SU1466666A3 - Push key with route - force nonlinear characteristic - Google Patents

Abstract

Key with non linear travel-force characteristic provided with a motionless part (3), a movable part (1) moving relatively with respect to the motionless part (3) when the key is depressed, as well as switching, respectively detection elements using the relative displacement. The aim of the present invention is to form between the motionless part (3) and the moving part (1) a magnetic circuit which sets, at least in part, the travel-force characteristic and of which the ferromagnetic elements are coupled on one hand with the motionless part (3) and on the other hand with the moving part (1), at least one ferromagnetic element being comprised of a permanent magnet.

Description

The invention relates to electrical engineering and can be used in computer engineering when designing keyboards for manual control.

The purpose of the invention is to simplify the design of the keys.

The drawing shows a key, a longitudinal section. u

The key contains a fixed part 1 with a ferromagnetic element 2, in the fixed part 1 there is a socket 3 bounded by the upper 4 and lower 5 thrust surfaces, the movable 15 part made in the form of two elements 6 and 7, the first of which is installed with limited movement inside nests 3 so that it acts on the second element 7 20 of the movable part, installed with the possibility of swing when it moves relative to the place of abutment of the specified first element 6 of the movable part, and the swing movement of the second element 7 the movable part is limited by the upper 4 and lower 5 thrust surfaces of the fixed part 1, the second element 7 of the movable part contains at least one section made of ferromagnetic material, which is electrically conductive and acts as the movable part of the sensing element; the fixed part of the sensing element is located on the lower abutment surface 5, at least one of the ferromagnetic sections of the movable and fixed parts is a permanent magnet.

• The ferromagnetic element 2 mounted on the fixed part 1 can be designed and installed so that it is used for several keys. The lower abutment surface 5 of the fixed part 1 can be made and installed so that it is used for several keys. The first element in the movable part is installed with emphasis at a point on the upper abutment surface of the second element 7, through which there passes a line of the resulting magnetic force acting on the second element 7 and formed by magnetic forces acting on the second element 7, and the forces created by the action of the first element 6 on the second element 7 so that the resulting magnetic force does not create a torque, but. the position of the elements of bi 7 in the working position parallel to the original.

The first element 6 of the movable part is installed with emphasis on the point of the upper abutment surface of the second element 7 of the movable part, located outside the line of action on the second element 7 of the movable part, the resulting magnetic force acting on the second element 7 of the movable part and formed by magnetic forces acting on the second element 7 of the moving part, and the forces created by the action of the first element of the moving part on the second element of the moving part so that the resulting magnetic force creates a torque and when the first element b of the movable part acts on the second element 7 of the movable part, the second element 7 rotates relative to the initial position, and the possible rotation is limited by the abutment surfaces of the stationary part.

The key may be provided with a spring element, the thrust surfaces of the element 6 and the second 7 elements of the movable part in the initial position are located at a certain distance from each other, and the spring element is installed between them.

$ 5 The specified spring element may be located between the upper abutment surface 4 of the fixed part 1 and the second element 7 of the movable part.

As a sensitive element, a variable electric capacitance can be used, the lower stop surface 5 of the fixed part 1 forming fixed capacitor plates 45 or provided with fixed capacitor plates, and the lower contact surface of the second element 7 of the moving part forming movable capacitor plates.

As the sensing element, electrical contacts can be used, wherein the lower abutment surface 5 of the fixed part 1 forms or carries immovable contacts, and the lower abutment surface of the second element 7 of the movable part forms a movable contact.

The key works as follows.

When you click on the first element 6 of the movable part, it acts on the second element 7 of the movable part, the second element 7 in the initial position is pressed against the upper abutment surface 4 of the movable part 1 due to the forces of interaction of the element 7 with the ferromagnetic element 2 and supports the element 6 in the position corresponding source. When a key is pressed, element 7 remains in its initial state, while the pressing force is less than the magnetic force in the initial position.

At the beginning of the movement of the element 7, the distance between the ferromagnetic elements increases and the magnetic force decreases very quickly, which causes the operator to feel a start ',' When the key is pressed, the element 7 that has reached the stop stops in the final position, which is determined by the lower contact surface 5. If in the intermediate position there is a slope of the element 7, then this is determined depending on the masses as a partial emphasis on the upper 4 or lower 5 thrust surface. When you release the key due to the forces of magnetic interaction of the element 7 and the ferromagnetic element 2, the element 7 and the element 6 resting on it return to their original state.

The resulting force path characteristic depends on whether the magnetic force acting on the element 7 causes the torques in the element 7 when the element 6 rests on it. If the element 6 is installed abutting at a point on the upper abutment surface of the element 7, through which the resulting force from the current on the element 7 of magnetic forces, and does not cause torque in the element 7, then the latter when you press the key moves without tilting, parallel to its original position.

If element 6 is installed abutting to a point on the upper abutment surface of element 7, through which the resulting force of magnetic forces does not pass (for example, with an asymmetry of the mechanical structure or magnetic field), when the key is pressed, the rotational torque that tilts element 7 acts. This slope is limited by the upper stop surface 4 or the ferromagnetic element 2 of the fixed part V. Until some point of the element 7 rests against the lower stop surface 5 of the fixed part 1, the force on the key is equal ivaetsya torque developed by the magnetic forces on the shoulder equal to the length 10 of the abutment member 7 on the upper thrust surface 4, the upper stop point is a point of the fixed part 1 and the ferromagnetic member 2, which regards naklonen15 element of 7,

After some point of the element 7 has touched the lower abutment surface 5, the element 7 is tilted in the opposite direction 2Q until it touches the stop with other points of the element 7 until it occupies a certain position. In this phase, the force on the key jumps upward at the moment of touching the lower contact surface 25, and then, due to a simultaneous decrease in magnetic forces, rapidly decreases.

