CN114633831B - High-safety electric scooter with protection device - Google Patents

Abstract

The invention discloses a high-safety scooter with a protective device, which comprises a scooter body, wherein a helmet electrically connected with the scooter body is arranged on the scooter body, movable goggles are arranged on the helmet, a first cavity capable of accommodating a neck protection block is arranged in the helmet, the neck protection block is connected with a pull rope, and a rotary table matched with the pull rope is arranged on the helmet; the goggles are provided with first tooth parts matched with the turntables, and the turntables are provided with second tooth parts matched with the first tooth parts; the helmet is provided with a first electromagnet matched with the turntable; the electric scooter has the advantages that the first button capable of triggering the first electromagnet is arranged on the scooter body, and the electric scooter enables the matched helmet to trigger different protection devices according to different states after the scooter is impacted, so that the safety of the scooter is greatly improved, and the injury probability of scooter users is greatly reduced.

Description

High-safety electric scooter with protection device

Technical Field

The invention relates to the technical field of electric scooter, in particular to a high-safety electric scooter with a protection device.

Background

The electric scooter is a portable playing tool, is particularly popular with a wide range of children, is usually driven by electricity, a human body stands on a pedal and drives a handle to slide, and the children can be injured due to collision accidents caused by improper operation or too fast sliding and braking in the sliding process; meanwhile, when a child rides the electric scooter, the child usually wears a sports helmet for ventilation, and most children do not like to wear goggles, and when wearing the helmet, the child can hurt the neck and the face when the child lands after collision, so that the probability of hurting the child is greatly improved.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the high-safety electric scooter with the protection device.

In order to solve the technical problems, the invention is solved by the following technical scheme: high security electric scooter with protector includes the scooter body.

In the above scheme, preferably, the scooter body is provided with a helmet electrically connected with the scooter body, the helmet is provided with movable goggles, a first cavity capable of accommodating a neck protection block is arranged in the helmet, the neck protection block is connected with a pull rope, and the helmet is provided with a rotary table matched with the pull rope;

the goggles are provided with first tooth parts matched with the turntables, and the turntables are provided with second tooth parts matched with the first tooth parts;

the helmet is provided with a first electromagnet matched with the turntable;

the scooter body is provided with a first button capable of triggering the first electromagnet;

the scooter is characterized in that a handle is arranged on the scooter body, and a contact piece matched with the first button is arranged on the handle.

In the above scheme, preferably, a first guide plate matched with the pull rope is arranged in the helmet, the pull rope is wound on the turntable after penetrating through the first guide plate, and a first spring is arranged between the first guide plate and the neck protection block.

In the above scheme, preferably, the turntable is rotatably arranged in the helmet, a rotating shaft is arranged on the turntable, a rotating hole matched with the rotating shaft is formed in the helmet, and a second spring is arranged between the turntable and the helmet.

In the above scheme, preferably, the goggles are rotatably arranged at the outer side of the helmet, the second electromagnets matched with the goggles are arranged at the two sides of the helmet, and the magnetic attraction blocks matched with the second electromagnets are arranged at the two sides of the goggles.

In the above scheme, preferably, the scooter body is internally provided with a second button connected with a second electromagnetic iron, the second button is arranged on the first mounting plate, an inertial device is arranged on the first mounting plate, a first pressing block matched with the inertial device is arranged on the scooter body, a second pressing block matched with the first pressing block is arranged on the inertial device, and the second pressing block is matched with the second button after moving.

In the above scheme, preferably, the inertial device comprises a second pressing block and a second connecting rod connected with the second pressing block, the second connecting rod is connected with the inertial block, the second connecting rod is arranged on the first mounting plate, and a third spring is arranged between the inertial block and the first mounting plate.

In the above scheme, preferably, the first briquetting is connected with first connecting rod, in the spout was located in the first connecting rod slip, be equipped with the fourth spring between first briquetting and the scooter body, be equipped with on the first connecting rod with first button matched with ejector pin, be equipped with the elastic cord between first connecting rod and the scooter body.

