in the right handle groove and a right handle linkage rod which is rotatably arranged in the right shell and has an axis vertical to the long side wall of the right shell.

A right handle rotating hole is formed in the position, close to one side end, of the right handle side wall; and a right handle through groove which is vertical to the axis of the right handle rotating hole and penetrates through the right handle rotating hole is formed in the side wall of the right handle.

And a right handle connecting part which is inserted into the right handle through groove and is rotationally connected with the right handle rotating hole through a pin shaft is formed at one end of the right handle linkage rod.

A cam part is formed at one end of the right handle close to the right handle rotating hole; when the axis of the right handle is superposed with the axis of the right handle linkage rod, the right handle linkage rod is positioned at the outer side limit position, and the right handle is in an extension state; when the axis of the right handle is vertical to the axis of the right handle linkage rod, the right handle linkage rod is located at the inner side limit position, and the right handle is in a contraction state.

The opposite sides of the two shells are respectively fixedly connected with a cover body, the left cover body is connected with the left shell, and the right cover body is connected with the right shell; a sliding sleeve which is coaxially arranged with the right handle linkage rod is formed on the side wall of each cover body close to the corresponding inner part of the shell; and a button jack which is coaxially arranged with the sliding sleeve and has a diameter smaller than the diameter of the inner wall of the sliding sleeve is formed on the cover body.

A right button fixedly connected with the right handle linkage rod is connected in a sliding sleeve on the right cover body in a sliding manner; and a driving convex strip capable of penetrating through the button jack is formed at the eccentric position of one end, close to the button jack, of the right button.

A left handle groove corresponding to the right handle groove is formed in one side, far away from the right shell, of the upper end of the left shell; a left handle assembly driven by the right handle assembly is mounted in the left shell; the left handle assembly comprises a left handle positioned in the left handle groove and a left handle linkage rod which is fixedly connected with the left handle and is coaxially arranged with the right handle linkage rod.

A left button which is connected with the left handle linkage rod in a circumferential transmission way is connected in the sliding sleeve of the left cover body in a sliding way; the left button is close to right casing one end shaping have can with the drive sand grip is pegged graft and then makes left handle and right handle can follow left handle gangbar circumferential direction synchronous pivoted sand grip inserting groove.

One side of the left cover body, which is far away from the sliding sleeve, is fixedly connected with a connecting part which is rotationally connected with the right cover body; and a generator in transmission connection with the connecting part is fixedly connected in the right shell.

A controller is arranged in the shell; the generator and the storage battery are respectively and electrically connected with the controller.

As an optimization scheme: the left button comprises a left button retaining ring with the diameter equivalent to that of the inner wall of the sliding sleeve and a left button connecting column which is formed at one end of the left button retaining ring and can be spliced with the button jack; the convex strip inserting groove is formed in the end part, close to one side of the right shell, of the left button connecting column.

A left button connecting part with a non-circular section is formed at one end of the left handle linkage rod, which is close to the left button; the left button connecting portion is connected with the left button connecting portion, and the left button connecting portion is connected with the left button connecting portion.

One end of the sliding sleeve, which is far away from the cover body, is fixedly connected with a sliding sleeve end cover; and a button spring is arranged between the left button retaining ring and the sliding sleeve end cover in the sliding sleeve.

As an optimization scheme: a driving plate fixedly connected with the left cover body is formed at one end of the connecting part; one end of the connecting part, far away from the driving plate, is fixedly connected with a driving gear which is rotationally connected with the right cover body; the driving gear is in transmission connection with the generator through a speed reduction gear set.

A connecting part through hole is formed in the center of the connecting part; a conductive tube capable of conducting electricity is fixedly connected in the through hole of the connecting part; and the two storage batteries are respectively connected with a conductive plug which is rotatably inserted into the conductive tube.

As an optimization scheme: a charging wire turntable mounting groove is formed at the lower end of each shell; and the shell is provided with a winding assembly.

The wire winding subassembly is including rotating the connection the driving-disc in the charging wire carousel mounting groove, be located the casing with the coaxial fixed connection's of driving-disc wire reel to and coil the charging wire on the wire reel.

A charging wire slot is formed in the side wall of the shell; wire reel one end fixedly connected with can sliding connection be kept away from to the charging wire joint in the charging wire slot.

One the lid is gone up the position shaping of being close to the charging wire slot has the charging wire head draw-in groove that can hold the charging wire joint.

