WO2019017801A1 - An electronic device holder for playing video games - Google Patents

Abstract

MYOD - An electronic device holder for playing video games designed to attach an electronic device with two skin and sponge holders with self-adhesive double tapes and connectors 1, by flexibly activating a detached electronic device through silicone tubes with a mechanism that allows the sensitivity of hand movements 4 implemented into aluminum box 3 to be affected, as well as the correction the position of the complete holder through the channels embedded in both metal sides 8, via two eccentric screws 7, which moves wooden adjustable panel 5, thereby enabling the invention to be used in sitting, supine and semi-recumbent posture.

Description

AN ELECTRONIC DEVICE HOLDER FOR PLAYING VIDEO GAMES

TECHNICAL FIELD

This invention generally relates to computer technology, as an input device for tablet devices or/and mobile phones (hereinafter referred to as "electronic devices") and more particular in scope of holder for electronic devices used for computer games, for controlling electronic device on which objects and spaces are simulated, all in order to accurately control positions and movements during the usage of electronic devices in sitting, supine and semi-recumbent posture of the user, during playing the video game of driving. Popular driving video games are numerous: Real Racing 3, Need for Speed, Formula, Rally etc.

According to the International Patent Classification (IPC), the subject of invention is marked and classified with classification symbols:

A63F 13/92 [2014.01] - Video game devices specially adapted for hand-held while playing.

F16M 11/00 (2006.01): Stands or trestles as support for apparatus or articles placed thereon; F16M 11/04 (2006.01): Means for attachment of apparatus; Means allowing adjustment of apparatus relatively to stand; F16M 11/18 with mechanism for moving the apparatus relatively to the stand.

H05K 7/00 (2006.01): Constructional details common for different types of electronic apparatus; H05K 7/18 (2006.01): Construction of rack or frame.

BACKGROUND OF THE INVENTION

There are numerous fans of motorcycles in the world, fast cars, trucks, buses, who enjoy rallies of motorcycles, fast cars, trucks, busses and all sorts of rallies, and that same passion they have, they can exercise and improve themselves through playing video games. In addition, what is convenient about playing driving video games is that it reflects in improvement of the motor skills of the players, and the advantage amongst the younger population is learning the rules and regulations in traffic. Playing such games on electronic devices requires precision and smooth mobility and coordination of hand movements so that the user could achieve the desired results and follow the rules of the game. If the user fails to locate an electronic device to a particular stable surface, it is necessary to constantly adhere the hands which after a short period of time, regardless of the body position of the user, causes fatigue in the hands an inability to follow the rules of the game. It can also cause neck pain and back pain, where holding electronic devices for a long period of time can become uncomfortable. Furthermore, users must use both hands to hold an electronic device and play the video game itself at the same time. The electronic device can slip from one hand and fall to the ground, causing damage to the screen and other areas. It is also very convenient for this holder to be used by people with disabilities and people who, due to injuries have to lie in bed for a long period of time. Accordingly, there is a need for an electronic device holder that allows the user to have easy access to the device when necessary.

Technical problem which can be solved by this invention consists of the following: how to set up an electronic device-tablet computer or/and mobile phone which will, with the help of a simple construction in an easy and convenient way allow the user of an electronic device, support and control of electronic devices, flexibility of arm movements, all for playing driving video games?

MYOD electronic devices holder for video games with its construction allows attaching, stability and secure support for an electronic device, flexibility of hand movements in right and left position, as well as mechanical correction and adjustment of the position with respect to the body position of the user of the electronic device (sitting, supine and semi- recumbent posture], all in order to securely attach the electronic device so that the user could better control objects and spaces that are simulated on the chosen electronic device and use the same while playing driving video games.

