RU2734096C2 - Pointing device "mouse" with a support accumulator - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to pointing devices moved by a user. Pointing device "mouse" with a support accumulator comprises a housing having two stiffeners between inclined protrusions made integral with the mouse body and at least a front inclined projection thereon, together with the accumulator forming a vertical comb for clamping between the fingers and the "mouse" movement, has two front and rear inclined back projections from above, of which at least one, front, inclined projection is made as a whole with housing of "mouse", forming together with "mouse" housing two separated by vertical crest cavities for fingers and carriers on / in itself with help of cartridge with thread and central contact and holding through hole battery, and simultaneously is common housing of electric and electronic components of "mouse" structure contained in it, and its accumulator has a thread and is screwed into a cartridge made on the front inclined ledge on the "mouse" housing, occupies an inclined position in the "mouse" structure.

EFFECT: technical result consists in reduction of weight, dimensions and complexity of "mouse", enabling adjustment of "mouse" for thickness and / or shape of fingers of human hand; simplification of installation of electric accumulator AA, AAA in / on housing of "mouse".

1 cl, 1 dwg

Description

The invention relates to the field of digital data processing using electrical devices, in particular, to designs of pointing devices, moved or installed by the user (2D - "mice", trackballs, light "pens", pressure rollers), and to designs of accessories for them, can be used in the production of peripheral devices for personal computers.

Known pointing devices "mouse" - analogs containing in their design: 1) standard, that is, monoblock, most often flat, rounded, closed and rigid, with decent dimensions and weight, with a complex design, sometimes adjusted to the user's hand, non-separable and, during normal operation, an unchangeable body that is gripped for movement relative to the supporting surface by the entire hand of a human hand, with a large unfilled internal volume, bearing on / in itself reliably fixed, including with the help of a printed circuit board, all other structural components of the "mouse" , for which the user moves such "mice" relative to a special "rug", desktop or the like; 2) standard, that is, formed by buttons, wheels (wings, levers, touch panels, etc.) of scrolling, etc., a set of controls that have too, unreasonably large dimensions and weight, an overcomplicated design, most often with transmission elements inside , complex mechanical-electrical conversion, etc., the components of which are located, including on the "mouse" printed circuit board installed in the case; 3) a semiconductor digital chipset or microcontroller, located on the printed circuit board of the "mouse", of standard design, dimensions and weight for these products, most often, in the case of a microcontroller, which includes an optical sensor for tracking the movement of the "mouse" relative to the reference surface and having a mode work with energy saving ("sleep" mode); 4) an optical unit for tracking the movement of the "mouse" relative to the support surface on which it is operated, which is part of its chipset or, as a rule, a microcontroller, located on a printed circuit board and standard for these components of the design, dimensions and weight; 5) a wired or wireless interface through which digital data is transmitted to the computer to which the "mouse" is connected, and included in the chipset or, as a rule, the microcontroller "mouse", with a standard design (PS / 2, USB or Wi-Fi standards wireless communication IEEE 802.11a / b / g / n), and in the case of a wired one, the "mouse" is supplied with electric power at the same time, and in the case of a wireless one, the battery (s) of the "mouse" can be recharged through the second, wired interface ; 6) if there is a wireless interface, a replaceable electric battery or a battery of accumulators, most often, standard cylindrical types AA or AAA and of a standard design, located in the battery compartment of the "mouse" case and, in some cases, recharged through a second, wired, usually USB, the interface through which (the above-described components), moving the "mouse" and acting on all its controls, ultimately, and you can move the "mouse" cursor on the screen of the computer monitor and give commands to the computer to which the "mouse" connected, thus controlling its work. In this case, the bodies of such "mice": 1) have a fairly solid dimensions and weight, since they are designed to be held by the user's entire hand, and not, for example, only with two fingers, can be made, including from metal materials, can have cassettes with weighting weights, have a relatively complex design, sometimes allowing the body of a gaming "mouse" (due to built-in mechanization) to be adjusted to the wrist of a particular user - player, and contain a large empty volume (due to the roundness of the body) and mandatory printed boards (due to its non-monolithic nature) for the installation and reliable fastening of all internal structural components of the "mouse"; 2) carry on / in themselves (and on printed circuit boards), probably for greater ease of use and simplification and cheapening of production, unnecessarily, unnecessarily large and massive controls - large buttons, microswitches, touch panels, weighty scroll wheels, sometimes metal and with free (inertial) rotation, complex, sometimes multi-mode, mechanical-electrical converters, etc. etc. - with a clearly overcomplicated design that does not justify itself, and often they also carry controls (for example, scroll controls, additional buttons, etc.), the need for which in certain operating systems and / or for some categories of users in general questionable. The optical movement tracking unit includes a light source (light-emitting diode or low-power laser), a light guide, a lens and an optical sensor, which is an integral part of a chipset or a mouse microcontroller, with a sufficiently high resolution, with the participation of which frames (images of the reference surface) are formed, which are then exposed to processing, and the calculation of movement indicators is performed. Transferring data from a "mouse" to a computer without wires also requires the installation of a receiver (transceiver) of a wireless interface in the computer, for example, a small-sized one that plugs directly into the USB connector, which is supplied by the manufacturer of the "mouse" along with it (Traskovsky A. Device, modernization, repair IBM PC. - SPb .: "BHV - Petersburg", 2004. - pp. 90-110. Mueller S. Modernization and repair of PC, 17th edition. - M .: "Williams", 2008. - pp. 1068-1077. Kolesnichenko O. et al. PC hardware. - 6th edition. - SPb .: "BHV - Petersburg", 2010. - p. 559-571).

