RU2118845C1 - Computer-case-to-hinged-display-panel junction unit (design versions) - Google Patents

Abstract

FIELD: computer engineering. SUBSTANCE: junction unit has kinematic joint between hinged display panel and rear part of case and cable connecting electronic equipment accommodated in case and in display panel. In first version, kinematic joint is made in the form of spherical joint secured in corner of hinged panel to ensure positioning of display screen in any desired direction. In second version, kinematic joint between case and panel is used to position display screen in any desired direction and incorporates several kinematic pairs which have together at least two crossing axes of revolution. At least one of the latter is off parallel with display screen. One of extreme links of kinematic joint is fixed on case and other one, on hinged panel section embracing display screen. EFFECT: enlarged functional capabilities of computer and facilitated servicing due to enlarged range of screen positioning. 11 cl, 14 dwg

Description

 The invention relates to the field of computer technology, in particular, to the designs of electronic computers (computers), equipped with a flat, for example, a liquid crystal display placed on a hinged panel, movably connected to the computer case.

 Currently, computers are known that are made as inseparable during operation of a monoblock, including a flat panel, for example, a liquid crystal display, electronic, electronic-mechanical and electrical devices that provide input, storage, processing and output of information, including on a computer display. The listed devices are located in two parts of the computer that are movably interconnected: in the case and on the hinged panel, while the computer display is located on the hinged panel. The hinged panel and the display placed on it usually have a rectangular shape and mutually corresponding orientation of the sides. A similar technical solution is described in USSR patent 1836675, G 06 F 1/00, 1993 (1).

 In a computer known from (1), a hinged panel with a display is attached to the rear of the computer case by means of a one-movable rotational kinematic pair with fixing the angular positions of the hinged panel relative to the case. The electrical connection of the display placed on the hinged panel to electronic devices located in the computer case is made by wiring a flexible electric cable. The back part of the computer case that is remote from the user during operation is usually determined with respect to the information input device (keyboard) or other devices installed on the computer case and facing the user during operation.

 Such a technical solution makes it possible to use a hinged panel with a display as a cover that closes the information input device (keyboard) in the inoperative position of the computer, and also provides the possibility of orienting the display screen in the direction of use by the computer. The orientation of the display screen in the direction of the user is made by turning the computer case together with a hinged panel with a display attached to it, which is usually fixed due to internal friction in the kinematic pair connecting the hinged panel and the computer case.

 Thus, in the device (1), the connection unit of the housing and the hinged display panel contains a kinematic connection, the links of which connect the hinged panel to the rear of the housing with fixing their relative positions and a cable connecting the electronic devices of the housing and the folding panel.

 The described technical solution is the closest to the declared technical essence and the achieved result.

 A disadvantage of the known technical solution is that in it, a change in the orientation of the display screen is limited to rotation around a cylindrical hinge. However, it is known that the use of only such a rotation of the screen does not allow in all cases to provide the best form of ergonomic representation of both symbolic and graphic information on the display screen.

 Providing a wide variation in the orientation of the display screen is of great importance to users. This allows the user to receive full-screen information while varying the sheet orientation of the developed documents from portrait to landscape and back. The implementation of such a function involves the implementation of procedures for changing the orientation of the computer display screen, as well as changing the orientation of the on-screen representation of the information displayed on the display. In this regard, it seems necessary to determine the concepts used: the orientation of the display screen and the orientation of the on-screen representation of the information displayed on the display.

 The computer display screen is a rectangular flat surface on which the image is formed, with a short and long side ratio of usually 3: 4. Thus, varying the orientation of the display screen involves varying the orientation, plane, and borders of the screen. The orientation of the on-screen representation of the information displayed on the display can be determined by the side of the screen parallel to the direction of output of the character strings to the display screen, including the lines of the on-screen menu of user programs. If the long side of the display screen is parallel to the direction of output of the character strings, this orientation of the screen representation of the information displayed on the display will be considered horizontal, otherwise vertical.

 In turn, the orientation of the display screen is determined in relation to the base plane on which the portable computer is installed, in relation to which the user is also oriented during operation. In this case, the horizontal orientation is the screen orientation, in which the long side of the screen is parallel to the specified plane. If this plane is parallel to the short side of the screen, this orientation of the display screen will be considered vertical.

 At the same time, it can be noted that the task of ensuring the variation of the on-screen representation of the information displayed on the screen has already been fundamentally solved and is technically implemented by using specialized software, the so-called display drivers. Among display drivers, those are known which provide horizontal and vertical representations of information displayed on a display. In addition, there are known types of user software, for example, text or graphic editors, allowing the ability to rotate images of developed documents on the display screen, which allows you to refuse to reinstall the display drivers in the process of changing the display screen orientation. In this way, you can achieve the required screen orientation of the developed document with the vertical orientation of the display screen, but this will be accompanied by a 90-degree rotation of the user program menu.