Various and numerous constructional solutions are known with the purpose of holder/carrier/ construction for electronic devices-tablet computers and mobile phones:

US9241422 B2 19.01.2016, inventor HSU AN SZU, LIN CHIEN YU, TW, CN 204387628 U 10.06.2015., inventor QIU YUWEN, CN, CN205350757 U 29.06.2016, inventor CAI YUE; CAI ZENGSHEN, CN, CN 204387606 U 10.06.2015., inventor DENG FUKANG; CHEN XIAOFANG; ZHU CHENCHEN; XU YUE, CN, CN 204587614 U 10.06.2015, inventor SUN GANG; ZHANG HAOYU; DENG TAO , CN, TWM 473468 U 10.03.2014, inventor JI ZHENG-YU, CN204153422 U 11.02.2015, inventor WANG JIE, CN, CN204099860 U 14.01.2015, inventor JIN BAOGUO, CN, CN202711140 U 30.01.2013, inventor RAVENHILL SONY, CN, CN 203604921 U 21.05.2014, inventor YU JIALIANG, CN, and published patent application i JP 2016042684 A 31.03.2016., inventor IIZUKA KOJI, JPCN104864232 A 26.08.2015., inventor WU JIANGUO, CN, WO2015117472 Al 13.08.2015., inventor ZTE CORP, CN, WO2015114499 Al 06.08. 2015., inventor PIGATTI GIORGIO, IT, CN 104806856 A 29.07.2015., inventor CHANG YUEXIN; CHANG YA, CN, CN 104771022 A 15.07.2015., inventor ZHOU JINHE, CN, CN 104720415 A 26.06.2015., inventor LIU YANG, CN, DE 102011053597 Al 14.03.2013., inventor SCHNEIDER KUNSTSTOFFWERKE GMBH, DE, CN102767672 A 07.11.2012 inventor LIGANG ZHAO, CN. There are also constructional solutions with the purpose of managing video games: US 8.042. 811 Al 25.10.2011., inventor Markowitz Leo, WO/2016/003318 G 07.01.2016., inventor Gruzdev Andrey Valerievich.

From all above mentioned inventions, structural difference can be clearly noticed in relation to the invention herein. Also, none of the above mentioned inventions does not allow the user to attach and use an electronic device in all body positions (sitting, supine and semi-recumbent posture) and provide flexible use of the same, since many of the inventions require location the construction in a specific stable support, and/or holding the electronic device itself in hands. After a detailed search of the international database, it is concluded that so far this request has not yet been adequately answered.

DISCLOSURE OF THE INVENTION

In accordance with aforementioned, this invention's primary task is attaching an electronic device on the main holder's construction for safe and stable usage while playing a driving video game.

The invention's second task is to enable the flexibility usage of an electronic device which is attached on the main holder's construction, where silicone tubes from the middle holder allow the user to shift the electronic device in left or/and right position, or follow sensitivity of hand movements of the user, all in order to smoothly monitor objects and spaces simulated on the electronic device while playing a driving video game.

The invention's third task is correction of the complete holder's construction in relation to the position of the user's body by using a simple position corrector which is located on the bottom of the holder's construction, where eccentric screws connected to the middle holder structure allow correction of the entire holder within the channels in the bottom holder's structure, where the user can use the chosen electronic device for playing a driving video game in sitting, supine and semi-recumbent posture.

In order to respond to abovesaid tasks and in accordance with the aim itself of the invention MYOD - electronic device holder for playing video games consists of the following elements:

^« The main holder's construction made of metal for attaching an electronic device with: a metal rectangular shape connector with double adhesive tapes and a main axle, leather and sponge holders that also have double adhesive tapes and a mechanism which adjusts to the size of the electronic device chosen. • The middle holder's construction for securing statics of the complete holder and connection of main holder's with bottom holder's construction, achieved by using: an aluminum box, silicone tubes with mechanism for flexible usage according to the sensibility of hand movements and a main adjustable panel.

• The bottom holder's construction made of metal as pedestal of complete construction and for correction of the position of the complete holder with respect of the body position of the user achieved by using: two metal sides connected by the middle holder construction with eccentric screws and channels implemented into both sides for manual adjustment of the complete holder's construction.

The complete holder's construction with all the described elements can be easily and simply assembled. The holder's construction is also made by using simple and permanent materials, where same could be used for many years.

All quoted, as well as all the other characteristics and benefits of this invention will become obvious by following a detailed description given along with all the associated technical drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

In order for the invention to be understood better and in order to provide the method itself of how it can be achieved in practice, the applicant refers to the appended drawings as:

FIG 1 illustrates an axonometric representation of the complete holder in front view with all the consisting elements.

FIG 2 illustrates an axonometric representation of an adjustable holder used for attaching all kinds of electronic devices with all its subsystems.