The disadvantages of these pointing devices "mouse" analogs are: 1) the fact that their bodies and controls - buttons, wheels (wings, levers, touch panels, etc.), scrolling, etc. etc. - do not differ in compactness, lightness and simplicity of design, having a printed circuit board inside and partially located on it, a large empty volume and, as a rule, transfer, complex conversion, or the like. structural elements, which requires the action of the user's entire hand to move the mouse relative to the supporting surface and issue the appropriate commands to the computer, which ultimately increases the cost of the mouse and simultaneously reduces their reliability, durability and ease of use (including and due to the constant holding of the hand in the same unnatural position for it); 2) the fact that their bodies are flat, rounded and do not have any devices for gripping, for example, with only two fingers of a human hand, which reduces the convenience of using "mice" due to the unnatural position of the hand during work; 3) the fact that their bodies, in normal use, are non-separable and unchangeable during the entire period of their operation, excluding the cases of fitting (with the help of built-in mechanization) under the hand of a particular user - player, which, again , significantly reduces the convenience of their use; 4) the fact that their more complex microcontrollers, etc. electrical and electronic components are located on their printed circuit boards and have their own enclosures with leads, which are not at the same time a single and monolithic enclosure of the entire "mouse"; 5) the fact that their batteries are of a standard design (AA, AAA, or the like, inserted between the contacts), fully fitting into a fairly large, weighty and closing battery compartment of the "mouse" case with its own cover, which does not make them easy at all - and quickly replaceable in case of discharge and / or failure, and do not carry any other functions, for example, do not serve as supports for the "mouse" body, etc., which reduces the effectiveness of the "mouse" design.