In the above scheme, preferably, the first button is arranged on the button plate, the button plate is elastically arranged on the second mounting plate, a fifth spring is arranged between the button plate and the second mounting plate, a third electromagnet matched with the button plate is arranged on the second mounting plate, and a jacking hole matched with the ejector rod is arranged on the second mounting plate.

In the above scheme, preferably, an elastic cable is arranged between the helmet and the scooter body, and a mounting bracket matched with the helmet is arranged on the scooter body.

The beneficial effects of the invention are as follows: the invention provides the electric scooter which enables the matched helmet to trigger different protection devices according to different states after the scooter is collided, thereby greatly improving the safety of the scooter and greatly reducing the injury probability of scooter users.

Drawings

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

Fig. 2 is a schematic side cross-sectional view of the helmet of the present invention.

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

Fig. 4 is a schematic view of a partial enlarged structure of the present invention at a.

Fig. 5 is a schematic view of a partial enlarged structure of the present invention at B.

Detailed Description

The invention is described in further detail below with reference to the attached drawings and detailed description: referring to fig. 1 to 5, a high safety electric scooter with a guard device includes a scooter body 1.

The scooter body 1 is including locating handle 12 and the installing support on its automobile body, the installing support is used for installing helmet 2, be equipped with elastic cable between helmet 2 and the scooter body 1, elastic cable is preferably spiral spool, has the elasticity function of stretching out and drawing back, helmet 2 can place on the installing support when not using, then link to each other in scooter body 1 throughout through elastic cable when using.

The handle 12 is provided with a contact piece 13, the contact piece 13 is connected with a third electromagnet 64 through a cable, the bottom of the scooter body 1 is provided with a second mounting plate 62 which is vertically arranged, the first button 11 is elastically arranged on the second mounting plate 62 through a button plate 61, a fifth spring 63 is arranged between the button plate 61 and the second mounting plate 62, namely, two ends of the fifth spring 63 are respectively connected with the button plate 61 and the second mounting plate 62, the second mounting plate 62 is provided with a top hole 65 corresponding to the first button 11, and the diameter of the top hole 65 is preferably larger than that of the first button 11.

As shown in fig. 4, the right end surface of the second mounting plate 62 is provided with a third electromagnet 64 that is matched with the button plate 61, the contact piece 13 and the third electromagnet 64 form a loop, when the user grips the contact piece 13 on the handle 12 while riding, the third electromagnet 64 is in a power-off state, that is, when the contact piece 13 contacts, the third electromagnet 64 is powered off, and when the user leaves the handle after being collided, the third electromagnet 64 is powered on to attract the button plate 61, so that the first button 11 moves to the left side.

The helmet 2 is provided with movable goggles 3, namely, two sides of each goggles 3 are rotationally arranged on the helmet 2, each goggles 3 is a transparent protective cover integrally formed with a face mask, the outer walls of two sides of each helmet 2 are provided with second electromagnets 34 matched with each goggles 3, two sides of each goggles 3 are provided with magnetic attraction blocks 35 matched with the second electromagnets 34, namely, when the second electromagnets 34 are electrified to adsorb the magnetic attraction blocks 35, the goggles 3 cannot freely fall down at the top, when the power is off, the goggles 3 freely slide down by means of dead weight to shield the face of a user, the face of the user can be protected during impact, and for the scheme to be complete, the helmet 2 can be provided with limit baffles for enabling the goggles 3 to freely fall down, and the goggles 3 can be stopped from falling down by the limit baffles after falling to a certain position.

