RU210213U1 - COMPUTER MOUSE - Google Patents

Abstract

The utility model relates to a computer mouse. The technical result achieved by the utility model is to ensure the ease of movement of the mouse on the work surface while the operator is working with it, while maintaining the stability of its position on the work surface when the operator releases the mouse. The technical result is achieved by the fact that in a computer mouse containing a housing having a lower base designed to be placed on a working surface, a computer mouse movement sensor installed in the housing, an electromagnet located on the side of the lower base, a recognition sensor that detects the presence of the operator's hand on the surface of the housing , as well as a control controller connected to the electromagnet and to the recognition sensor, configured to set the characteristics of the magnetic field of the electromagnet depending on the recognition sensor signal, a window for the electromagnet is formed in the lower base, an elastically deformable element is located inside the housing, with the help of which the electromagnet is fixed in the housing with the possibility of moving in the base window in the event of a magnetic attraction force acting on it and returning to its original position in the event of termination of the specified force. 3 w.p. f-ly, 2 ill.

Description

The utility model relates to a computer mouse - a control device designed to enter information into a computer and control the cursor on a computer display.

A computer mouse is a device covered by an operator's hand, containing at least one mouse movement sensor, the signal from which is digitized and transmitted to the computer control unit. Thus, in the course of work, the operator moves the mouse with his hand on the working surface in different directions and thereby controls the movement of the cursor on the display screen.

It is preferable to use a special mat located on the desktop as a working surface on which the mouse moves, the material and texture of the surface of which ensure its uniform movement, which contributes to a clear correspondence between the movement of the mouse on the mat and the cursor on the computer screen.

Traditionally used computer mice during periods of absence of the operator's hand on the surface of the mouse are unstable to shaking, vibration, shock, roll, shock and other mechanical effects that occur at the operator's workplace, including when placing the workplace on a moving object. These factors cause spontaneous movement of the mouse, leading to uncontrolled movement of the cursor on the display, and even to the fall of the mouse from the work surface.

Known computer mice containing tools that enable fixing the position of the mouse on the work surface.

Thus, a computer mouse is known, described in RU 2604860.

The considered computer mouse contains a housing having a lower base, on which a permanent magnet is installed, made in the form of a tape made of magnetic material. In the specified magnetic tape, a window is formed for an optical displacement sensor, which is installed inside the housing.

This mouse is designed to be placed on the surface of a desktop made of magnetic material.

Due to the presence of a magnetic tape on the base of the case, the mouse is held on the magnetized working surface due to the force of magnetic attraction acting on the mouse both when it is covered by the operator's hand and when it is released by the operator.

This ensures the stability of the position of the mouse on the work surface and reduces the risk of its spontaneous movement.

However, the force of magnetic attraction constantly acting on the mouse makes it difficult to move the mouse on the work surface, carried out by the operator's hand.

Known computer mouse, described in US 6504528, selected as the closest analogue.

This computer mouse is designed to be placed on a magnetic work surface.

The considered mouse contains a housing having a lower base designed to move along the working surface, a mouse movement sensor installed in the housing, an electromagnet located on the side of the lower base, and a recognition sensor that detects the presence of the operator's hand on the housing surface.

The housing also has a control controller connected to the electromagnet and the recognition sensor, configured to set the characteristics of the magnetic field of the electromagnet depending on the signal of the recognition sensor.

Due to the presence of the specified sensor and controller, it is possible, in the absence of the operator's hand on the mouse surface, to set such characteristics of the magnetic field of the electromagnet, which ensure the retention of the mouse on the magnetic working surface due to the force of magnetic attraction, and in cases where the operator covers the mouse with his hand, to set the characteristics , at which the force of the magnetic attraction of the mouse to the magnetic working surface is insufficient to keep the mouse on the specified surface or is absent.

Thus, during the period when the mouse is released by the operator, the mouse maintains its position on the magnetized working surface due to the force of the magnetic attraction of the electromagnet to the specified surface. In this case, during the period of the operator's work with the mouse, he does not have to overcome the specified magnetic attraction when moving the mouse.

However, in this device, the electromagnet is constantly in contact with the magnetized work surface, which can make it difficult for the mouse to move on the specified surface due to the phenomenon of residual magnetization.

The technical problem of the utility model is to ensure ease of movement of the mouse on the work surface while the operator is working with it, while maintaining the stability of its position on the work surface when the operator releases the mouse.

The essence of the utility model lies in the fact that in a computer mouse containing a housing having a lower base designed to be placed on a working surface, a computer mouse movement sensor installed in the housing, an electromagnet located on the side of the lower base, a recognition sensor that detects the presence of the operator's hand on surface of the housing, as well as a control controller connected to the electromagnet and the recognition sensor, configured to set the characteristics of the magnetic field of the electromagnet depending on the recognition sensor signal, according to the utility model, a window for the electromagnet is formed in the lower base, an elastically deformable element is located inside the housing, with the help of which the electromagnet is fixed in the housing with the possibility of moving in the base window in the event of a magnetic attraction force acting on it and returning to its original position in the event of termination of the specified force.