 The task to which the claimed invention is directed is to create a new design for the connection node of the computer case and the hinged display panel, which allows to maximize the range of possible screen orientations.

 A specific technical result that can be obtained by using the invention is to expand the functionality of the computer and increase its usability.

The specified result is achieved due to the fact that the kinematic connection of the housing and the panel in the first embodiment of the invention is made in the form of a spherical hinge fixed in the corner of the hinged panel to provide orientation of the display screen 1 in different directions. In a second embodiment of the invention, the kinematic connection of the housing and the panel is intended to orient the display screen in different directions and includes several kinematic pairs that together have at least two intersecting rotation axes, at least one of the rotation axes is not parallel to the plane of the display screen, one of the outer links the kinematic connection is fixed on the housing, and the other extreme link is fixed on the section of the hinged panel covering the display screen. In this embodiment of the invention, at least one of the pairs is made in the form of a spherical hinge or two kinematic pairs have one axis of rotation that intersect each other, and one of the axis of rotation is directed at an angle of at least 5 ^o to the plane of the display screen or the kinematic connection be made in the form of two hinges connected by an arm, both hinges can be spherical.

 In both variants of the invention, the cable for connecting electronic devices can be laid on the external side of the kinematic connection or in the cavities of its links, and in the second embodiment, the cable for connecting electronic devices can be laid partially on the external side of the kinematic connection, partially in the cavities of its links.

 Examples of industrial applicability of the invention are the connection nodes of the computer case and the flip display panel, shown in Fig.1-14.

 In FIG. 1 shows a general view of a computer with a hinged display panel; in FIG. 2 - the first embodiment of the invention (according to claim 1 of the formula); in FIG. 3-10 - varieties of the second variant of the invention (according to claim 4 of the formula); in FIG. 11-14 - various types of flexible cable wiring.

 The connection node of the laptop computer and the hinged display panel comprises a housing 1, a hinged panel 2 with a display 3, a kinematic connection 4 and a cable 5 connecting the electronic devices of the case and the hinged panel. The kinematic connection in the first embodiment of the invention is made in the form of a spherical hinge 6, the links of which connect the hinged panel 2 to the housing 1 with fixing their mutual positions due to friction in the kinematic pair. The hinge 6 is fixed in the corner of the hinged panel 2 and on the back of the housing 1. For the housing 1 and the hinged panel 2 having edges that are aligned when the position is closed, the angular mounting of the hinge 6 to the hinged panel 2 also uniquely determines the angular mounting of the hinge 6 to the housing 1 (Fig. .1 and 2).

 Using this option, the problem of providing almost any angle of orientation of the display screen in the direction of the user, determined only by the design possibilities of the spherical hinge, is solved. This design of the connection node also allows you to orient the display screen towards third-party observers, which is advisable when conducting presentations of documents and other images from the display screen. However, the use of a spherical hinge is associated with another drawback caused by the asymmetry of the screen relative to the housing.

 The same disadvantage is inherent in the design according to the second embodiment of the invention, in which the kinematic connection is made in the form of two cylindrical hinges 7 with intersecting axes installed in the corner of the rear of the housing (figure 3).

 To compensate for this drawback, the spherical joint 6 should be supplemented with a kinematic translational pair 8 (figure 4), allowing the screen to move along the rear side of the computer case 1. No less useful, from the point of view of ensuring the convenience of perceiving information from the display screen, is the ability to change the height of its location, especially when the screen is rotated with a change in the height of its center. This is achieved by using the kinematic pair 8, connecting the kinematic rotational pairs, mounted on the housing and panel (figure 5, 6 and 7). Kinematic pair 8 can only be translational, and can be rotational and translational, providing the possibility of turning the hinged panel 2 around its axis.

 In this case, the kinematic rotational pairs can be made in the form of cylindrical hinges 7 (Figs. 5 and 6) or one spherical hinge 6 and one cylindrical hinge 7 or two spherical hinges 6 (Fig. 7).

 A high degree of mobility of the hinged display panel is also achieved by performing a kinematic connection in the form of two hinges connected by an arm 9 (Figs. 8, 9 and 10).

 The hinges can be different: one spherical 6, the other cylindrical 7 (Fig. 8) and the same, for example, both spherical 6 (Fig.9 and 10) or both cylindrical.