As a prototype, a pointing device "mouse" with a quick-change battery was chosen, which consists of: 1) one standard (AA, AAA or other cylindrical, similar in size) electric accumulator, located vertically or close to it (positive pole down) on back in the twin (horizontal) module of the "mouse" chipset, designed to supply the chipset modules with power and together with a stiffener between the modules forming a vertical ridge, clamped between two fingers of the user's hand (index and middle) to move the "mouse" along the supporting surface and moving it over it, while the role of human fingers, necessary for the movement of the "mouse", is played by the front (vertical) chipset module in the pair and two vertical protrusions in the back of the paired (rear, horizontal) module, located right under the fingers user when he places his two fingers between the modules. The electric accumulator is attached to the chipset modules using a conductive bracket (with a disc-shaped platform with a perimeter rim at the end), attaching it to the front module of screws and a corresponding cylindrical recess on each of the modules, where it is inserted with its positive pole. The battery, which forms a vertical ridge together with the stiffener, has standard dimensions and weight, shape (cylindrical), as well as design and electrical characteristics and is intended, in addition to supplying the chipset modules with power, to ensure the user's movement of the mouse. From above, the battery is pressed against the recess by a conductive bracket, for example steel, holding the other end of the battery, playing the role of a contact for its negative pole and providing (due to sufficient elasticity) reliable pressing of the battery to the contact area located at the bottom of the recess, under it, which allows powering the electrical and electronic components of the rear mouse chipset module. Two screws are made of steel, have a simple (straight) shape and are screwed into nuts, for example, brass, pressed into the material of the chipset modules during the manufacture of the pair, which provides the conductive bracket with a reliable attachment and stable position, and the battery is easy and quick to replace (and without application of tools). A pair of screws must be grooved for hand-tightening / loosening without using any tools. Closing the electrical circuit formed by the battery, conductive bracket, screws, nuts, microcontroller, etc. and a contact pad, is performed using conductors laid in the material of both chipset modules and connecting the pad and nuts with a microcontroller, etc. Power switches are not provided, since both microcontrollers are supposed to have a "sleep" mode of operation to save battery power; 2) two modules of the "mouse" chipset combined into a pair (a single structure), carrying an electric battery, located at a close to right angle and in front of each other, one of which (the front in the pair) is installed almost vertically (the angle depends on the thickness fingers of the user's hand and the height of the vertical protrusions themselves), and the second (rear in the twin) horizontally and in the design of the "mouse" also plays the role of a compact shelf for the same fingers of the user's hand (index and middle). The front chipset module and two vertical protrusions made at the rear of the paired (rear) module, together with the vertical ridge formed by the battery and the stiffener (the same thickness as the battery diameter), allow the user to move this pointing device "mouse" relative to the supporting surface on which it is operated. If there is a need to move the "mouse" over the supporting surface for a short distance, the user simply squeezes the battery and the stiffener between the same fingers (index and middle) and lifts the "mouse" and transfers it to another place. To simplify and reduce the cost of the mouse design, the distance between the front chipset module and the two vertical protrusions on the paired chipset module is not regulated in any way, since it is assumed that manufacturers will supply these mice with pairs of chipset modules that provide different distances between the modules and vertical protrusions. as well as the vertical protrusions themselves, and users will be able to select twin pairs in accordance with the length, thickness and shape of their fingers. Parts (modules) of the entire semiconductor digital chipset "mouse" that form a pair are its unified components and can be replaced with one another, removed from the "mouse" and returned to its composition in the form of the same (when repairing the "mouse") or different from the same (when changing the built-in set of functions, improving the reliability or usability of the "mouse" or upgrading it). Each of the chipset modules in a pair can carry on / in itself, depending on their manufacturer, a variety of electrical and electronic components (both the minimum necessary for the normal functioning of the "mouse", and maybe some additional). These include a variety of mouse controls, microcontrollers, and more. the like, optical units for tracking the movement of the "mouse" relative to the reference surface on which it is operated, which are part of its microcontrollers, wireless interfaces for connecting the "mouse" to a computer, etc., which allows adapting, adjusting the hardware and / or software configuration of the "mouse" for the requirements of almost any user. To simplify and reduce the cost of the design, the cases of the chipset modules are at the same time the cases of integrated circuits for microcontrollers and so on. constituent modules, and the presence of a second (spare) chipset module (as well as a quick-change battery) in the design provides increased reliability of the "mouse" operation. The rear (horizontal) chipset module connected to the battery is always the main one (ensures the current operability of the pointing device), and the front (vertical) chipset module, which is not connected to the battery, plays the role of a spare (present in the design in case of partial or complete loss of performance of the main module). The "switching" of the pointing device from the main chipset module to the spare is made by the user by disassembling the "mouse", turning the pair of chipset modules in two planes and then assembling the "mouse", as a result of which the spare chipset module becomes connected to the battery and ensures the operability of the "mouse" , and the main module, which has lost its functionality, is "moved" to the reserve, which ensures the user of the device to continue its normal use. If, after a certain time, the second chipset module in a pair also loses its functionality, the user simply replaces the entire pair of modules with a similar one and continues to use the "mouse" as before. Chipset modules can have either a one-piece common body, or a pair of separate bodies, hinged together, which allows you to fold the "mouse". Inside both modules of the mouse chipset, instead of contact pads installed at the bottom of their cylindrical recesses for the battery, pushbutton switches can be placed that will be able to function as power switches for the mouse when the battery is pressed from above. The mobility of the battery also allows you to make it one of the "mouse" controls. Similar push, tilt, rotate and / or the like. depending on the installation of the corresponding mechanical-electrical converters in the "mouse" chipset modules, the battery may find useful applications (for example, for scrolling through documents); 3) paired controls, which can be microswitches, color sensors, resistive force (pressure) sensors, capacitive touch sensors or whole touch panels from such sensors, optical sensors for the presence of an object (reflective or transmissive optocouplers), video cameras, etc., Moreover, in order to simplify and reduce the cost of the structure, the influence of the user's fingers on them can be carried out directly, without any transfer structural elements. Controls should be located on the inner (top) side of both chipset modules right under the user's fingers and, possibly, in front, side or behind them, one or more on each module (depending on their purpose, etc.). In addition to pairs of chipset modules with standard "mouse" controls, any other pair of modules with a variety of controls, including those for highly specialized purposes, can be manufactured; 4) optical blocks for tracking the movement of the "mouse" relative to the reference surface, consisting at least of light sources (LEDs or low-power lasers), focusing lenses and optical sensors included in microcontrollers located on the outer (bottom) side of each chipset module; 5) wireless interfaces for connecting both chipset modules in a pair to a computer, for example, Wi-Fi standards IEEE 802.11b / g / n or any other suitable. To connect both chipset modules to a computer, the user will also need to install in the computer a receiver (transceiver) of the wireless interface, for example, a small-sized one for USB, which the manufacturer must supply together with the "mouse". To improve the reliability of operation, the manufacturer needs to supply the "mouse" not with one, but with a pair of receivers (transceivers) of the radio interface, one of which will be the main (operating), and the second - stored somewhere in stock in case of failure of the main (Russian patent for invention 2716903 "Mouse pointing device with quick-change battery").

