RU2531867C1 - Snow mobile drive process and snow mobile to this end - Google Patents

Abstract

FIELD: transport.SUBSTANCE: proposed method consists in maintenance of interaction of propulsor elements with bearing surface. Snow mobile propulsor is composed of two skis. Dents are made at ski running surface to make skis run in one direction. Every ski is arranged on ice mobile frame one side and at two L-like brackets on both sides. Every bracket can rotate radially and is fitted by its long end on the shaft whereat chain drive sprocket is fitted. Said brackets are arranged diametrically opposite similar brackets on opposite side. Shaft with sprocket is arranged at the frame, while opposite end of every bracket is connected with mating point of appropriate ski fitted to make in-planet parallel motion parallel with ice mobile vertical plane. Ice mobile comprises frame with bearing surfaces composed by steering ski and bearing skis. Frame supports seat and controls, mechanical drive including engine with chain gearing and propulsor to convert and to transmit driver's physical force to propulsor elements interacting with bearing surface and driving said snow mobile.EFFECT: simplified design, better slip.2 cl, 2 dwg

Description

The invention relates to vehicles and can be used in the development of vehicles for movement on snow and ice.

Known 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. 30700U, 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. 48879U, 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.

Known 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 interconnected - front support module, module frame 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 snowmobile driven by human muscle power 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 provides for 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 two skis, and notches are provided on the running surface of the said skis, providing one-way ski movement of which are placed on one side of the frame of the snowmobile and installed on at least two L-shaped brackets on each side, while each bracket is made as possible the radial rotation and install the long end on the shaft on which the chain sprocket is mounted, said brackets on each side being diametrically opposed to similar brackets on the other hand, said shaft with an asterisk being placed on the frame, and the other end of each bracket connected to the reciprocal the place of the corresponding ski, which is installed with the ability to perform plane-parallel motion in a plane parallel to the vertical plane of the snowmobile, while the stars the chain transmission glasses located on the shafts of the brackets are connected to each other by a chain gear, the gear ratio of the specified gear being chosen equal to unity, while the rotation shaft of one of the brackets is connected to the chain drive sprocket, which is installed on the engine output shaft, while driving in rotation of the main star, using a chain transmission, and provide sequential alternate interaction of the running surface of each ski with the supporting surface to move the snowmobile, covered with snow, by introducing the aforementioned ski into the snow, mainly parallel to the supporting surface, axial movement of the specified ski in the snow relative to the snowmobile and removing the ski out of the snow, while the snowmobile is driven by coasting 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 supporting surfaces made in the form of a steering ski and supporting skis, with a seat and controls, a mechanical snowmobile drive including a chain drive engine containing a drive and a driven sprocket, located on the frame and a propulsion device for converting and transmitting engine power from said snowmobile to propulsion elements interacting with a support surface and driving said snowmobile, while The mover is made in the form of two skis, each of which is placed on one side of the snowmobile frame and installed on at least two L-shaped brackets on each side, each bracket being made with the possibility of radial rotation and mounted with a long end on the shaft, on wherein a chain sprocket is installed, said brackets on each side being diametrically opposed to similar brackets on the other hand, wherein said shaft with an asterisk is located on the frame, and the other end of each bracket Tein interacts with the reciprocal place of the corresponding ski, installed with the ability to perform plane-parallel movement in a plane parallel to the vertical plane of the snowmobile, while chain sprockets placed on the shafts of the brackets are interconnected by a chain gear, and the gear ratio of the specified gear is equal to one, while the shaft rotation of one of the brackets is connected to the drive sprocket of a chain drive mounted on the motor shaft.

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 the proposed 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 frame 1 there is a seat 4 and controls 5. The mechanical drive of the snowmobile contains an engine 6 with a drive sprocket 7 and a driven sprocket 8. The propeller is made in the form of two skis 9 and 10, each of which is placed on one side of the snowmobile frame and installed on at least two L-shaped brackets 11, 12 and 13, 14 on each side, respectively. Each bracket 11, 12 and 13, 14 is made with the possibility of radial rotation and is installed with a long end on the shaft 15 and 16, respectively. On each shaft 15 and 16, chain drive sprockets 8 and 17 are installed. Brackets 11 and 12 on one side are located diametrically opposite to similar brackets 13 and 14, respectively, on the other side. Each bracket with its free end interacts with the reciprocal place of the corresponding ski 9 and 10, installed with the ability to perform plane-parallel movement in a plane parallel to the vertical plane of the snowmobile. Sprockets 8 and 17 of the chain drive, located on the shafts of the brackets 15 and 16, are interconnected by a chain drive. The gear ratio of the specified gear is equal to one.

