RU2592972C1 - Bicycle - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to bicycle. Bicycle comprises frame, wheels, seat, steering wheel, fork steering wheel gearbox compound steering shaft front wheel fork shaft transmitting torque to steering wheel fork of steering wheel. Transmission of torque at steering wheel fork of steering wheel is made through system of gears. Shaft axis of plug and gears of steering wheel are not parallel to axis of rotation of steering wheel. Steering wheel fork shaft rests against part of discharge cavity of frame, which is made at an angle to axis of steering shaft.

EFFECT: providing easier control and adjustment in wide range of height of steering wheel.

4 cl, 5 dwg

Description

The invention relates to bicycles and may find application for creating bicycles with a large range of changes in the height of the steering wheel.

Known folding bike (RU 108405 U, publ. 09/20/2011), including a frame, a steering wheel connected to a steering wheel extension, front and rear forks of the front and rear wheels, a seat, pedals, a chain transmission connecting the pedals to the rear wheel, and a unit carriages, characterized in that the frame is made of fixed and movable parts, while the movable part contains a traverse and a tightening pipe connected at one end through the rotation sleeves of the head bracket with the steering wheel and front wheel fork, the other end of the tightening pipe through the bushings in The rotation of the support bracket, the lower and middle pipes, as well as the support of the traverse, are fixed to the seat tube connected to the fixed part of the frame through the support pipe and the rear fork pipe with the rear wheel fork.

Known bicycle (RU 2391244, publ. 10.06.2010), including a frame with a seat mounted on the rear drive wheel and front swivel wheel, the sleeve of which is equipped with a bearing mounted on an axis with a through hole, which is fixed in a rotary fork, the axis of which is fixed in the bearings of the frame and is equipped with a steering wheel at the end, while a shaft with connecting rods and pedals at the ends is attached to the frame in the bearings so that the shaft passes through the hole of the wheel axis, while the shaft is connected by a chain drive and a freewheel with rear wheel rotation CA, characterized in that the fork is equipped with two feathers, covering the wheel on both sides, one feather of which is attached with a detachable connection, for example a screw, to a nut screwed onto an axis with a hole, and the other feather of the fork is attached with a detachable connection, for example a screw, to an eye with a hole threaded on an axis with a hole and having a shoulder at the end, while the nut presses the bearing mounted on the axis with the hole to the eye and through it to the shoulder at the end of the axis.

Known UNIVERSAL FOLDING BIKE (RU 2264945, publ. 27.11.2005). The front and rear wheels, cantilever mounted on one side on the swinging levers, in the folded state of the bicycle are located opposite each other. To do this, when folding, disconnect the front suspension from the front pillar, and the rear suspension is disconnected from the end of the frame. Then the front swing arm with the front wheel is rotated relative to the hinge on the front strut to the center of the frame. Then the rear swing arm with the rear wheel is rotated relative to the central assembly to the center of the frame. Freely adjustable steering wheel and seat also have the ability to fold. The technical solution is aimed at ensuring the size of the folded bicycle corresponding to a square with sides equal to the diameter of the wheels.

The closest analogue is Japanese application JP 2007091198 (publ. 2007). It claims a bicycle containing a frame, seat, steering wheel, steering wheel plug, gear connection of the front wheel rudder bush to the plug hub, transmitting the moment of rotation of the steering wheel to the steering wheel fork.

The difference from the prototype is that the reducer connection of the front wheel rudder bush with the forks plug is straight (i.e. parallel), does not fulfill those functions and does not solve the tasks that are implemented in the claimed invention.

The disadvantages of the prototype and all known solutions are:

- lack of adjustment in a wide range of heights at the helm;

- the inability to change the height of the steering wheel in a simpler and faster way without the use of locking clamps;

- the inability to lay wires and cables for the brakes completely inside the cavity of the frame up to the handles of the steering wheel;

- the inability to install a shock absorber on the base of the steering wheel plug;

- lack of ability to simplify depreciation of the steering wheel;

- the lack of the ability to more easily control steering.

The objective of the invention is to eliminate the disadvantages inherent in known solutions.