 In the second embodiment of the invention, one of the extreme links of the kinematic connection, i.e., the first link of the kinematic chain from the housing 1 to the panel 2 is attached to the rear of the housing. Moreover, in any of its parts, for example, in a corner, as in FIG. 3, 5, 6, or in the middle part, as in FIG. 7, 8, 9, 10 in the presence of a bracket 9 or a kinematic pair 8, connecting the hinges 6 and 7. Another of the extreme links, i.e. the latter in the kinematic chain from the housing 1 to the panel 2, is attached to that part of the hinged panel 2, which covers the display screen, for example, in the lower corner of the panel 2 with its horizontal orientation, as in figure 3, 4, 7, 8, 9, 10, or in the upper corner with the same panel orientation as in FIGS. 5 and 6. Due to this installation of the extreme links of the kinematic chain, on the one hand, the computer is compact when the panel is folded, and on the other hand it is possible to obtain and use the maximum hinged mobility panels with display m for changing the position of the flip housing and relative to its orientation in any direction most suitable for receiving information from the display as in the horizontal and vertical orientation with its screen.

 The electrical connection of electronic devices placed in the case and on the hinged panel of the computer is made through a flexible cable. The cable may be laid on the outside of the kinematic connection, for example, as shown in FIG. 3, where the flexible cable 5 has a length margin to allow for a change in orientation of the hinged panel 2, or as in FIG. 11, where the flexible cable 5 is loosely wound onto the movable link 10 of the kinematic pair 8. In FIG. 11, link 10 is fixed on the hinged panel 2, and the fixed link 11 on the computer case 1. Due to the loosening of the cable winding, freedom of movement of the link 10 in the link 11 is ensured. The cable 5 will be more secure when laying it in the cavities of the links of the kinematic connection, for example, as shown in Figs. 12, 13 and 14.

 In FIG. 12 shows the wiring of the cable 5 in the cavity of the spherical hinge 6; in FIG. 13 - wiring cable 5 through the connection node of the hinged panel with the housing containing a kinematic rotational pair (cylindrical hinge 7). The cable is laid inside the rotating link 12, mounted on the hinged panel 2, and the fixed link 13 of the hinge is fixed on the computer case 1; in FIG. 14 - wiring cable 5 in the cavity of the links of the rotational-translational kinematic pair. The cable is laid with loose winding to provide free translational movement and rotation of the movable link 14 fastened to the panel 2 relative to the fixed link 15, mounted on the computer case 1.

 To work with a computer, the latches of the folded position of the hinged panel are opened and it is rotated to the working position when the display screen is oriented in the direction of the best perception of the information reflected on it by the user. Due to the presence of kinematic pairs with several degrees of freedom, providing both rotation and translational movement of the screen relative to the case and the user, it is possible to orient the display screen in almost any direction, moreover, both with horizontal and vertical orientation of the screen itself.

 The invention allows to expand the functionality of the computer and increase its usability.

Claims (11)

 1. The connection node of the computer case and the flip display, containing a kinematic connection, the links of which connect the flap to the back of the computer with fixing their relative positions, and a cable connecting the electronic devices of the case and the flip, characterized in that the kinematic connection is made in a spherical hinge mounted in the corner of the hinged panel to provide orientation of the display screen in different directions.  2. The node according to claim 1, characterized in that the cable connecting electronic devices is laid on the outside of the hinge.  3. The node according to claim 1, characterized in that the cable connecting electronic devices is laid in the cavities of the links of the hinge.  4. The connection node of the computer case and the flip display, containing a kinematic connection, the links of which connect the flap to the back of the computer with fixing their relative positions, and a cable connecting the electronic devices of the case and flip, characterized in that the kinematic connection is intended for orienting the display screen in different directions and includes several kinematic pairs that have at least two intersecting rotation axes, at least one of the axes rotation is not parallel to the plane of the display screen, one of the extreme links of the kinematic connection is fixed to the housing, and the other extreme link is fixed to the section of the hinged panel covering the display screen.  5. The node according to claim 4, characterized in that at least one kinematic pair is made in the form of a spherical hinge. 6. The node according to claim 4, characterized in that at least two kinematic pairs have one axis of rotation that intersect each other, and one of the axis of rotation is directed at an angle of at least 5 ^o to the plane of the display screen.  7. The node according to claim 4, 5, or 6, characterized in that the kinematic connection is made in the form of two hinges connected by a bracket.  8. The node according to claim 4 or 5, characterized in that the kinematic connection is made in the form of two spherical joints connected by a bracket.  9. The node according to claim 4, 5, 6, or 7, characterized in that the cable connecting electronic devices is laid in the cavities of the links of the kinematic connection.  10. The node according to claim 4, or 5, or 6, or 7, characterized in that the cable connecting electronic devices is laid on the outside of the kinematic connection.  11. The node according to claim 4, or 5, or 6, or 7, characterized in that the cable connecting electronic devices is partially laid on the outside of the kinematic connection, partly in the cavities of its links.

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