The goggles 3 are connected with first tooth portions 8 through rotating pins, the first tooth portions 8 are bosses which are evenly arranged at intervals on the circumference, chamfering is arranged on the bosses, the rotating disc 7 is arranged in the helmet 2 in a rotating mode, second tooth portions 9 which are matched with the first tooth portions 8 are arranged on the rotating disc 7, the second tooth portions 9 can be meshed with or separated from the first tooth portions 8 through sliding, the rotating disc 7 is arranged in the helmet 2 in a rotating mode through a rotating shaft 31, and rotating holes 32 matched with the rotating shaft 31 are formed in the helmet 2.

The helmet is characterized in that a second spring 33 is arranged between the turntable 7 and the helmet 2, two ends of the second spring 33 respectively lean against the end face of the turntable 7, which is close to one side of the center of the helmet 2, and the shell wall of the helmet 2, a first electromagnet 10 matched with the turntable 7 is arranged on the helmet 2, the first electromagnet 10 is electrically connected with the first button 11, namely, when the first button 11 is triggered, the first electromagnet 10 is powered off, the turntable 7 is propped against the center of one side, which is far away from the helmet 2, and the turntable 7 and the goggles 3 are meshed through the first tooth part 8 and the second tooth part 9.

The turntable 7 is provided with a clamping groove, the clamping groove is wound with a pull rope 6, the pull rope 6 penetrates through the first guide plate 21 and is connected with a neck protection block 4, and the neck protection block 4 is preferably soft sponge or an inflatable air bag; the helmet 2 is internally provided with a first cavity 5 capable of accommodating the neck guard block 4, a first spring 22 is arranged between the neck guard block 4 and the first guide plate 21, the first spring 22 is sleeved outside the pull rope 6 and is arranged in the first cavity 5, two ends of the first spring are respectively propped against the first guide plate 21 and the neck guard block 4, the pull rope 6 winds the rotating disc 7, the direction of the rotating disc 7 is shown in fig. 2, namely, when the goggles 3 are meshed with the rotating disc 7, the goggles 3 rotate anticlockwise, and meanwhile, the neck guard block 4 is pushed out by the neck guard block 4 in a descending mode through the elasticity of the first spring 22, so that the neck of a user is protected.

The scooter comprises a scooter body 1, wherein a second button 41 electrically connected with a second electromagnet 34 is arranged in the scooter body 1, a first mounting plate 42 is vertically arranged below the scooter body 1, the second button 41 is arranged on the left end face of the first mounting plate 42, an inertial device capable of detecting whether the scooter collides is arranged on the first mounting plate 42, the inertial device comprises a second pressing block 44 and a second connecting rod 45 connected with the second pressing block, the second connecting rod 45 is connected with an inertial block 46 after penetrating through the first mounting plate 42, the second connecting rod 45 is slidably arranged on the first mounting plate 42, a third spring 47 is arranged between the inertial block 46 and the first mounting plate 42, the third spring 47 is sleeved on the second connecting rod 45, two ends of the third spring are respectively propped against the first mounting plate 42 and the inertial block 46, and a second inclined surface 102 inclining leftwards from top to bottom is arranged on the second pressing block 44.

The scooter body 1 is provided with a first pressing block 43 matched with a second pressing block 44 of an inertial device, the first pressing block 43 is provided with a first inclined surface 101 which is inclined leftwards from top to bottom and matched with a second inclined surface 102, when the scooter is impacted and is subjected to inertia, the inertial block 46 presses the third spring 47 leftwards to enable the second pressing block 44 to slide leftwards.

