Double-screen computer capable of turning in multiple directions
Technical Field
The invention belongs to the technical field of electronic product accessories, and particularly relates to a multi-direction turnover double-screen computer.
Background
In military exercises or large field engineering activities, the double-screen computer is widely used for commanding scenes such as vehicles, a main screen of the double-screen computer displays a real-time state, an auxiliary screen displays real-time data, a user can control the real-time state according to the real-time data, and the double-screen computer is more flexible and convenient to apply compared with a single-screen computer.
In the current market, a common double-screen computer can be turned into a horizontal screen state or a vertical screen state only in a one-way mode, turning between the two screens is achieved through a one-way rotating shaft between the main screen and the auxiliary screen, when the use environment is changed, the double-screen arrangement sequence cannot be changed, the double-screen computer can not be flexibly applied to different operation environments, and the practicability is poor.
Disclosure of Invention
The invention provides a multi-direction turning double-screen computer, aiming at solving the problems that the existing double-screen computer can only be turned into a horizontal screen state or a vertical screen state in a one-way mode, the turning between a main screen and an auxiliary screen is realized through a one-way rotating shaft, when the use environment is changed, the arrangement sequence of the double screens cannot be changed, the double-screen computer cannot be flexibly applied to different operation environments, and the practicability is poor.
The invention is realized by the following technical scheme.
The utility model provides a two screen computers of multi-direction upset, includes base module, main screen display device and vice screen display device, main screen display device rotates with base module rear side and is connected the installation, the one end on main screen display device upper portion is passed through the multidimension damping pivot and is connected the installation with the multi-direction rotation of one end on vice screen display device upper portion.
The multidimensional damping rotating shaft further improves the multidimensional damping rotating shaft, and comprises a main shaft screw, wherein a main screen connecting rod and an auxiliary screen connecting rod which can horizontally rotate are sleeved on the main shaft screw, the end part of the main screen connecting rod is hinged with a first rotating connecting rod which can vertically rotate through a first rotating main shaft screw, the end part of the auxiliary screen connecting rod is hinged with a second rotating connecting rod which can vertically rotate through a second rotating main shaft screw, the first rotating connecting rod is connected and installed with a main screen display device, and the second rotating connecting rod is connected and installed with an auxiliary screen display device.
The invention is further improved in that the main shaft screw is provided with a limiting piece III arranged between the main screen connecting rod and the auxiliary screen connecting rod, and the limiting piece III limits the rotation angle of the main screen connecting rod and the auxiliary screen connecting rod to be 0-180 degrees.
The invention further improves the structure that a spring disc is arranged at the upper part of the main shaft screw, and a fixing nut III is screwed on the main shaft screw at the upper part of the spring disc.
The invention is further improved in that a limiting piece I arranged between the first rotating connecting rod and the main screen connecting rod is arranged on the first rotating main shaft screw, and a gasket I and a fixing nut I are sequentially arranged at the front end of the first rotating main shaft screw; and a limiting piece II arranged between the second rotating connecting rod and the auxiliary screen connecting rod is arranged on the second rotating main shaft screw, and a gasket II and a fixing nut II are sequentially arranged at the front end of the second rotating main shaft screw.
The invention is further improved in that the limiting piece I limits the rotation angle of the first rotating connecting rod and the main screen connecting rod to be 0-90 degrees, and the limiting piece II limits the rotation angle of the auxiliary screen connecting rod and the second rotating connecting rod to be 0-90 degrees.
The center of the spindle screw is of a hollow structure, a main screen cable shield communicated with the middle of the spindle screw is arranged on the first rotating connecting rod, and an auxiliary screen cable shield communicated with the middle of the spindle screw is arranged on the second rotating connecting rod.
The invention further improves the structure that the main screen display device is rotatably arranged on the base module through a centered display device, the centered display device comprises a main screen cover, at least one transverse linear slide rail is arranged on the main screen cover, a linear slide block connected with the main screen display device is arranged in the linear slide rail, and a damping rotating shaft rotatably connected with the rear side of the base module is arranged at the bottom of the main screen cover.
