FR2937300A1 - CONTROL DEVICE FOR TILT DEPTH. - Google Patents

Abstract

The present invention relates to a traction kite control device particularly intended for driving traction wings with short lines. It consists of a horizontal central bar (1) whose rear end is fixed to a member (23) or a structure (38) (39) gradually widening towards the rear of the device. The front end of the central bar (1) is integral with the narrow part of a rigid plate (2) horizontally gradually widening towards the front of the device. A gripping handle (3) perpendicular to the central bar (1) is attached to the front end of the rigid plate (2). At least three control lines (6) (7) are attached to the device, one at the front, two at the lateral ends of the rear part (4).

Description

The present invention relates to a control device for traction kite. It consists of a horizontal central bar whose rear end is extended by an element gradually widening towards the rear of the device. The front end of the center bar is attached to the narrow portion of a rigid horizontal plate. This plate gradually widens towards the front of the device. A transverse grip is secured to the front end of the rigid plate. At least three control lines of a traction wing are attached to the device to control one at the front, the other two at the lateral ends of the rear portion. The -fo usage is mainly done with short lines. The four-line systems traditionally used to control pull kites are composed of a simple gripping bar which the user holds at arm's length and on which the control lines of the traction wing are fixed. Generally the two back lines are - / S attached to the ends of the bar and the two front lines are connected to a single bead that passes through a hole or a wire located in the center of said bar. The lower part of the cord is attached to the user's harness. The latter pushes or pulls the bar to change the kite's impact. A manual release device is provided at the base of the cord to release completely from the wing. This control system 2a equips all of the inflatable wings and part of the coffered wings provided with a border / shock system. The front lines of the boxed wings without border / shock directed by means of a control bar are generally fixed directly to the bar. The functions and configurations of the single-bar control lines can nevertheless have some variants, especially when new security systems are adapted to them. Another means of control is to connect the two control lines of the leading edge to the upper ends of two small vertical bars bent. The control lines of the trailing edge are fixed at the lower ends of the two control rods. The user holds a bar in each hand, he makes movements with his wrists to direct, regain power, brake or put his kite. These small vertical bars, commonly called handles, are mainly used with the coffered wings. In some cases, they can be attached to the ends of a horizontal gripping bar. The control systems described above have several disadvantages. The device of the border / shock of the aforesaid control bar requires to be permanently attached to the wing to be able to act on the incidence. If we come off, the kite will be in maximum power position and therefore difficult to hold at arm's length. In addition, the alignment of all control lines on a single bar does not allow to brake or stabilize the wing quickly and efficiently. The obligation to keep a certain length of lines (between 15 and 30-meters) leaves a margin of maneuver necessary to compensate for this deficit of control. This makes it possible to perform sinusoidal movements to balance and regain power. On the other hand the wings of small and medium size installed on this system are too reactive with short lines (less than 15 meters). The two vertical bars have the disadvantage of being difficult to manage on a mobile support or the user is balanced because they do not allow the pilot to stabilize properly. In addition, the control of a wing of traction with this type of bars is carried out essentially by the force of the wrists. Many practitioners find this physical and delicate device even with a horizontal bar connecting the two vertical handles. The control device according to the invention overcomes these drawbacks and finds application in many sports towed by a kite such as kitesurfing, kitesnow, mountainboard, buggy, catakite etc ... it can adapt to most of the traction wings on the market and can significantly reduce the length of command lines, responsible for many accidents. The invention relates to a control device of a traction wing characterized in that it is composed of a horizontal bar which constitutes the 3o central part of the device. A monobloc element or a horizontal structure of more or less triangular shape widening towards the rear end of the device is integral with the central bar. A rigid horizontal plate widening towards the front of the device is attached to the front end of the central bar.

A handle is attached to the front of the rigid plate, perpendicular to the central bar. Both ends of the control lines of the leading edge of the wing are attached to a single cord having means for adjusting the length of the front lines. The base of this cord is connected to the front part of the device. The low ends of the trailing edge lines are attached to the lateral ends of the rear transverse member. According to particular embodiments, the control device comprises the following features: fo - the front part of the control device is formed of a horizontal rigid plate. A transverse gripping handle slightly protruding from the widest part of the rigid plate is attached to the front end of said plate. - The dimensions and shapes of the handle are variable. as - the configuration of the front command lines can be changed depending on the wing used. - The bases of the lines of the trailing edge of the wing are attached to the lateral ends of the structure or rear monobloc element. the lower parts of the rear lines are inserted in semi-rigid sheaths and connected to each other by a transverse bead in order to avoid kinks in the lines around the device. - The rear part can be composed of either curved or welded tubes forming a horizontal or oblique structure widening towards the rear of the device, the perforated central part is then covered with a net, fabric or plate t9s rigid, consists of a single block of identical shape, for example carbon or aluminum. - The rear part can also be arranged obliquely, the angle can be variable. - A harness end having two distinct ends may be attached to the device, a pulley comprising in its lower part a loop or a ring is movable along said end. the dimensions and shapes of the device may be modified according to the wings used and according to the activity chosen. the number of command lines can vary, for example, a fifth 3s line can be added. - 4 - A releasable harness, traditionally used for Kitesurf practice can be attached to the front of the device instead of the model described above.