The first pressing block 43 is vertically connected with the first connecting rod 51 upwards, a penetrating sliding groove 52 is formed in the scooter body 1, the first connecting rod 51 is transversely arranged in the sliding groove 52 in a sliding mode, a fourth spring 53 is arranged between the first pressing block 43 and the scooter body 1, the fourth spring 53 is sleeved on the first connecting rod 51, two ends of the fourth spring 53 respectively abut against the first pressing block 43 and the lower end face of the sliding groove 52, the sliding groove 52 is preferably a long groove, the first connecting rod 51 is preferably a rectangular rod, the rectangular face abuts against the sliding groove 52 to slide, a push rod 54 matched with the first button 11 is arranged on the right side of the first connecting rod 51, an elastic rope 55 is arranged between the first connecting rod 51 and the scooter body 1, a pulling plate 103 is connected to the upper end of the first connecting rod 51, the inertial device is used for resetting, namely when the scooter collides, the inertial block 46 presses the third spring 47 leftwards, then presses the second pressing block 44 leftwards through the second inclined plane 101 to slide the first pressing block 43, then the second pressing block 44 slides leftwards through the second inclined plane 101, the first pressing block 43 is enabled to slide to the left side of the first pressing block 43, then the first pressing block 43 is enabled to slide rightwards through the spring 47, the force of the third spring 47 is enabled to trigger the first pressing block 43 to slide rightwards, the first pressing block 43 is enabled to freely drop down the second pressing block 43, and then the second pressing block 41 is enabled to freely drop down, and the second pressing block 43 is enabled to freely, and the eye-protector is enabled to be free to be powered by the electromagnet to be powered by the second pressing device.

The method for using the high-safety electric scooter with the protective device comprises the following steps: when the helmet is used, a key is inserted to enable the scooter to be electrified, then the helmet 2 is taken down and put on, at the moment, both the first electromagnet 10 and the second electromagnet 34 are in an electrified state, the goggles 3 are positioned above the helmet 2, and the neck protection block 4 is arranged in the helmet 2 and then ridden;

when the rider collides with the scooter but the rider is separated from the handle 12, the scooter is still in a user-controllable state, the third electromagnet 64 is in a power-off state, the front side of the scooter is only required to be protected against the impact of the face after the collision, the inertial device is moved after the collision, the inertial block 46 presses the third spring 47 leftwards to enable the second pressing block 44 to slide leftwards, then the first inclined plane 101 is pressed by the second inclined plane 102 to enable the second pressing block 44 to slide leftwards to the left side of the first pressing block 43, then the first pressing block 43 is pulled rightwards by the spring force of the third spring 47, the first pressing block 43 triggers the second button 41 to enable the second electromagnet 34 to be powered off, at the moment, the ejector rod 54 is still unable to trigger the first button 11 after sliding due to the fact that the third electromagnet 64 is in the power-off state, and only the goggles 3 freely fall;

when the hand is separated from the handle 12 after the collision in the riding process, the surface scooter is out of control, the human body is in a crashed state, at the moment, in order to protect the ground from the impact of an unclear junction, the face and the neck are required to be comprehensively protected, when the hand is separated from the handle 12, the contact piece 13 triggers the third electromagnet 64 to be electrified, the third electromagnet 64 is electrified to adsorb the button plate 61, the first button 11 slides leftwards, meanwhile, the inertia block 46 presses the third spring 47 leftwards to enable the second pressing block 44 to slide leftwards, then the first inclined surface 101 is pressed by the second inclined surface 102 to enable the second pressing block 44 to slide to the left side of the first pressing block 43, then the first pressing block 43 is pulled rightwards by the spring force of the third spring 47, the first pressing block 43 triggers the second button 41 to enable the second electromagnet 34 to be powered off, meanwhile, the ejector rod 54 triggers the first button 11 to enable the first electromagnet 10 to be powered off, the first rotary disc 7 is enabled to slide far away from the center side of the helmet 2 by the spring force of the second spring 33 after the first electromagnet 10 is powered off, the first tooth part 8 is meshed with the second tooth part 9, and the rotary disc 7 moves synchronously with the visor 3, then the rotary disc 3 falls freely, the rotary disc 7 is enabled to rotate, and the rotary disc 7 is enabled to rotate in a mode of the rotary disc 6 is enabled to eject the protective neck 22, and the rotary disc 2 is enabled to rotate in a mode of the protective neck 4.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. High security electric scooter with protector, including scooter body (1), its characterized in that: the scooter comprises a scooter body (1), wherein a helmet (2) is arranged on the scooter body and is electrically connected with the scooter body, a movable goggles (3) is arranged on the helmet (2), a first cavity (5) capable of accommodating a neck protection block (4) is arranged inside the helmet (2), the neck protection block (4) is connected with a pull rope (6), and a rotary table (7) matched with the pull rope (6) is arranged on the helmet (2);

