CN204480609U - A kind of curve screens display system - Google Patents
A kind of curve screens display system Download PDFInfo
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- CN204480609U CN204480609U CN201520148591.7U CN201520148591U CN204480609U CN 204480609 U CN204480609 U CN 204480609U CN 201520148591 U CN201520148591 U CN 201520148591U CN 204480609 U CN204480609 U CN 204480609U
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Abstract
The utility model discloses a kind of curve screens display system, comprise housing and be arranged on the soft screen of curved surface and the deformable flap assembly of enclosure interior; Deformable flap assembly comprises two flaps, turning axle and the first electric rotating machine; The bottom of housing also arranges the flexible elevation angle and regulates support; The flexible elevation angle regulates support to comprise base, two telescopic tubes, linear electric motors; Rotation axis and the second electric rotating machine are also set between telescopic tube and housing bottom; Second electric rotating machine is used for the elevation angle angle between adjustment housings and telescopic tube; The flexible elevation angle regulates the height of the soft screen of the curved surface of support in adjustment housings and the picture attitude of the soft screen of curved surface.Above-mentioned curve screens display system can make user have impression on the spot in person, strengthens picture visual impact; The degree of crook of the soft screen of curved surface changing curve screens display system can be needed according to user, the elevation angle rotates and regulate and telescopic lifting height etc., ensure that the picture attitude of the height of the soft screen of curved surface and the soft screen of curved surface is best.
Description
Technical field
The utility model relates to display device technical field, particularly relates to a kind of curve screens display system.
Background technology
In daily life, traditional monitor (traditional display screen is mostly smooth flat-paneled display screens, such as: the display screen such as traditional tv and computer) is usually widely used in multiple office space or family life;
But traditional monitor often has multiple applied defect when concrete use, such as: traditional display screen user in use, usually occurs the problems such as display effect is undesirable; Illustrate: user is when utilizing traditional display to play, and because human eye field range is limited, especially front is closely when display, usually can't see the display frame at display both sides place, easily causes visual error; In addition, people are when family uses, and when especially watching film and television, be all generally entirely put on the table by traditional display, smooth display screen also can cause visual error, and when viewing and admiring picture, visual effect is poor simultaneously; What present many mute special efficacys were done is all put in place as smart as a new pin, but is through traditional monitor screen and plays special efficacy picture effect itself often will be made to have a greatly reduced quality, and is difficult to let user experiencing visual impact on the spot in person; Most importantly, traditional display is an independent display product, and it well can not adapt to the use needs that different pictures is play attitude and need not be met different client.
To sum up, how overcoming above-mentioned technological deficiency of the prior art will be those skilled in the art's technical barriers urgently to be resolved hurrily.
Utility model content
The purpose of this utility model is to provide a kind of curve screens display system, to solve the problem.
In order to achieve the above object, the technical solution of the utility model is achieved in that
The utility model provides a kind of curve screens display system, comprises housing and is arranged on the soft screen of curved surface and the deformable flap assembly of described enclosure interior; Described deformable flap assembly is arranged on the rear side of the soft screen of described curved surface;
Described deformable flap assembly comprises two flaps, turning axle and the first electric rotating machine, and two described flaps can be rotationally connected and the junction of described turning axle between two flaps in doubling; Each described flap is fixedly connected on respectively the two ends of the soft screen of described curved surface away from one end of junction; Described first electric rotating machine is fixedly connected with on the rotary shaft, and described first electric rotating machine is for driving one of them flap relative to another flap along described turning axle rotary motion; Described deformable flap assembly is for changing the degree of crook of the soft screen of described curved surface;
The bottom of described housing also arranges the flexible elevation angle and regulates support; The described flexible elevation angle regulates support to comprise base, two telescopic tubes, linear electric motors; Described base is fixedly connected with one of them telescopic tube, and it is slidably socketed another telescopic tube relatively; Described linear electric motors are for regulating the relative telescopic distance of change two telescopic tubes; Rotation axis and the second electric rotating machine are also set between described telescopic tube and housing bottom; Described second electric rotating machine is used for the elevation angle angle between adjustment housings and telescopic tube; The described flexible elevation angle regulates support for the picture attitude of the height and the soft screen of curved surface that regulate the soft screen of the curved surface on described housing;
Preferably, as a kind of embodiment, described curve screens display system also comprises the control mainboard being integrated in described enclosure interior; Described control mainboard is respectively with described first electric rotating machine, the second electric rotating machine with described linear electric motors are wired is electrically connected.