FIG 3 illustrates a graphic representation of the connector for attaching an electronic device with all its subsystems.

FIG 4 illustrates a graphic representation of the leather and sponge holders from all sides, with double adhesive tapes for the attachment of an electronic device, with cross-section "A- A" and "B-B" of FIG 2.

FIG 5 illustrates a graphic representation of the adjustable holder for attaching an electronic device with all its subsystems.

FIG 6 illustrates an axonometric representation of the main axle for connection of the connector with the middle holder with all its subsystems.

FIG 7 illustrates graphic representation of axle subsystem, with cross-section "A-A" of FIG 6. FIG 8 illustrates graphic representation of axle, with cross-section "A- A", "B-B" and "C-C" of FIG 6.

FIG 9 illustrates an axonometric representation of the holder from behind view.

FIG 10 illustrates an axonometric representation of the aluminum box from the middle holder with all of its subsystems.

FIG 11 illustrates a graphic representation of the front part of the aluminum box, with cross-section "A-A" and "B-B" of FIG 10.

FIG 12 illustrates a graphic representation of the bottom part of the aluminum box, with cross-section "A-A" and "B-B" of FIG 10.

FIG 13 illustrates a graphic representation of the upper part of the aluminum box, with cross-section "A-A" and "B-B" of FIG 10.

FIG 14 illustrates a graphic representation of the sideway sides of the aluminum box, with cross-section "A-A" and "B-B" of FIG 10.

FIG 15 illustrates an axonometric representation of the complete holder's construction from the side view.

FIG 16 illustrates an axonometric representation of the silicone tubes with all of its subsystems.

FIG 17 illustrates a graphic representation of the connector with cross-section "A-A" and "B-B" of FIG 16.

FIG 18 illustrates a graphic representation of an adjustable connector, with cross-section "A-A" and "B-B" of FIG 16.

FIG 19 illustrates a graphic representation of the middle holder's construction.

FIG 20 illustrates a graphic representation of an adjustable panel from the middle holder's construction, with cross-section "A-A" and "B-B" of FIG 19.

FIG 21 illustrates a graphic representation of side from the bottom holder's construction, with cross-section "A-A" and "B-B" of FIG 19.

FIG 22 illustrates a method of carrying out the invention from the front view, with presentation of the holder's movement to the right and to the left, as illustrated in FIG 1 and 16.

FIG 23 illustrates a method of carrying out the invention from the side view, or using the invention in the sitting position, as illustrated in FIG's 1, 15 and 22. FIG 24 illustrates a method of carrying out the invention from the side view, or using the invention in the semi-recumbent posture, as illustrated in FIG's 1, 15 and 22.

FIG 25 illustrates a method of carrying out the invention from the side view, or using the invention in the supine posture, as illustrated in FIG's 1, 15 and 22.

DETAILED DESCRIPTION OF THE INVENTION

FIG 1-21 illustrates the construction of an electronic device holder which consists of a main holder, a middle holder and a bottom holder. The main holder's constructions have two leather and sponge holders with double adhesive tapes and an adjustable mechanism which connects the previously mentioned and adjusts in accordance with the size of an electronic device and the. connector 1 a metal, rectangular shape connector and a metal axle with bearings 2. The middle holder's constructions have an aluminum box 3 which connects the main with the middle holder's construction through the axle from the main holder's construction and silicone tubes implemented on the backside of the aluminum box, with a mechanism for adjusting sensibility of hand movements 4 and the main wooden adjustable panel 5. The bottom holder's construction has two metal sides 6, two eccentric screws 7 and two channels implemented into both metal sides 8.

