This non-provisional patent application claims priority under 35 U.S.C. §119(a) from Patent Application No. 10 2012 008 684.9 filed in Germany on Apr. 28, 2012.
The invention relates to a switch for an electrical device, the switch housing of which accommodates at least one actuating element retained in a travel path and at least one restoring member that engages with the actuating element.
Electrical devices that are equipped with switches of such kind are particularly manual devices that for safety reasons should only be operable by a person who is qualified to operate such manual devices. The restoring member limits the operating times to the period for which the actuating element is operated, the restoring member normally being recessed in a handle structure that a human hand is able to grasp. However, longer operating times have proven problematic, because the restoring force that has to be overcome with a triggering force on the actuating element to achieve this causes cramping of the hand muscles. Cramping of the hand muscles prevents the person who is operating the manual device from using it steadily and precisely. Certain locking mechanisms, by which the actuating element is locked in a switched position that assures operation of the electrical device, offer a degree of assistance. However, such locking mechanisms harbour risks of injury, which regularly result in operators hurting themselves on the tools of the manual devices.
Simply reducing the strength of the restoring force leads to unreliable turning off of the switch and greatly increases the risk of accidental operation of the switch due to bumps and vibrations.
Hence there is a desire for a switch of the species described above that enables continuous operation while causing low stress to the hand muscles.
The switch according to the invention differs from other such devices in that a resistance generator is attached to the actuating element, and that the magnitude of forces acting on the actuating member in the travel path direction, comprising the restoring force of the restoring member and the resistive force of the resistance generator, varies depending on the position of the actuating member along the travel path.
The inherent switching haptics of the switch according to the present invention may be modified particularly effectively by appropriate dimensioning of the resistive force generated by the resistance generator in terms of magnitude and alignment, within the limits of the ratio of forces subject to the sum of forces. In particular, the modifiable switching haptics enables continuous operation of handheld devices that exerts a low load on the muscles of the human hand. Locking mechanisms that are associated with risk of accidents may be dispensed with entirely. The modified switching haptics is thus based on the sum of forces that is variable over the travel path, so that an actuating force that is to be applied to the actuating element to overcome this sum of forces follows a curved characteristic line when plotted against the travel path. For better handling of electrical devices, it is important to form the characteristic line in such manner that the haptic acquisition of certain switching operations is improved.
According to a subsequent refinement of the invention, the counter bearing of the resistance generator is created in the middle of the course of the travel path. Counter bearings that are positioned in the middle of the travel path are particularly suitable for creating switching levels, which in turn are useful for creating a haptic separation of different operating states. Of course the scope of this invention still applies if the magnetic field generator has counter bearings at located at several section points along the travel path according to the number of operating states that are switchable with the switch. In this context, the counter bearings may be arranged either with a space between them or they may be positioned such that some or all of them overlap each other.
Accordingly, in one aspect thereof, the present invention provides a switch for an electrical device, comprising: the switch housing accommodating at least one actuating element retained on a travel path in the switch housing, and movable between an off position at a first end and a second end of the travel path; at least one restoring member providing a restoring force urging the actuating element to the off position, and a resistance generator attached to the actuating element and retained between at least one resistance bearing formed on the travel path of the switch housing and at least one floating bearing formed on the actuating element, the resistance generator providing a resistive force, wherein the sum of the forces in the direction of the travel path resulting from the restoring force of the restoring member and the resistive force of the resistance generator urging the actuating element to the off position is less when the actuating element is at a selected operational position than when the actuating element is at the off position.
Preferably, the counter bearing of the resistance generator is formed on at least one of the travel path ends.
According to a subsequent refinement of the invention, the counter bearing of the resistance generator is created in the middle of the course of the travel path. Counter bearings that are positioned in the middle of the travel path are particularly suitable for creating switching levels, which in turn are useful for creating a haptic separation of different operating states. Of course the scope of this invention still applies if the magnetic field generator has counter bearings at located at several section points along the travel path according to the number of operating states that are switchable with the switch. In this context, the counter bearings may be arranged either with a space between them or they may be positioned such that some or all of them overlap each other.
Preferably, the resistance generator has counter bearings located at several selected points along the travel path.