The proposed method can be implemented using the proposed snowmobile as follows.

The driver seats on a seat 4, mounted on a frame 1 with supporting surfaces made in the form of a steering ski 2 and supporting skis 3 and starts the engine 6. The shaft of the engine 6 starts to rotate and drives the drive sprocket 7. Rotation from the drive sprocket 7 through a chain gear transmitted to the driven sprocket 8. From the sprocket 8, rotation by means of a chain transmission is transmitted to the sprocket 17. The sprocket 8 starts to rotate and rotates the brackets 11 and 12 mounted on the same shaft 15 with the indicated asterisk. The sprocket 17, connected to the sprocket 8 using a chain transmission, also begins to rotate and drives the brackets 13 and 14 mounted on the same shaft 16 with the specified sprocket. Due to the fact that skis 9 and 10 are installed at the ends of the indicated brackets, the skis begin to move plane-parallel in a vertical plane parallel to the plane of the snowmobile, while the ski 9 starts to move forward, and the ski 10 starts to move back. With further movement, the ski 9 plunges into the snow, wrinkles the top layer, abuts against it with the supporting surface, and due to the emphasis of the ski in the snow and the application of force to the brackets 11, 12 and 13, 14, the snowmobile moves forward. After the exit of ski 9 from the snow, it begins to move backward, and the ski - 10 forward. Next, the cycle repeats.

When coasting, for example, when descending from the mountains or when gaining sufficient speed for riding on flat terrain, skis 9 and 10 are disengaged from the supporting surface, and the snowmobile moves in the snow on the steering ski 2 and ski 3.

Changing the direction of movement is carried out by rotating the steering ski 2 left and right using the controls 5.

Using the proposed technical solution will create a snowmobile with the possibility of coasting.

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 two skis, each of which is placed on one side of the snowmobile frame and installed on at least two L-shaped brackets with each side, each bracket being radially rotatable and mounted with a long end on the shaft on which the chain sprocket is mounted, said brackets on each side they are diametrically opposed to similar brackets on the other hand, while the indicated shaft with an asterisk is placed on the frame, and the other end of each bracket is connected to the corresponding place of the corresponding ski, which is installed with the possibility of plane-parallel movement in a plane parallel to the vertical plane of the snowmobile, while the chain sprocket the gears placed on the shafts of the brackets are interconnected by a chain gear, while the shaft of rotation of one of the brackets is connected to the drive link the daughter of the chain gear, which is installed on the output shaft of the engine, while driving the main sprocket is rotated with the help of the chain gear, 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 the mentioned ski into snow, mainly parallel to the supporting surface, the axial movement of the specified ski in the snow relative to the snowmobile and the withdrawal of the ski from the snow, while providing a snowmobile ride t 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 contains a frame with supporting surfaces made in the form of a steering ski and supporting skis, while the seat and controls, a mechanical snowmobile drive including a chain drive engine are placed on the frame containing the driving and driven sprockets, and a propulsion device for converting and transmitting engine power from said snowmobile to propulsion elements interacting with a supporting surface and driving said snowmobile, while the propulsion device completed in the form of two skis, each of which is placed on one side of the snowmobile frame and installed on at least two L-shaped brackets on each side, each bracket being made with the possibility of radial rotation and installed with a long end on the shaft on which it is mounted chain transmission sprocket, wherein said brackets on each side are diametrically opposed to similar brackets on the other hand, wherein said shaft with an asterisk is placed on the frame, and the other end of each bracket is interconnected There is a reciprocal place of the corresponding ski, installed with the possibility of plane-parallel movement in a plane parallel to the vertical plane of the snowmobile, while the chain sprockets placed on the shafts of the brackets are interconnected by a chain gear, while the rotation shaft of one of the brackets is connected to the chain drive sprocket transmission mounted on the motor shaft.

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