As an optimization scheme: a plurality of mobile phone clamping grooves vertical to the cover body are formed in the position, close to the right handle groove, of the upper end of the shell at equal intervals.

The upper end of the short side wall of the left handle groove close to the left handle linkage rod is provided with an obliquely arranged positioning wall; the same positioning wall is formed in the position, corresponding to the positioning wall in the left handle groove, in the right handle groove.

Compared with the prior art, the invention has the beneficial effects that: when hand power generation needs to be carried out, the user rotates the right handle along the plane where the axis of the right handle linkage rod is located, and in the process, the cam part is abutted to the side wall of the right handle groove, so that the right handle linkage rod drives the right button to move outwards, and the right handle is in an extending state until the right handle is separated from the convex strip inserting groove.

The left shell is held by the left hand of a user, the right handle is held by the right hand of the user, the right shell is rotated, the two shells rotate relatively, and then the connecting portion drives the generator to rotate to charge the storage battery.

When a user finishes generating electricity, the two shells are rotated to be opposite to each other, then the right handle is rotated to be in a contraction state, in the process, the right handle linkage rod drives the right button to move towards the left button, and the convex strip is driven to abut against the end face of the left button; and then, the right handle is rotated along the circumferential direction of the right handle linkage rod to enable the left handle to be parallel to the right handle, and the raised strips and the raised strip insertion grooves are driven to be mutually inserted and connected, so that the two shells are mutually fixed.

When a user needs the mobile phone support, the right handle is rotated in the circumferential direction, so that the right handle and the left handle are rotated synchronously until the right handle and the left handle are abutted against the positioning wall, the user can place the mobile phone in the mobile phone clamping groove, and the upper end of the mobile phone is abutted against the left handle or the right handle.

Rotating the right handle to separate the two shells, drawing out a charging wire and placing the charging wire in the clamping groove of the charging wire head; then the two shells are relatively fixed, so that the charging wire connector cannot be separated from the charging wire connector clamping groove; the user draws out the charging wire, and the user can hang the charging wire on the neck or other objects, so that the user does not need to hold the charging device in the moving process.

When retrieving the charging wire, the user holds the driving-disc sand grip to the rotation driving-disc, make the charging wire on winding back the wire reel again.

According to the invention, the right handle is in a contraction state, the left button and the right button are mutually inserted, so that the two shells are relatively fixed, and meanwhile, the left handle and the right handle can synchronously rotate.

According to the invention, the right handle is in an extension state by rotating the right handle, and the two shells rotate relatively to generate electricity by holding the right handle, so that the electric energy can be saved without charging.

According to the invention, the charging wire connector is arranged in the slot of the charging wire connector, and the charging wire is pulled out, so that the charging wire connector is hung at a certain position, and the storage of the charging wire connector is facilitated.

Drawings

Fig. 1 and 2 are schematic structural diagrams of the present invention.

Fig. 3 is a schematic cross-sectional structure of the present invention.

Fig. 4 is an exploded view of the present invention.

Fig. 5 and 6 are schematic structural views of the left shell of the invention.

Fig. 7 is a schematic structural diagram of the left cover body of the present invention.

Fig. 8 is a schematic structural view of the right housing of the present invention.

Fig. 9 and 10 are schematic structural views of the right cover body according to the present invention.

Fig. 11 is a schematic structural view of the connecting portion of the present invention.

Fig. 12 is a schematic view of the right grip of the present invention in a contracted state.

Fig. 13 is an enlarged view of the region a of fig. 12 according to the present invention.

FIG. 14 is an exploded view of the left handle assembly of the present invention.

Fig. 15 is a schematic structural diagram of the left button of the present invention.

Fig. 16 is an exploded view of the right handle assembly of the present invention.

Fig. 17 is a schematic structural view of the right button of the present invention.

Fig. 18 is an exploded view of the wire winding assembly of the present invention.

FIG. 19 is a schematic view of the left and right buttons of the present invention with the right handle in an extended position.

FIG. 20 is a schematic diagram showing the power generating state of the present invention.

Fig. 21 is a schematic view of the present invention in a suspended configuration.

Fig. 22 is a schematic structural view of the present invention as a handset support.