the goggles (3) are provided with first tooth parts (8) matched with the turntables (7), and the turntables (7) are provided with second tooth parts (9) matched with the first tooth parts (8);

a first electromagnet (10) matched with the rotary table (7) is arranged on the helmet (2);

a first button (11) capable of triggering the first electromagnet (10) is arranged on the scooter body (1);

the scooter is characterized in that a handle (12) is arranged on the scooter body (1), and a contact piece (13) matched with the first button (11) is arranged on the handle (12).

2. The high safety electric scooter with guard as claimed in claim 1, wherein: the novel helmet is characterized in that a first guide plate (21) matched with the pull rope (6) is arranged in the helmet (2), the pull rope (6) is wound on the rotary table (7) after penetrating through the first guide plate (21), and a first spring (22) is arranged between the first guide plate (21) and the neck protection block (4).

3. The high safety electric scooter with guard as claimed in claim 2, wherein: the rotary table (7) is rotationally arranged in the helmet (2), a rotary shaft (31) is arranged on the rotary table (7), a rotary hole (32) matched with the rotary shaft (31) is formed in the helmet (2), and a second spring (33) is arranged between the rotary table (7) and the helmet (2).

4. The high safety electric scooter with guard as claimed in claim 3, wherein: the goggles (3) are rotationally arranged on the outer side of the helmet (2), second electromagnets (34) matched with the goggles (3) are arranged on two sides of the helmet (2), and magnetic attraction blocks (35) matched with the second electromagnets (34) are arranged on two sides of the goggles (3).

5. The high safety electric scooter with guard as claimed in claim 4, wherein: the scooter comprises a scooter body (1), wherein a second button (41) electrically connected with a second electromagnet (34) is arranged in the scooter body (1), the second button (41) is arranged on a first mounting plate (42), an inertial device is arranged on the first mounting plate (42), a first pressing block (43) matched with the inertial device is arranged on the scooter body (1), a second pressing block (44) matched with the first pressing block (43) is arranged on the inertial device, and the second pressing block (44) is matched with the second button (41) after moving.

6. The high safety electric scooter with guard of claim 5, wherein: the inertial device comprises a second pressing block (44) and a second connecting rod (45) connected with the second pressing block, the second connecting rod (45) is connected with an inertial block (46), the second connecting rod (45) is arranged on the first mounting plate (42), and a third spring (47) is arranged between the inertial block (46) and the first mounting plate (42).

7. The high safety electric scooter with guard as claimed in claim 6, wherein: the first pressing block (43) is connected with a first connecting rod (51), the first connecting rod (51) is slidably arranged in the sliding groove (52), a fourth spring (53) is arranged between the first pressing block (43) and the scooter body (1), a push rod (54) matched with the first button (11) is arranged on the first connecting rod (51), and an elastic rope (55) is arranged between the first connecting rod (51) and the scooter body (1).

8. The high safety electric scooter with guard of claim 7, wherein: the first button (11) is arranged on the button plate (61), the button plate (61) is elastically arranged on the second mounting plate (62), a fifth spring (63) is arranged between the button plate (61) and the second mounting plate (62), a third electromagnet (64) matched with the button plate (61) is arranged on the second mounting plate (62), and a top hole (65) matched with the ejector rod (54) is formed in the second mounting plate (62).

9. The high safety electric scooter with guard as claimed in claim 1, wherein: elastic cables are arranged between the helmet (2) and the scooter body (1), and a mounting bracket matched with the helmet (2) is arranged on the scooter body (1).

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