CN209757390U - Backpack electric scooter - Google Patents

Abstract

The utility model discloses a backpack electric scooter, which comprises a backpack and a scooter, wherein the backpack is provided with an accommodating space and an object placing space, the backpack comprises a bag support and a bag cloth, and the bag cloth is used for wrapping the bag support; the scooter comprises a scooter rear end structure and a scooter front driving structure, the scooter front driving structure is installed at the bottom of the front end of the bag support, the scooter rear end structure is installed at the rear end of the bag support, the scooter rear end structure is connected with the lower end of the back plate of the backpack in a foldable mode, and the scooter rear end structure is stored in the storage space after being folded; the sliding plate front driving structure is connected with a handlebar upright post for controlling the direction through a chain, and a handlebar is arranged on the handlebar upright post; the handlebar upright stanchion penetrates through the space layer of the backpack; the bottom surface of the bag support is provided with a controller and a rechargeable battery, and the rechargeable battery is electrically connected with the controller and the sliding plate precursor structure respectively. The utility model discloses an above-mentioned structure can realize electric drive, need not the manpower and slides, can be through the manual control direction.

Description

Backpack electric scooter

Technical Field

The utility model belongs to the technical field of leisure apparatus technique and specifically relates to a knapsack electric scooter.

Background

At present, in order to bring convenience for carrying articles when people go out, backpacks such as computer bags, schoolbag and satchels are used, and the scooter is equipment integrating fashion, sports and going out, and can bring convenience for people to go out, and is low-carbon, environment-friendly, time-saving and labor-saving. At present, the market has a plurality of backpacks and scooter combined products, the use method is the same as that of a skateboard without handlebars, the two feet step on the pedals on the side to control the inclination angle of the pedals through the gravity center of the body to control the running direction, and the running direction is easy to cause accidents due to poor stability and safety in the use process. Patent No. CN 206166055U, name knapsack scooter, including knapsack and collapsible scooter of accomodating in the knapsack, both can make the knapsack trailer, can make the slide again and slide and ride instead of walk. The bicycle is not provided with a handlebar, and is steered by using the change of the gravity center, and the bicycle can be used only after being trained for a certain time by a user, is influenced by various environments and geographical positions in the using process, can only be used as a tool for entertainment and sports of specific people in a specific field, and cannot be widely applied as a portable walking tool.

Accordingly, there remains a need for improvements and advancements in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a knapsack electric scooter aims at solving the handlebar handrail that current knapsack electric scooter does not have control scooter slip direction, can only control the direction of footboard through the health focus, and scooter security and stability are relatively poor and the technical problem of accident appears easily.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: a backpack electric scooter comprises a backpack and a scooter, wherein the backpack is provided with a containing space and an object placing space, the backpack comprises a bag support and bag cloth, and the bag cloth is used for wrapping the bag support; the scooter comprises a scooter rear end structure and a scooter front driving structure, the scooter front driving structure is installed at the bottom of the front end of the bag support, the scooter rear end structure is installed at the rear end of the bag support, the scooter rear end structure is connected with the lower end of the back plate of the backpack in a foldable mode, and the scooter rear end structure is stored in the storage space after being folded; the sliding plate front driving structure is connected with a handlebar upright post for controlling the direction through a chain, and a handlebar is arranged on the handlebar upright post; the handlebar upright stanchion penetrates through the space layer of the backpack; the bottom surface of the bag support is provided with a controller and a rechargeable battery, and the rechargeable battery is electrically connected with the controller and the sliding plate precursor structure respectively.

Backpack electric scooter, wherein, still include a chargeable wireless remote controller, wireless remote controller sets up the right side at the handlebar, and this wireless remote controller and controller wireless connection.

The backpack electric scooter, wherein, slide forerunner's structure includes T type front wheel sedan-chair and drive front wheel, the setting of drive front wheel is at the both ends of T type front wheel sedan-chair.

The backpack electric scooter, wherein, the control line and the power cord of drive front wheel pass through the standpipe space of T type front wheel sedan-chair and are connected with controller and rechargeable battery.

The knapsack electric scooter, wherein, the rotatable bottom with the handlebar pole setting of T type front wheel sedan-chair passes through the chain and is connected.

Knapsack electric scooter, wherein, slide rear end structure includes U type footboard and rear wheel, the bottom at U type footboard rear end is installed to the rear wheel, the rear end at package support is installed with the buckle to the front end of U type footboard, and the shrink that U type footboard can be folded is in the accommodation space of knapsack.

Knapsack electric scooter, wherein, after U type footboard folding, the rear wheel is located the knapsack lower extreme.

Knapsack electric scooter, wherein, the handlebar pole setting is telescopic handlebar pole setting.

Knapsack electric scooter, wherein, it sets up the both sides at the handlebar pole setting to put the thing space.