The invention will be better understood on reading the description which follows, given solely by way of nonlimiting examples and with reference to the accompanying drawings.

- Figure 1 shows the control device according to the invention connected to an inflatable arched wing. FIG. 2 is the general view of an example of use of the control device by a user piloting a wing on a mobile support (gliding board). - Figure 3 shows a top view of the control device. - Figures 4 and 4A are side views of the device installed on an inflatable wing and a boxed wing, the pivoting of the rear part shows the different actions it produces on these types of wings. - Figure 5 shows the front part of the device, seen from above. - Figures 6 and 6A show two variants of the rear part of the device. - Figure 7 is a side view of the harness end positioned on the central bar of the device.

The control device (fig.1) is connected by control lines (6) (7) to an inflatable arched wing (10). It consists of a front gripping handle (3) transverse fixed to a rigid horizontal plate (2) whose base is connected to a central bar (1) secured to its rear end of a structure or element (4) horizontal monoblock widening towards the rear of the device. A single cord (5) is positioned at the front of the device, its upper end fixes the lower parts of two control lines (7) of the leading edge (8) of the wing (10). The bases of the control lines (6) of the trailing edge (9) are attached to the lateral ends of the rear part (4). A piece of harness traditionally used for kitesurfing is 3o positioned under the device. The upper part of the single front cord (5) comprises a jamming pulley (19) for adjusting the length of the front lines (7) relative to the rear lines (6). The user (11) makes the adjustment by means of a stop (20) fixed to the end of the cord (5). 2937300 -5 The lower parts of the rear lines (6) pass in semi-rigid sleeves (13), they are interconnected by a transverse sheathed cord (21) provided to limit the twists of the rear lines (6) around the different parts of the device.

Figure 2 shows a user (11) or kitesurfer in action on a gliding board (12). It controls an inflatable wing (10) using the control device according to the invention. The kitesurfer (11) positions his front hand laterally on the gripping element (3) which acts as a lever arm on the rear part (4) of the device for holding the wing (10) in the upper part O of the flight window. The user's front hand (11) also has a pivot function to taper or shock the wing (10) as it pushes or pulls the center bar (1) of the device with its back hand. The lateral and vertical position of his front hand allows great mobility of the wrist that can then accompany the movements of his back hand to direct the wing.

