CN210821862U

CN210821862U - Charging device for scooter

Info

Publication number: CN210821862U
Application number: CN201921888500.8U
Authority: CN
Inventors: 曹少军; 叶卫富
Original assignee: Hangzhou Fitcoo Technology Co ltd
Current assignee: Hangzhou Fitcoo Technology Co ltd
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2020-06-23
Anticipated expiration: 2029-11-05

Abstract

The utility model relates to a scooter charging device, which comprises a first charging mechanism and a second charging mechanism, wherein the first charging mechanism is fixedly arranged on the road surface, and the second charging mechanism is arranged at the vertical rod of the scooter body; the first charging mechanism comprises a first shell, a charging female end and an intelligent lock, the second charging mechanism comprises a second shell and a charging male end, the charging female end and the intelligent lock are arranged on the first shell, and the second shell and the first shell can be locked through the intelligent lock; the male end that charges is installed in the second casing to can carry out the grafting cooperation with the female end that charges. The technical scheme of the utility model is that the first charging mechanism is fixedly arranged on the road surface and the second charging mechanism is arranged on the scooter, and the charging female end and the charging male end are inserted to charge the scooter, thereby solving the problem that the scooter can not be charged in time during outdoor trip; in addition, still put the scooter safety lock in the position that first charging mechanism is located through the intelligence lock.

Description

Charging device for scooter

Technical Field

The utility model relates to a fill electric pile technical field, especially relate to a scooter charging device.

Background

Because urban traffic jam conditions are more outstanding, more and more users select more convenient trip modes, therefore, in order to satisfy user's trip demand, the electronic phone car that the size is little, light in weight produces as short distance intelligent vehicle.

However, the battery endurance mileage of the electric scooter is limited, and the battery of the existing scooter needs to be replaced manually to meet the purpose of endurance. Therefore, how to conveniently and rapidly charge the electric scooter outdoors and safely park the electric scooter becomes a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a scooter charging device, this scooter charging device can convenient and fast treat the scooter that charges and charge to can lock this scooter of treating charging in order to prevent that it from losing, have better suitability.

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

a scooter charging device comprising: the first charging mechanism is fixedly arranged on the road surface, and the second charging mechanism is arranged at a vertical rod of the scooter body; the first charging mechanism comprises a first shell, a charging female end and an intelligent lock, the second charging mechanism comprises a second shell and a charging male end, the charging female end and the intelligent lock are arranged on the first shell, and the second shell and the first shell can be locked through the intelligent lock; the charging male end is arranged on the second shell and can be in plug-in fit with the charging female end.

Furthermore, a first groove is formed in one side, facing the second shell, of the first shell, the shape of the first groove is matched with that of the second shell, the charging female end is installed at the bottom of the first groove, and the intelligent lock is installed in an accommodating space formed by the first shell and is right opposite to the side face of the first groove.

Furthermore, a first through hole is formed in one side, facing the intelligent lock, of the first groove; the intelligent lock is provided with a lock shaft towards one side of the first groove, and the lock shaft can pass through the first through hole and is in interference fit with a second shell inserted into the first groove.

Further, the second housing is formed with a locking hole, the locking hole can be aligned with the first through hole, and the locking shaft can pass through the first through hole and extend to the locking hole to lock the second housing in the first groove.

Further, a plurality of plug connector is installed to the female end that charges, the public end that charges be formed with the jack that plug connector quantity is the same, the plug connector can with the jack cooperation of pegging graft mutually.

Further, the second casing includes third casing and fourth casing, the detachable connection of third casing in the fourth casing, just the third casing with enclose each other between the fourth casing and establish and form the mounting hole, and above-mentioned mounting hole can hug closely on the automobile body pole setting of scooter.

Furthermore, a second groove is formed in one side, facing the first shell, of the third shell, and the charging male end is installed in the second groove.

Further, a fixing piece is arranged in the second groove, and the fixing piece can fix the charging male end in the second groove.

Furthermore, the two opposite side surfaces of the first groove form a protruding part, the two opposite side surfaces of the third shell form a third groove, the protruding part is matched with the third groove in shape, and the protruding part can be matched with the third groove in an inserting mode.

Compared with the prior art, the beneficial effects of the utility model reside in that:

according to the charging device for the scooter, the first charging mechanism is fixedly arranged on the road surface, the second charging mechanism is arranged on the vertical rod of the scooter body, and the charging female end in the first charging mechanism and the charging male end in the second charging mechanism are in plug-in fit, so that the purpose of charging the scooter is achieved, and the problem that the scooter cannot be charged in time in the outdoor travelling process can be solved; in addition, the first shell and the second shell are locked through the intelligent lock in the first charging mechanism, so that the scooter can be safely parked at the position of the first charging mechanism to prevent the scooter from being lost, and the scooter has better applicability.