Preferably, the resistance generator is furnished with ferromagnetic bodies, at least one being arranged on the counter bearing and at least one on the floating bearing, wherein at least one of the ferromagnetic bodies is a magnet. The magnet may be a permanent magnet or an electromagnet, and may be a component of the counter bearing as well as a component of the floating bearing. The ferromagnetic bodies that cooperate in a resistance generator may have contact or sliding surfaces that are in contact with one another as well as operative surfaces that pass over each other without touching depending on the desired switching haptics. Because of their inherent force characteristics, magnets are particularly well suited from the point of view of haptics to conveying signals that have emotional effects on a person operating a switch according to the invention. With regard to switching operations, emotions induced with signals of such kind are associated for example with Values such as “full”, “spongy”, “brief”, “fleeting” or “continuous”.
Preferably, both ferromagnetic bodies are a magnet. This creates a particularly powerful resistance generator.
Preferably, the magnets are arranged with their opposite poles facing towards each other.
In this case, the magnitude of the force acting on the actuating member in the direction of the travel path arising from the restoring force of the restoring member and the magnetic force of the ferromagnetic bodies varies depending on the position of the actuating member along the travel path. The magnetic force should be smaller than the restoring force to prevent latching. The arrangement of opposite poles facing towards each other is provided particularly in order to create switch positions that, as a result of the reduced sum of forces and thus also the lower actuating force requirement, are suitable for continuous operation that is gentle on the muscles of the hand.
Alternatively, the magnets are arranged with their like poles facing towards each other, in this case, the sum of the restoring force of the restoring member and the magnetic force of the ferromagnetic bodies in the direction of the travel path also varies depending on the position of the actuating member. The arrangement of like poles facing towards each other is suitable for creating a wear-free limitation of individual switch positions, located on the travel path, for example.
Preferably, the resistance generator has at least one detent structure formed on the resistance bearing and at least one detent structure formed on the floating bearing, wherein at least one of the detent structures comprises a resilient mounting. The resilient mounting may be produced using, torsion springs, leaf springs, tension springs or gas springs. The detent structures that cooperate in a resistance generator may include both sliding surfaces that slide across one another and running surfaces that roll across one another depending on the desired switching haptics.
According to a second aspect, the present invention provides a switch for an electrical device, comprising: a switch housing; an actuating element retained on a travel path within the switch housing and movable between an off position and a fully actuated position; a restoring member providing a restoring force that resiliently urges the actuating element to the off position, and a resistance generator comprising a first magnet fixed with respect to the switch housing and a second magnet fixed with respect to the actuating element, wherein the first magnet and the second magnet are spaced in a direction perpendicular to the travel path with like poles facing towards each other and arranged such that movement of the actuating element from the off position to the fully actuated position causes the second magnet to move passed the first magnet in the direction of the travel path.
Preferably, the first and second magnets generate a repulsive force and a component of the repulsive force in the direction of the travel path reinforces the restoring force when the actuating member is in the off position and opposes the restoring force when the actuating member is in the fully actuated position.
Preferably, at least one third magnet is arranged to provide a preferred position having reduced holding force requirement between the off position and the fully actuated position.
Preferably, the or each third magnet is fixed with respect to the switch housing and is arranged with like poles facing the second magnet.
A preferred embodiment of the invention will now be described, by way of example only, with reference to figures of the accompanying drawings. In the figures, identical structures, elements or parts that appear in more than one figure are generally labeled with a same reference numeral in all the figures in which they appear. Dimensions of components and features shown in the figures are generally chosen for convenience and clarity of presentation and are not necessarily shown to scale. The figures are listed below.
In the description and claims of the present application, each of the verbs “comprise”, “include”, “contain” and “have”, and variations thereof, are used in an inclusive sense, to specify the presence of the stated item but not to exclude the presence of additional items.
Although the invention is described with reference to one or more preferred embodiments, it should be appreciated by those skilled in the art that various modifications are possible. Therefore, the scope of the invention is to be determined by reference to the claims that follow.
Number | Date | Country | Kind |
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10 2012 008 684 | Apr 2012 | DE | national |
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Number | Date | Country | |
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20130284574 A1 | Oct 2013 | US |