SE510776C2 - Ergonomically designed lever - Google Patents

Abstract

An ergonomically shaped lever for initiating movements in mobile or stationary vehicles. The lever comprises a handle (70) which has a substantially asymmetric cylindrical shape about a longitudinal axis (100), to correspond to the gripping of a hand and a switch (60) having one or more switching points. The switch further has at least one part (40) which protrudes from the handle (70), which is arranged in the longitidudinal direction to the handle, to manually be switched by a hand or a finger. The protruding part (40) projects so that, when a hand and/or a finger performs a movement parallel to the longitudinal direction of the handle, a force is produced which is directed inwards towards the longitudinal axis (100) of the handle.

Description

15 20 25 30 35 510 776 2 soul uses an ergonomically designed handle that. can be gripped comfortably by a driver's hand, thus avoiding abrasions in the wrist. The handle may be designed so that the palm rests against the upper part of the handle, and the thumb rests against one side of the handle which is perpendicular to the upper part of the handle. The handle is further provided with at least one switch located at the side of the handle which is perpendicular to the upper part of the handle, and is movably mounted in at least one plane. Furthermore, the handle is intended to steer primarily the forks of a truck, and where the handle is mounted on a rigid shaft, i.e. the operation is done only through the switch.

However, the switch described in EP-A2-0,712,062 is designed so that the driver's grip must be changed when this switch is to be used, i.e. when the driver presses the switch to perform a function, he must change grips to perform a second function. This is due to the fact that the switch is of the bidirectional type. Furthermore, the force from the finger pressing on the switch will be such that the finger moves in the direction of the palm, which may feel more strenuous than moving the finger in the direction of the palm instead.

OBJECT OF THE INVENTION: It is therefore an object of the present invention to provide an ergonomically designed lever intended to initiate movements in mobile or stationary vehicles, which is less strenuous for joints and muscles in e.g. arms, wrists and hands than known levers.

In accordance with the present invention, this object is achieved by providing an ergonomically designed lever in accordance with claim 1. Preferred embodiments of the method and device, in accordance with the invention, are set forth in detail in the respective subclaims.

DESCRIPTION OF THE DRAWINGS: The invention will become more apparent from the following description of a preferred embodiment, by way of example with reference to the accompanying drawings, in which: Fig. 1 shows a lever in accordance with the present invention; and Fig. 2 shows a preferred use of a lever according to the invention.

PREFERRED URUNICATION ROOM: Figure 1 shows an ergonomically designed lever intended to initiate movements in mobile or stationary vehicles. The lever includes a handle 70 having a substantially asymmetrical cylindrical shape about a longitudinal axis 100, to fit the socket of a hand, and a switch 60 having one or more breakpoints. The length of the substantially cylindrical handle may, for example, be about 60-80 m, preferably about 70 mm, while the radius may be about 30-50 mm, preferably about 40 m. The longitudinal axis 100 may be considered as an imaginary line passing through the handle. 70 mitt. The switch is further provided with at least a part 40 projecting from said handle, which is intended to be manually switched by a hand or finger. The lever may be provided, with a shaft (not shown), which is movably arranged in a plane, through a joint (not shown) which is arranged between the handle 40 and the shaft.

The projecting part 40 projects so much that when a hand and / or a finger performs a movement which is parallel to the longitudinal direction of the handle, an inward force can be produced against the longitudinal axis 100 of the handle. and / or the finger can be directed towards the shaft 100, thus the movement of the hand and / or the finger will be directed towards the palm, which feels less strenuous than when the movement had been directed away from the palm.

The switch 60 can be arranged in the longitudinal direction of the handle 70, e.g. vertically, so that the protruding part 40 follows the longitudinal direction of the handle. Of course, it is possible to arrange the switch in the horizontal joint instead of in the vertical joint, depending on how the lever is designed.

For example. the lever can be designed so that the palm is in the direction of the ground, towards the body or in between. The embodiment shown in Figure 1 is primarily intended for a hand to be able to grasp a grip, where the palm is directed towards the body, when the arm is straight and parallel to the body.

Furthermore, the projecting part 40 may comprise a surface which is angled in relation to the longitudinal direction of the handle 70, with an angle of between 40-80 °, preferably between 50-70 ° and most preferably about 60 °. This contributes to e.g. a thumb can be supported on this surface. In addition, the switch can be pushed in with a smaller force than is otherwise needed if the surface is perpendicular to the longitudinal direction of the handle 70.

The upper part 10 of said handle may be cup-shaped, to receive therein a finger, which e.g. can be an index finger or a thumb. Of course, other fingers and even the whole hand can be used, if it would have been appropriate. The reason why it may be most convenient to use the thumb or forefinger is that a greater force can be produced by these fingers, especially during a forward movement. This is due to the fact that a larger area of the palm can be accommodated on the handle when these fingers are used, at the same time as the other fingers do not have to be rotated in a way that feels unnatural. Therefore, it is preferable to use the index finger or thumb, to achieve the desired effect, i.e. to avoid injuries to muscles and joints. The cup-shaped design formed in the upper part can start from a radius of about 10-30 m, preferably about 20 mm. The upper part 10 may be substantially circular in shape with a radius of about 40-60 mm, preferably about 50 mm.