In a particular case of the utility model, the electromagnet is made in the form of a single annular electromagnet.

In a particular case of the utility model, the electromagnet is made in the form of a single electromagnet, the area of which is a significant part of the area of the figure, limited by the perimeter of the lower base.

In a particular case of the utility model, the lower base is provided with legs.

In a particular case of the utility model, the elastically deformable element is made in the form of a gasket made of an elastic material, installed inside the housing above the lower base.

The inventive mouse contains a means made in the form of an electromagnet, which makes it possible to fix the position of the mouse on a working surface with magnetic properties.

Due to the presence of a recognition sensor and a control controller in the inventive mouse, it is possible, in the case when the recognition sensor detects the absence of the operator's hand on the mouse surface, to set such characteristics of the electromagnet magnetic field, which ensure that the mouse is held on the magnetic working surface due to the force of magnetic attraction.

This can be achieved by increasing the magnetic field of the electromagnet and/or by setting the polarity of the electromagnet to be opposite to the polarity of the remanence of the working surface, if present.

In this case, in cases where the recognition sensor detects the presence of the operator's hand on the surface of the case, it is possible to set such characteristics of the magnetic field of the electromagnet, in which the force of magnetic attraction of the mouse to the magnetic working surface is insufficient to keep the mouse on the specified surface or is absent.

This can be achieved by reducing the magnetic field of the electromagnet, and/or by setting the polarity of the electromagnet to be the same as the polarity of the remanent magnetization of the working surface (if any), or by turning off the electromagnet, which leads to the absence of a magnetic field.

Thus, during the period when the operator releases the mouse, it maintains a stable position on the magnetic working surface due to the force of magnetic attraction of the electromagnet to the specified surface, and during the period of the operator's work with the mouse, the indicated force of magnetic attraction does not act on the mouse and, accordingly, does not prevent the mouse from moving along working surface

Due to the fixation of the electromagnet in the housing on an elastically deformable element with the possibility of movement and the presence of a window for the electromagnet in the base of the housing, during the release of the mouse by the operator, the electromagnet is pulled through the window under the action of the force of magnetic attraction and is pressed against the working surface, which ensures that the mouse is held on it.

At the same time, during the period of the operator’s work with the mouse, when the force of magnetic attraction does not hold the electromagnet on the working surface, it returns to its original position due to the elastic deformation force, is “drowned” in the body and does not contact the working surface, which minimizes the effect of forces on the mouse. residual magnetization and eliminates the friction of the electromagnet with the working surface.

That is, during the period of the operator's work with the mouse, it is not affected by the force of magnetic attraction due to the magnetic field of the electromagnet, and the force of residual magnetization, which contributes to the ease of movement of the mouse by the operator on the working surface.

Thus, the technical result achieved by the utility model is to ensure the ease of movement of the mouse on the working surface during the operator's work with it, while maintaining the stability of its position on the working surface during the release of the mouse by the operator.

As an electromagnet, one electromagnet or several separately located electromagnets can be used, respectively, one window or several windows can be made in the base, each of which is designed to move one of the separately located electromagnets in it.

As an elastically deformable element, in particular, one or more elastic thread, spring, annular membrane, elastic plate and so on can be used. In this case, the electromagnet can be fixed in the housing using an elastically deformable element, in particular, by suspending the electromagnet on the specified element or by installing the electromagnet in a through hole made in the elastically deformable element, the edges of which tightly cover the electromagnet, and in another way.

A mechanical, capacitive, thermal, optical sensor and others can be used as a recognition sensor that detects the presence of the operator's hand on the surface of the housing.

The mouse movement sensor may be a sensor known from the prior art, in particular one or more optical movement sensors.

As a working surface for a mouse, a special mouse pad can be used, made of a material with magnetic properties, for example, steel or magnetic rubber, the dipole magnetic moment of which is directed perpendicular to the surface.

In a particular case of the utility model, the electromagnet is made in the form of a single annular electromagnet. The annular electromagnet can be located around the location area of the mouse movement sensor, in particular, around the window for the optical movement sensor, made in the lower base, which achieves a rational layout of the product.

In a particular case of the utility model, the electromagnet has an area that is a significant part of the area of the figure, limited by the perimeter of the lower base. In this case, due to the large area, an increase in the strength of the magnetic field of the electromagnet is achieved, and, accordingly, an increase in the force of magnetic attraction.

In a particular case of the utility model, the lower base of the mouse may be provided with legs, which reduces the frictional force when moving the mouse over the working surface and contributes to ease of movement along the working surface.

In a particular case of the utility model, the elastically deformable element is made in the form of a gasket made of an elastic material, installed inside the housing above the lower base. In this case, the resiliently deformable spacer additionally performs an insulating function. The electromagnet can be fixed on the specified gasket, in particular, by placing it in a through hole made in it, the edges of which tightly cover the side surface of the electromagnet.

