RU2531935C1 - Method of snowmobile movement and snowmobile for its realisation - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: group of inventions relates to the method for movement of a snowmobile and a snowmobile. The method of snowmobile movement consists in provision of interaction of propeller elements with the support surface. The snowmobile propeller is made in the form of a three-beam star, which is rotated with the help of a chain drive. Skis are installed in the tops of the specified star with the possibility of their rotation relative to the star in areas of their fixation to beams and with the possibility of axial vertical movement. Each ski is made of two parts, which are hingedly connected to each other so that skis move in the vertical plane as the main star rotates. On the running surface of the specified skis they make notches providing for movement of skis to one side. Free running of the snowmobile is ensured by taking both skis out of contact with the support surface. The snowmobile comprises a frame with support surfaces made preferably in the form of skis. On the frame there is a seat and control elements, a mechanical drive of the snowmobile with a chain drive and a propeller for conversion and transfer for a physical force from a driver of the specified snowmobile to elements of the propeller, interacting with the support surface and driving the specified snowmobile.

EFFECT: provides for design simplification and improved sliding of a snowmobile.

2 cl, 2 dwg

Description

The invention relates to vehicles for movement on snow and ice.

Known a snowmobile containing a housing with an engine mounted on it, the main frame, inside which is a caterpillar mover, the driven shaft of which is connected via a caterpillar to a drive shaft kinematically connected to the engine, guiding the ski, seat with backrest (RF patent No. 30700 U, IPC 7 B62D 55/00, 2003).

The disadvantage of this solution is the complexity of the design, the large size and complexity of transporting the snowmobile to the place of use and to the storage location, the inability to transport inside the car. To transport such a snowmobile, you must use either a small truck or a large trailer.

Known a snowmobile containing a frame, engine, seat, steering, front support in the form of a ski, rear support in the form of a cylindrical drum, the drive of a cylindrical drum from the engine in the form of a chain transmission (Journal "Young Technician", No. 1, 1977, with .58-60).

A disadvantage of the known device is the stiffness caused by the use of a rear support in the form of a drum, low maneuverability and poor stability. In addition, the snowmobile is difficult to transport to the place of use and to the storage location inside the car.

A snowmobile is known comprising a frame, an engine, a seat, a steering, a front support in the form of a ski, a rear support, a drive of a rear support from the engine in the form of a chain drive, while the rear support is mounted in a frame connected to the frame and is made in the form of a drum ( RF patent No. 48879 U, IPC 7 B60F 5/00, 2005).

The disadvantage of this snowmobile is its low passability caused by the use of a rear support in the form of a drum, and poor stability, as well as the location of the engine directly under the seat. In addition, the snowmobile is difficult to transport to the place of use and to the storage location inside the car.

A known method of moving a snowmobile and a snowmobile containing a frame, engine, seat, steering, front support, rear support mounted on a frame connected to the frame, while the said elements of the snowmobile are combined into three independent modules, detachably and pivotally connected to each other - module front support, frame module and rear support module (RF Patent No. 2424150, IPC: V62M 27/02, V62K 25/16, V62V 13/08, V62K 15/00, V62K 25/20, B62D 55/07 - prototype).

The snowmobile contains a frame, an engine, a seat, a steering, a front support, a rear support mounted on a frame connected to the frame. The indicated elements of the snowmobile are combined into three independent modules: the front support module, the frame module, the rear support module, articulated and detachable. The front support module includes a steering fork. To the bottom of the steering fork is attached with the possibility of synchronous rotation of a pair of skis. The front support module provides steering control for the snowmobile, and a pair of skis is the front support. The back support module contains a caterpillar mover mounted on the frame with an engine placed above it.

The disadvantages are the design complexity, significant dimensions and weight, the need to use an engine to drive the mover, significant power losses when using a caterpillar track, and the inability to coast, since the tracks prevent the snowmobile from sliding freely in the snow.

The objective of the proposed invention is to remedy these disadvantages and create a method of moving a snowmobile driven by muscular human strength and the ability to coast.

The solution to this problem is achieved by the fact that in the proposed method of moving a snowmobile, which consists in ensuring the interaction of the mover elements with the supporting surface, according to the invention, the mover of the snowmobile is made in the form of a star, preferably a three-beam, which is rotated by a chain transmission, while at the vertices of the rays of said star, skis are installed with the possibility of their rotation relative to the star in the places of their attachment to the rays and with the possibility of axial vertical movement, with each the ski is made of at least two parts that are pivotally connected to each other in such a way that the skis are moved in a vertical plane when the main star rotates, and the skis are set at the tops of the rays so that the distance from the ski toe to the installation site is equal to 0 , 2 ... 0.4, preferably 0.25 of the length of the ski, while notches are provided on the running surface of the said skis to ensure that the skis move in one direction, and when driving the main star is rotated, preferably and using chain transmission, and provide sequential sequential interaction of the running surface of each ski with the supporting surface for moving the snowmobile covered with snow by introducing said ski into the snow, axial movement of the specified ski in the snow relative to the snowmobile and removing the ski out of the snow, while providing a snowmobile ride by removing both skis from contact with the supporting surface.

To implement this method, a snowmobile is proposed, which, according to the invention, comprises a frame with abutment surfaces made, preferably. in the form of skis, with the seat and controls placed on the frame, a mechanical drive, preferably with a chain drive and propulsion, for converting and transmitting physical force from the driver of said snowmobile to propulsion elements interacting with the supporting surface and driving said snowmobile in motion, the mover is made in the form of a star, preferably a three-beam, driven into rotation by means of the aforementioned chain transmission, with skis installed at the vertices of the rays of the indicated star with the possibility of their rotation relative to the star in the places of their attachment to the rays and with the possibility of axial vertical movement, while each ski is made of at least two parts pivotally connected to each other in such a way that the skis are moved in a vertical plane when the main star rotates, and the skis are installed in the tops of the rays in such a way that the distance from the ski toe to the installation site is equal to 0.2 ... 0.4, preferably 0.25 of the length of the ski, while notches are made on the running surface of the said skis providing one-way skiing.