Referring to FIG 1 an axonometric representation of the complete holder with all quoted elements in a fragmented form, brings to the conclusion that with two leather and sponge holders with double adhesive tapes and the adjustable mechanism which connects the previously mentioned and adjusts in accordance with the size of the electronic device and the connector 1, electronic device is attached in two ways in a stable and safe manner. An electronic device by described manner is attached on both sides and in the middle, while in relation to the connector an electronic device is installed cautiously, allowing safe usage. The axle with bearings of the main holder's construction 2 along with the aluminum box from the middle holder's construction 3 connects, in an easy manner, the attached electronic device to the mechanism for adjusting sensibility of hand movements 4 from the middle holder's construction, which consists of silicone tubes, stem screws and bolts which enable flexible usage of an electronic device in relation to the sensibility of hand movements, allowing the user to move the chosen electronic device to the left and/or right position. Furthermore, the wooden adjustable plate of the middle holder's construction 5, where the aluminum box 3 is embodied and the mechanism for adjusting sensibility of hand movements 4 provides the completion of the holder's construction stability and statics. The bottom holder's construction, serving as pedestal of complete construction, embodied by two metal sides 6 and two eccentric screws 7 and channels 8 into both metal sides, allows the user to manually perform correction of the complete holder's construction in relation to the body position, thereby enabling usage of an electronic device which is attached to the holder in sitting, supine and semi-recumbent posture.

In accordance with the achieved functionalities of the invention and for an easier description of three functional parts of the invention, the main holder's construction, the middle holder's construction and the bottom holder's construction, with all quoted elements and parts, are all indicated as subsystems in the following description.

FIG 2 illustrates an axonometric representation of the subsystem consisting of two leather and sponge holders with double adhesive tapes and an adjustable mechanism which connects the same and adjusts in accordance with the size of an electronic device and the connector 1 which contains leather and sponge holders in a half-moon shape 1A, for simulating a feeling of holding a wheel or imitating a driving wheel, three double adhesive tapes IB embodied in both leather and sponge holders and a connector, for attaching an electronic device on both sides and in the middle, a connector made of metal of rectangular shape 1C for implementing an electronic device and an adjustable metal plate ID for adjusting according to the size of the chosen electronic device, and six butterfly screws with mainstreams IE that secure the entire described subsystem with all the elements.

FIG 3 is a graphic representation and in two-sections of the connector for attachment of the chosen electronic device with elements in scale. Details are provided herein regarding positions and dimensions of the subsystem 1 such as: double adhesive tapes IB, a connector of metal of rectangular shape 1C, an adjustable metal plate ID and butterfly screws with mainstreams IE.

FIG 4 is a graphic representation with cross-sections "A-A" and "B-B" of FIG 2 of leather and sponge holders in a half moon shape 1A for simulating a feeling of holding a wheel, or imitating a driving wheel with all dimensions in scale.

FIG 5 is a graphic representation and in two-sections of the connector made of metal of rectangular shape lC, an adjustable metal plate ID and butterfly screws with mainstreams IE, with all dimensions in scale.

Analyzing FIGS 2, 3, 4 and 5 brings to conclusion that in described manner and within all above quoted elements marked with 1A, IB, 1C, ID and IE the chosen electronic device is in a safely manner attached onto the main holder's construction.

FIG 6 illustrates an axonometric representation of the main holder's construction axle 2 with all the subsystems for connection of the main holder's construction with the middle holder's construction. It consists of a connector made of metal of rectangular shape 2A, for connection of foresaid subsystem 1C, axle from aluminum in a cylindrical shape 2B mechanically narrower in the lower part with threads for screwing bearings 2C, grinders 2D and a mainstream 2E. The described subsystem insures against any slip or separation of the axle or the main holder's construction.

FIG 7 is a graphic representation and in two-sections of axle subsystem, a connector made of metal in rectangular shape 2A, bearings 2C, grinders 2D and a mainstream 2E with cross-section "A-A" of FIG 6.

FIG 8 is graphic representation and with cross-sections "A-A", "B-B" and "C-C" of FIG 6, an axle of aluminum in a cylindrical shape 2B, created as a whole with threads which are mechanically narrower in the lower part of the axle, a cross-section of the inlet side of the shaft member relative to the subsystem 1C, and a cross-section of the output axle side with respect to the front side of the aluminum box 3 from the middle holder's construction with all dimensions in scale, all in order to precisely define the manner in which the attached electronic device from the system 1 is with aluminum box 3 and the rest of the elements of the complete holder's construction connection is made via axle 2 of main holder's construction.

Analyzing FIGS 6, 7 and 8 brings to the conclusion that the primary task for the axle 2 with the subsystems 2A, 2B, 2D and 2E, is connecting the attached electronic device from the above described system 1 with the rest of the holder's construction.