Preferably, as a kind of embodiment, described curve screens display system also comprises the control button being integrated in described outside surface; Described control button is electrically connected with described control mainboard respectively; Described control button is used for the drive actions being controlled described first electric rotating machine, the second electric rotating machine and linear electric motors by key mode adjustment.
Preferably, as a kind of embodiment, described curve screens display system also comprises telepilot; Described telepilot is connected with described control mainboard wireless signal; Described telepilot is used for the drive actions being controlled described first electric rotating machine, the second electric rotating machine and linear electric motors by control methods adjustment.
Preferably, as a kind of embodiment, described first electric rotating machine, described second electric rotating machine and described linear electric motors are servomotor.
Preferably, as a kind of embodiment, the described flexible elevation angle regulates support also to include positioning knob; The tube wall of two telescopic tubes all arranges multiple pilot hole; Described positioning knob is arranged between two telescopic tubes, is connected respectively with the pilot hole pin on telescopic tube.
Preferably, as a kind of embodiment, in each telescopic sleeve structure, multiple pilot hole is evenly arranged along the vertical bearing of trend interval of tube wall of described telescopic tube.
Preferably, as a kind of embodiment, described curve screens display system also comprises hanging apparatus; Described hanging apparatus comprises vertical loading board and is fixedly connected on the bolt-locking assembly bottom vertical loading board; Described bolt-locking assembly is fixedly sleeved on the telescopic tube of described housing.
Preferably, as a kind of embodiment, described housing and the described flexible elevation angle regulate support to removably connect.
Preferably, as a kind of embodiment, described housing and described deformable flap assembly and described hanging apparatus are titanium alloy structure part.
Compared with prior art, the advantage of the utility model embodiment is:
A kind of curve screens display system that the utility model provides, the primary structure analyzing above-mentioned curve screens display system is known: above-mentioned curve screens display system regulates several dominant structural moieties compositions such as support primarily of the soft screen of curved surface of housing, enclosure interior and the flexible elevation angle of deformable flap assembly and outside: obviously, deformable flap assembly comprises two flaps, turning axle and the first electric rotating machine; Wherein, first electric rotating machine can drive one of them flap another flap relative along turning axle rotary motion, and then by the first electric rotating machine realization to the angle angular adjustment between the flap of two doublings: such as: diminish in process at two flap angles, the soft screen of curved surface clamped between two flaps will bend, and the final degree of crook strengthening the soft screen of curved surface, make the 3D display effect of the soft screen of curved surface stronger; On the contrary, when two flaps launch, the degree of crook of the soft screen of curved surface clamped between two flaps will diminish.The degree of crook of the soft screen of curved surface can be changed like this by deformable flap assembly, and then ensure 3-D display effect, bring a kind of viewing on the spot in person to feel to user simultaneously; Meanwhile, curve screens display system is also supporting has the flexible elevation angle to regulate support, and this flexible elevation angle regulates support to comprise base, two telescopic tubes, linear electric motors; Described base is fixedly connected with one of them telescopic tube, and it is slidably socketed another telescopic tube relatively; Linear electric motors are for regulating the relative telescopic distance of change two telescopic tubes; Meanwhile, also arrange rotation axis and the second electric rotating machine between telescopic tube and housing bottom, the second electric rotating machine can elevation angle angle between adjustment housings and telescopic tube; Regulated by the flexible elevation angle structures such as support can well the height of the soft screen of curved surface in adjustment housings and the picture attitude of the soft screen of curved surface like this, and then bring comfortable Product Experience to user.