1. A housing; 10. a storage battery; 1a, a left shell; 1b, a right shell; 11. a left handle slot; 111. a handle jack; 112. a positioning wall; 12. a charging wire turntable mounting groove; 13. a charging wire slot; 131. a charging wire sliding port; 14. a mobile phone card slot; 15. a right handle slot; 152. a right handle rotation slot; 153. a handle socket; 2a, a left cover body; 2b, a right cover body; 21. a cover body connecting hole; 22. a sliding sleeve; 221. a button jack; 23. a charging wire head clamping groove; 231. a charging wire through groove; 3a, a left handle assembly; 3b, a right handle assembly; 31. a right handle; 311. a cam portion; 312. a right handle rotation hole; 313. a right handle through slot; 32. a sliding sleeve end cover; 33. a right handle linkage rod; 331. a right handle attachment portion; 332. a right button connection part; 34. a button spring; 35. a right button; 351. a right button connecting groove; 353. driving the convex strip; 36. a left handle; 37. a left handle linkage rod; 371. a left button connection part; 38. a left button; 381. a left button retainer ring; 3811. a left button connecting groove; 382. a left button connecting column; 3821. a raised line inserting groove; 4. a connecting portion; 41. a drive gear; 42. a drive plate; 43. a connecting portion through hole; 51. a generator; 52. a reduction gear set; 53. a controller; 6. a winding assembly; 61. a drive disc; 611. a drive plate cord; 612. a driving disc connecting column; 62. a charging wire; 621. a charging wire connector; 6211. a joint rib; 6212. the convex strips are raised; 63. and a wire spool.

Detailed Description

Example 1

As shown in fig. 1 to 22, the multifunctional energy-saving power bank of the present embodiment includes two housings 1 capable of rotating relatively; one of the shells is a left shell 1a, and the other shell is a right shell 1 b; a storage battery 10 is mounted in each of the housings.

A right handle groove 15 is formed in one side, far away from the left shell, of the upper end of the right shell; the right handle groove is far away from the side wall of the left shell and an opening is formed in the upper end of the right handle groove; a right handle component 3b is arranged in the right shell; the right handle assembly comprises a right handle 31 installed in the right handle groove and a right handle linkage rod 33 rotatably installed in the right shell, and the axis of the right handle linkage rod is perpendicular to the long side wall of the right shell.

And a handle socket 153 which is rotationally connected with the right handle linkage rod is formed at the position, far away from the center, of the side wall of the right handle groove close to one side of the left shell.

A right handle rotating hole 312 is formed in the end part, close to one side, of the right handle side wall; a right handle through groove 313 which is vertical to the axis of the right handle rotating hole and penetrates through the right handle rotating hole is formed in the side wall of the right handle;

the shaping of right side handle gangbar one end has and inserts right side handle lead to the groove with right side handle rotates the right side handle connecting portion 331 that the hole rotated the connection through the round pin axle for right side handle can enough follow right side handle gangbar circumferential direction, also can follow right side handle gangbar axis place plane rotation.

A cam part 311 is formed at one end of the right handle close to the right handle rotating hole; when the right handle rotates along the plane where the axis of the right handle linkage rod is located, the cam part abuts against the side wall, close to one side of the left shell, of the right handle groove, so that the right handle linkage rod moves towards the right handle groove, when the axis of the right handle is superposed with the axis of the right handle linkage rod, the right handle linkage rod is located at the outer limit position, and the right handle is in an extending state; when the axis of the right handle is vertical to the axis of the right handle linkage rod, the right handle linkage rod is located at the inner side limit position, and the right handle is in a contraction state.

A right handle rotating groove 152 is formed at the bottom in the right handle groove and is positioned right below the cam part; when the right handle is rotated along the circumferential direction of the right handle linkage rod, the cam part rotates to enter the right handle rotating groove, so that the right handle cannot be abutted against the bottom in the right handle groove to move when the right handle rotates.

The opposite sides of the two shells are respectively fixedly connected with a cover body, a left cover body 2a is connected with the left shell, and a right cover body 2b is connected with the right shell; a sliding sleeve 22 which is coaxial with the right handle linkage rod is formed on the side wall of each cover body close to the corresponding shell; the cover body is formed with a button jack 221 which is coaxial with the sliding sleeve and has a diameter smaller than the diameter of the inner wall of the sliding sleeve.

A right button 35 fixedly connected with the right handle linkage rod is connected in a sliding sleeve on the right cover body in a sliding manner; a driving convex strip 353 capable of penetrating through the button jack is formed at the eccentric position of one end of the right button close to the button jack; a right button connecting part 332 with a non-circular section is formed at one end, close to the right button, of the right handle linkage rod; a right button connecting groove 35 fixedly connected with the right button in an interference manner is formed at one end of the right button close to the right handle linkage rod; when the right handle linkage rod is located at the outer side limit position, the driving convex strip is located in the button jack, and when the right handle linkage rod is located at the inner side limit position, the driving convex strip is located at the outer side of the button jack.