FIG 9 illustrates an axonometric representation of the complete holder's construction from the rear, in a fragmented form, with all enumerated elements, where the middle holder's construction can precisely intermediate with the aluminum box 3, the silicone tube with a mechanism for setting the movement sensitivity of the hands 4, the wooden plate of the middle holder's construction 5 and the bottom holder's construction with two metal sides 6, eccentric screws 7 and channels 8 implemented into both metal sides.

FIG 10 illustrates an axonometric representation of the aluminum box from the middle holder's construction with the following elements: four metal screws M6 3A implemented on the upper side of the aluminum box 3B which connects the front side of the aluminum box 3C, as well as side panels of the aluminum box 3D where the complete aluminum box via bottom side of the aluminum box 3E and three screws with mainstreams M6 3F, is attached on the wooden adjustable plate 5 of the middle holder's construction.

FIG 11 is a graphic representation of the front side of the aluminum box 3C with a round hole through which an axle 2 is inserted with the subsystem's bearings 2C, grinders 2D and a mainstream 2E, with cross-section "A-A" and "B-B" of FIG 10 .

FIG 12 is a graphic representation, presented of the bottom side of the aluminum box 3E with cross-section "A-A" and "B-B" of FIG 10.

FIG 13 is a graphic representation, presented of the upper side of the aluminum box 3B attached to the wooden adjustable plate 5 of the middle holder's construction, with cross- section "A-A" and "B-B" of FIG 10.

FIG 14 is a graphic representation, presented of side panels of the aluminum box 3D, with cross-section "A-A" and "B-B" of FIG 10.

Analyzing FIGS 10, 11, 12, 13 and 14 brings to the conclusion that the function of the aluminum box 3, with all above quoted subsystems, four metal screws M6 3A, the upper side of the aluminum box 3B, the front side of the aluminum box 3C, side panels of the aluminum box 3 D, the bottom side of the aluminum box 3E and three screws with mainstreams M6 3F, is connection of the main holder's construction with the middle holder's construction, or connection of the attached electronic device from the system 1 with front side of the aluminum box 3C and the rest of the elements of the complete holder's construction via axle 2. In addition, a mechanism for adjusting sensibility of hand movements 4 is implemented within the aluminum box, which will further be explained.

FIG 15 illustrates an axonometric representation of the complete holder's construction sideward, in a fragmented form, with all enumerated elements, where the main holder's construction with two leather and sponge holders is precisely noticed, as well as an adjustable mechanism and a connector 1 metal connector of rectangular shape and a metal axle with bearings 2, the middle holder's construction with an aluminum box 3, silicone tubes with mechanism for adjusting hand movements sensibility 4 and a wooden main adjustable panel 5 and the bottom holder's construction with two metal sides 6, two eccentric screws 7 and two channels implemented into metal sides 8.

FIG 16 illustrates an axonometric representation of silicone tubes with mechanism for adjusting hand movements sensibility 4 or a complete subsystem implemented into the aluminum box 3 which contains: screw M6 with mainstream 4A, connector of the axle and silicone tubes of round shape 4B, four silicone tubes 4C, eight clouts 4D, eight M6 screws with mainstreams 4E, an adjustable connector for silicone tubes of rectangular shape 4F with two guides of silicone tubes 4G, as well as an adjustable screw with mainstream 4H. All aforementioned elements of the subsystem constitute a mechanism that enables movement of an electronic device attached to the main holder's construction as follows: the axle 2 is secured through the screw M6 with the mainstream 4A through the front side 3C of the aluminum box with the connector of the axle and silicone tubes of round shape 4B via screw M6 with the mainstream 4A. The connector of the axle and silicone tubes of round shape 4B is further attached with four screws M6 with mainstreams 4E, in relation to the upper part of the mechanism, with four silicone tubes 4C fastened and secured by four clouts 4D. Regarding the bottom part of the mechanism, four silicone tubes 4C are fastened via two guides of silicone tubes 4G, and secure the complete mechanism, where four clouts 4D and four M6 screws with mainstreams 4E attach and screw on an adjustable connector onto rectangular shape silicone tubes 4F. The complete mechanism with an adjustable screw with mainstream 4H is attached on an adjustable wooden plate 5 of the middle holder's construction. The function of the adjustable screw with mainstream 4H is to provide manual correction by clamping or disengaging greater or lesser angle of mobility of the complete holder's construction that is to provide movement of an electronic device in the left and right motions.