As illustrated in Figure 3 the control device comprises a front portion consisting of a rigid plate (2) horizontal widening progressively towards the front of the device. A transverse handle (3) is attached to the front end of said plate (2). The lateral ends of the handle (3) slightly protrude from the rigid plate (2) so that the user (11) t90 can position his thumbs. The central part of the device consists of an ergonomic horizontal bar (1) favoring gripping. It is fixed at its front end to the rigid plate (2) and at its rear end to the middle portion of a bar (29) disposed perpendicular to the central bar (1). Two reinforcements (37) e5. rigid are positioned laterally between the central bar (1) and the rear bar (29). A flexible envelope (14) (net, fabric and neoprene ...) covers the rear part (4) to prevent blocking of the user's arms or hands (11) between the different bars, they also promote the sliding lines (6) (7) along the device. Anchor points (35) (32) are provided at the front and at the rear lateral ends of the device. Description 4 and 4A represents the operating principle, seen in profile, of the adjustment of the incidence of an inflatable wing (10) of the bow type and of a caisson wing (27) (flanges not shown) without system to border / shock, based on the pivoting of the control device. 2937300 -6 By pushing the rear part (fig 4) of the central bar (1), the length initially set of the front lines (7) with respect to the rear lines (6), which corresponds to the optimum setting of the wing ( 10), is modified. The resulting release of pressure on the rear lines (6) reduces pressure on the flanges (26) of the trailing edge (9) of the inflatable wing (10) which opens and becomes less powerful. A return pulley (25) connecting the rear flanges (26) to the front lines (28) integral with the leading edge (8) allows to increase the opening effect of the wing (10). Conversely, pulling the rear part of the central bar (1) towards you allows to more or less taper the wing 'o (10) to increase its power. The operation of the control device (fig.4A) installed on a box wing (27) not provided with a system of border / shock differs because the leading edge (8), unlike an inflatable wing (10), does not act as a pivot. The power is then adjusted by folding more or less the trailing edge (9) of the wing (27) as down. Pulling towards the rear of the central bar (1) of the device increases the pressure on the rear lines (6), the power is greater. The profile of the wing (27) deforms more or less depending on the pressure exerted on the rear of the central bar (1). Some caisson wings are equipped with a J ° border / shock system, the operation of the opening is similar to the inflatable wings, the device then combines the two functions described above. The front part of the device shown in FIG. 5 consists of a horizontal rigid plate (2) whose base is fixed to the central bar (1). This plate (2) widens progressively towards the front of the device. A gripping handle (3) transverse is secured in its lower part, the front of the rigid plate (2), it is arranged perpendicular to the central bar (1). The lateral ends of the handle (3) protrude slightly from the rigid plate (2). This assembly removes the right angles, unlike a T arrangement, it limits the 3o entanglements of the control lines (6) (7) or possible jamming of the fingers or arms of the user (11) between the bar central (1) and the transverse gripping element (3). The high protrusion of the handle (3) allows the user (11) to position the palm of his hand. FIGS. 6 and 6A show two variants of the rear part (4) of the device. Figure 6 shows a rear portion (4) consisting of a one-piece member (23) for example carbon, two anchoring points (32) are provided at the lateral ends of said element. The entire device can be composed of a single block especially if it is a manufacture made with a composite or plastic material. FIG. 6A represents a tubular structure (38) of triangular shape, it can be covered with a flexible envelope (14). A flexible or rigid element (39) can fill the perforated part and replace the envelope (14) above. The end of harness (15) shown in profile Figure 7 is composed of a cord covered with a sheath, the two ends (24) (40) are fixed on either side of the central bar (1). The front end (24) of the harness end (15) can also be fixed under the rigid plate (2). A pulley (33) is movable along said end, it has in its lower part a gimbal (34) connected to a ring (18) allowing the user (11) to position his harness hook. When the pilot (11), hooked to the device, shocks the wing (10), the pulley (33) moves forward, the traction exerted is low, when it borders the wing (10), the pulley (33) moves towards the rear of the harness end (15), the user's counter weight (11) relieves the pressure exerted on his rear hand. The present invention is not limited to the embodiments described above so the shapes and dimensions of the control device can be variable. The materials used for manufacturing are diverse (eg carbon, aluminum ...). Each element of the device according to the invention can be removable or adjustable. The configurations and functions of the command lines can be modified. A fifth line may be provided on the leading edge. The front handle, the central bar or the rear part can be of variable shapes to improve ergonomics or design. The rear part can be positioned obliquely, leaking upwards of the device. In general, many modifications can be made to the control device without departing from the scope of the invention. The device is intended to adapt to many traction kites present on the market (inflatable, box, mono-skins, rigid ...). Specific wings can be created specifically for the device.

The fact of separating and positioning the leading edge lines at the front of the device and the trailing edge lines at the lateral ends of an element arranged perpendicularly to the central bar makes it possible to considerably reduce the length of the lines initially provided for. by the manufacturers. The pilot controls the wing better and is balanced by the spacing of the lines. The flight window is reduced, the wing does not have time to accelerate, the boarding that the pilot can undergo during his activity is limited.

The device also allows to border or shock the wing without necessarily being attached to the latter.

These benefits are intended to increase the safety of the various practices of kite-driven sports, which are often considered risky activities. 5 - / 5 êo

Claims (3)

CLAIMS1 - control device for traction kite comprising: - control lines (6) (7) connected in their upper parts to the leading edge (8) and the trailing edge (9) of a wing of traction (10) (27). - A jamming pulley (19) for adjusting the length of the control lines (7) of the leading edge (8) of a wing (10) by means of a single bead (5). Characterized in that the device consists of a horizontal central bar (1) whose rear end (4) is a monobloc element (23) or a structure (38) widening progressively towards the rear of the device, the front end of the central bar (1) is fixed to the narrow part of a rigid plate (2) horizontally, widening progressively towards the front of the device, a gripping handle (3) arranged perpendicularly to the central bar (1) is secured to the front end of the rigid plate (2), the base of a single cord (5) connecting at least two control lines (7) of the leading edge (8) of a wing (10) (27) is positioned at the front of the device, the lower parts of the two control lines (6) of the trailing edge (9) are attached to the lateral ends of the rear portion (4). 2 - control device according to claim 1 characterized in that the lateral ends of the gripping handle (3) front protrude slightly from the rigid plate (2). 3 ù control device according to any one of claims characterized in that a harness end (15) having two separate ends (24) (40) is fixed to the device. A pulley (33), having in its lower part a universal joint (34) integral with a ring (18) or a loop, is movable along the end of harness (15). S - control device according to any one of claims characterized in that an envelope (14) made of a flexible material covers the rear structure (4) or a member (39) flexible or rigid fills the perforated portion of the rear structure (4). - Control device according to any one of claims characterized in that the lower parts of the control lines (6) of the trailing edge are interconnected by a sheathed cord (21) transverse.