The invention further improves the device, and the main screen display device comprises a main display screen, wherein a top damping rotating shaft is arranged on the upper side of the main display screen, and a bottom damping rotating shaft is arranged at the bottom of one side of the main display screen, which is provided with the multidimensional damping rotating shaft; the auxiliary screen display device comprises an auxiliary display screen, a top fixture block buckled with the top damping rotating shaft is arranged at the top of the auxiliary display screen, and a bottom fixture block buckled with the bottom damping rotating shaft is arranged at the bottom of one side of the auxiliary screen display device where the multidimensional damping rotating shaft is installed.
The invention is further improved in that a whole machine handle is arranged on the front side of the base module.
According to the technical scheme, the invention has the beneficial effects that: 1. the multi-direction overturning of the main screen display device and the auxiliary screen display device can be realized only by connecting the main screen display device and the auxiliary screen display device through the multi-dimensional damping rotating shaft, the display of the superposed transverse screen, the superposed longitudinal screen and the crossed direction can be realized, and the multi-direction overturning device can be better applied in different scenes, has good flexibility, wide application range and small occupied space; 2. the multidimensional damping rotating shaft has the advantages of simple integral structure, precise and firm installation, precise and stable turnover, convenient disassembly and easy production and manufacture; 3. the horizontal turning angle and the vertical turning angle of the main screen display device and the auxiliary screen display device can be effectively limited, the safety and the reliability of turning are ensured, and parts are protected from being damaged; 4. the main screen cable shield, the hollow structure in the middle of the main shaft screw and the auxiliary screen cable shield protect the screen wires, and the appearance is concise and attractive; 5. the linear slide rail is matched with the linear slide block, so that the horizontal transverse sliding of the main screen display device can be realized, the transverse centered state of the double screens can be realized, and better use experience of a user can be facilitated; 6. bottom damping pivot and bottom fixture block looks lock and top damping pivot and top fixture block looks lock can realize respectively that the horizontal screen state of coincide and the screen state is indulged to the coincide adjustment of certain angle, and can share the atress of multidimension damping pivot greatly, and structural use is stable, and the security is high, and the practicality is better.
Drawings
In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
Fig. 2 is a schematic structural diagram of a centered display device according to an embodiment of the present invention.
Fig. 3 is a schematic front view of a main screen display device according to an embodiment of the present invention.
Fig. 4 is a rear view of a main screen display device according to an embodiment of the present invention.
Fig. 5 is a schematic structural diagram of a sub-screen display device according to an embodiment of the present invention.
Fig. 6 is a schematic view of a cable shield according to an embodiment of the present invention.
Fig. 7 is a schematic structural view of a multi-dimensional damping rotating shaft according to an embodiment of the present invention.
FIG. 8 is a schematic view of a closed state according to an embodiment of the present invention.
FIG. 9 is a schematic diagram of a lateral deployment of an embodiment of the present invention.
FIG. 10 is a cross-sectional view of an embodiment of the present invention.
FIG. 11 is a schematic longitudinal development of an embodiment of the present invention.
FIG. 12 is a schematic view of a centered deployment of an embodiment of the present invention.
In the drawings: 1. a centered display device, 101, a main screen cover, 102, a linear slide rail, 103, a linear slider, 104, a damping rotating shaft, 2, a main screen display device, 201, a bottom damping rotating shaft, 202, a main display screen, 203, a top damping rotating shaft, 204, a linear slider fixing screw, 3, a secondary screen display device, 301, a bottom clamping block, 302, a secondary display screen, 303, a top clamping block, 4, a base module, 5, a whole machine handle, 6, a main screen cable shield, 7, a secondary screen cable shield, 8, a multidimensional damping rotating shaft, 801, a first rotating connecting rod, 802, a gasket I, 803, a fixing nut I, 804, a first rotating spindle screw, 805, a main screen connecting rod, 806, a limiting piece III, 807, a secondary screen connecting rod, 808, a spring disc, 809, a second rotating spindle screw, 810, a fixing nut II, 811, a gasket II, 812, a second rotating connecting rod, 813, a limiting piece II, 814, 811, a main screen display device, a, Fixing nut III, 815, main shaft screw 816 and limiting piece I.
Detailed Description
In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings in the present embodiment, and it is apparent that the embodiments described below are only a part of embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the scope of protection of this patent.
