CN210272757U

CN210272757U - Building blocks robot charger

Info

Publication number: CN210272757U
Application number: CN201921024891.9U
Authority: CN
Inventors: 王文仪; 温守轰; 邓毅
Original assignee: Guilin Normal College
Current assignee: Guilin Normal College
Priority date: 2019-07-03
Filing date: 2019-07-03
Publication date: 2020-04-07
Anticipated expiration: 2029-07-03

Abstract

The utility model relates to the technical field of chargers, and a building blocks robot charger is disclosed, including charger shell and charger subassembly, charger subassembly is located charger shell's inside setting, charger shell's inside is equipped with damper and is connected with charger subassembly through damper, charger shell's lower lateral wall is pegged graft and is had the inserted bar that two symmetries set up, the pole wall of two inserted bars is all fixed the cup joint has changeed the piece, two changeing the piece are cylindrical setting, two changeing the piece all rotate with charger shell's lower lateral wall through first antifriction bearing and are connected, charger subassembly's lower extreme all through first wire respectively with two inserted bar electric connection. The utility model discloses can carry out the shock attenuation to the charger internal member, avoid the charger to drop and cause the damage to internal member, and can adjust the angle that opens and shuts between two inserted bars on the charger, be convenient for adapt to the socket of different jacks.

Description

Building blocks robot charger

Technical Field

The utility model relates to a charger technical field especially relates to a building blocks robot charger.

Background

The charger adopts a high-frequency power supply technology, applies an advanced intelligent dynamic adjustment charging technology, the power frequency machine is designed by the traditional analog circuit principle, the internal electric devices of the machine are large, and small noise exists in the general operation with large load, but the machine type has stronger resistance performance in severe power grid environment conditions, and the reliability and the stability are stronger than those of the high-frequency machine.

At present, building blocks robot need use the charger to charge when using, but among the prior art, the internal element of charger is fixed setting, and generally place more random after the charger uses, takes place to drop easily, causes the damage to the internal element of charger easily, and the inserted bar on the charger is fixed setting, and the jack on the socket is fixed, leads to the charger can't cooperate the use with the socket of different jacks, and the people of not being convenient for use, consequently, provides a building blocks robot charger.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving among the prior art charger internal member and for fixed setting, and the charger generally places more random after using, takes place to drop easily, causes the damage to the charger internal member easily, and the inserted bar on the charger is fixed setting, and the jack on the socket is fixed, leads to the charger can't cooperate the use with the socket of different jacks, the problem that people used not convenient for, and the building blocks robot charger that provides.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a building block robot charger comprises a charger shell and a charger component, wherein the charger component is arranged in the charger shell, the interior of the charger shell is provided with a damping mechanism and is connected with the charger component through the damping mechanism, the lower side wall of the charger shell is inserted with two symmetrically arranged insertion rods, the rod walls of the two insertion rods are fixedly sleeved with rotating blocks which are arranged in a cylindrical shape, the two rotating blocks are rotatably connected with the lower side wall of the charger shell through first rolling bearings, the lower end of the charger component is respectively and electrically connected with the two insertion rods through first wires, the interior of the charger shell is provided with an adjusting mechanism and is connected with the two insertion rods through the adjusting mechanism, the fixed grafting of upper end of charger housing has the charging wire, the upper end of charger subassembly passes through second wire and charging wire electric connection.

Preferably, the damping mechanism comprises two groups of first fixing blocks, two groups of springs, two second fixing blocks and two sliding rods, the two groups of first fixing blocks are respectively and fixedly connected with the left side wall and the right side wall of the charger component, and each group of two first fixed blocks are respectively and fixedly connected with the upper end and the lower end of the side wall of the charger component, two second fixed blocks are respectively and fixedly connected with the left inner side wall and the right inner side wall of the charger shell, the two second fixed blocks are respectively arranged in the two groups of first fixed blocks, the two sliding rods are respectively and vertically arranged in the two groups of first fixed blocks, and the upper and lower both ends of slide bar respectively with two first fixed block fixed connection of same group, two the second fixed block all through the through-hole respectively with two slide bar sliding connection, every group is two the spring respectively with the upper and lower both ends fixed connection of second fixed block, two the spring all cup joints with the slide bar activity.

Preferably, adjustment mechanism includes two worm wheels, two worms and bull stick, two the worm wheel is located the fixed cover of the inside one end of charger housing with two inserted bars respectively and connects, two the worm is respectively with the fixed grafting in pole wall both sides of bull stick, the bull stick is located the inside of charger housing and transversely sets up, and the both ends of bull stick all rotate with two lateral walls of the left and right sides of charger housing respectively through second antifriction bearing and be connected, wherein one end of bull stick extends to the outside setting of charger housing, two the worm wheel is connected with two worm meshes respectively, and the meshing direction of two worm wheels and two worms sets up in reverse.