In the same way as the upper part 10, the handle can be provided with a cup-shaped recess 20 in the longitudinal direction, on the opposite side of the switch, in order to accommodate therein at least one finger, preferably three. Of course, two fingers or more than three fingers may be included in the recess 20, should users prefer this. The fingers suitable for receiving in this recess are a middle finger, a ring finger, and either a little finger or a forefinger or both. In case these fingers are used, a stable grip and comfort can be obtained.

In addition, this recess will facilitate lateral movement and also in a forward or backward movement, since a larger area of the palm can be accommodated on the handle when these fingers are used, while the other fingers do not have to be rotated in a way that feels unnatural. In this way, it is possible to avoid injuries to muscles and joints. This cup-shaped recess can be formed on the basis of a radius of about 20-40 mm, preferably about 30 mm.

Figure 2 shows a preferred way of using a lever according to the invention, where the recess 20 in the longitudinal direction, preferably in the vertical direction, occupies three fingers, the index finger is placed on the upper part 10 and the thumb on the switch 60. In this way a comfortable grip can obtained 10 15 20 25 30 35 510 776 6 and the lever can be operated without straining joints and muscles.

The materials that may be used in the manufacture of a handle may be various plastics and / or rubber. Another advantageous embodiment may be to use a soft rubber material (or plastic) to provide a surface which is shaped according to the contours of the hand, so that the grip feels soft and comfortable. If the base of the handle comprises a hard plastic, e.g. fiberglass, to then be coated with a soft rubber material, it is common to use two different molds in this process. Therefore, it would also be advantageous to spray coat directly on the hard plastic, as it saves both material (at least one mold and work steps in a manufacturing process.

Furthermore, the switch 60 may be provided with a second projecting part 50, in order to obtain the same grip when the number of breaking points is more than one. This second projecting part can project about 4-12 mm, preferably about 6-10 mm, preferably 8 mm. The switch 60 can be arranged in the longitudinal direction of the handle 70 in a corresponding manner as the first projecting part 40, so that the projecting part 40 follows the longitudinal direction of the handle. The parts (40,50) can be asymmetrically designed. The first projecting part 40 may be located below the second projecting part 50, so that the first projecting part (40) projects more than the second part (50). The first can protrude X cm more than the second, where X can assume values from close to zero up to about 5 mm, preferably about 4 mm, and preferably about 3.5 mm. This means that the first part can protrude about 4.0-15.5 mm, preferably about 6.0-13.5 mm, preferably 11.5 mm. On the part of the handle 70 where the first projecting part 40 is located, it may be provided with a recess in order to be able to receive and extend an inward movement from a finger. This recess can e.g. formed from a radius of about 3-9 m, preferably about 6 mm. A corresponding recess can be provided on the handle where the second projecting part 50 is located, which can e.g. formed from a radius of about 6.0-12.0 mm, preferably about 9 mm, and most preferably about 8.8 m. Furthermore, the second projecting part 50 may comprise a surface which is angled relative to the handle 70 35-75 ° , longitudinal direction, with an angle of between preferably between 45-65 ° and most preferably about 55 °.

Furthermore, the switch can be mounted on a shaft (not shown), which allows the projecting parts 40,50 to effect a circular movement about this shaft.

The switch can be provided with springs, which are arranged so that the projecting parts can obtain a resilient movement when e.g. a switch took place.

Although the illustrated embodiments of the present invention have been described in detail with reference to the accompanying figures, it is to be understood that the invention is not limited to these specific embodiments and that various changes or modifications may be made by one skilled in the art without departing from the scope or scope thereof. the underlying idea of the invention.

Claims (9)

10 15 20 25 30 35 510 776 108093 UAW 1999-03-12 PATE NTKRAV: An ergonomically designed lever intended to initiate movements in mobile or stationary vehicles, comprising a handle (70) having a substantially asymmetrical cylindrical shape about a longitudinal axis (100) to fit the handle of a hand, and a switch (60) ) with one or more breakpoints provided with at least a first part (40) projecting from the handle (70), said projecting first part (40) being arranged in the longitudinal direction of the handle intended to be manually switched by a hand or a finger , and wherein said projecting part (40) projects so much that when a hand and / or a finger performs a movement parallel to the longitudinal direction of the handle, an inward force is produced against the longitudinal axis (100) of the handle, characterized in that the switch (60) is provided with a second projecting part (50), in order to obtain the same grip when the number of breaking points is more than one, and that said projecting parts (40, 50) are asymmetrical ormade. Lever according to claim 1, characterized in that a surface of the first projecting part (40) is angled in relation to the longitudinal direction of the handle (70), with an angle of between 40-80 °, preferably between 50 -70 ° and preferably around 60 °. Lever according to claim 1 or 2, characterized in that the lever is provided with a shaft, which is movably arranged in a plane, through a joint which is arranged between the handle (70) and the shaft. 10 15 20 25 510 776 A lever according to claim 1, 2, or 3, characterized in that the upper part (10) of the handle is cup-shaped, to receive a finger therein. Lever according to claim 4, characterized in that the upper part (10) is designed to receive a forefinger or a thumb. A lever according to any one of the preceding claims, characterized in that the longitudinal direction of said handle (70) is provided with a cup-shaped recess (20), to receive therein at least one finger, preferably three. A lever according to claim 6, characterized in that said recess (20) is designed to receive a middle finger, a ring finger and a little finger or a forefinger or both. Lever according to one of the preceding claims, characterized in that the first projecting part (40) projects more than the second part (50). Lever according to claim 8, characterized in that the first projecting part (40) is arranged below the second part (50).