The disadvantages of this "mouse" - prototype include: 1) modularity of the design (the use of chipset modules combined in a pair), which increases the reliability of operation and the service life of this pointing device, but, nevertheless, is not necessary for all users, which increases weight and dimensions of the "mouse", the complexity of the design and its cost increase; 2) solidity, non-separability of its common for both chipset modules of the case and only the relative mobility of the cases of the chipset modules in the case of a hinge between them (for folding the "mouse"), which does not allow, if necessary, to separate and replace the components of the case to improve ease of use, as well as the inability to adjust the distance between the front chipset module and two vertical protrusions on the paired chipset module for the thickness of the user's fingers, which reduces the convenience of using the "mouse", unless the required distance is provided by the manufacturer himself when making a "mouse" or a pair of chipset modules; 3) an electric battery, being a standard AA, AAA, or other cylindrical similar in size to them, is relatively difficult (and long) to be installed (vertically or close to this, with the positive pole down) on the back in the twin (horizontal) module of the "mouse" chipset (with the help of a conductive bracket, two screws fixing it to the front module and a corresponding recess on each of the modules with a contact pad at the bottom), which increases the weight, dimensions, design complexity and, as a result, the cost of the "mouse"; 4) an electric battery, which is designed to supply the chipset modules with power and, together with a stiffener between the modules, forms a vertical ridge clamped between two fingers of the user's hand (index and middle) to move the mouse along the supporting surface and transfer it over it, does not carry any other functions, which reduces the effectiveness of the "mouse" design.

The objective of the proposed invention is such a change in the design of the pointing device "mouse", in which: 1) it, in order to reduce weight, dimensions, complexity and cost, will be performed only from a single (horizontal) "chipset module", that is, it will be performed by a conventional, non-modular , the same as the devices "mouse" - analogues; 2) its different design (split) body with another device of stiffening ribs between the front and rear inclined protrusions, between which the user's fingers are placed, and a detachable and replaceable rear inclined protrusion will provide adjustment of the distance between the front and rear inclined protrusions and / or change the shape of the contact surface for the thickness and / or shape of human fingers, which will definitely increase the convenience of using such a "mouse"; 3) the installation of an AA, AAA battery or other similar in size cylindrical in / on the "mouse" case will be simplified by making an external thread on the battery and screwing it into a corresponding cartridge with contacts on the front inclined ledge of the case connected to electrical consumers energy, which will reduce weight, dimensions, complexity and, as a result, the cost of the "mouse"; 4) the battery will also be installed openly, but obliquely, and its rear end (negative pole), which does not fit inside the compact body of the mouse, will simultaneously act as the only rear support for the mouse, which will increase the efficiency of its design, as well as a variant of its implementation, will be able to close (through the corresponding supporting surface and at least one of the front pillars of the case) or open the electric power circuit of the chipset or microcontroller, etc. "mouse".