Analyzing FIG 16 brings to the conclusion that the aforementioned subsystem elements enable flexible usage of an electronic device attached to the system 1 in relation to the sensitivity of the user's hand movements, where the adjustable mechanism, that is the adjustable screw with the mainstream 4H manually allows the user to correct the angle of movement of an electronic device depending on current needs in the movements left and right.

FIG 17 is a graphic representation, presented of the subsystem screw M6 with mainstream 4A, the connector of the axle and silicone tubes of round shape 4B, four M6 screws with mainstreams 4E, with cross-section "A-A" and "B-B" of FIG 16. FIG 18 is a graphic representation, presented of the subsystem four screws M6 with mainstreams 4E, and an adjustable connector for silicone tubes of rectangular shape 4F, with cross-section "A-A" and "B-B" of FIG 16.

FIG 19 illustrates an axonometric representation of the wooden plate of the middle holder's construction 5 in a fragmented/divided form, or complete subsystem as: an aluminum batten 5A, a wooden adjustable plate 5B and four trio mainstreams SC. As already noted, the wooden adjustable plate 5B primarily provides the static of the complete holder as well as the connection of the main holder's construction with the bottom holder's construction, where through the adjustable screw with the mainstream 4H, silicone tube with the mechanism for adjusting the sensibility of the hand movements 4, which are built-in in an aluminum box 3 via axle 2, an electronic device attached to two leather and sponge holders with double adhesive tapes and an adjustable mechanism and a connector 1, two metal sides 6 of the bottom holder's construction attach via two trio mainstreams 5C built-in on both sides of the wooden adjustable plate 5B. The function of the other two trio mainstreams 5C that are built-in on the back of the wooden adjustable plate 5B is to enable, through channels embedded in both metal sides 8, with two eccentric screws 7 the user to manually correct the complete holder's construction in relation to the body position.

FIG 20 is a graphic representation, presented in two-sections, of a subsystem of the wooden adjustable plate 5B, with cross-section "A-A" and "B-B" of FIG 19. There are, as well, two round holes which can provide the user to place a glass or some other necessary things.

FIG 20 is a graphic representation, presented of a metal side 6 of the bottom holder's construction, with cross-section "A-A" and "B-B" of FIG 19.

BEST MODES OF CARRYING OUT THE INVENTION

MYOD - An electronic device holder for playing video games has five modes for carrying out of the invention illustrated with the following FIG's.

Mode 1: FIG 22 illustrates a method of carrying out the invention from the front view, with presentation of the holder's movement to the right position, referring to FIG's 1 and 16 where silicone tubes with mechanism for adjusting hand movements sensibility 4 increase reliability and accuracy of manual movement, enabling the user to move the attached electronic device onto the main holder's construction in right position. Such movement is enabled through silicone tubes where same are specifically designed for all applications requiring high elasticity, as well as continuous use. There are numerous industrial applications of silicone tubes in medicine, food and chemical industries, technology, robotics, industrial machines, pumps etc. Bearing in mind that this product has multiple purposes, in particular case the complete subsystem referred to in FIG's 1 and 16 which contains M6 with mainstream 4A connector of axle and silicone tubes of round shape 4B, eight clouts 4D eight M6 screws with mainstreams 4E, an adjustable connector for silicone tubes of rectangular shape 4F with two guides of silicone tubes 4G, as well as an adjustable screw with mainstream 4H enabling four silicone tubes 4C, reliable and precise control movement of the attached electronic device onto the main holder's construction.

Mode 2: FIG 22 illustrates a method of carrying out the invention from the front view, with presentation of the holder's movement to the left position, referring to FIG's 1 and 16 where silicone tubes with mechanism for adjusting hand movements sensibility 4 increase reliability and accuracy of manual movement, enabling the user to move the attached electronic device onto the main holder's construction in left position. Such movement is enabled through silicone tubes where same are specifically designed for all applications requiring high elasticity, as well as continuous use. There are numerous industrial applications of silicone tubes in medicine, food and chemical industries, technology, robotics, industrial machines, pumps etc. Bearing in mind that this product has multiple purposes, in particular case the complete subsystem referred to in FIG's 1 and 16 which contains M6 with mainstream 4A connector of axle and silicone tubes of round shape 4B, eight clouts 4D eight M6 screws with mainstreams 4E, an adjustable connector for silicone tubes of rectangular shape 4F with two guides of silicone tubes 4G, as well as an adjustable screw with mainstream 4H enabling four silicone tubes 4C reliable and precise control movement of the attached electronic device onto the main holder's construction.

