WO2017131554A1

WO2017131554A1 - Vehicle edge device

Info

Publication number: WO2017131554A1
Application number: PCT/RU2017/000027
Authority: WO
Inventors: Алексей Федорович ХОРОШЕВ
Original assignee: Алексей Федорович ХОРОШЕВ
Priority date: 2016-01-29
Filing date: 2017-01-23
Publication date: 2017-08-03

Abstract

A vehicle edge device having a shape with an outline which is circular in projection on the horizontal plane of a supporting surface, wherein the edge is able to pass between potential points of contact therewith which are situated at a distance equal to the diameter of the circle. The technical result is that of preventing the edge from getting jammed; providing ideal Internet compatibility, optimal conditions for any positioning system, and optimal conditions for any digital technologies; saving space; increasing traffic flow density; and fulfilling the claimed purpose. The device should enable the significantly more rapid and efficient deployment of fully automatic steering in individual vehicles and the unification of such vehicles into a fully automatic transport system in which modified vehicles can completely replace cars and, where possible, other types of transport.

Description

Utility Model Description

Utility Model Name:

The device of the periphery of the vehicle.

The technical field to which the utility model relates:

The preferred area of application of the utility model “Vehicle peripheral device” (hereinafter also referred to as “PM”) are transportation devices.

The prior art:

It is well-known device of vehicles, the contact efficiency of which with the medium in terms of minimizing the area of the supporting surface necessary for movement and being in a state of immobility is achieved by giving the vehicle (hereinafter also referred to as "TS") an increasingly rounded shape which, as a result of this, for some TSs is such that the projection of the external contour of these TSs onto the horizontal plane of the supporting surface has the shape of a circle, however, as a device, i.e. as a product of human activity, the elements of which are in constructive unity and functional interconnection, it is the periphery (from Greek: peripheria - circle), i.e. circumferential, outer part, vehicle in the prior art is not disclosed. Therefore, PM has no analogues.

Disclosure of utility model:

When creating a PM, the following are solved: the task of increasing the usability of the vehicle and the task of expanding the arsenal of technical means having the purpose of the vehicle, the disclosure of which will be done below, indicating the technical result provided by the PM.

The essence of the PM, as a technical solution, is expressed in the following set of essential features sufficient to achieve the technical results provided by the PM: the device of the periphery of the vehicle, characterized by the execution in the form, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, with the possibility of the passage of this periphery between those at a distance equal to the diameter of this circle, possible places of contact of this periphery.

The above PM achieved the following technical results:

prevention of jamming of the periphery of the vehicle, the external contour of the projection of which on the horizontal plane of the supporting surface has the shape of a circle between those at a distance equal to the diameter of this circle, possible places of contact of this periphery, therefore, the convenience of using the vehicle is increased;

providing the ability to calculate vehicle data by calculating the data of a single point, which is the center of symmetry allowing the peripherals of the vehicle to be in contact, which ensures perfect Internet compatibility of the vehicle, optimality for any positioning, optimality for any digital technology, therefore, the convenience of using the vehicle is enhanced;

saving space required for the operation of the vehicle due to the possibility of places of possible contact with the periphery of the vehicle to create spatial volumes free for the periphery of the vehicle to pass through with a cross section of the minimum possible contact along the periphery of the vehicle, equal to the diameter of the circle, the shape of which forms the projection of the periphery of the vehicle on a horizontal plane supporting surface for movement in these spatial volumes of the vehicle, therefore, the usability of the vehicle is increased;

increasing the density of the traffic flow due to the possibility of the most efficient, minimally possible for the traffic flow area of the traffic flow in which there are no intervals between vehicles, i.e. in which the vehicles are in contact on a peripheral surface that allows such contact, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, due to changes in the relative position of the vehicle relative to the bends and roughnesses of the vehicles forming such a stream and changes in the configuration of such a stream, due to the presence of vehicles forming this stream of the design provided by the PM, providing the possibility of passing the periphery of the vehicle, under the influence of bumps and / or bends of the road changing its decomposition between the contacting with the other TC TC between located at a distance equal to the diameter of the circle, which defines the shape of the projection of the periphery of the vehicle on the horizontal plane of the support surface, possible places of contact of the periphery, therefore, easy to use vehicle increases;

implementation of the purpose of the vehicle, the modification of which is provided in conjunction with existing devices, the claimed PM device of the periphery of the vehicle, not known from the prior art and not explicitly from the prior art, therefore the arsenal of technical means having the purpose of the vehicle is expanding.

The inventive PM, providing the above technical results, should allow fundamentally more quickly and efficiently: implement fully automatic control of individual vehicles, combine their operation in a fully automatic transport system in which vehicles modified using PM can completely replace cars and, if possible, other types transport.

Brief Description of the Drawings:

Drawings are not given.