The task is solved due to the fact that the pointing device has a "mouse" with a quick-change battery containing, among other things: 1) two chipset modules combined into a pair: located at a close to right angle and in front of each other, one of which (front) it is installed almost vertically, and the second (rear) is horizontal and also plays the role of a shelf for the user's fingers (index and middle) in the structure; in which the front chipset module and two vertical protrusions made in the back of the paired (rear) module, together with the vertical ridge formed by the battery and the stiffening rib between the modules (of the same thickness as the diameter of the battery), allow the user to move this pointing device " the mouse "on the supporting surface on which it is operated, and also to be carried over the supporting surface for a short distance, clamping the battery and the stiffener between the same fingers; with an unregulated distance between the front chipset module and two vertical projections on the paired chipset module; which are unified components of the entire digital mouse chipset; which can be replaced with one another, removed from the "mouse" and then returned to its composition in the form of the same (when repairing the "mouse") or different from the same (when changing the built-in set of functions, increasing the reliability or usability of the "mouse" or its modernization); carrying on / in themselves an electric battery and a wide variety of electrical and electronic components (both the minimum necessary for the normal functioning of this "mouse", and, perhaps, some additional - a variety of "mouse" controls, microcontrollers, etc., optical tracking units movement of the "mouse" relative to the supporting surface on which the operation is carried out, which are part of its microcontrollers, wireless interfaces for connecting the "mouse" to a computer, etc.), which allows you to adjust, adjust the hardware and / or software configuration of the "mouse" to the requirements almost any user; the cases of which are at the same time the cases of integrated circuits of microcontrollers and so on. constituent modules; divided into the main (back), connected to the battery and providing the current operability of the pointing device, and the spare (front), not connected to the battery, present in the design in case the main module loses its operability and, after the user connects to the battery, also ensures the operability of the mouse "; with built-in "sleep" mode of operation to save battery power; which can have both a one-piece common body, and two separate hinged bodies, which allows a person to fold the "mouse"; without power switches on the case, but may have, instead of battery contact pads, power pushbutton switches and / or push, tilt, rotate and / or the like. mouse controls; 2) one standard (AA, AAA or other cylindrical, similar in size) electric accumulator: intended for supplying the chipset modules with electric power; located vertically or close to this (positive pole down) on the back of the twin (horizontal) mouse chipset module; together with a stiffening rib between the modules, forming a vertical ridge, clamped between two fingers of the user's hand (index and middle) to move the "mouse" behind it along the supporting surface and transfer it over it; fastened to the chipset modules using a conductive bracket pressing from above (with a disc-shaped platform with a perimeter edge at the end), holding the other end of the battery, playing the role of a contact for its negative pole and providing (due to sufficient elasticity) its reliable pressing, securing it to the front a module of two screws with grooves (for tightening or unscrewing them manually, without the use of tools) of a simple (straight) shape, screwed into nuts pressed into the material of both chipset modules during the manufacture of a pair, and a corresponding cylindrical recess on each of the chipset modules with a contact pad on the bottom where it is inserted with its positive pole, which allows it to power the electrical and electronic components of the rear module of the "mouse" chipset, and also provides the battery with an easy and quick replacement (and without the use of tools), provides for: 1) removal from the pointing device second about the (vertical) chipset module (and the one that ensures its operation), due to which the "mouse" turns into a regular, non-modular, the same as the "mice" - analogs, and the design of the remaining "module" is changed in this way, that the role of the front rest for human fingers will also be played by a monolithic front inclined protrusion made in the front part of the "mouse" body, inclined backward, reinforced with a lower stiffener and connected (through the upper stiffener and fasteners) with a monolithic rear inclined protrusion (which is made at the back of the "mouse" body and also tilted back), carrying a cartridge for screwing in an electric battery and thus powering all electrical and electronic components of the "mouse"; 2) redesigning the housing of the remaining pointing device "module" so that it will be detachable, and its detachable and replaceable rear inclined protrusion holding the electric battery and contacting the user's fingers will be attached using the necessary fasteners and thanks to the manufacturer provided " mouse "with different (these components of the structure) thickness and geometry will adjust the distance between the front and rear inclined protrusions and / or change the shape of the contact surface for the thickness and / or shape of the user's fingers; 3) making an external thread on the battery and screwing it into a cartridge located on the front inclined ledge of the "mouse" body and having an internal thread and a contact pad in the center, connected (through their conductors) to consumers of electrical energy (chipset or microcontroller, etc.) in the "mouse", which makes it easier and faster to install or remove the battery; 4) the placement of the electric battery is also open, but obliquely (between the lower and upper stiffening ribs of the body, as a result of which they together form a vertical ridge that helps to move the "mouse"), and its rear end (negative pole), which does not fit into the compact body " mouse ", at the same time begins to serve as the only back support of the" mouse ", which makes this battery also a reference. In addition, an electric battery, as a variant of the "mouse" design, can open or close, resting its rear end (negative pole) on a conductive support surface and with the help of at least one conductive front housing support, a chipset or microcontroller power supply circuit, etc. "mouse". Then the user to turn off the "mouse" after work will be enough to remove it from the working (conductive) support surface and install it on some other covered with an electrical insulator.

The technical essence and principle of operation of the proposed pointing device "mouse" with a reference battery is illustrated by the drawing, in which it is shown on the supporting surface (left and back views) together with the user's fingers set in their normal working position.