As shown in the attached drawing, the multi-direction overturning double-screen computer comprises a base module 4, a main screen display device 2 and an auxiliary screen display device 3, wherein the main screen display device 2 is rotatably connected and installed with the rear side of the base module 4, and one end of the upper part of the main screen display device 2 is rotatably connected and installed with one end of the upper part of the auxiliary screen display device 3 in a multi-direction mode through a multi-dimensional damping rotating shaft 8. The main screen display device 2 and the auxiliary screen display device 3 are connected through the multi-dimensional damping rotating shaft 8, multi-direction overturning of the main screen display device 2 and the auxiliary screen display device 3 can be achieved, overlapped transverse screens, overlapped longitudinal screens and crossed azimuth display can be achieved, the multi-direction overturning type display device can be well applied to different scenes, the flexibility is good, the application range is wide, the structure is simple, and the occupied space is small.
The multidimensional damping rotating shaft 8 comprises a spindle screw 815, a main screen connecting rod 805 and an auxiliary screen connecting rod 807 which can horizontally rotate are sleeved on the spindle screw 815, a first rotating connecting rod 801 which can vertically rotate is hinged to the end portion of the main screen connecting rod 805 through a first rotating spindle screw 804, a second rotating connecting rod 812 which can vertically rotate is hinged to the end portion of the auxiliary screen connecting rod 807 through a second rotating spindle screw 809, the first rotating connecting rod 801 is connected with the main screen display device 2, and the second rotating connecting rod 812 is connected with the auxiliary screen display device 3. The main screen connecting rod 805 and the auxiliary screen connecting rod 807 which are rotatably connected through the main shaft screw 815 can realize the overturning of the horizontal and transverse directions of the main screen display device 2 and the auxiliary screen display device 3, the first rotating connecting rod 801 and the main screen connecting rod 805 which are rotatably connected through the first rotating main shaft screw 804 and the second rotating connecting rod 812 and the auxiliary screen connecting rod 807 which are rotatably connected through the second rotating main shaft screw 809 can realize the overturning of the vertical planes of the main screen connecting rod 805 and the auxiliary screen connecting rod 807, and the whole structure is simple and easy to realize.
The main shaft screw 815 is provided with a limiting piece III 806 arranged between the main screen connecting rod 805 and the auxiliary screen connecting rod 807, and the limiting piece III 806 limits the rotation angle of the main screen connecting rod 805 and the auxiliary screen connecting rod 807 to be 0-180 degrees. The horizontal turnover angles of the main screen display device 2 and the auxiliary screen display device 3 are effectively limited, the turnover safety and reliability are guaranteed, and the parts are prevented from being broken.
The upper part of the main shaft screw 815 is provided with a spring disc 808, and the main shaft screw 815 at the upper part of the spring disc 808 is screwed with a fixing nut III 814. The installation precision and firmness are increased, the main screen connecting rod 805 and the auxiliary screen connecting rod 807 can rotate seamlessly, precisely and stably, and the device is simple in structure, easy to manufacture and convenient to disassemble.
A limiting piece I816 arranged between the first rotating connecting rod 801 and the main screen connecting rod 805 is arranged on the first rotating spindle screw 804, and a gasket I802 and a fixing nut I803 are sequentially arranged at the front end of the first rotating spindle screw 804; and a limiting piece II 813 arranged between the second rotating connecting rod 812 and the auxiliary screen connecting rod 807 is arranged on the second rotating main shaft screw 809, and a gasket II 811 and a fixing nut II 810 are sequentially arranged at the front end of the second rotating main shaft screw 809. The installation precision and firmness are increased, the first rotating connecting rod 801 and the main screen connecting rod 805, the second rotating connecting rod 812 and the auxiliary screen connecting rod 807 can precisely and stably rotate without gaps, and the device is simple in structure, easy to manufacture and convenient to disassemble.
The first rotating connecting rod 801 and the main screen connecting rod 805 are limited by the limiting piece I816 at a rotation angle of 0-90 degrees, and the auxiliary screen connecting rod 807 and the second rotating connecting rod 812 are limited by the limiting piece II 813 at a rotation angle of 0-90 degrees. The vertical turnover angles of the main screen display device 2 and the auxiliary screen display device 3 are effectively limited, the turnover safety and reliability are guaranteed, and the parts are prevented from being broken.