The technical result of this solution is the ability to adjust the height of the steering wheel in a wide range, the ability to change the height of the steering wheel in a simpler and faster way without the use of locking clamps, the ability to lay wires and cables for the brakes completely inside the cavity of the frame up to the handles of the steering wheel, the ability to install a shock absorber on the base of the steering fork wheels and simplify cushioning, the possibility of easier steering.

The specified technical result is achieved due to the fact that the claimed bicycle, containing the frame, wheels, seat, steering wheel, steering wheel plug, gear connection of the front wheel steering sleeve with the plug of the wheel, transmitting the moment of rotation of the steering wheel to the steering wheel fork, characterized in that the transmission of torque the rotation of the steering wheel on the steering wheel fork is made through a system of gears, moreover, the axis of the fork shaft and the steering gears are not parallel to the axis of rotation of the steering wheel, and the steering fork shaft abuts against cavity removal frame, which is made at an angle with respect to the axis of the steering shaft. Preferably, the frame retraction, which serves as an abutment for the steering wheel fork, is horizontal and the cavity where the steering wheel fork shaft abuts is arranged vertically, wherein the transmission of the steering torque to the steering wheel fork is made through gears mounted on the steering shaft and the steering shaft shaft, between which the intermediate gear is located.

Preferably, the steering shaft is made up of telescopic pipes in which holes are made to fix the level of the height of the extension of the pipes by means of a stud.

Preferably, bevel gears are used as gears.

Brief Description of the Drawings

In FIG. 1 shows an example of a bicycle where the steering fork shaft abuts against a portion of the frame retraction cavity, which is angled with respect to the axis of the steering shaft.

In FIG. 2 shows the same bike as in FIG. 1, but a sectional view.

In FIG. Figure 3 shows an example of a bicycle where the frame retraction, which serves as a stop for the steering wheel fork, is horizontal and the cavity where the steering wheel fork shaft abuts is located vertically.

In FIG. 4 shows the same bike as in FIG. 3, but a sectional view.

In FIG. 5 shows the principle of possible folding of the telescopic steering wheel.

The implementation of the invention

The bicycle has wheels 1, a supporting frame 4 and a seat 7. The seat 7 is preferably performed using seatposts 5 or telescopic tubes in order to possibly adjust the height of the seat in a wide range. It is rational to do this on the basis that the gear 2 with pedals 3 is always in the same zone with respect to the user's body, when the steering wheel and seat are altered simultaneously. The connection of the pipes 5 is possible by means of the locking collars 6. However, the adjustment of the seat height is not the subject of protection of this decision. The basis of the solution is a new principle of the design of the steering wheel, where the steering wheel plug 11 has a gearbox connecting the front wheel rudder bush to the plug hub, transmitting the moment of rotation of the steering wheel to the steering wheel fork.

The novelty of the solution is that the moment of rotation of the steering wheel 12 to the steering wheel plug 11 is transmitted through the gear system 19, 20. As the gears, for example, bevel gears can be used. In this case, the axis of the shaft of the fork 11 and the gears 19 of the steering wheel are not parallel to the axis of rotation of the steering wheel, but at an angle to it. The shaft of the steering wheel plug 11 abuts against a portion of the frame exhaust cavity, which is also made at an angle with respect to the axis of the steering shaft. Another emphasis of the fork shaft is a gear 20 in contact with the steering wheel shaft gear 19. This design allows you to adjust the height of the rudder in a wide range, since the height of the sleeves 16, 17, 18 of the rudder 12 is not limited, as in the known solutions, by focusing on the plug 11. Since the plug 11 has its own separate socket in which the axis of the plug is located under at a different angle than the axis of the steering shaft 8, the steering bushings 16, 17, 18 abut only at the base of the frame 4 and can have a large range of heights at which the steering wheel can be pulled out of the frame. For example, see FIG. 5 - minimum rudder height, and see FIG. 1 - average rudder height. With the maximum extension of the steering wheel from the frame, the locking pins are inserted into the holes 9 (as in Fig. 2) on the steering bushes. Also, the claimed solution allows you to change the height of the steering wheel in a simpler and faster way without the use of locking clamps, since a rigid clamp connection of the shaft of the steering wheel 8 and the shaft of the yoke 11 is not required, which was first required to be loosened with a key, then pulled out or inserted deep into the steering tube and again secured with a key to the clamp. Thus, the steering shaft can be made, for example, consisting of telescopic pipes 16, 17, 18, in which holes 9 are made to fix the level of the height of the extension of the pipes by means of the pin 10. And to change the level of the height of the steering wheel it is enough to pull the pin, change the height of the steering wheel to new matching holes and insert it again. There are other options for changing the height of the steering wheel (screw and hydraulic - not shown in the drawings, because they are not the subject of protection of this solution).