In FIG. 1 conventionally shows a general view of the claimed device in the case of releasing the mouse by the operator; in fig. 2 - the same in case of mouse coverage by the operator's hand.

The device comprises a housing 1 with controls installed on it, including a scroll wheel 2, left and right buttons 3 (one button is shown in the drawing), a mouse movement tracking unit, including at least one mouse movement sensor 4, an electromagnet 5, a sensor recognition 6, fixing the presence of a hand on the surface of the body 1 or its absence.

The body 1 contains the bottom base 7.

The device is designed to be placed on the working surface 8, which has a magnetization.

As the mouse movement sensor 4, in particular, an optical movement sensor is used.

The electromagnet 5 is used, in particular, an annular electromagnet.

As the recognition sensor 6, a mechanical, thermal, capacitive, optical and other sensor can be used.

The recognition sensor 6, in particular, is made in the form of an infrared sensor, including an emitter 9 and a photodetector 10.

As a working surface 8, in particular, a special mat is used, made of a magnetic material, in particular, of magnetic rubber, the upper and lower surfaces of which have opposite polarity, in particular, the polarity "N" and "S", respectively.

The mouse also contains a wired or wireless interface (not shown).

The mouse may contain an additional button (not shown in the drawing) designed to turn off the electromagnet 5 when working with the operator's mouse.

The device is equipped with a mouse controller 11 connected to the recognition sensor 6 and through the electric circuit 12 to the electromagnet 5.

In the lower base 7 there is a window 13 for the displacement sensor 4, as well as a window 14 for the electromagnet 5, the dimensions of which are consistent with the size of the electromagnet 5, in particular, having an annular shape.

The electromagnet 5 is fixed in the housing 1 by means of an elastically deformable element 15, in particular, suspended on elastic threads.

The mouse, in particular, is provided with legs 16.

The device works as follows.

Place the mouse on the surface of the mat 8.

When the mouse is not in working position (Fig. 1), the body 1 is not covered by the palm 17 of the operator, while the light flux from the emitter 9 does not enter the photodetector 10 of the recognition sensor 6, and this sensor detects the absence of the palm 17 on the body 1 of the mouse. Upon receiving a signal about the absence of the operator's hand on the surface of the housing 1, the controller 11, using the electrical circuit 12, controls the current of the winding of the electromagnet 5 and ensures its magnetization in such a way that on the side of the electromagnet located from the side of the lower base 7, the pole "S" is generated, opposite in relation to the "N" pole of the upper surface of the mat 8, and on the opposite side of the electromagnet 5, the "N" pole is generated.

As a result of the resulting magnetic attraction, the electromagnet 5, fixed in the housing on the elastically deformable element, is pulled out through the window 14, pressed against the mat 8, and the mouse is firmly fixed on its surface, maintaining its position on its surface.

When the operator works with the mouse (Fig. 2), the operator's palm 17 lies on the body 1. The light flux emitted by the emitter 9 of the recognition sensor 6 is reflected from the operator's palm 17 and is recorded by the photodetector 10 of the specified sensor. Upon receipt from the sensor 6 of recognizing a signal about the presence of the palm 17 on the surface of the body 1, the controller 11, using the electrical circuit 12, provides a change in the polarity of the electromagnet 5 to the opposite, while on the side of the electromagnet located from the side of the lower base 7, the pole "N" is generated, the same name with respect to the “N” pole of the upper surface of the mat 8, and on the opposite side of the electromagnet 5, the “S” pole is generated, or turns off the electromagnet 5.

As a result, the magnetic attraction force ceases to act on the electromagnet 5, the elastically deformable element 15 draws it into the window 14, and the electromagnet 5 takes its original position in the housing 1.

The mouse moves freely on the mat 8 when the operator works with it.

Claims (4)

1. A computer mouse containing a housing having a lower base designed to be placed on a working surface, a computer mouse movement sensor installed in the housing, an electromagnet located on the side of the lower base, a recognition sensor that detects the presence of the operator's hand on the surface of the housing, and is also associated with electromagnet and with a recognition sensor, a control controller configured to set the characteristics of the magnetic field of the electromagnet depending on the recognition sensor signal, characterized in that a window for the electromagnet is formed in the lower base, an elastically deformable element is located inside the housing, with the help of which the electromagnet is fixed in the housing with the ability to move in the base window in the event of a magnetic attraction force acting on it and return to its original position in the event of termination of the specified force. 2. Computer mouse according to claim 1, characterized in that the electromagnet is made in the form of a single ring electromagnet. 3. Computer mouse according to claim. 1, characterized in that the lower base is provided with legs. 4. Computer mouse according to claim. 1, characterized in that the elastically deformable element is made in the form of a gasket made of an elastic material, installed inside the housing above the lower base.

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