Has the advantages that: the utility model discloses install controller and rechargeable battery in the bottom in the knapsack, and with slide forerunner's structure electric connection, so can realize the electric energy drive scooter, so ride more comfortable, and install the handlebar pole setting of a control direction in the rear end of knapsack, the handlebar pole setting passes through the chain and is connected with slide forerunner's structure, and then can control the scooter slip direction through the handlebar, control the scooter and go left or right, need not to control the slip direction of scooter through manpower slip and the focus of human body, so control is simple; in addition, the wireless remote controller is wirelessly connected with the controller, so that the scooter can be controlled to slide forwards or backwards through the wireless remote controller; still have the function of knapsack simultaneously concurrently, the folding receipts of U type footboard are in storage space, and the U type footboard after folding is accomodate in the knapsack, and the foot is stepped on the face and can not contact with package surface to knapsack electric scooter's after folding rear wheel is located the knapsack lower extreme, can make the knapsack become traditional pull rod suitcase, and the pull rod of pull rod knapsack is constituteed with scalable handlebar pole setting to the handlebar.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a frame diagram of the present invention.

Fig. 3 is a frame diagram of the utility model after folding.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention will be described in further detail below with reference to the accompanying drawings and examples.

As shown in fig. 1-3, the utility model discloses a backpack electric scooter, which comprises a backpack 1 and a scooter 2, wherein the backpack 1 is provided with a containing space 11 and an object placing space 12, the backpack 1 comprises a bag support 13 and a bag cloth 14, and the bag cloth 14 is used for wrapping the bag support 13; the scooter 2 comprises a scooter rear end structure 21 and a scooter front drive structure 20, the scooter front drive structure 20 is installed at the bottom of the front end of the bag support 13, the scooter rear end structure 21 is installed at the rear end of the bag support 13, the scooter rear end structure 21 is connected with the lower end of the back plate of the backpack 1 in a foldable manner, and the scooter rear end structure 21 is folded and stored in the storage space 11; the sliding plate front driving structure 20 is connected with a handlebar upright post 4 for controlling the direction through a chain 3, and a handlebar 5 is arranged on the handlebar upright post 4; the handlebar upright stanchion 4 penetrates through the spatial layer of the backpack 1; the bottom surface of the bag support 13 is provided with a controller 6 and a rechargeable battery 7, and the rechargeable battery 7 is electrically connected with the controller 6 and the skateboard precursor structure 20 respectively.

After the structure is adopted, the utility model sets the backpack into the containing space and the object placing space, and sets the scooter into the sliding plate rear end structure and the sliding plate front driving structure, the sliding plate front driving structure is arranged at the bottom of the front end of the backpack support, and the sliding plate rear end structure is connected with the lower end of the back plate of the backpack in a folding way; after the rear end structure of the sliding plate is folded, the sliding plate is accommodated in the accommodating space; thereby the realization combines knapsack and scooter as an organic whole, make the knapsack have the function of scooter, and the scooter has the function of knapsack, simultaneously through installing the rear end at the package support with the handlebar pole setting, and forerunner structural connection through chain and slide, so can realize the slip direction of control scooter through the sweep, need not the human focus of isomorphism and realize the slip direction that changes the scooter, through manual rotation handlebar pole setting, change direction, and adopt the electric energy drive scooter, make the scooter ride more comfortable, it is more stable to use, the accident is difficult to appear, the security performance is high, the user need not through the training, all can use.

Backpack electric scooter, wherein, still include a rechargeable wireless remote controller 8, wireless remote controller 8 sets up on the right side of handlebar 5, and this wireless remote controller 5 and 6 wireless connection of controller, so can be through wireless will the remote controller come control controller, and then realize controlling the scooter and slide forward or backward.

The backpack electric scooter, wherein the skateboard front driving structure 20 comprises a T-shaped front wheel sedan chair 200 and driving front wheels 201, the driving front wheels 201 are arranged at two ends of the T-shaped front wheel sedan chair 200, and the T-shaped front wheel sedan can drive the driving front wheels to rotate, so that electric energy driving can be realized.

In the backpack electric scooter, the control line and the power line for driving the front wheel 201 are connected to the controller 6 and the rechargeable battery 7 through the space in the vertical tube of the T-shaped front wheel sedan 200.

Backpack electric scooter, wherein, T type front wheel sedan-chair 200 is connected through the rotatable bottom with handlebar pole setting 4 of chain 3, so handlebar pole setting 4 can control the slip direction of drive front wheel 201, and then control scooter's slip direction.

The backpack electric scooter, wherein, skateboard rear end structure 21 includes U type footboard 210 and rear wheel 211, rear wheel 211 installs the bottom at U type footboard 210 rear end, and the rear end at package support 13 is installed with the buckle to the front end of U type footboard 210, and the shrink that U type footboard 210 can be folded is in the accommodation space 11 of knapsack.