Accompanying drawing explanation
In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
The schematic diagram of the spatial structure of curve screens display system when the soft screen of curved surface is in indent case of bending that Fig. 1 provides for the utility model embodiment;
The schematic diagram of the spatial structure of curve screens display system when the soft screen of curved surface is in indent extended configuration that Fig. 2 provides for the utility model embodiment;
Fig. 1 a is the schematic diagram of the plan structure of Fig. 1;
Fig. 2 a is the schematic diagram of the plan structure of Fig. 2;
The schematic diagram of the spatial structure of curve screens display system when the soft screen of curved surface is in evagination case of bending that Fig. 2 b provides for the utility model embodiment;
The rear view of the curve screens display system that Fig. 3 a provides for the utility model embodiment in Fig. 1;
The structural representation of the curve screens display system at another visual angle that Fig. 4 a provides for the utility model embodiment in Fig. 1;
Fig. 5 a is the partial enlargement structural representation of Fig. 4 a;
The structural representation of the telepilot in the curve screens display system that Fig. 6 a provides for the utility model embodiment in Fig. 1;
The structural representation of the hanging apparatus in the curve screens display system that Fig. 7 a provides for the utility model embodiment in Fig. 1;
Description of reference numerals:
Housing 1; The soft screen 2 of curved surface; Deformable flap assembly 3;
Flap 31; Turning axle 32; First electric rotating machine 33;
The flexible elevation angle regulates support 4; Base 41; Telescopic tube 42;
Linear electric motors 43; Rotation axis 44; Second electric rotating machine 45;
Positioning knob 46; Control button 5; Telepilot 6; Hanging apparatus 7.
Embodiment
Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.
In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.
In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.
Also by reference to the accompanying drawings the utility model is described in further detail below by specific embodiment.
See Fig. 1 and Fig. 1 a, a kind of curve screens display system that the utility model embodiment provides, comprises housing 1 and is arranged on the soft screen 2 of curved surface and the deformable flap assembly 3 of described housing 1 inside; Described deformable flap assembly 3 is arranged on the rear side of the soft screen 2 of described curved surface;
Described deformable flap assembly 3 comprises two flaps 31, turning axle 32 and the first electric rotating machine 33, two described flaps 31 and can doubling be rotationally connected and the junction of described turning axle 32 between two flaps 31; (wherein, the flap junction of deformable flap assembly can be fixedly connected with housing, can ensure that two flaps freely stretch simultaneously, ensures being connected and fixed of flap and housing simultaneously); Each described flap 31 is fixedly connected on respectively the two ends (can ensure like this to clamp the soft screen of curved surface at two flaps, and be with the degree of crook of the soft screen of moving surface to change between two flaps during variable angle) of the soft screen of described curved surface 2 away from one end of junction; Described first electric rotating machine 33 is fixedly connected on turning axle 32, described first electric rotating machine 33 is for driving one of them flap 31 another flap relative along the rotary motion of described turning axle 32 (namely the output shaft of the first electric rotating machine will realize being connected with axle key with driven turning axle, and then drive flap to rotate); Described deformable flap assembly 3 is for changing the degree of crook (namely deformable flap assembly can change the angle of bend of the soft screen of curved surface, and the bendable angle α scope of the soft screen of curved surface is: 0 ° < α < 180 °) of the soft screen of described curved surface;
The bottom of described housing 1 also arranges the flexible elevation angle and regulates support 4; See Fig. 3 a, Fig. 4 a and Fig. 5 a, the described flexible elevation angle regulates support 4 to comprise base 41, two telescopic tubes 42, linear electric motors 43; Described base 41 is fixedly connected with one of them telescopic tube 42, and relative its of another telescopic tube 42 is slidably socketed; Described linear electric motors 43 are for regulating the relative telescopic distance of change two telescopic tubes 42; Regulate at the flexible elevation angle in supporting structure, as Fig. 4 a, between bottom described telescopic tube 42 and housing 1, rotation axis 44 and the second electric rotating machine 45 are also set; Described second electric rotating machine 45 is for the elevation angle angle (namely the second electric rotating machine is with axle key connection of rotating axle, and then can realize rotary actuation) between adjustment housings 1 and telescopic tube 42; The described flexible elevation angle regulates support 4 for the picture attitude of the height and the soft screen of curved surface that regulate the soft screen of the curved surface on described housing;
