Embodiment
Refer to Fig. 1, the charging base 1 in one embodiment of the invention comprises one first supporting part 10 and one second supporting part 20 mutually abutted.Described second supporting part 20 can rotate relative to the first supporting part 10.
Refer to Fig. 2 and Fig. 3, described first supporting part 10 comprise one first framework 11, the circuit board 12 be housed in the first framework 11, the charging connector 13 that is electrically connected with circuit board 12.The surface of described first framework 11 forms one first accepting groove 14 towards the side marginal trough of the second supporting part 20.One opening 15 is opened in described first accepting groove 14.Charging connector 13 on described circuit board 12 is exposed in this first accepting groove 14 through outside described opening 15.
Described first framework 11 comprises a smooth top cover 111, from the edge perpendicular of described top cover 111 to the first side wall 112 of lower recess and a smooth bottom 113.Described top cover 111 forms one first receiving space 110 jointly with described the first side wall 112.In the present embodiment, described first framework 11 is the framework of a rectangle.
Described circuit board 12 is a smooth plate body.Described circuit board 12 is housed in described first receiving space 110.Described charging connector 13 is tilted to extension from the upper surface of described circuit board 12.Certainly, described charging connector 13 also can from the upper surface Vertical dimension extension of described circuit board 12.Described charging connector 13 can be the USB interface of a standard or is a Micro-USB interface.In the present embodiment, described charging connector 13 is the Micro-USB interface of extensive use in existing electronic component.
The size of described opening 15 is suitable with the size of described charging connector 13, passes for described charging connector 13.Preferably, the length of described charging connector 13 is greater than the length of described opening 15, to be exposed at outward in described first accepting groove 14 through described opening 15 by described charging connector 13.
The upper and lower surface of described second supporting part 20 is recessed to form the second different accepting groove 22 of size and the 3rd accepting groove 23 respectively towards a lateral edges of described first supporting part 10.Relative to described first supporting part 10, described second supporting part 20 rotates that described second accepting groove 22 and the 3rd accepting groove 23 can be coordinated from described first accepting groove 14 respectively and forms the different resettlement section of size.
Described second supporting part 20 is equal with the height of described first supporting part 10, and size is suitable.Described second supporting part 20 comprises upper cover 21 and a lower cover 24.Described upper cover 21 comprises a top board 211, from the edge perpendicular of top board 211 to the second sidewall 212 of downward-extension.Described top board 211 forms one second receiving space 210 jointly with described second sidewall 212.
In the present embodiment, described second accepting groove 22 is formed towards the side marginal trough of described first supporting part 10 from described top board 211 surface, and described 3rd accepting groove 23 is recessed to form towards the side of described first supporting part 10 from described lower cover 24 outer surface.Size and described first accepting groove 14 of described second accepting groove 22 match, and the length of described second accepting groove 22 and width equal length and the width of described first accepting groove 14.
The length of described 3rd accepting groove 23 equals the length of described second accepting groove 22, and the width of described 3rd accepting groove 23 is greater than the width of described second accepting groove 22.
In the present embodiment, described first supporting part 10 rotates fixing with described second supporting part 20 by a pivot structure 40.
The first side wall 112 that described first supporting part 10 and described second supporting part 20 abut against offers one first screw 1120.Described second supporting part 20 offers second screw 2120 corresponding with described first screw 1120 on the second sidewall 212 that described first supporting part 10 abuts against.
The nut 43 that described pivot structure 40 comprises a screw 41 and mates with described screw 41.Described screw 41 comprises nut 411 and a screw rod 412.The size of described nut 411 is greater than the size of described first screw 1120.The diameter of described screw rod 412 is slightly less than the diameter of described first screw 1120 and the second screw 2120, so that through described first screw 1120 and the second screw 2120.
During assembling, the screw rod 412 of described screw 41 is successively through the first screw 1120 on described first supporting part 10 and the second screw 2120 on the second supporting part 20.Described nut 43 is fixed on the far-end that described screw rod 412 is positioned at the second receiving space 210 of the second supporting part 20, described first supporting part 10 and the second supporting part 20 to be fixed together.
Further, the outer surface of the first side wall 112, second sidewall 212 that described first supporting part 10 abuts mutually with described second supporting part 20 forms one first caulking groove 114 and the second caulking groove 213 respectively to sunken inside.Described pivot structure 40 also can comprise the auxiliary stator 42 coordinated with described first caulking groove 114 and the second caulking groove 213.
Described first caulking groove 114 and the second caulking groove 213 are circle.Described first screw 1120 is through the center of described first caulking groove 114.Described second screw 2120 is through the center of described second caulking groove 213.
The periphery of described first caulking groove 114 forms multiple first groove 1130 respectively.Spaced setting between described first groove 1130.Described first groove 1130 is arranged in the inside of the first caulking groove 114 along the periphery of described first caulking groove 114.Described first groove 1130 is in hemispherical.
The periphery of described second caulking groove 213 forms multiple second groove 2130 respectively.Between described second groove 2130, interval is arranged.Described second groove 2130 is arranged in the inside of the second caulking groove 213 along the periphery of described second caulking groove 213.Described second groove 2130 is in hemispherical.The size of described second caulking groove 213 and described first caulking groove 114 and equal and opposite in direction.The second groove 2130 on described second caulking groove 213 is arranged with the first groove 1130 one_to_one corresponding on described first caulking groove 114.
Described auxiliary stator 42 is ring-type, offers pass through aperture 421 in the middle part of it, passes for described screw 41.
The relative two sides of described auxiliary stator 42 form multiple elastic bumps 422 respectively.These elastic bumps 422 described arrange along the periphery of the relative both side surface of described auxiliary stator 42, and mutually corresponding with described first groove 1130 and the second groove 2130 respectively.
After assembling, described auxiliary stator 42 between described first supporting part 10 and two the first side wall 112, second sidewalls 212 mutually abutted of the second supporting part 20, and is set on the screw rod 412 of described screw 41.Particularly, described auxiliary stator 42 is housed in the space that described first caulking groove 114 and the second caulking groove 213 surround jointly.Described auxiliary stator 42 relatively on two sides elastic bumps 422 to be correspondingly respectively housed in the first corresponding groove 1130 and the second groove 2130.
When described second supporting part 20 rotates relative to the first supporting part 10, the elastic bumps 422 of the relative both sides on described auxiliary stator 42 circumferentially originally moves to another adjacent first groove 1130, another second groove 2130 in side from one first groove 1130, second groove 2130 respectively.In the present embodiment, these elastic bumps 422 described are in order to be more stably fixed on the state after rotation by described first supporting part 10 and the second supporting part 20.
Certainly, in order to prevent electronic component when charging, charging base 1 slides, and the lower surface of described first supporting part 10 is provided with the first slipmat 16, and the upper and lower surface of described second supporting part 20 is respectively arranged with the second slipmat 26.In the present embodiment, described first slipmat 16 and the second slipmat 26 are the lamellar body of strip.Described first slipmat 16 is arranged on the lateral edges of lower surface away from the second supporting part 20 of the first supporting part 10.Described second slipmat 26 is separately positioned on the lateral edges of the second upper and lower surface of supporting part 20 away from the first supporting part 10.
In charging base 1 of the present invention, because described second supporting part 20 can rotate to make described second accepting groove 22 and the 3rd accepting groove 23 can coordinate with the first accepting groove 14 of described first supporting part 10 resettlement section being formed and vary in size respectively relative to described first supporting part 10, thus make the charging base 1 in this case at least be applicable to the electronic component of two kinds of different sizes, compared to traditional cradle, there is wider suitability.