The proposed pointing device "mouse" with a reference battery consists of a compact, rectangular and flat, symmetric (relative to the longitudinal axis, when viewed from above), monolithic, made, for example, of plastic housing 1 with two inclined (inclined backward) protrusions 2 and 3 from above , carrying on / in themselves with the help of the cartridge 4 and the corresponding hole, the electric battery 5, and located (in the housing 1) the electrical and electronic components of the "mouse" structure. Body 1, among other things, plays in this design the role of a compact shelf for the user's fingers (index and middle), and monolithic lower and upper stiffeners 6 and 7 (the same thickness as the diameter of the battery 5), made in one piece with a body 1 and at least an inclined protrusion 2 and increasing the rigidity and strength of the entire pointing device, together with the battery 5 form a vertical ridge for clamping between two fingers of a human hand (index and middle) and moving the "mouse" along the supporting surface and transferring it above her. The monolithic front and rear inclined protrusions 2 and 3, made in the front and rear parts of the body 1, form (together with the body 1) two recesses for the user's fingers separated by a vertical ridge, which, accommodating a pair of moving human fingers, help the user to move " mouse". The left and right finger grooves together with the vertical ridge between them allow this pointing device "mouse" to move forward, backward, left and right relative to the supporting surface on which it is operated. If there is a need to move the mouse over the supporting surface for a (small) distance, the user squeezes the vertical ridge between two fingers and lifts the mouse and transfers it to another place. To simplify and reduce the cost of the design of the "mouse", the distance between the front and rear inclined protrusions 2 and 3 may not be regulated at all, and the protrusion 3 can be made, respectively, non-detachable. Then manufacturers should provide these devices with cases 1, which will provide different distances between the projections 2 and 3 and different geometry of their contact surfaces, but users should be able to select cases 1 in accordance with the thickness and / or shape of their fingers. However, in order to change the distance between the inclined protrusions 2 and 3 and / or the geometry of the rear contact surface, the inclined protrusion 3 can be made detachable and replaceable (and for different thicknesses and / or shapes of the fingers), and its attachment to the back of the housing 1 and the upper stiffener 7 is made using, for example, a pair of short screws 8 and a long screw 9 with a nut 10. Three steel screws 8 and 9 will be straight and screwed into nuts 11, for example brass, installed in the material of the body 1 during its manufacture , or pass through the transverse holes in the projection 3, pass through the hole in the upper stiffener 7 and fix it with a nut 10 on the reverse side, which will provide the projection 3 with a reliable attachment and stable position, as well as, if necessary, easy and quick detachment and replaceability. The screws 8 and 9 and the nut 10 must be grooved so that they can be unscrewed or tightened by hand, without the use of any tools. Electric accumulator 5 (AA, AAA or other cylindrical similar in size), forming a vertical ridge together with stiffeners 6 and 7, has standard dimensions and weight, standard shape, design and electrical characteristics and is intended, in addition to ensuring the movement of the device by the user to supply the mouse with electrical power. The battery 5 in the design of the proposed device is also located openly, but takes an inclined position and is screwed (positive pole) into the cartridge 4, made on the front inclined protrusion 2 of the body 1 of the "mouse". To do this, the manufacturer of the battery 5 must provide an external thread on it, which makes it non-standard for the current period of time, but over time, such a design is likely to be standardized, and also ensure that there is no electrical contact between its positive pole and the case, and, on the contrary, ensure there is electrical contact between its negative pole and the conductive body. The cartridge 4 with an internal thread and a central contact pad 12 is connected through conductors laid in the material of the front inclined protrusion 2 and the body 1 to the consumers of electrical energy in the mouse, which allows all its electrical and electronic components to be powered from the battery 5. The compact design of the proposed "mouse" is such that the battery 5 feeding it does not completely fit between the inclined protrusion 3 and the cartridge 4, due to which the battery 5 passes through the protrusion 3 outward (through the holding through hole), and its rear end (negative pole) contacts directly with the supporting surface on which the "mouse" is used, and thus serves as the only rear support for the "mouse", making the battery 5 also a reference. The two front supports 13, made on the lower side of the mouse body 1, can be manufactured, for simplicity and low cost, in one piece with it. The power switch, in order to simplify and reduce the cost of the design, is not provided for the "mouse" in the proposed pointing device, since it is assumed that the microcontroller 14, etc., is provided by their manufacturer, a "sleep" mode of operation to save battery power 5. Conclusion of the "mouse" from The "sleeping" mode of operation is carried out by the user himself with the help of, for example, influencing its controls or in some other way. However, the power switch can be installed on the "mouse", for example, on the outer (front) side of the front inclined protrusion 2 or on the socket 4 for opening / closing the electrical circuit between the socket 4 and the microcontroller 14, etc. In addition, as a variant of the design of the "mouse", it can be made so that the cartridge 4 (its central contact pad 12) and, accordingly, the positive pole of the battery 5 can be connected through its conductor to the electricity consumers in the "mouse", but the connection the negative pole of the battery 5 can be produced not through the cartridge 4 (the thread in it) and the second conductor, but through the conductive support surface with which this battery pole is in direct contact, and through the conductive support or supports 13 of the "mouse" body 1, also in contact with the same supporting surface. In this case, the front support / supports 13 can be made, for example, of steel, installed in the material of the housing 1 during its manufacture and connected by their own conductor (s) with the microcontroller 14, etc., and the supporting surface on which such "mouse" can be made, for example, from a brushed aluminum sheet (preferably with a rubberized bottom to prevent slipping). Then the user to turn off the "mouse" at the end of the work on the computer just need to remove it from the working (conductive) support surface and install it on any other covered with an electrical insulator (rubber, plastic, wood, etc.). However, operation of the mouse on a conductive support surface is likely to cause bouncing (short-term vibration) of the contacts (battery 5 and supports 13), which adversely affects the electronic components of the mouse body 1. Therefore, its manufacturer will most likely require hardware and / or software elimination of this harmful phenomenon. Also, possible arcing on the front supports 13 of the mouse body 1 can lead to erosion of the metal and they will eventually contact less reliably, which, of course, should also be prevented by the mouse manufacturer. The case 1 can carry on / in itself, depending on the manufacturer, various electrical and electronic components. These may include a variety of mouse controls 15, semiconductor digital chipsets or microcontrollers 14, optical units for tracking the movement of the mouse 16 relative to the reference surface, which can be, if desired, an integral part of microcontrollers 14, wireless transmitters (or transceivers) interfaces 17 for connecting the "mouse" to a computer, etc., which makes it possible to adapt the hardware and / or software configuration of the "mouse" to the requirements of many users. To simplify and reduce the cost of the design of the "mouse", its case 1 should simultaneously be the general case of integrated circuits (microcontroller 14, etc.) and its other electrical and electronic components, and the presence of an easily and quickly replaceable battery 5 in the design minimizes the time for the user of the "mouse" to prepare it for use. Controls 15 of the proposed "mouse" can serve as microswitches (with an enlarged button), color sensors (reacting to a change in the skin color of the fingers of the hand when they are pressed), resistive force (pressure) sensors, capacitive touch sensors or whole touch panels of similar sensors , optical sensors of the presence of an object (reflective or transmissive optocouplers), video cameras, etc., moreover, to simplify and reduce the cost of the design of the "mouse", the impact of human fingers on them can be carried out directly, without any transmission and / or conversion structural elements. Controls 15 should be located on the upper side of the body 1 at the points of contact of the user's hand (index and middle) with the body (as well as, possibly, in front and / or on the side of them) one or more and should be equipped with reliable hardware and software protection against erroneous finger effects. In addition to housings 1 with standard controls 15, naturally, other housings with a wide variety of controls, including highly specialized ones, associated with any non-standard "mouse" functions, can be manufactured, which will depend only on the imagination of manufacturers and / or the needs of users of these mice. An optical unit for tracking the movement of the mouse 16 relative to the reference surface, including at least a light source (LED or low-power laser), a focusing lens and an optical sensor included in the chipset or microcontroller 14 should be located on the underside of the housing 1. To connect to a computer, a transmitter (or transceiver) of the wireless interface 17, for example, Wi-Fi standards IEEE 802.11b / g / n, or some other suitable one, must also be present in the design of the "mouse". To connect a "mouse" to a computer, the user will also need to install a receiver (or transceiver) of the wireless interface (unless it is originally provided for by the computer design) into the corresponding connector on the computer (and configure), for example, a small-sized one for USB, which should be supplied by the manufacturer " mouse "(and, accordingly, purchased by the user) along with it.