Implementation of a utility model: PM will be described in detail below. However, it should be noted that the options for implementing the PM described below do not limit the PM. In addition, the constituent elements of the PM embodiments described below include elements that can easily be represented by one of ordinary skill in the art, or elements that are essentially the same as elements that can easily be represented ordinary specialist in the relevant field of technology.

The PM can be carried out, for example, by the device of the periphery of the vehicle, characterized by the execution in the form, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, with the possibility of the passage of this periphery between those at a distance equal to the diameter of this circle, possible places of contact of this periphery. At the same time, it should be noted that the possibility of passage of the periphery of the vehicle, the external contour of the projection of which onto the horizontal plane of the supporting surface forms a circle shape, between those at a distance equal to the diameter of this circle, i.e. the diameter of the vehicle, the possible places of contact of this periphery, essentially means the maximum freedom of mobility of the periphery of the vehicle relative to the most diverse objects, contact with which the periphery of the vehicle is possible during normal operation, if, of course, there is no contact, or if there is one place of contact, or if there are places of contact several and the distance between any or some places of contact is less than the diameter of the vehicle, or if, of course, the distance between the places of contact is equal to etru TC, and these occur arranged contact sites can not only in one plane. Therefore, in order to have the periphery of the vehicle, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, with the possibility of passage of this the periphery between the possible contact points of this periphery at a distance equal to the diameter of this circle did not arise at all that complicate the normal operation of the vehicle processes that significantly impede movement, which are not the result of the specially designed possibility of the periphery of the vehicle freely, i.e. without significant additional efforts, to pass between possible places of contact of this periphery located at a distance equal to the diameter of this circle, this PM provides, for example, such a design of the periphery of the vehicle in which the external surface contour of this periphery along which contact is possible during normal operation is always has the shape of a circle or the corresponding part of this circle, with a diameter equal to the diameter of the circle, the shape of which is formed by the projection of the periphery of the vehicle on the horizontal plane of the supporting surface in any of the planes crossing a point equidistant from each of the two following motor wheels (hereinafter also referred to as the “center of symmetry of the vehicle’s periphery”) on a line passing through the axis of rotation symmetrically relative to the axis of symmetry of the vehicle’s periphery of these two electric motor- wheels, changes in the rotation characteristics of which provide mobility and controllability of the vehicle; in this case, the PM, characterized by the form of the device as a whole: the execution of the periphery in the form, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, and the general concept presented at the level of functional generalization: with the possibility of passing this periphery between those at a distance equal to the diameter of this circle, possible places of contact of this periphery, can be implemented, for example, by performing the periphery of the vehicle by placing at the same distance from above azannoy point defined on a line passing through the axes of the above motor-wheels, providing a certain, for example, taking into account currently existing restrictions on the width of the vehicle designed for the vast majority of roads, which is no more than 2.55 m, the diameter of the corresponding spherical surface of the vehicle periphery, limited, for example, in the normal vertical position of the vehicle above the supporting surface vertically in the range from the size of the minimum ride height, which, for example, is currently about 0.1 - 0.2 m., to the maximum step height acceptable for the passenger, which, for example , at present, it should be taken in the amount of about 0.2 - 0.3 m. of contacting spherical elements having dimensions that allow, taking into account all the above conditions, to ensure their placement for the formation of the periphery of the vehicle so that they are as distant from the point of symmetry of the corresponding surface of the periphery The TS points of these elements formed the above diameter of the corresponding part of the spherical surface, the circular shape of the projection of which has an external contour of the projection of the periphery of the TS on the horizontal plane of the supporting surface providing passage of the periphery of the vehicle between the places of possible contact, for which the spherical elements can be placed in horizontal circular rows vertically filling the entire supporting surface on the spherical base forming at the same distance from the center of symmetry of the periphery of the vehicle of the supporting surface having linear dimensions corresponding to the above linear dimensions of the location spherical elements and the spherical elements themselves, held on the supporting surface corresponding to the shape of ezhutkov between the spherical elements of details, do not interfere with the passage. The above-mentioned periphery of the vehicle is made of impact-resistant, wear-resistant, energy-absorbing impacts that provide good sliding, corrosion-resistant materials, creating the appropriate the abovementioned locations of the elements that form the vehicle enclosing in a circle around the vehicle, which ensure the normal operation of the vehicle and protect the vehicle from damage when a contact occurs with other objects, the perimeter, the above design of which forms the periphery, should ensure maximum freedom of mobility the periphery of the vehicle is relatively diverse objects, contact with which the periphery of the vehicle is possible with normal operation, if, of course, there is no contact, or if there is one contact point, or if there are several points of contact and the distance between any or some points of contact is less than the diameter of the vehicle, or if, of course, the distance between the points of contact is equal to the diameter of the vehicle, and arise and settle down these places of contact can not only in one plane. This design of the TS periphery ensures the perfect Internet compatibility of the TS, optimal for any positioning, optimal for any digital technology the ability to calculate the data of each TS through the calculation of the data of one point, which is the center of symmetry allowing the contact of the TS periphery, which is further optimized by the certainty of spatial volumes with a minimum cross section possible along the contour of the periphery of the vehicle touching the width equal to the diameter of the circle, the shape of which forms a Ktsia periphery of the vehicle to a horizontal plane of the bearing surface for movement in these TS spatial volumes.