Drawings

Fig. 1 is a schematic structural view of a charging device for a scooter according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the first charging mechanism shown in fig. 1.

Fig. 3 is an exploded schematic view of the first charging mechanism shown in fig. 2.

Fig. 4 is a schematic structural diagram of the second charging mechanism shown in fig. 1.

Fig. 5 is an exploded view of the second charging mechanism shown in fig. 4.

100. A scooter charging device; 10. a first charging mechanism; 11. a first housing; 111. a first groove; 112. a first through hole; 113. a boss portion; 12. a charging female terminal; 121. a plug-in unit; 13. an intelligent lock; 131. a lock shaft; 20. a second charging mechanism; 21. a second housing; 211. a locking hole; 212. a third housing; 213. a fourth housing; 214. mounting holes; 215. a second groove; 216. a fixing member; 217. a third groove; 22. a charging male terminal; 221. and (4) inserting the jack.

Detailed Description

The present invention will now be described in more detail with reference to the accompanying drawings, in which the description of the invention is given by way of illustration and not of limitation. The various embodiments may be combined with each other to form other embodiments not shown in the following description.

Please refer to fig. 1 to 5, the technical solution of the present invention provides a charging device 100 for a scooter, wherein the charging device 100 can charge the scooter to be charged outdoors, and can prevent the scooter from losing while providing a parking position for the scooter, so as to provide better safety.

The scooter charging device 100 comprises a first charging mechanism 10 and a second charging mechanism 20, wherein the first charging mechanism 10 is fixedly arranged on the outdoor road surface, and the second charging mechanism 20 is arranged on the scooter; the first charging mechanism 10 comprises a first shell 11, a charging female end 12 and an intelligent lock 13, wherein the charging female end 12 and the intelligent lock 13 are both arranged on the first shell 11; the second charging mechanism 20 comprises a second shell 21 and a charging male end 22, the charging male end 22 can be in plug-in fit with the charging female end 12, and further, the purpose that the first charging mechanism 10 supplies power to the second charging mechanism 20 is achieved based on the plug-in fit effect between the charging female end 12 and the charging male end 22; the second casing 21 and the first casing 11 can be locked by the intelligent lock 13, so that when the scooter provided with the second charging mechanism 20 is parked at the position of the first charging mechanism 10, the second charging mechanism 20 can be prevented from being separated from the first charging mechanism 10, and the scooter can be prevented from being lost in the parking and charging process.

It should be understood that the scooter at least includes the conventional components of front wheel, rear wheel, pedal, frame and body upright, and the second charging mechanism 20 in this embodiment can be installed on the body upright of the scooter; in addition, when the scooter to be charged is charged, the charging male end 22 of the second charging mechanism 20 faces the first charging mechanism 10, and the charging male end 22 can be plugged and matched with the charging female end 11 of the first charging mechanism 10.

It can be understood that the charging female terminal 12 of the first charging mechanism 10 in this embodiment can be electrically connected to a power source for supplying power, and the charging male terminal 22 of the second charging mechanism 20 can be electrically connected to a device for storing power on the scooter, and further, when the charging female terminal 12 is plugged into the charging male terminal 22, the power source for supplying power supplies current to the charging female terminal 12, and supplies current to the charging male terminal 22 through the charging female terminal 12, and finally supplies current to the device for storing power on the scooter through the charging male terminal 12, thereby realizing the charging process for the scooter. The power source electrically connectable to the charging female terminal 12 may be a power source provided inside the first charging means 10, or may be a power source provided outside the first charging means 10.

It is understood that the smart lock 13 is mounted on the first housing 11, and one side of the smart lock 13 faces the charging female terminal 11. When the second shell 21 at the vehicle body upright stanchion of the scooter moves towards the first shell 11, the second shell 21 is inserted towards the first shell 11; meanwhile, the intelligent lock 13 may monitor whether the second housing 21 is inserted into the first housing 11 in real time, and when the intelligent lock 13 monitors that the first housing 11 is inserted into the second housing 21, the intelligent lock 13 performs a locking operation to lock the second housing 21 at the first housing 11; in addition, when the smart lock 13 detects an unlocking operation by the user, the smart lock 13 is unlocked to enable the second housing 21 to be detached from the first housing 11.

It is understood that a person skilled in the art may set a two-dimensional code outside the first housing 11, and a user may scan the two-dimensional code through a mobile phone to operate the smart lock 13, such as: when the user scans the two-dimensional code using the mobile phone, the smart lock 13 may perform a locking operation to lock the second housing 21 at the first housing 11; when the user needs to get the vehicle, the user can scan the two-dimensional code again and generate verification information, and the intelligent lock 13 can verify the identity of the user according to the verification information and execute unlocking operation when the verification is passed.