Also, the claimed solution allows you to lay the wires and cables for the brakes completely inside the cavity of the frame up to the handles of the steering wheel. If in the solutions known today in technology, all the wires are from the steering pipe to the steering knobs from the outside, then due to the fact that in the claimed solution, the plug 11 now does not block the path in the cavity of the frame 4 when moving into the steering pipe, the cavity inside the frame 4 is continuous up to steering knobs 12. From FIG. 2 clearly shows the location inside the cavity of the tube frame of the steering wheel cable 13 for the rear brake 15. For comparison, in FIG. 1 cable 13 sticks out only at the brake 15 and at the brake handle 14, which is mounted on the steering wheel 12.

Usually, shock absorbers are placed on the steering wheel plug 11 on the sides of the fork and so that the fork height has a power reserve of the shock absorber so that the tire does not touch the base of the fork during depreciation. This creates the inconvenience of a short range of changing the height of the steering wheel due to the high fork. In the claimed solution, this problem is absent, and it is possible to install a shock absorber on the steering wheel plug in the zone of its base, and not on the sides. This makes it possible to limit oneself to one shock absorber, and not two, and does not require an increase in the fork height, since the wheel itself will be amortized with the fork.

Also, the claimed solution allows for easier steering. This can be realized, for example, through the use of hydraulic power steering traction (to enhance the transmission of torque from the steering wheel to the fork through gears), similar to how they are used in cars (not shown). Or easier steering is realized due to the fact that the frame retraction, which serves as a stop for the steering wheel fork, is performed horizontally. In this case, the cavity where the steering wheel fork shaft abuts is placed vertically. An example of such a construction is shown in FIG. 3. The transmission of the moment of rotation of the steering wheel to the steering wheel fork can be done through gears 19, 20 mounted on the steering shaft and steering shaft of the steering wheel, between which the intermediate gear 21 is located (see Fig. 4). Lighter steering in this version of the retraction is ensured by the fact that the wheel itself and the fork rotate almost along the vertical axis. In the bikes known in the art, the axis of the steering wheel fork rotates along an axis deviated from the vertical vertical line by a certain angle (otherwise the wheel will touch the frame). As a result, the front wheel creates a mass load from the frame, forming an additional resistance force in a different vector, plus the earth's surface resistance. There is a parallelogram of the addition of forces. In the stated decision, the direction of the vectors of these forces coincides and therefore their forces do not add up. As a result, the resistance in this position of the fork and wheel when turning the steering wheel is less.

Claims (4)

1. A bicycle comprising a frame, wheels, a seat, a steering wheel, a fork of the steering wheel, a gearbox connecting the front wheel shaft to the fork shaft, transmitting the moment of rotation of the steering wheel to the steering wheel fork, characterized in that the transmission of the torque of the steering wheel to the steering wheel fork is made through a system of gears, the axis of the fork shaft and the steering gears being located not parallel to the axis of rotation of the steering wheel, and the shaft of the steering wheel fork abuts against a portion of the frame retraction cavity, which is made at an angle with respect to the axis of the steering shaft la 2. The bicycle according to claim 1, characterized in that the frame retraction, which serves as an abutment for the steering wheel fork, is made horizontally, and the cavity where the steering wheel fork shaft abuts is located vertically, and the transmission of the moment of rotation of the steering wheel to the steering wheel fork is made through gears mounted on the shaft of the steering wheel and the shaft of the fork of the steering wheel, between which the intermediate gear is located. 3. The bicycle according to claim 1 or 2, characterized in that the steering shaft is made up of telescopic pipes in which holes are made to fix the level of the height of the extension of the pipes by means of a stud. 4. The bicycle according to claim 1 or 2, characterized in that bevel gears are used as gears.

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