A left handle groove 11 corresponding to the right handle groove is formed in one side, far away from the right shell, of the upper end of the left shell; a left handle component 3a driven by a right handle component is arranged in the left shell; the left handle assembly comprises a left handle 36 positioned in the left handle groove and a left handle linkage rod 37 which is fixedly connected with the left handle and is coaxially arranged with the right handle linkage rod.

And a handle insertion hole 111 which is rotationally connected with the left handle linkage rod is formed in the side wall of the left handle groove close to the right shell.

A left button 38 which is connected with the left handle linkage rod in a circumferential transmission way is connected in the sliding sleeve of the left cover body in a sliding way; a convex strip inserting groove 3821 which can be inserted into the driving convex strip to enable the left handle and the right handle to synchronously rotate along the circumferential direction of the left handle linkage rod is formed at one end, close to the right shell, of the left button; when the left handle is parallel to the right handle, the driving convex strip is opposite to the convex strip insertion groove; when the right handle is in an extension state, the driving convex strips are separated from the convex strip inserting grooves, and the two shells can rotate relatively; when the right handle is in a contraction state and the left handle is parallel to the right handle, the driving convex strips are mutually inserted into the convex strip insertion grooves, and the two shells are relatively fixed.

A connecting part 4 which is rotationally connected with the right cover body is fixedly connected to one side of the left cover body away from the sliding sleeve; and a generator 51 in transmission connection with the connecting part is fixedly connected in the right shell.

A controller 53 is mounted in the housing; the generator and the storage battery are respectively and electrically connected with the controller.

The left button comprises a left button retaining ring 381 with the diameter equivalent to that of the inner wall of the sliding sleeve and a left button connecting post 382 which is formed at one end of the left button retaining ring and can be inserted into the button jack; the convex strip inserting groove is formed in the end part, close to one side of the right shell, of the left button connecting column.

A left button connecting part 371 with a non-circular section is formed at one end of the left handle linkage rod close to the left button; the left button retaining ring is close to left handle gangbar one end shaping have with left button spread groove 3811 that left side button connecting portion pegged graft for can the synchronous rotation of circumference between left handle gangbar and the left button, axial relative slip.

One end of the sliding sleeve, which is far away from the cover body, is fixedly connected with a sliding sleeve end cover 32; a button spring 34 is arranged between the left button retainer ring and the sliding sleeve end cover in the sliding sleeve; when no external force is acted, the button spring pushes the left button to a limit position at one side, the left button retaining ring is abutted to the left cover body, and the end part of the left button connecting column is flush with the side wall of the left cover body close to the shell.

When the left handle is not parallel to the right handle and the right handle is in a contraction state, the convex strip is driven to abut against the left button connecting column and the left button moves towards the left handle linkage rod, and the button spring contracts; along right handle gangbar circumferential direction right handle, until right handle and left handle are parallel, the drive sand grip is pegged graft with the sand grip inserting groove, and left handle and right handle can rotate in step, avoid when right handle rotates to the shrink state from the extension state, left handle and right handle nonparallel, lead to left button and right button to extrude impaired relatively.

A driving plate 42 fixedly connected with the left cover body is formed at one end of the connecting part; one end of the connecting part, which is far away from the driving plate, is fixedly connected with a driving gear 41 which is rotationally connected with the right cover body; the driving gear is in transmission connection with the generator through a reduction gear set 52.

And a cover body connecting hole 21 for the connecting part to pass through is formed on one side of the cover body, which is far away from the sliding sleeve.

A connecting part through hole 43 is formed in the center of the connecting part; a conductive tube capable of conducting electricity is fixedly connected in the through hole of the connecting part; two the battery be connected with respectively with the electric conduction bolt of electricity conduction pipe rotation grafting for when two casings rotate relatively, two batteries can communicate each other.

A charging wire turntable mounting groove 12 is formed at the lower end of each shell; the housing is provided with a winding assembly 6.

The winding assembly comprises a driving disc 61 rotatably connected in the charging wire turntable mounting groove, a winding disc 63 positioned in the shell and coaxially and fixedly connected with the driving disc, and a charging wire 62 wound on the winding disc;

a driving disc convex strip 611 is formed at the upper end of the driving disc, so that a user can conveniently rotate the driving disc; a driving disc connecting column 612 fixedly connected with the wire winding disc is formed in the center of the lower end of the driving disc.