The lower value of the proposed ratio is selected based on the fact that with a further decrease in it, the ski will take an almost vertical position at the upper point, which will lead to deterioration of the propulsion due to the deterioration of the conditions for the ski to enter / leave the snow.

The upper value of the proposed ratio is selected based on the fact that with a further increase in the ski at high speeds of the three-pointed star, it will not take the specified position - with the ski toe up, or even can take the position with the ski toe down, which will also lead to deterioration of the propulsion due to deterioration conditions for skiing in / out of snow.

The invention is illustrated by drawings, where figure 1 shows a General view of a snowmobile, figure 2 is a rear view of a snowmobile.

The proposed method can be implemented using a snowmobile having the following design.

The snowmobile contains a frame 1 with supporting surfaces made in the form of a steering ski 2 and supporting skis 3. On the 1 frame there is a seat 4 and controls 5. Also on the frame 1 there is a mechanical drive 6 with a chain gear 7 and a mover 8. The mover 8 is made in the form of a three-beam star 9, driven into rotation by a chain transmission 7. At the vertices of the rays 10 of the star 9, skis 11 are installed with the possibility of their axial vertical movement and rotation relative to the star in the places of their attachment to the rays 10. On the running surface of the skis 11 there are notches 12, about ensuring the movement of skis in one direction and preventing their movement in the opposite direction. Each ski 11 is made of at least two parts 13 and 14, pivotally connected to each other so that the skis 11 are moved in a vertical plane when the main star rotates. Skis are installed at the tops of the beams in such a way that the distance from the toe of the ski to the installation site is 0.2 ... 0.4, preferably 0.25, of the length of the ski.

The proposed method is implemented using the specified snowmobile as follows.

The snowmobile driver sits on the seat 4, located on the frame 1 with the supporting surfaces, made in the form of a steering ski 2 and supporting ski 3, and begins to rotate the chain gear 7 using the pedals. The rotation is transmitted to the three-beam star 9 of the propulsion 8.

When the three-beam star 9 rotates, the skis 11 move around the circumference. Due to the implementation of the skis 11 with the possibility of their axial movement relative to the rays 10, when lifting the ski 11, the ski falls under the influence of its weight on the amount of travel at the place of incorporation, which allows to optimize the design of the mover itself and improve its mass-dimensional characteristics. When the ski enters the snow, the rays 10 move relative to the ski at the embedment site. The implementation of skis 11 in two parts allows you to optimize the conditions for the interaction of skis with snow, because when lifting from the snow / at the entrance to the snow, the ski 11 is not displayed / introduced immediately, but in parts due to the bend at the junction of parts 13 and 14, which allows to increase the interaction time of the ski support surface with the support surface covered with snow, and at the same time time to reduce the coefficient of friction of sliding skis in the snow. When moving, each ski 11 at the beginning of the movement is in contact with the supporting surface - snow, then deepens into it and rests with notches 12 in the snow, excluding the slippage of the ski in the snow. Due to the emphasis of the ski 11 in the snow, the snowmobile moves forward until the ski leaves the snow and the next ski enters the snow. The process is then repeated. When coasting, for example, when descending from the mountains or when gaining sufficient speed for riding on flat terrain, skis 11 are disengaged from the supporting surface and the snowmobile moves in the snow on the steering ski 2 and supporting ski 3. Change of direction is made by rotating the steering ski 2 left and right using the controls 5.

Using the proposed technical solution will allow you to create a snowmobile with a muscular human power drive and the ability to coast.

Claims (2)

1. The method of moving a snowmobile, which consists in ensuring the interaction of the mover elements with the supporting surface, characterized in that the mover of the snowmobile is made in the form of a three-beam star, which is rotated by a chain transmission, while skis are mounted at the vertices of the rays of the indicated star with the possibility of rotation relative to the star in the places of their attachment to the rays and with the possibility of axial vertical movement, while each ski is made of two parts that are pivotally connected to each other Thus, the ski is moved in a vertical plane during the rotation of the main star, while on the running surface of the said skis, notches are made to ensure that the skis move in one direction, and when driving, the main star is rotated, preferably by means of a chain transmission and ensure a consistent alternating interaction of the running surface of each ski with the supporting surface for moving the snowmobile covered with snow by introducing said ski into the snow, axial movement of said ski and in the snow relative to the snowmobile and the withdrawal of the ski from the snow, while the snowmobile riding on the coast is provided by removing both skis from contact with the supporting surface. 2. A snowmobile for implementing the method according to claim 1, characterized in that it comprises a frame with abutment surfaces made preferably in the form of skis, with a seat and controls, a mechanical drive with a chain drive and a drive for converting and transmitting on the frame physical effort from the driver of the indicated snowmobile to the propulsion elements interacting with the supporting surface and driving said snowmobile, the propulsion device is made in the form of a three-beam star, driven into rotation by the unit cross-chain transmission, and at the vertices of the rays of the specified star installed skis with the possibility of rotation relative to the star in the places of their attachment to the rays and with the possibility of axial vertical movement, while each ski is made of at least two parts pivotally connected to each other so that the ski is moved in a vertical plane during the rotation of the main star, while notches are made on the running surface of the said skis to ensure the ski moves in one direction.

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