The center of the spindle screw 815 is a hollow structure, the first rotating connecting rod 801 is provided with a main screen cable shield 6 communicated with the middle of the spindle screw 815, and the second rotating connecting rod 812 is provided with an auxiliary screen cable shield 7 communicated with the middle of the spindle screw 815. The screen lines of the auxiliary screen display device 3 are connected in the main screen cable shield 6, the hollow structure in the middle of the spindle screw 815 and the auxiliary screen cable shield 7 in a penetrating manner, so that the screen lines are prevented from leaking outwards in the process of overturning in all directions, the screen lines are well protected from being damaged, and the appearance is concise and attractive.
The main screen display device 2 rotates through display device 1 placed in the middle and installs on base module 4, display device 1 placed in the middle includes total screen cover 101, be equipped with an at least horizontal linear slide rail 102 on total screen cover 101, be equipped with the linear slider 103 of being connected the installation with main screen display device 2 in the linear slide rail 102, linear slider 103 is connected the installation with the linear slider set screw 204 who establishes at the main screen display device 2 back, total screen cover 101 bottom is equipped with rotates the damping pivot 104 of being connected with base module 4 rear side. The main screen display device 2 and the centered display device 1 are turned relative to the base module 4 through the damping rotating shaft 104, and the main screen display device 2 is opened and closed and the front and back turning angles are adjusted. Through the cooperation of linear slide rail 102 and linear slider 103, can realize the horizontal lateral sliding of main screen display device 2, when vice screen display device 3 transversely superposes with main screen display device 2, realize the horizontal state of centering of double screen, the better use of the user of being convenient for is experienced.
The main screen display device 2 comprises a main screen 202, a top damping rotating shaft 203 is arranged on the upper side of the main screen 202, and a bottom damping rotating shaft 201 is arranged at the bottom of the main screen 202 on the side where the multidimensional damping rotating shaft 8 is arranged; the auxiliary screen display device 3 comprises an auxiliary display screen 302, a top fixture block 303 buckled with the top damping rotating shaft 203 is arranged at the top of the auxiliary display screen 302, and a bottom fixture block 301 buckled with the bottom damping rotating shaft 201 is arranged at the bottom of one side of the multidimensional damping rotating shaft 8 for mounting the auxiliary screen display device 3. The overlapped transverse screen state of the main screen display device 2 and the auxiliary screen display device 3 can be realized by buckling the bottom damping rotating shaft 201 and the bottom clamping block 301 and rotationally connecting the multidimensional damping rotating shaft 8; the overlapped longitudinal screen state of the main screen display device 2 and the auxiliary screen display device 3 can be realized by buckling the top damping rotating shaft 203 and the top clamping block 303 and rotationally connecting the multidimensional damping rotating shaft 8. When violently shielding or indulging the screen state, guarantee that main screen display device 2 and vice screen display device 3 are connected firmly and safe in utilization, can share the atress of multidimension damping pivot 8 greatly, structural use is stable, and when violently shielding or indulge the screen state, vice screen display device 3 can the upset adjustment of certain angle for main screen display device 2, and the practicality is better.
The front side of the base module 4 is provided with a whole machine handle 5. Simple structure and convenient carrying. As shown in fig. 1, a locking mechanism may be provided on the upper portion of the back surface of the sub-screen display device 3 and the front end of the base module 4 to ensure safety in use.
The multi-direction turning double-screen computer can realize that the main screen display device 2 and the auxiliary screen display device 3 can be in a superposed transverse screen state, as shown in figure 9, the centered display device 1 turns relative to the base module 4 through the damping rotating shaft 104 to realize the opening of the main screen display device 2 and the auxiliary screen display device 3 and adjusts to form a proper angle with the base module 4, then the auxiliary screen display device 3 horizontally turns relative to the main screen display device 2 through the multidimensional damping rotating shaft 8, the bottom damping rotating shaft 201 at the lower end of the main screen display device 2 is mutually clamped with the bottom clamping block 301 at the lower end of the auxiliary screen display device 3 and is connected through the multidimensional damping rotating shaft 8 at the upper side to realize the superposed transverse screen display of the main screen display device 2 and the auxiliary screen display device 3, and the auxiliary screen display device 3 can turn and adjust at a certain angle relative to the main screen display device 2 according to the needs of users, the practicability is better.