Wherein, a first groove 111 is formed on the first housing 11, the first groove 111 is located on one side of the first housing 11 facing the second housing 21, and the shape of the first groove 111 is adapted to the second housing 21, that is: when the second housing 21 is inserted into the first groove 111, the outer surface of the second housing 21 can be attached to the outer surface of the first groove 111. In addition, a charging female terminal 12 is disposed at the bottom of the first groove 111, and when the second housing 21 is fully inserted into the first groove 111, the charging female terminal 12 is opposite to the charging male terminal 22, and the charging female terminal 12 and the charging male terminal 22 are plugged.

The smart lock 13 is disposed in the accommodating space formed inside the first housing 11 and faces the side surface of the first groove 111. In addition, a first through hole 112 is opened on the side of the first groove 111 facing the intelligent lock 13, a lock shaft 131 is installed on one side of the intelligent lock 13 facing the first groove 111, the lock shaft 131 can pass through the first through hole 112 and is in tight fit with the second housing 21 inserted in the first groove 111, so that the intelligent lock 13 can tightly abut against the second housing 21 by using the lock shaft 131 to limit and lock the second housing 21 in the first groove 111.

In addition, as shown in fig. 4, a locking hole 211 is formed on the second housing 21, and when the second housing 21 is inserted into the first groove 111, the locking hole 211 is aligned with the first through hole 112; furthermore, when the second housing 21 is fully inserted into the first recess 111, the smart lock 13 detects that the first through hole 112 is aligned with the locking hole 211 (i.e. when the second housing 21 is fully inserted into the first recess 111, the first through hole 112 and the locking hole 211 can be aligned), and controls the lock shaft 131 to pass through the first through hole 112 and extend into the locking hole 211, so that the second housing 21 is locked at the first recess 111 by the snap fit between the lock shaft 131 and the locking hole 211, thereby achieving the effect of safely parking the scooter with the second charging mechanism 20 at the position of the first charging mechanism 10.

It is understood that the smart lock 13 provided in the present embodiment is not limited to the effect of locking the second housing 21 by the snap fit between the lock shaft 131 and the locking hole 211, and those skilled in the art can also use other types of smart locks 13 to lock the second housing at the first groove 111.

The charging box end 12 is provided with a plurality of plug-in units 121, the plug-in units 121 can transmit current, and the plug-in units 121 can be electrically connected with a power supply for supplying power; a plurality of jacks 221 are formed in the charging male end 22, the number of the jacks 221 is the same as that of the plug-in units 121, and the jacks 221 are in plug-in cooperation with the plug-in units 121, so that the purpose of transmitting power from the charging female end 12 to the charging male end 22 can be achieved. It should be noted that the plug 121 and/or the jack 221 may have a signal detection function, or a signal detection element is disposed on the plug 121 or the jack 221, so as to detect whether the plug 121 and the jack 221 are in a plug-in fit in real time, detect the electric quantity of the electric storage device on the scooter in real time, and so on.

As shown in fig. 4 and 5, the second housing 21 includes a third housing 212 and a third housing 213, and the third housing 212 and the fourth housing 213 are detachably connected, such as screwed, riveted, and the like.

In addition, the third housing 212 and the fourth housing 213 enclose each other to form a mounting hole 214, and the second housing 21 is fixed to the vehicle body upright of the scooter through the mounting hole 214, so that the mounting hole 214 is tightly attached to the vehicle body upright, such as: the second shell 21 is installed at the vehicle body vertical rod of the scooter through the installation hole 214, that is, the user can set the third shell 212 at one side of the vehicle body vertical rod of the scooter, set the fourth shell 213 at the other side of the vehicle body vertical rod of the scooter, and the installation hole 214 enclosed by the third shell 212 and the fourth shell 213 is tightly attached to the outer surface of the vehicle body vertical rod, and then the user can fix the vehicle body vertical rod inside the installation hole 214 by using a screw, a nut and other parts.

Wherein, a second groove 215 is disposed on one side of the third housing 212 facing the first housing 11, the charging male end 22 is disposed in the second groove 215, and the charging male end 22 is attached to the second groove 215; in addition, the third housing 212 is further provided with a fixing member 216, and the fixing member 216 can fixedly mount the charging male terminal 22 in the second recess 215.

Third grooves 217 are formed on two opposite side surfaces of the third shell 212, and the plane where the third grooves 217 are located is perpendicular to the plane where the locking holes 211 are located; in addition, the two opposite side surfaces of the first groove 111 are formed with the protruding portions 113, the protruding portions 113 are matched with the shape of the third groove 217, and the protruding portions 111 can be matched with the third groove 217 in an inserting manner, that is: during the process of inserting the third housing 212 into the first groove 111, the user may align the third groove 217 with the protrusion 113 and push the third housing 212 along the protrusion 113 toward the first groove 111.