The above-described pointing device "mouse" with a reference battery is used as follows. After turning on the computer to which the "mouse" should be connected, turning it on, if required, and / or waking up the "mouse" itself from the "sleep" mode, loading the operating system into the computer, etc. the required software and automatic connection of the "mouse" to the computer, the user places his two fingers (index and middle) in the empty recesses above the body 1 of the "mouse" to the left and right of the vertical ridge, placing the rest of his hand behind the proposed pointing device. Since the user's fingers should easily and comfortably go onto the vertical ridge and into the empty grooves for the fingers on the sides of it (which the user should achieve by choosing a “mouse” when purchasing), the movement of the “mouse” together with the fingers of the hand relative to the supporting surface is not should cause difficulties for the user and thus, in the end, provide (through the optical unit for tracking the movement of the "mouse" 16, its microcontroller 14, etc. and the transmitter (or transceiver) of the wireless interface 17) movement on the computer screen monitor "mouse" cursor. If there is a need to move the mouse over the supporting surface for a certain (limited) distance, the user simply squeezes a vertical comb between his two fingers and lifts and carries the mouse for it. In order to use the "mouse" to give the computer commands like clicking on the buttons of "mice" - analogs, etc., the user needs to influence the corresponding controls of the "mouse" - 15. Impact on the controls 15 does not exclude simultaneous movement " mouse "relative to the supporting surface, therefore good sliding of the mouse supports 13, including conductive ones, must be ensured by both the manufacturer and the user (through the use of a high-quality" mat ", a slippery and resistant surface of the desktop, etc. ). In order to use the "mouse" to give the computer commands similar to the action on the wheel (slide, lever, touch pad, etc.) of scrolling "mice" - analogs, etc., the user must exert influence on the corresponding controls, if they are, of course, included in the mouse construct. These controls should be located somewhere on the upper side of the housing 1 and at an appropriate distance from the organs 15 (up to placement on the front inclined ledge 2), so that the fingers of a person's hand, sometimes moving during operation, could not cause erroneous effects on them ... As a result, moving the "mouse" with two fingers of the hand (index and middle) along the supporting surface, transferring over it and performing the appropriate command actions on all its available controls, the user works on the computer in the same way as when using "mice" - analogs, etc. In the case of using in the proposed "mouse" any new, non-standard controls 15, etc. the execution of command actions on them will entirely depend on their design, purpose, location, etc. and therefore will be determined by the mouse manufacturer itself. Turning off the power supply of the "mouse" at the end of work with it is made by a switch, if it is naturally provided for by its design, or by transferring it from the working (conductive) support surface to any electrically insulating surface. If the user, after a certain time of using the "mouse", has a desire to replace the detachable and replaceable rear inclined protrusion 3 in order to change the previously incorrectly selected distance between the inclined protrusions 2 and 3 and / or the inconvenient geometry of its contact surface, the user should remove ( unscrew) the battery 5 from the cartridge 4 on the front inclined ledge 2 of the "mouse" housing 1, completely remove the battery 5 from the corresponding (holding) hole in the sloped ledge 3, and then unscrew the nut 10 from the long screw 9, completely pull out the long screw 9 from all holes in the inclined ledge 3 and the upper stiffener 7, unscrew a pair of short screws 8 from their nuts 11 and, removing the screws 8, separate the inclined ledge 3 from the "mouse", which is, in fact, a complete disassembly of the proposed pointing device. Further, using another inclined protrusion 3 with a different thickness, changing the distance between the inclined protrusions 2 and 3, and / or a more convenient geometry of its contact surface, which is supplied by the manufacturer of the "mouse" together with it or is purchased separately, the user must carry out in the reverse order complete assembly of this "mouse", having installed both the inclined protrusion 3 and the battery 5. If the user needs to replace the battery 5 of the "mouse" (discharged or, for example, deteriorated or subject to modernization), he will simply need unscrew the battery 5 from the cartridge 4 on the front inclined ledge 2 of the housing 1 of the "mouse" and completely remove it from the holding through hole in the rear sloped ledge 3, and then install another similar battery 5 (already charged, serviceable) into the same hole (all the way) , modern) and screw it into cartridge 4, which makes the process of replacing the specified battery even easier and faster. In addition, the timely replacement of the rest of the worn out components of the structure of this "mouse" (a pair of short screws 8, a long screw 9 and a nut 10) allows the user to maintain this pointing device in a permanently functional state.