A charging wire connecting hole is formed in the center of the lower end of the wire spool; a charging wire conductive tube electrically connected with a charging wire is fixedly connected in the charging wire connecting hole; a charging wire connecting column is rotationally connected in the charging wire conductive tube; the charging wire spliced pole is connected with the controller electricity for when driving-disc drive wire reel rotated, the charging wire can be normal be connected with the controller electricity.

A charging wire slot 13 is formed in the side wall of the shell; wire reel one end fixedly connected with can sliding connection be kept away from to the charging wire 621 in the charging wire slot.

A charging wire terminal clamping groove 23 capable of accommodating a charging wire terminal is formed on one cover body at a position close to the charging wire insertion groove; the shaping has the charging wire that leads to groove 231 with charging wire head draw-in groove and external intercommunication on the lid, and when charging wire joint was located charging wire head draw-in groove, the charging wire was located the charging wire and leads to the inslot.

A joint bulge 6211 is formed at one end of the charging wire joint; the lower end of the shell is positioned right below the charging wire slot to form a charging wire sliding opening 131; the joint bulge is connected in the charging wire sliding port in a sliding mode; convex strips 6212 protruding out of the lower end of the shell are formed on the joint bulges; the user can take out charging wire connector from the charging wire slot on the arch on the outside slip sand grip when using.

And a plurality of mobile phone clamping grooves 14 vertical to the cover body are formed in the upper end of the shell close to the right handle groove at equal intervals.

A positioning wall 112 which is obliquely arranged is formed at the upper end of the short side wall of the left handle groove close to the left handle linkage rod; the same positioning wall is formed in the position, corresponding to the positioning wall in the left handle groove, in the right handle groove.

When the right handle is in a contraction state, the right handle is rotated along the circumferential direction of the right handle linkage rod, at the moment, the left handle and the right handle are synchronously rotated until the right handle abuts against the positioning wall due to the fact that the convex strips and the convex strip insertion grooves are driven to be mutually inserted, at the moment, the left handle and the right handle can be used as a mobile phone support, specifically, a user can obliquely place a mobile phone between the right handle and the left handle, and the lower end of the mobile phone is placed in a mobile phone clamping groove; the mobile phone is placed in different mobile phone card slots, so that the inclination degree of the mobile phone is different, and a user can select the mobile phone according to the requirements and the preference of the user.

The shell is provided with an illuminating lamp; a charging port is arranged on the shell; a power button is arranged at the upper end of the shell; an electric quantity indicator lamp is arranged at the upper end of the shell; the illuminating lamp, the charging port, the power button and the electric quantity indicating lamp are respectively and electrically connected with the controller.

The power button is pressed once, and the controller supplies power to the charging wire; and when the controller detects that no power is output for a long time (1-2 min), the controller stops supplying power to the charging wire.

When the charging wire outputs electric energy outwards, the controller controls the electric quantity indicator lamp to work and displays the percentage of the current residual electric quantity; when the charging wire stops outputting electric energy outwards, the controller controls the electric quantity indicating lamp to stop working.

The power supply button is continuously pressed twice within 1s, and the controller controls the illuminating lamp to work; and the controller controls the illuminating lamp to stop working by pressing the power supply button again.

The user can be connected the battery charging for charging with the charging wire with the mouth electricity that charges.

When hand power generation needs to be carried out, the user rotates the right handle along the plane where the axis of the right handle linkage rod is located, and in the process, the cam part is abutted to the side wall of the right handle groove, so that the right handle linkage rod drives the right button to move outwards, and the right handle is in an extending state until the right handle is separated from the convex strip inserting groove.

The invention rotates the right handle to enable the right handle to be in an extension state, and holds the right handle to enable the two shells to rotate relatively to generate power.