Preferably, one end of the rotating rod, which is located outside the charger shell, is fixedly connected with a knob, and anti-skid grains are arranged on the surface of the knob.

Preferably, the outer side of the charger shell is sleeved with a rubber sleeve.

Preferably, a plurality of uniformly distributed heat dissipation holes are formed in the front side of the charger shell, and a dust screen is fixedly arranged inside the heat dissipation holes.

Compared with the prior art, the utility model provides a building blocks robot charger possesses following beneficial effect:

1. this building blocks robot charger through mutually supporting of two sets of first fixed blocks, two sets of springs, two second fixed blocks and two slide bars that are equipped with, can realize carrying out shock attenuation from top to bottom to the charger subassembly, can reduce the vibrations to the charger subassembly when the charger drops, avoids causing the damage to the charger internal element.

2. This building blocks robot charger through mutually supporting of bull stick, two worms and two worm wheels that are equipped with, can make two inserted bar antiport to can adjust the angle that opens and shuts between two inserted bars, be convenient for adapt to the socket of different jacks.

The part that does not relate to among the device all is the same with prior art or can adopt prior art to realize, the utility model discloses can carry out the shock attenuation to charger internal element, avoid the charger to drop and cause the damage to internal element, and can adjust the angle that opens and shuts between two inserted bars on the charger, be convenient for adapt to the socket of different jacks.

Drawings

Fig. 1 is a schematic structural view of a building block robot charger according to the present invention;

fig. 2 is the utility model provides an internal structure schematic diagram of building blocks robot charger.

In the figure: the charger comprises a charger shell 1, a charger component 2, an inserting rod 3, a rotating block 4, a charging wire 5, a first fixing block 6, a spring 7, a second fixing block 8, a sliding rod 9, a worm wheel 10, a worm 11, a rotating rod 12, a knob 13, a rubber sleeve 14 and a dust screen 15.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a building blocks robot charger, including charger housing 1 and charger component 2, charger component 2 is located the inside setting of charger housing 1, the inside of charger housing 1 is equipped with damper and is connected with charger component 2 through damper, charger housing 1's lower lateral wall is pegged graft and is had the inserted bar 3 that two symmetries set up, the pole wall of two inserted bars 3 is all fixed has been cup jointed and has been changeed piece 4, two commentaries on classics pieces 4 are cylindrical setting, two commentaries on classics pieces 4 all rotate with charger housing 1's lower lateral wall through first antifriction bearing and be connected, charger component 2's lower extreme all through first wire respectively with two inserted bar 3 electric connection, charger housing 1's inside is equipped with adjustment mechanism and is connected with two inserted bars 3 through adjustment mechanism, charger housing 1's upper end is fixed to be pegged graft and is had charging wire 5, charger component 2's upper end is through second wire and charging wire 5 electric.

The damping mechanism comprises two groups of first fixed blocks 6, two groups of springs 7, two second fixed blocks 8 and two sliding rods 9, wherein the two groups of first fixed blocks 6 are respectively and fixedly connected with the left side wall and the right side wall of the charger component 2, the two first fixed blocks 6 of each group are respectively and fixedly connected with the upper end and the lower end of the side wall of the charger component 2, the two second fixed blocks 8 are respectively and fixedly connected with the left side wall and the right side wall of the charger shell 1, the two second fixed blocks 8 are respectively arranged in the two groups of first fixed blocks 6, the two sliding rods 9 are respectively and vertically arranged in the two groups of first fixed blocks 6, the upper end and the lower end of each sliding rod 9 are respectively and fixedly connected with the two first fixed blocks 6 of the same group, the two second fixed blocks 8 are respectively and slidably connected with the two sliding rods 9 through, two springs 7 all cup joint with the activity of slide bar 9, and two first fixed blocks 6 of every group can support two springs 7 of the same group respectively, and two springs 7 can apply relative elasticity to same second fixed block 8 to can carry out shock attenuation from top to bottom to second fixed block 8, second fixed block 8 can carry out the shock attenuation to charger subassembly 2.

The adjusting mechanism comprises two worm wheels 10, two worms 11 and a rotating rod 12, the two worm wheels 10 are fixedly sleeved with one ends of the two inserting rods 3 positioned in the charger shell 1 respectively, the two worms 11 are fixedly inserted with two sides of the rod wall of the rotating rod 12 respectively, the rotating rod 12 is positioned in the charger shell 1 and transversely arranged, and both ends of the rotating rod 12 are respectively and rotatably connected with the left and right side walls of the charger shell 1 through second rolling bearings, one end of the rotating rod 12 extends to the outside of the charger shell 1, the two worm wheels 10 are respectively and meshingly connected with the two worms 11, and the meshing directions of the two worm wheels 10 and the two worms 11 are reversely arranged, the rotating rod 12 can drive the two worms 11 to rotate, the two worms 11 can drive the two worm wheels 10 to reversely rotate, and the two worm wheels 10 can drive the two inserting rods 3 to reversely rotate, so that the opening and closing angle between the two inserting rods 3 can be adjusted.