Specifically, the front end of the U-shaped pedal is connected with the lower end of the back plate of the backpack in a foldable manner, rear wheels are arranged at the bottoms of the two sides of the rear end of the U-shaped pedal, the U-shaped pedal is stored in the storage space in a foldable manner, and the rear wheels arranged at the bottoms of the two sides of the rear end of the U-shaped pedal are positioned at the bottom of the backpack; therefore, the stepping surface of the U-shaped pedal cannot contact with the surface of the backpack, and the rear wheel of the folded backpack electric scooter is positioned at the lower end of the backpack.

The backpack electric scooter, wherein, after the U-shaped pedal 210 is folded, the rear wheel 211 is positioned at the lower end of the backpack.

Knapsack electric scooter, wherein, handlebar pole setting 4 is telescopic handlebar pole setting 4.

Knapsack electric scooter, wherein, it sets up in the both sides of handlebar pole setting 4 to put thing space 12.

The working principle is as follows: when the backpack electric scooter is used, the front end of part of the U-shaped pedal is lapped on the lower end of a bag bracket of the backpack; the user stands naturally with both feet on the U type footboard, and both hands are held the handlebar and are rotated wireless remote controller and go out command signal and send, the controller receives this command signal to according to this command signal control drive front wheel and advance or stop. When knapsack electric scooter need turn to the time swing handlebar, the handlebar drives the handlebar pole setting and rotates, and the handlebar pole setting rotates and drives T type front wheel sedan-chair and front wheel through the chain and turn to.

The utility model discloses install controller and rechargeable battery in the bottom in the knapsack, and with slide forerunner's structure electric connection, so can realize the electric energy drive scooter, so ride more comfortable, and install the handlebar pole setting of a control direction in the rear end of knapsack, the handlebar pole setting passes through the chain and is connected with slide forerunner's structure, and then can control the scooter slip direction through the handlebar, control the scooter and go left or right, need not to control the slip direction of scooter through manpower slip and the focus of human body, so control is simple; in addition, the wireless remote controller is wirelessly connected with the controller, so that the scooter can be controlled to slide forwards or backwards through the wireless remote controller; still have the function of knapsack simultaneously concurrently, the folding receipts of U type footboard are in storage space, and the U type footboard after folding is accomodate in the knapsack, and the foot is stepped on the face and can not contact with package surface to knapsack electric scooter's after folding rear wheel is located the knapsack lower extreme, can make the knapsack become traditional pull rod suitcase, and the pull rod of pull rod knapsack is constituteed with scalable handlebar pole setting to the handlebar.

The above is a preferred embodiment of the present invention, and certainly not to limit the scope of the present invention, it should be noted that, for those skilled in the art, modifications or equivalent substitutions of the technical solutions of the present invention without creative efforts may not depart from the protection scope of the technical solutions of the present invention.

Claims (9)

1. A backpack electric scooter comprises a backpack and a scooter and is characterized in that the backpack is provided with a containing space and an object placing space, the backpack comprises a bag support and bag cloth, and the bag cloth is used for wrapping the bag support; the scooter comprises a scooter rear end structure and a scooter front driving structure, the scooter front driving structure is installed at the bottom of the front end of the bag support, the scooter rear end structure is installed at the rear end of the bag support, the scooter rear end structure is connected with the lower end of the back plate of the backpack in a foldable mode, and the scooter rear end structure is stored in the storage space after being folded; the sliding plate front driving structure is connected with a handlebar upright post for controlling the direction through a chain, and a handlebar is arranged on the handlebar upright post; the handlebar upright stanchion penetrates through the space layer of the backpack; the bottom surface of the bag support is provided with a controller and a rechargeable battery, and the rechargeable battery is electrically connected with the controller and the sliding plate precursor structure respectively.

2. The backpack electric scooter of claim 1, further comprising a rechargeable wireless remote control, wherein the wireless remote control is disposed on the right side of the handlebar and is wirelessly connected to the controller.

3. The backpack electric scooter of claim 1, wherein the skateboard front drive structure comprises a T-shaped front wheel axle and a driving front wheel disposed at both ends of the T-shaped front wheel axle.

4. The backpack electric scooter of claim 3, wherein the control line and power cord for driving the front wheel are connected to the controller and the rechargeable battery through the space inside the vertical tube of the T-shaped front wheel sedan.

5. The backpack electric scooter of claim 3, wherein the T-shaped front axle is rotatably connected to the bottom end of the handlebar stem via a chain.

6. The backpack electric scooter of claim 1, wherein the rear structure of the skateboard comprises a U-shaped pedal and a rear wheel, the rear wheel is installed at the bottom of the rear end of the U-shaped pedal, the front end of the U-shaped pedal and the buckle are installed at the rear end of the backpack support, and the U-shaped pedal can be folded and retracted in the containing space of the backpack.

7. The backpack electric scooter of claim 6, wherein the rear wheel is located at the lower end of the backpack after the U-shaped pedal is folded.

8. The backpack electric scooter of claim 1, wherein the handlebar stem is a telescoping handlebar stem.

9. The backpack electric scooter of claim 1, wherein the storage space is disposed on both sides of the handlebar stem.