Mode 3: FIG 23 illustrates a method of carrying out the invention sideward, referring to FIG's 1 and 15, where attached electronic device on two leather and sponge holders and an adjustable mechanism and connector 1 on aluminum box 3 through metal connector of rectangular shape and a metal axle with bearings 2, with silicone tubes with mechanism for adjusting sensibility of hand movements 4 enable the user to use the invention in the sitting position with manual correction through two channels of metal sides 8 via two eccentric screws 7 where wooden main adjustable panel 5, and complete construction is corrected in accordance with body position. In this position two eccentric screws 7 are positioned in the upper part of two channels of metal sides 8. The eccentric screws 7 are reliable and safely fastened into the complete holder's construction without any possibility of slipping through the embodied channels of metal sides 8 where same allows tilt adjustment, and manual adjustment of mobility angle of complete construction, or correction of position of wooden main adjustable panel 5 of middle holder's construction. Also, in this position the user can move an electronic device in left and right position referring to FIG 22.

Mode 4: FIG 24 illustrates a method of carrying out the invention sideward, referring to FIG's 1 and 15, where attached electronic device on two leather and sponge holders and an adjustable mechanism and connector 1 on aluminum box 3 through metal connector of rectangular shape and a metal axle with bearings 2, with silicone tubes with mechanism for adjusting sensibility of hand movements 4 enable the user to use the invention in the semi- recumbent posture with manual correction through two channels of metal sides 8 via two eccentric screws 7 where wooden main adjustable panel 5, and complete construction is corrected in accordance with body position, in this position two eccentric screws 7 are positioned in the middle part of two channels of metal sides 8, where the user can, in a simple way, mechanically adjust position of the complete holder's construction in accordance with quoted body position. The eccentric screws 7 are reliable and safely fastened into the complete holder's construction without any possibility of slipping through the embodied channels of metal sides 8 in the middle position, where same allows tilt adjustment and manual adjustment of mobility angle of complete construction, or correction of position of wooden main adjustable panel 5 of middle holder's construction. Also, in this position the user can move an electronic device in left and right position referring to FIG 22.

Mode 5: FIG 25 illustrates a method of carrying out the invention sideward, referring to FIG's 1 and 15, where attached electronic device on two leather and sponge holders and an adjustable mechanism and connector 1 on aluminum box 3 through metal connector of rectangular shape and a metal axle with bearings 2, with silicone tubes with mechanism for adjusting sensibility of hand movements 4 enable the user to use the invention in the supine posture with manual correction through two channels of metal sides 8 via two eccentric screws 7 where wooden main adjustable panel 5, and complete construction is corrected in accordance with body, position. In this position two eccentric screws 7 are positioned in the bottom part of two channels of metal sides 8, where the user can, in a simple way, mechanically adjust position of the complete holder's construction in accordance with quoted body position. The eccentric screws 7 are reliable and safely fastened into the complete holder's construction where same allows tilt adjustment and manual adjustment of mobility angle of complete construction, or correction of position of wooden main adjustable panel 5 of middle holder's construction. Also, in this position the user can move an electronic device in left and right position referring to FIG 22.

Thus, it is intended that the present invention covers the modifications and variations of this invention. For example, it is to be understood that terms such as "left," "right," "top," "bottom," "front," "rear," "side," "height," "length," "width," "upper," "lower," "interior," "exterior," "inner," "outer," and such as may be used herein, merely describe points of reference and do not limit the present invention to any particular orientation or configuration. Furthermore, terms such as "first," "second," "third," etc., merely identify one of a number of portions, components and/or points of reference as disclosed herein, and likewise do not limit the present invention to any particular configuration or orientation. In accordance with all above quoted, the invention is novel, has an inventive level and is industrially applicable. THE METHOD OF THE INDUSTRIAL OR OTHER APPLICATION OF THE INVENTION

The method of applying the invention of the MYOD - An electronic device holder for playing video games results in an obvious and unequivocal manner from the foregoing detailed description of the invention, wherein for the commercial use of the invention there is no need for any specific knowledge, instructions or experiences to apply it successfully. Only that knowledge from the subject area possessed by an average expert for the successful application of the invention presented are necessary and sufficient, all based on the above description. All the constructive and functional characteristics of the invention have been successfully tested by the inventor, on the prototype itself.