The charging process of the scooter charging device 100 provided in this embodiment can be described as follows:

the user mounts the second charging mechanism 20 on the body upright of the scooter, and when the scooter needs to be charged, the user can align the third groove 217 of the third shell 212 with the boss 113 located in the first groove 111; then, the user applies an external force to insert the third housing into the first groove 111 along the protruding portion 113, and meanwhile, the plug-in connector 121 on the charging female end 12 and the jack on the charging male end 22 are in plug-in fit, so that the charging female end 12 can deliver current to the charging male end, thereby realizing the charging process for the scooter. In addition, when the smart lock 13 detects that the locking hole 211 on the third housing 212 is aligned with the first through hole 112 at the side of the first groove 111, the smart lock 13 controls the lock shaft 131 to pass through the first through hole 112 and extend to the locking hole 211 to lock the third housing 212 at the first groove 111, so as to lock the scooter at the position where the first charging mechanism 10 is located.

According to the charging device 100 for the scooter provided in the above embodiment, the first charging mechanism 10 is fixedly arranged on the road surface, the second charging mechanism 20 is arranged on the vertical rod of the scooter body, and the charging female end 12 of the first charging mechanism 10 and the charging male end 22 of the second charging mechanism 20 are in plug-in fit, so that the purpose of charging the scooter is achieved, and the problem that the scooter cannot be charged in time during outdoor traveling can be solved; in addition, the first housing 11 and the second housing 21 are locked by the smart lock 13 in the first charging mechanism 10, so that the scooter can be safely parked at the position of the first charging mechanism 10, the scooter is prevented from being lost, and the method has better applicability.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims

1. A scooter charging device, comprising: the device comprises a first charging mechanism (10) and a second charging mechanism (20), wherein the first charging mechanism (10) is fixedly arranged on the road surface, and the second charging mechanism (20) is arranged at a vertical rod of a scooter body; the first charging mechanism (10) comprises a first shell (11), a charging female end (12) and an intelligent lock (13), the second charging mechanism (20) comprises a second shell (21) and a charging male end (22), the charging female end (12) and the intelligent lock (13) are installed on the first shell (11), and the second shell (21) and the first shell (11) can be locked through the intelligent lock (13); the charging male end (22) is arranged on the second shell (21) and can be in plug-in fit with the charging female end (12).

2. The scooter charging device according to claim 1, wherein a first groove (111) is formed on a side of the first housing (11) facing the second housing (21), the first groove (111) is shaped to fit the second housing (21), and the charging female end (12) is installed at a bottom of the first groove (111); the intelligent lock (13) is arranged in the accommodating space formed by the first shell (11) and is right opposite to the side surface of the first groove (111).

3. The scooter charging device according to claim 2, characterized in that the first recess (111) opens a first through hole (112) towards the side of the smart lock (13); the intelligent lock (13) is provided with a lock shaft (131) towards one side of the first groove (111), and the lock shaft (131) can pass through the first through hole (112) and is in interference fit with a second shell (21) inserted into the first groove (111).

4. The scooter charging device according to claim 3, wherein the second housing (21) is formed with a locking hole (211), the locking hole (211) being alignable with the first through hole (112), the locking shaft (131) being insertable through the first through hole (112) and extending to the locking hole (211) to lock the second housing (21) in the first recess (111).

5. The charging device for the scooter according to claim 1, wherein the charging female terminal (12) is provided with a plurality of plug connectors (121), the charging male terminal (22) is formed with the same number of insertion holes (221) as the number of the plug connectors (121), and the plug connectors (121) can be inserted into the insertion holes (221).

6. The scooter charging device according to claim 2, wherein the second housing (21) comprises a third housing (212) and a fourth housing (213), the third housing (212) is detachably connected to the fourth housing (213); the third shell (212) and the fourth shell (213) are mutually surrounded to form a mounting hole (214), and the mounting hole (214) can be tightly attached to a vertical rod of a scooter body.

7. The scooter charging device according to claim 6, wherein a side of the third housing (212) facing the first housing (11) is provided with a second groove (215), and the charging male end (22) is installed in the second groove (215).

8. The scooter charging device according to claim 7, wherein a fastener (216) is installed in the second recess (215), the fastener (216) being capable of fixing the charging male end (22) in the second recess (215).

9. The scooter charging device according to claim 6, wherein two opposite sides of the first groove (111) form a protrusion (113), two opposite sides of the third housing (212) form a third groove (217), the protrusion (113) is adapted to the shape of the third groove (217), and the protrusion (113) can be inserted into and fitted with the third groove (217).