If necessary, the statement of the above embodiment of the claimed PM should be considered as the statement of at least the best of the options proposed by the applicant for the implementation of the PM. The above information certainly confirms that the above and any other design of the periphery of the TS implementing the PM realize the purpose of this periphery indicated as the "TS periphery", the set of essential features of which, one of which is characterized by the form of the device as a whole: the execution of the periphery in shape, the external circuit the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, and the second - a general concept presented at the level of functional generalization: with the possibility of passage between the periphery of the located at a distance equal to the diameter of this circle, possible places of contact of the periphery certainly enhances convenience vehicle use, as also confirmed the possibility of obtaining in the implementation of the PM such technical effects, such as:

prevention of jamming of the periphery of the vehicle, the external contour of the projection of which on the horizontal plane of the supporting surface has the shape of a circle, between those at a distance equal to the diameter of this circle, possible places of contact of this periphery;

providing the ability to calculate vehicle data by calculating the data of one point, which is the center of symmetry that allows the peripheral contact of the vehicle, which ensures perfect Internet compatibility of the vehicle, optimality for any positioning, optimality for any digital technology;

saving space required for the operation of the vehicle due to the possibility of places of possible contact with the periphery of the vehicle to create spatial volumes of free passage for the periphery of the vehicle with a cross section of the width that is possible along the circuit and allowing the periphery of the vehicle to touch the width equal to the diameter of the circle, the shape of which forms the projection of the periphery of the vehicle on a horizontal the plane of the supporting surface, for movement in these spatial volumes of the vehicle;

increasing the density of the traffic flow due to the possibility of the most efficient, minimally possible for the traffic flow area of the traffic flow, in which there are no intervals between vehicles, i.e. in which the vehicles are in contact on a peripheral surface that allows such contact, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, due to the bending and road irregularities of the relative position of the vehicles forming such a stream and changes in the configuration of such a stream, due to the presence of vehicles forming this stream of the design provided by the PM, providing the possibility of passing the periphery of the vehicle, under the influence of bumps and / or bends of the road changing its decomposition between the contacting with the other TC TC between located at a distance equal to the diameter of the circle, which defines the shape of the projection of the periphery of the vehicle to a horizontal plane of the support surface, possible places of contact of the periphery.

The above information certainly confirms that the above and any other construction of the vehicle periphery that implement the PM realize the purpose of this periphery indicated as the "vehicle periphery", also provide the possibility of obtaining such a technical result as the implementation of the vehicle when the PM is implemented, because . the above and any other designs realize the purpose of its periphery, the set of essential features of which, one of which is characterized by the form of the device as a whole: the execution of the periphery in the form, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, and the second with the general concept, presented at the level of functional generalization: with the possibility of the passage of this periphery between the possible places of contact of this periphery located at a distance equal to the diameter of this circle, of course, provides for the modification of the vehicle in conjunction with existing devices, the claimed PM device of the periphery of the vehicle, not known from the prior art and not following for a specialist explicitly from the level technology, which certainly expands the arsenal of technical means having the purpose of the vehicle.

The above information also unconditionally confirms that the claimed PM, solving the above problems and providing the above technical results, really allows you to fundamentally more quickly and efficiently: implement fully automatic control of individual vehicles, combine their operation in a fully automatic transport system, in which modified with PM TS will be able to completely replace cars and, if possible, other modes of transport.

In conclusion, it should also be noted that while the PM was described with reference to exemplary options for its implementation, it should be understood that the PM is not limited to the exemplary embodiments or designs described above, but covers any and all options within the scope of the PM formula . It should also be understood that the PM is intended to cover various modifications, and equivalent placement, and any other use cases of the PM. In addition, it should be understood that while various elements of exemplary embodiments are described in various combinations and configurations that are exemplary, other combinations and configurations including more, fewer elements or only one element may also correspond to the nature and volume of the PM, for example, if it is possible to pass the periphery of the vehicle, the external contour of the projection of which on the horizontal plane of the reference the surface has the shape of a circle, between those located at a distance equal to the diameter of this circle, the possible places of contact of this periphery, by appropriate application of a substance that provides passage through slippage; or in the manufacture of a contact surface of the periphery of the vehicle, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, directly from the substance, also, for example, providing a slip path; or with various combinations of similar approaches; or in cases of the like.

Industrial Applicability:

It is obvious from the description and nature of the utility model.

Claims

Utility Model Formula

The device of the periphery of the vehicle, characterized by the execution in the form, the external contour of the projection of which onto the horizontal plane of the supporting surface has the shape of a circle, with the possibility of the passage of this periphery between those at a distance equal to the diameter of this circle, possible places of contact of this periphery.