The primary structure analyzing above-mentioned curve screens display system is known: above-mentioned curve screens display system regulates several dominant structural moieties compositions such as support 4 primarily of the soft screen of curved surface 2 of housing 1, enclosure interior and the flexible elevation angle of deformable flap assembly 3 and outside: obviously, deformable flap assembly 3 comprises two flaps 31, turning axle 32 and the first electric rotating machine 33; Wherein, first electric rotating machine 33 can drive one of them flap 31 another flap relative along turning axle 32 rotary motion, and then by the first electric rotating machine realization to the angle angular adjustment between the flap of two doublings: such as: diminish (as Fig. 1 a and Fig. 1) in process at two flap angles, the soft screen of curved surface clamped between two flaps will bend, and the final degree of crook strengthening the soft screen of curved surface, make the 3D display effect of the soft screen of curved surface stronger; On the contrary, when two flaps launch (as Fig. 2 a and Fig. 2), the degree of crook of the soft screen of curved surface clamped between two flaps will diminish.The degree of crook of the soft screen of curved surface can be changed like this by deformable flap assembly, and then ensure 3-D display effect, bring a kind of viewing on the spot in person to feel to user simultaneously; It should be noted that, under at deformable flap assembly, to curved surface, bending corrective action implemented by soft screen, it is concave surface display effect (as shown in Figure 2) that soft for curved surface screen not only can be bent into concave shape by it, and it also can be bent into the convex surface display effect (as shown in Figure 2 b) of convex shape to the soft screen of curved surface simultaneously; Meanwhile, curve screens display system is also supporting has the flexible elevation angle to regulate support 4, and this flexible elevation angle regulates support 4 to comprise base 41, two telescopic tubes 42, linear electric motors 43; Described base is fixedly connected with one of them telescopic tube, and it is slidably socketed another telescopic tube relatively; Linear electric motors 43 are for regulating the relative telescopic distance of change two telescopic tubes; Meanwhile, also arranging rotation axis 44 and the second electric rotating machine 45, second electric rotating machine 45 between telescopic tube and housing bottom can elevation angle angle between adjustment housings 1 and telescopic tube 42; Regulated by the flexible elevation angle structures such as support can well the height of the soft screen of curved surface in adjustment housings and the picture attitude of the soft screen of curved surface like this, and then bring comfortable Product Experience to user.
Below the concrete structure of the curve screens display system that the utility model embodiment provides and concrete technique effect and principle are done and describe in detail:
In concrete structure, described curve screens display system also comprises the control mainboard (not shown) being integrated in described enclosure interior; Described control mainboard is respectively with described first electric rotating machine, the second electric rotating machine with described linear electric motors are wired is electrically connected.
In concrete structure, as shown in Figure 1, described curve screens display system also comprises the control button 5 being integrated in described housing 1 outer surface; Described control button 5 is electrically connected with described control mainboard respectively; Described control button 5 is for controlling the drive actions of described first electric rotating machine 33, second electric rotating machine 45 and linear electric motors 43 by key mode adjustment.
In concrete structure, described curve screens display system also comprises telepilot 6 (see Fig. 6 a); Described telepilot 6 is connected with described control mainboard wireless signal; Described telepilot is used for the drive actions being controlled described first electric rotating machine 33, second electric rotating machine 45 and linear electric motors 43 by control methods adjustment.