The multi-direction overturning double-screen computer can realize the superposition of the main screen display device 2 and the auxiliary screen display device 3 in a transverse screen centering state, as shown in fig. 12, the centering display device 1 overturns relative to the base module 4 through the damping rotating shaft 104, so that the main screen display device 2 and the auxiliary screen display device 3 are opened, and are adjusted to form a proper angle with the base module 4, then the auxiliary screen display device 3 horizontally and transversely overturns relative to the main screen display device 2 through the multidimensional damping rotating shaft 8, the bottom damping rotating shaft 201 at the lower end of the main screen display device 2 is mutually clamped with the bottom clamping block 301 at the lower end of the auxiliary screen display device 3 and is connected through the multidimensional damping rotating shaft 8 at the upper side; the linear slide rail 102 and the linear slide block 103 are matched to push the main screen display device 2 to slide leftwards relative to the centered display device 1 until the main screen display device 2 and the auxiliary screen display device 3 are in a horizontal screen centered state integrally.
The multi-direction turning double-screen computer can realize the overlapping and longitudinal screen state of the main screen display device 2 and the auxiliary screen display device 3, as shown in fig. 11, the centering display device 1 is turned over relative to the base module 4 by the damping rotating shaft 104, so that the main screen display device 2 and the auxiliary screen display device 3 are opened, and are adjusted to be at a proper angle with the base module 4, then the auxiliary screen display device 3 is vertically and upwards turned relative to the main screen display device 2 through the multidimensional damping rotating shaft 8, the top damping rotating shaft 203 at the upper part of the main screen display device 2 is mutually clamped with the top clamping block 303 at the upper part of the auxiliary screen display device 3, and connected by a multidimensional damping rotating shaft 8 to realize the overlapped longitudinal screen display of the main screen display device 2 and the auxiliary screen display device 3, and can be according to user's needs, vice screen display device 3 can become the upset adjustment of certain angle for main screen display device 2, and the practicality is better.
This two screen computers of multi-direction upset can realize main screen display device 2 and the crossing screen state of vice screen display device 3, as shown in fig. 10, display device 1 passes through damping pivot 104 for the upset of base module 4 between two parties, realize opening of main screen display device 2 and vice screen display device 3, and adjust and be suitable angle with base module 4, then vice screen display device 3 passes through multidimension damping pivot 8 for the adjustment of main screen display device 2 upset, joint support through multidimension damping pivot 8, can reach the upset adjustment of arbitrary angle, the flexibility is high, be applicable to user's different demands.
The multi-direction overturning double-screen computer has the advantages of simple structure, good flexibility, wide application range and small occupied space, can realize multi-direction overturning of the main screen display device and the auxiliary screen display device only by connecting the main screen display device and the auxiliary screen display device through the multi-dimensional damping rotating shaft, can realize overlapped transverse screens, overlapped longitudinal screens and crossed azimuth display, can be well applied in different scenes, and is suitable for different requirements of users; the multidimensional damping rotating shaft has the advantages of simple integral structure, precise and firm installation, precise and stable turnover, convenient disassembly and easy production and manufacture; the horizontal turning angle and the vertical turning angle of the main screen display device and the auxiliary screen display device can be effectively limited, the safety and the reliability of turning are ensured, and parts are protected from being damaged; the screen wires are protected through the main screen cable shield, the hollow structure in the middle of the main shaft screw and the auxiliary screen cable shield, and the appearance is concise and attractive; through the matching of the linear sliding rail and the linear sliding block, the horizontal transverse sliding of the main screen display device can be realized, the double-screen transverse centered state is realized, and better use experience is facilitated for a user; through bottom damping pivot and bottom fixture block looks lock and top damping pivot and top fixture block looks lock, can realize respectively that the horizontal screen state of coincide and the screen state is indulged to the upset adjustment that vice screen display device can certain angle for main screen display device, and can share the atress of multidimension damping pivot greatly, the structural use is stable, and the security is high, and the practicality is better.
The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.
The terms "upper", "lower", "outside", "inside" and the like in the description and claims of the present invention and the above drawings are used for distinguishing relative positions if any, and are not necessarily given qualitatively. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.