Claims

1. The utility model provides a multi-functional energy-conserving treasured that charges which characterized in that: comprises two shells which can rotate relatively; one of the shells is a left shell, and the other shell is a right shell; a storage battery is respectively arranged in each shell;

a right handle groove is formed in one side, far away from the left shell, of the upper end of the right shell; a right handle assembly is mounted in the right shell; the right handle assembly comprises a right handle arranged in the right handle groove and a right handle linkage rod which is rotatably arranged in the right shell and the axis of which is vertical to the long side wall of the right shell;

a right handle rotating hole is formed in the position, close to one side end, of the right handle side wall; a right handle through groove which is vertical to the axis of the right handle rotating hole and penetrates through the right handle rotating hole is formed in the side wall of the right handle;

a right handle connecting part which is inserted into the right handle through groove and is rotationally connected with the right handle rotating hole through a pin shaft is formed at one end of the right handle linkage rod;

a cam part is formed at one end of the right handle close to the right handle rotating hole; when the axis of the right handle is superposed with the axis of the right handle linkage rod, the right handle linkage rod is positioned at the outer side limit position, and the right handle is in an extension state; when the axis of the right handle is vertical to the axis of the right handle linkage rod, the right handle linkage rod is positioned at the inner side limit position, and the right handle is in a contraction state;

the opposite sides of the two shells are respectively fixedly connected with a cover body, the left cover body is connected with the left shell, and the right cover body is connected with the right shell; a sliding sleeve which is coaxially arranged with the right handle linkage rod is formed on the side wall of each cover body close to the corresponding inner part of the shell; a button jack which is coaxial with the sliding sleeve and is smaller in diameter than the inner wall of the sliding sleeve is formed in the cover body;

a right button fixedly connected with the right handle linkage rod is connected in a sliding sleeve on the right cover body in a sliding manner; a driving convex strip capable of penetrating through the button jack is formed at the eccentric position of one end of the right button close to the button jack;

a left handle groove corresponding to the right handle groove is formed in one side, far away from the right shell, of the upper end of the left shell; a left handle assembly driven by the right handle assembly is mounted in the left shell; the left handle assembly comprises a left handle positioned in the left handle groove and a left handle linkage rod which is fixedly connected with the left handle and is coaxially arranged with the right handle linkage rod;

a left button which is connected with the left handle linkage rod in a circumferential transmission way is connected in the sliding sleeve of the left cover body in a sliding way; one end of the left button, which is close to the right shell, is formed with a convex strip insertion groove which can be inserted with the driving convex strip so as to enable the left handle and the right handle to synchronously rotate along the circumferential direction of the left handle linkage rod; when the left handle is parallel to the right handle, the driving convex strip is opposite to the convex strip insertion groove; when the right handle is in an extension state, the driving convex strips are separated from the convex strip inserting grooves, and the two shells can rotate relatively; when the right handle is in a contraction state and the left handle is parallel to the right handle, the driving convex strips and the convex strip insertion grooves are mutually inserted, and the two shells are relatively fixed;

one side of the left cover body, which is far away from the sliding sleeve, is fixedly connected with a connecting part which is rotationally connected with the right cover body; a generator in transmission connection with the connecting part is fixedly connected in the right shell;

2. The multifunctional energy-saving charger according to claim 1, wherein: the left button comprises a left button retaining ring with the diameter equivalent to that of the inner wall of the sliding sleeve and a left button connecting column which is formed at one end of the left button retaining ring and can be spliced with the button jack; the convex strip inserting groove is formed in the end part of one side, close to the right shell, of the left button connecting column;

a left button connecting part with a non-circular section is formed at one end of the left handle linkage rod, which is close to the left button; a left button connecting groove which is spliced with the left button connecting part is formed at one end, close to the left handle linkage rod, of the left button retaining ring, so that the left handle linkage rod and the left button can rotate synchronously in the circumferential direction and slide relatively in the axial direction;

3. The multifunctional energy-saving charger according to claim 1, wherein: a driving plate fixedly connected with the left cover body is formed at one end of the connecting part; one end of the connecting part, far away from the driving plate, is fixedly connected with a driving gear which is rotationally connected with the right cover body; the driving gear is in transmission connection with the generator through a reduction gear set;

4. The multifunctional energy-saving charger according to claim 1, wherein: a charging wire turntable mounting groove is formed at the lower end of each shell; the shell is provided with a winding assembly;

the winding assembly comprises a driving disc rotatably connected in the charging wire turntable mounting groove, a winding disc positioned in the shell and coaxially and fixedly connected with the driving disc, and a charging wire wound on the winding disc;

a charging wire slot is formed in the side wall of the shell; one end of the charging wire, which is far away from the wire spool, is fixedly connected with a charging wire joint which can be connected in the charging wire slot in a sliding manner;

5. The multifunctional energy-saving charger according to claim 1, wherein: a plurality of mobile phone clamping grooves vertical to the cover body are formed in the upper end of the shell close to the right handle groove at equal intervals;