The rotating rod 12 is fixedly connected with a knob 13 at one end outside the charger shell 1, and anti-skid grains are arranged on the surface of the knob 13, so that people can rotate the knob 13 to drive the rotating rod 12 to rotate.

The outside cover of charger housing 1 is equipped with rubber sleeve 14, can protect charger housing 1, reduces the charger and drops the damage that causes charger housing 1, and two inserted bars 3 and bull stick 12 all pass rubber sleeve 14 and with rubber sleeve 14 swing joint.

The front side of charger housing 1 opens and is equipped with a plurality of evenly distributed's louvre, and the fixed dust screen 15 that is equipped with in inside of louvre can be convenient for the charger during operation dispels the heat, and avoids the inside that the dust got into the charger.

The utility model discloses in, during the use, can support two springs 7 of the same group respectively through two first fixed blocks 6 of every group, two springs 7 can apply relative elasticity to same second fixed block 8, thereby can carry out the shock attenuation from top to bottom to second fixed block 8, second fixed block 8 can carry out the shock attenuation to charger unit 2, avoid the charger to drop and cause the damage to the charger internal element, it is rotatory to rotate bull stick 12 and can drive two worms 11, two worms 11 can drive two worm wheel 10 antiport, two worm wheel 10 can drive two inserted bars 3 antiport, thereby can adjust the angle that opens and shuts between two inserted bars 3, thereby can adapt to the socket with different jacks, be convenient for people to use.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. A building block robot charger comprises a charger shell (1) and a charger component (2), and is characterized in that the charger component (2) is arranged inside the charger shell (1), a damping mechanism is arranged inside the charger shell (1) and connected with the charger component (2) through the damping mechanism, two symmetrically-arranged insertion rods (3) are inserted into the lower side wall of the charger shell (1), rotating blocks (4) are fixedly sleeved on the rod walls of the two insertion rods (3), the two rotating blocks (4) are both arranged in a cylindrical shape, the two rotating blocks (4) are both rotatably connected with the lower side wall of the charger shell (1) through first rolling bearings, the lower end of the charger component (2) is respectively and electrically connected with the two insertion rods (3) through first leads, an adjusting mechanism is arranged inside the charger shell (1) and connected with the two insertion rods (3) through the adjusting mechanism, the upper end of charger shell (1) is fixed to be pegged graft and is equipped with charging wire (5), the upper end of charger subassembly (2) is through second wire and charging wire (5) electric connection.

2. The building block robot charger according to claim 1, wherein the shock absorbing mechanism comprises two sets of first fixing blocks (6), two sets of springs (7), two second fixing blocks (8) and two sliding rods (9), the two sets of first fixing blocks (6) are respectively fixedly connected with the left and right side walls of the charger assembly (2), the two first fixing blocks (6) are respectively fixedly connected with the upper and lower ends of the side walls of the charger assembly (2), the two second fixing blocks (8) are respectively fixedly connected with the left and right inner side walls of the charger housing (1), the two second fixing blocks (8) are respectively arranged inside the two sets of first fixing blocks (6), the two sliding rods (9) are respectively arranged vertically inside the two sets of first fixing blocks (6), and the upper and lower ends of the sliding rods (9) are respectively fixedly connected with the two first fixing blocks (6) of the same set, two second fixed block (8) all through the through-hole respectively with two slide bar (9) sliding connection, every group two spring (7) respectively with the upper and lower both ends fixed connection of second fixed block (8), two spring (7) all cup joint with slide bar (9) activity.

3. The building block robot charger according to claim 1, wherein the adjusting mechanism comprises two worm wheels (10), two worms (11) and a rotating rod (12), the two worm wheels (10) are respectively fixedly sleeved with one ends of the two inserting rods (3) positioned in the charger shell (1), the two worms (11) are respectively fixedly inserted into two sides of the rod wall of the rotating rod (12), the rotating rod (12) is positioned in the charger shell (1) and transversely arranged, and both ends of the rotating rod (12) are respectively and rotationally connected with the left side wall and the right side wall of the charger shell (1) through second rolling bearings, one end of the rotating rod (12) extends to the outside of the charger shell (1) and is provided, the two worm wheels (10) are respectively meshed and connected with the two worms (11), and the meshing directions of the two worm wheels (10) and the two worms (11) are arranged in opposite directions.

4. The building block robot charger according to claim 3, characterized in that a knob (13) is fixedly connected to one end of the rotating rod (12) located outside the charger housing (1), and anti-slip patterns are arranged on the surface of the knob (13).

5. A building block robot charger according to claim 1, characterized in that the outer side of the charger housing (1) is sleeved with a rubber sleeve (14).

6. The building block robot charger according to claim 1, wherein a plurality of uniformly distributed heat dissipation holes are formed in the front side of the charger housing (1), and a dust screen (15) is fixed inside the heat dissipation holes.