Variants of execution are also possible in which the inclination, angular rotation of the element 7 in both directions are unambiguously different, for example, in the extreme case — within the limits of manufacturing inaccuracy — in one direction are _ _g zero. In these cases, the final positions of the lower and upper stops, determined by their planes, are not parallel to each other.

Keyboards that use keys that provide electrical output signals are generally constructed so that the individual keys are mounted on a common carrier board, in particular on a circuit board with electrical installation '. This carrier board should be provided with additional stiffeners to provide the necessary strength. Press keys can also have this design

5θ set, wherein the soft ferromagnetic element 2 fixed portion 1 is made as a common member for the entire keyboard and simultaneously serves as a bearing member and that stiffening elements _gg.

A solution is possible in which the ferromagnetic element 2 of the fixed part is a permanent magnet 5 1466666 nit, which is made in the form of a common element for several keys.

- In addition, it is possible such a design of the key in which the stop surface 5 belonging to the fixed part 1 is made in the form of a common part for several keys and at the same time carries sensitive elements made, for example, in the form of printed circuit boards, fixed electrical contacts or capacitor plates.

The key can also be made so that between the elements 6 and 7 is a spring element. In this case, the element 7 is held in its initial position by means of magnetic forces and the element 6 does not hit directly on the element 7, but is supported by the spring element inserted between them.

If the force required to compress the spring element is less than the force required to dilute the attracted ferromagnetic elements, then when the key is pressed, element 6 first compresses the spring element and element 7 begins to move only after the element 6 has returned from its original position. Further work is similar to the operation of a key without a spring element. In this design, the functional stroke of the element 6 is greater than the stroke of the element 7.

However, if the force for compressing the spring element exceeds the force for separating the ferromagnetic elements, then when pressing the element '6, the structure functions in the same way as the structure without the spring element, but when the element 7 rests, the reaction force on the element 6 is damped and further if the upper part point close to the lower end position, collides with the fixed part 1, then the force acting on the element 7 is limited.

Claims (9)

Claim 1, A push-button with a non-linear characteristic path - a force containing a fixed part, a moving part, at least a portion of which is made of ferromagnetic material, installed with the ability to move relative to the fixed part, and a sensitive element, distinguished by that, in order to simplify the design, the fixed part is provided with a ferromagnetic element, in the specified fixed part is made, the socket is limited to the upper and lower thrust surfaces, the movable part is made in the form of two elements the first of which is installed with the possibility of a limitless movement inside the nest of the fixed part so that it acts on the second element of the movable part, which is installed with the possibility of swinging when it moves relative to the 15th place of abutment of the indicated first element of the movable part, the swing motion of the second element of the movable part bounded by the upper and lower thrust surfaces of the non-movable part, while the second element of the movable part contains a portion of ferromagnetic material, which is an electro rovodnym and performs the function of movable parts of the sensor element 25, the fixed part of the sensor element located on the lower abutment surface or abutment surface formed by the bottom, wherein at least one Kreis therein portions of the fixed and movable parts, made of ferromagnetic material is a permanent magnet. 2. The key according to claim 1, about l and _{O [.} Characterized in that the ferromagnetic element mounted on the fixed part is made and installed so that it can be used for several keys. 40 3. The key according to paragraphs. 1 and 2, characterized in that the lower abutment surface of the fixed part is made common to several keys and is provided with fixed parts of the sensitive elements. 4. The key according to claims ₀ 1-3, with the fact that the first element of the movable part is placed with emphasis on the point of the upper persistent 5Q surface of the second element of the movable part, through which the line of the resulting magnetic force acting on the second element of the movable part and formed by magnetic forces acting on the second element of the moving part, and the forces created by the action of the first element of the moving part on the second element of the moving part so that 7, the resulting magnetic force does not create a moment of rotation, and the position of the elements of the moving part in the operating state is parallel to the initial one. 5. The key according to paragraphs 1-3, the only difference is that the first element of the movable part is installed with emphasis on the point of the upper abutment surface of the second element of the movable part located outside the line of action on the second element of the movable part the resulting magnetic force acting on the second element of the moving part and formed by magnetic forces acting 'on the second element of the moving part, and the forces created by the action of the first element of the moving part on the second element of the moving part so that the specified result The magnetic force creates a moment of rotation, and when the first element of the movable part acts on the second element of the movable part, said second 25 element of the movable part rotates relative to its initial position, and the possible rotation is limited by the abutment surfaces of the fixed part. 6. The key according to paragraphs. 1-5, characterized in that it is equipped with a spring element, is located I466666 in the indicated nest of the fixed part between the abutment surfaces of the first and second elements of the movable ₅ part. 7. The key according to paragraphs. 1-5, characterized in that it is provided with a spring element located inside the socket of the fixed part 10 between the upper abutment surface of the stationary part and the second element of the movable part. 8. The key according to paragraphs. 1-7, characterized in that as On the 15th of the sensing element, capacitor plates were used, the lower contact surface of the fixed part forming a fixed capacitor plate or provided with a fixed capacitor plate, and the lower contact surface of the second element of the moving part forming a movable capacitor plate. 9. The key according to paragraphs. 1-7, characterized in that electrical contacts are used as the sensitive element, the lower thrust surface of the fixed part forming fixed con- 30 cycles or equipped with fixed contacts, and the lower thrust surface of the second element of the movable part forms a movable contact.