RU132581U1 - 3D MANIPULATOR - MOUSE - Google Patents

Abstract

Three-dimensional manipulator - a mouse containing a housing with control elements connected to a microprocessor or computer using buses and data transmission devices, characterized in that three two-axis mini-joysticks are used as control elements, two of which are located in the central front of the case, and the third located on the left (for right-handed) or right (for left-handed) side of the case in the access zone of the thumb, while all mini-joysticks are located vertically.

Description

The invention relates to devices for managing objects, in particular, to devices for managing objects displayed on a computer display used in mobile telephones, household and technological devices, and computer manipulators. The invention can be used for input, processing and output of data by controlling objects of any device for visual display of text and graphic information, as well as for controlling robotic objects, aircraft and underwater vehicles, controlling objects in computer simulators and in three-dimensional design.

Currently, there are many devices for processing and managing information (US 4546347, 10/08/1985, US 4751380, 06/14/1988, JP 54-126426, 10/01/1979, EP 0081348 A2, 06/15/1983, EP 0146843 A2, 07/03/1985 and etc.), the principle of operation of which is based on the fact that the device cursor displayed on the display is connected electronically with a mechanical sensor (in the simplest case, a ball equipped with a sensor system), and then this device is moved by hand relative to the analyzed fixed surface. There are also isotonic devices such as trackballs, trackpoints, touchpads, etc.

These devices allow you to control objects on a plane, i.e. objects are controlled by the processed signals only in two coordinates (for example, X and Y).

One of the significant drawbacks of these devices is the inability to simultaneously control along the third coordinate (for example, Z), i.e. the impossibility of fully managing objects in space.

Closest to the claimed invention (prototype) is a three-dimensional micro-joystick described in the application RU 2301439 C1, 10.25.2005. Three-dimensional micro-joystick contains a housing with a control handle, which is connected to an elastic element, on the surface of which there are strain gages connected to the microprocessor using buses and data transmission media. The elastic element of the three-dimensional micro-joystick is made in the form of a hollow cone, tapering upward. The conical shape of the elastic element contributes to the free decomposition of the force vector applied to the control handle of the three-dimensional micro-joystick into three projections on the X, Y, and Z coordinate axes by placing strain gages on the outer and inner surfaces of the cone so that they register combinations of its deformations in three planes at different loads. The strain gages on the elastic element are located radially from the center.

One of the disadvantages of the prototype is the relative inconvenience of control, since one handle has to control the object in three coordinates at once, which leads to control errors.

The technical result of the claimed invention is the creation of a simple and, at the same time, a full three-dimensional manipulator that allows you to control objects with six degrees of freedom.

A three-dimensional mouse manipulator is proposed, comprising a housing with three mini-joysticks connected to the microprocessor using buses and data transmission media.

The main differences of the claimed utility model are that three double-axis mini-joysticks are used as control elements, two of which are located in the central front of the case, and the third is located on the left (for right-handed) or right (for left-handed) side of the case in the access area thumb, while all mini-joysticks are located vertically.

The proposed three-dimensional mouse manipulator allows you to control the movement of objects in space, as well as control the rotation of objects around three mutually perpendicular coordinate axes.

To control the movement and rotation of the object, a force is applied to the control arms of the mini-joysticks of the three-dimensional manipulator by pressing fingers in the direction of the desired movement or rotation of the object and the force is stopped if it is necessary to stop it.

The description of the proposed three-dimensional manipulator is illustrated by figures 1, 2 and 3.

In the figures 1-3 numbers indicate:

1 - housing;

2 - mini-joystick;

3 - supporting surface of the manipulator;

4 - bottom surface of the manipulator;

5 - optical sensor.

The figure 1 shows a three-dimensional manipulator, on the housing 1 of which, made in a form convenient for positioning the operator’s hand, three mini joysticks 2 are placed.

The figure 2 shows the lower surface of the manipulator 4, on which the optical sensor 5 is located.

Convenience in working with a three-dimensional manipulator is determined, firstly, by the fact that it is an easy-to-fit product in the palm of the hand, and secondly, by the fact that during operation, its control arms of three mini-joysticks are facing the manipulating fingers of the operator’s hand located on top of the case three-dimensional manipulator.

The proposed utility model works as follows.

Holding the mouse-three-dimensional manipulator by the housing 1 in the hand, the control arms of the mini-joysticks 2 are pressed with the fingers of the hand in the desired direction. The microprocessor (not shown in the figures) calculates the angle of application of force according to the formulas in its memory, determines the increments and moves or rotates the object while one or another mini-joystick is pressed.

The speed of movement or rotation of the object is changed by changing the amount of applied force to the control handle of the mini-joysticks 2. Each mini-joystick is capable of generating control signals in two coordinates. Therefore, three joysticks are able to control an object with 6 degrees of freedom - to move along three coordinates and to rotate an object around three axes of a 3D coordinate system. The distribution of functions of each joystick is carried out programmatically in accordance with the tasks facing the operator.

The presence of an optical sensor on the bottom surface of the manipulator allows you to use it as a computer mouse, while the mini-joysticks perform the functions of ordinary mouse buttons.

The switching modes of the three-dimensional manipulator is carried out programmatically.

Technical result

The present invention allows you to conveniently control the movement of an object in space along three coordinates and at the same time control the rotation of the object in three mutually perpendicular planes.

The device can find application in managing a variety of virtual and real objects, as well as in three-dimensional design, and later, when working with three-dimensional operating systems.

Claims (1)

Three-dimensional manipulator - a mouse containing a housing with control elements connected to a microprocessor or computer using buses and data transmission devices, characterized in that three two-axis mini-joysticks are used as control elements, two of which are located in the central front of the case, and the third located on the left (for right-handed) or right (for left-handed) side of the case in the access zone of the thumb, while all mini-joysticks are located vertically.

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