The present application relates to the technical field of transportation tools, and more particularly relates to adjustment mechanisms of electric power shoes.
With the further growth of the urban population, traffic jam has become the nuisance of every main city. Although public transportation is a very effective solution to the traffic jam, a last kilometer problem, that is, a relatively long final walking distance, still remains, which is one of the factors hindering the building of a perfect bus system. Therefore, there are various electric transportation tools on the market, such as electric roller skates, which are the solutions to the last kilometer problem.
The Chinese invention patent No. CN103263767A discloses transportation electric roller skates, batteries of which are disposed at the bottoms of shoe bodies. Each shoe body is of a three-wheel structure, two wheels at the front end of which are driving wheels and a rear wheel of which is a ground wheel. Forward and backward speeds are adjusted by applying a force to pedals, and the moving directions of the roller skates can be changed by the radial force applied to the ground wheels through left-right swaying.
However, the existing roller skates must be placed in parallel during straight sliding, otherwise, after the roller skates slide a certain distance, a user would fall over easily because the distance between his/her feet becomes farther and farther, or because the distance between the two roller skates becomes closer and closer to cause interference between the two roller skates. However, people have different walking habits, some used to walking in a toe out manner and some used to walking in a toe in manner, so that the two types of people have to do straight sliding in ways to which they are not used all the time, or need to continuously adjust the positions of the roller skates.
In view of the shortcomings in the prior art, the present application provides adjustment mechanisms of electric power shoes, by which, the relative positions of the shoes may not change even though people do straight sliding in habitual walking ways.
In order to solve the above-mentioned problem, the present application provides the following technical solution: adjustment mechanisms of electric power shoes, each of which includes a shoe sole. A plurality of rollers are disposed below the shoe sole. Each adjustment mechanism is characterized in that a foot locating mechanism is disposed above the shoe sole, and is provided with an angle adjustment mechanism for adjusting an angle between the foot locating mechanism and the lengthwise direction of the shoe sole.
According to the present application, the positions of feet of a human body on the shoe soles are determined through the foot locating mechanisms, and then the placement directions of the feet of the human body on the shoe soles are adjusted through the angle adjustment mechanisms, so that the user can still keep the two shoe soles of the power shoes and the rollers in parallel states even when standing on the shoe soles in his/her own way, toe in or toe out of the two feet, and the two power shoes may not change their relative positions during straight sliding, thus guaranteeing the steadiness of the straight sliding.
Specifically, each of the foot locating mechanisms includes a shoe heel locating member disposed at the rear part of each of the shoe soles. The shoe heel locating member includes a base plate connected to the shoe sole, and block pieces upwards extending from two sides and the rear side of the base plate. A space for accommodating the foot heel is formed among the block pieces. By these structures, the feet of the human body cannot move after being placed between the block pieces, so that the placement angles of the feet on the shoe soles may not change to guarantee the stability of continuous sliding.
Specifically, each of the angle adjustment mechanisms includes at least two slot holes formed in each of the base plates. Extending lines along the lengthwise directions of the two slot holes are intersected, that is to say, a certain included angle is formed between the two slot holes, so that when each of the shoe heel locating members is moved towards two side surfaces, it is inevitable that an angle between the shoe heel locating member and the lengthwise direction of each of the shoe soles deflects to enable the shoe heel locating member to reach a habitual position of the user.
In order to achieve a better technical effect, a further technical measure also includes that: two groups of the above-mentioned slot holes are disposed oppositely, each group including at least two slot holes disposed in parallel. The above-mentioned structure enables the shoe heel locating member to not only adjust its angle from the lengthwise direction of the shoe sole, but also adjust its position in the lengthwise direction of the shoe sole, so that the present application can be suitable for people of different feet lengths.
Further, a motor is further disposed at the lower part of each of the shoe soles. The output end of the motor is connected with a transmission device which is in driving connection with the rollers. By the adoption of this solution, people save more strength during sliding. In addition, in this state, the straight sliding time and distance will be prolonged. The angle adjustment mechanisms save more strength for sliding and make the sliding stabler.
A further improvement is that: each of the shoe soles consists of a shoe heel part and a shoe forefoot part. The shoe heel part and the shoe forefoot part are hinged with each other. As the shoe heel part and the shoe forefoot part may rotate relatively, the present application is more in line with the normal walking habit of the human body.
Further, six rollers are provided, four of which are disposed on the shoe heel part, and the other two of which are disposed on the shoe forefoot part. The above-mentioned structure can ensure that the user can keep stable when walking in this present application by treading on the ground no matter with foot heels or foot soles.
Compared with the prior art, the present application has the following beneficial effects that: the positions of the feet of the human body on the shoe soles are determined through the foot locating mechanisms, and then the placement directions of the feet of the human body on the shoe soles are adjusted through the angle adjustment mechanisms, so that the user can still keep the two shoe soles of the power shoes and the rollers in parallel states even when standing on the shoe soles in his/her own way, toe in or toe out of the two feet, and the two power shoes may not change their relative positions during straight sliding, thus guaranteeing the steadiness of the straight sliding.
A further detailed description will be made below to the present application in combination with accompanying drawings and specific implementation modes.
With reference to
In this embodiment, the foot locating mechanism includes a shoe heel locating member 3 disposed at the rear part of the shoe sole 1. The shoe heel locating member 3 includes a base plate 31 connected to the shoe sole 1 and block pieces 32 upwards extending from two sides and the rear side of the base plate 31. A space for accommodating the foot heel is formed among the block pieces 32.
The angle adjustment mechanism includes two groups of oppositely disposed slot holes 31a formed in the base plate 31. Extending lines along the lengthwise directions of the slot holes 31a are intersected. Each group of slot holes 31a includes at least three slot holes 31a disposed in parallel. Screws pass through the slot holes 31a, and then fix the foot locating mechanism on the shoe sole 1.
In addition, a motor 4 is further disposed at the lower part of the shoe sole 1. The output end of the motor 4 is connected with a transmission device which is in driving connection with the rollers 2.
The shoe sole 1 consists of a shoe heel part 11 and a shoe forefoot part 12. The shoe heel part 11 and the shoe forefoot part 12 are hinged with each other. Six rollers 2 are provided, four of which are disposed on the shoe heel part 11, and the other two of which are disposed on the shoe forefoot part 12.
When using this present application, the user firstly adjusts the angles between the foot locating mechanisms and the lengthwise directions of the shoe soles according to their habits, and then fixes the foot locating mechanisms. After putting on the present application, the user can walk in their habitual walking ways. As the present application accords with the walking habit of the user, the user can master the use of the present application easily without too much roller skating experience. If the user wants to take a rest, he/she can let the shoes slide automatically. During sliding, the feet of the user still can be kept in postures of his/her own habit.
Of course, in addition to the implementation mode mentioned in this embodiment, the angle adjustment mechanisms may also have other implementation modes. For example, the slot holes may be formed in the shoe soles, and the lower side surfaces of the foot locating mechanisms are provided with pin shafts inserted into the slot holes. Or, the foot locating mechanisms are detachably mounted on the shoe soles, and a plurality of mounting positions for fixing the angle directions are disposed on the shoe soles.
The locating mechanisms may also have other implementation modes in addition to the implementation solution mentioned in this implementation mode. For example, the most common locating mechanisms are shaped like shoes.
Filing Document | Filing Date | Country | Kind |
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PCT/CN2017/000500 | 8/3/2017 | WO | 00 |