Claims (2)

1. Pointing device "mouse" with a reference battery, containing a compact, rectangular and flat body, located in it "mouse" controls, including those with direct action of the user's fingers, a semiconductor digital microcontroller that can be part of the "mouse" chipset , an optical unit for tracking the movement of the "mouse" relative to the supporting surface on which it is operated, which is part of a chipset or microcontroller, and a wireless interface for connecting a "mouse" to a computer, as well as an openly placed small-sized electric battery, characterized in that its case has two, lower and upper, ribs between the inclined protrusions, made in one piece with the body of the "mouse" and at least the front inclined protrusion on it, with the same thickness as the diameter of the battery, increasing the rigidity and strength of the structure of the "mouse" and together with accumulator forming a vertical comb for gripping between fingers human hand and movement of the "mouse" relative to the supporting surface, plays the role of a compact shelf with controls for the user's fingers in the "mouse" design, has two, front and rear, inclined, backward-inclined protrusions from above, of which at least one is front , the inclined protrusion is made in one piece with the mouse body, forming together with the mouse body two recesses for the fingers of a human hand separated by a vertical ridge, accommodating the user's moving fingers and, together with the vertical ridge, helping to move the mouse, and carrying on / in itself with the help of a threaded cartridge with a central contact connected to the electricity consumers in the "mouse" and holding the battery through the hole, and also at the same time is the common body of the electrical and electronic components of the "mouse" structure contained in it, and its battery, together with stiffening ribs forming a vertical ridge, has a thread and It is inserted into a cartridge made on the front inclined ledge on the "mouse" body to supply the body components with power, occupies an inclined position in the "mouse" structure and, passing through the rear inclined ledge, rests on the back of the body on the supporting surface and plays the role of the only back support "mouse". 2. Pointing device "mouse" according to claim. 1, characterized in that the change in the distance between the inclined protrusions and / or the geometry of the back contacting with the user's fingers of the surface can be performed using the rear inclined protrusion, which is separated from the body of the "mouse", is replaced and produced the manufacturer of the "mouse" and / or its components for different thicknesses and / or shapes of the fingers of a human hand, and the connection of the rear part of the battery case in contact with its corresponding pole to the power supply circuit of the components of the "mouse" case can be made through a conductive support surface, from which when using the "mouse", the battery contacts, and the conductive front support or supports of the "mouse" body, also contacting the same supporting surface and connected to the power consumers in the "mouse".

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