As addition to illustrated MYOD - An electronic device holder for playing video games, along with accomplished best modes of carrying out the invention, the inventor provides sixteen photographs of the invention prototype with clear presentation of manner of attaching an electronic device on the main holder's construction, adjusted regarding the size of an electronic device, as well as correction of complete holder's construction in relation to users body position (sitting, supine and semi-recumbent posture).

Also, any structural improvements or changes in respect to embedded materials that would be used within the framework of the illustrated construction and in order to functionally improve the present invention are considered as covered by this application.

While the invention has been described in detail and with references to specific embodiments thereof, it will be apparent to one skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope thereof. Thus, it is intended that the present invention covers the modifications and variations of this invention.

Claims

1. MYOD - An electronic device holder for playing video games indicated, wherein, consists of the main holder's construction, the middle holder's construction and the bottom holder's construction, that is, it has two leather and sponge holders with double adhesive tapes and an adjustable mechanism and a connector 1, a metal connector of rectangular shape and a metal axle with bearings 2, an aluminum box 3, silicones tubes with mechanism for adjusting sensibility of hand movements 4, a wooden adjustable panel 5, two metal sides 6, two eccentric screws 7 and two channels implemented into metal sides 8.

2. MYOD - An electronic device holder for playing video games, indicated by claim 1, wherein, the main holder's construction consists of two leather and sponge holders in a half moon shape 1A, for simulating feeling of holding a wheel, or imitating a driving wheel, three double adhesive tapes IB for attaching an electronic device on both sides and in the middle, a connector made of metal of rectangular shape 1C for implementing an electronic device therein, with adjustable metal plate ID for adjusting according to the size of the chosen electronic device, with six butterfly screws with mainstreams IE connected with axle from aluminum in cylindrical shape 2B mechanically narrower in the lower part, secured with threads for screwing bearings 2C, grinders 2D and mainstream 2E, via connector made of metal of rectangular shape 2A.

3. MYOD - An electronic device holder for playing video games, indicated by claims 1 and 2, wherein, metal axle with bearings 2 is connected with connector of axle and silicone tubes of round shape 4B via and round hole from the front side of the aluminum box 3C where in relation to the upper part of the mechanism, connected via screw M6 with the mainstream 4A, four clouts 4D, four M6 screws with mainstreams 4E, four silicone tubes 4C, where in relation to the bottom part of the mechanism with two guides of silicone tubes 4G, four clouts 4D, four M6 screws with mainstreams 4E connect to an adjustable connector for silicone tubes of rectangular shape 4F connected to a wooden adjustable panel 5B via a mainstream 4H enabling movement on an electronic device in right and left position.

4. MYOD - An electronic device holder for playing video games, indicated by claims 1, 2 and 3, wherein, the middle holder's construction consists of an aluminum box 3 with incorporated silicone tubes with mechanism for adjusting sensibility of hand movements 4 where four metal screws M6 3A, connect the upper side of the aluminum box 3B, the front side of the aluminum box 3C, side panels of the aluminum box 3D, where the complete aluminum box 3 is attached on the wooden adjustable plate SB, via the bottom side of the aluminum box 3E and three screws with mainstreams M6 3F.

5. MYOD - An electronic device holder for playing video games, indicated by claim 1, wherein, the middle holder's construction is connected to the bottom holder's construction with four trio mainstreams 5C implemented on both sides of a wooden adjustable plate 5B attaching two metal sides 6 where two channels implemented into metal sides 8 via two eccentric screws 7 manual adjust the complete holder's construction according to the body position, that is it allows the usage of an electronic device attached to the holder's construction in sitting, supine and semi- recumbent posture.