It should be noted that, curve screens display system is mainly divided into control section and machinery to perform part two macrostructure; About control section, curve screens display system provides two kinds of control modes, and namely manual key regulates (namely realizing by controlling button 5) and Remote Control Automatic adjustment (namely being realized by telepilot 6); In order to realize above-mentioned technical purpose, namely its framework control core parts control mainboard, and (namely controlling mainboard is simple logic control circuit and single-chip microcomputer, this is repeated no longer one by one), control mainboard directly to realize being connected with above-mentioned three kinds of motors (i.e. the first electric rotating machine, the second electric rotating machine and linear electric motors), and directly control the driving situation (i.e. the anglec of rotation, the collapsing length of rotation attitude and linear electric motors) of above-mentioned three kinds of motors; Also installed control button (above-mentioned control button and control mainboard is wired be electrically connected) additional in the outside (i.e. outside front) of display simultaneously, before such user directly can go to display system, directly can regulate the degree of crook of the soft screen of the curved surface of curve screens display system (namely driven by the first electric rotating machine and realize), elevation angle rotation adjustment (namely driven by the second electric rotating machine and realize), highly (namely by linear electric motors driving realization) by control button.In addition, curve screens display system further provided with telepilot, it can carry out wireless signal control by wireless signal and control mainboard, and then user can a long way off or distance display system certain distance place implement Long-distance Control (obviously, common TV display remote controller just controls its channel selection, but in the utility model, telepilot can realize the height of the soft screen of curved surface and the picture attitude of the soft screen of curved surface, and it exists bigger difference); The degree of crook of the soft screen of the curved surface of curve screens display system (namely same eventually through the first electric rotating machine driving realization), elevation angle rotation adjustment (namely passing through the second electric rotating machine driving realization equally), highly (namely same by linear electric motors driving realization) directly can be regulated like this with the use of telepilot, very easy to use and practical.
In concrete structure, described first electric rotating machine 33, described second electric rotating machine 45 and described linear electric motors 43 are servomotor.
It should be noted that, servomotor (servo motor) refers to the engine controlling mechanical organ running in servo-drive system, is the indirect speed change gear of a kind of subsidy motor.Servomotor can make control rate, and positional precision is very accurate, voltage signal can be converted into torque and rotational speed with drived control object.Servo motor rotor rotating speed controls by input signal, and energy rapid reaction, in automatic control system, as executive component, and there is the characteristics such as electromechanical time constant is little, the linearity is high, pickup voltage, received electric signal can be converted to the technical characterstic such as angular displacement or angular velocity output on motor reel.Servomotor also has following technical advantage: 1, precision is high: achieve position, the closed-loop control of speed and moment; Overcome the problem of step out of stepping motor; 2, rotating speed: high speed performance is good, general rated speed can reach 2000 ~ 3000 turns; 3, stability is strong: slow running is steady, can not produce the step run phenomenon being similar to stepper motor during slow running.Be applicable to the occasion that high-speed response requires; 4, promptness: the dynamic corresponding time of motor acceleration and deceleration is short, generally within a few tens of milliseconds; 5, comfortableness: heating and noise obviously reduce, it is particularly suitable for the relatively high equipment of robotization requirement simultaneously.
Therefore, as preferred scheme, servomotor all selected by each motor in the utility model embodiment mean camber on-screen display system, it not only can increase the automatic controlling level of display system, simultaneously also uses the user of curve screens display system to bring more how comfortablely to experience easily by giving.
In concrete structure, see Fig. 3 a, the described flexible elevation angle regulates support 4 also to include positioning knob 46; The tube wall of two telescopic tubes is all arranged multiple pilot hole (not shown); Described positioning knob 46 is arranged between two telescopic tubes, is connected respectively with the pilot hole pin on telescopic tube.
It should be noted that, flexible and elevation angle regulatory function about the curve screens display system in the utility model embodiment has: first the elevation angle regulates is be achieved by the second electric rotating machine, user's turning axle that also can directly rotate manually on the second electric rotating machine realizes manually regulating the elevation angle of display simultaneously; Same about realizing height adjusting function, above-mentioned curve screens display system also can realize telescopic adjustment by automated manner and manual mode two kinds of structures.Namely one realizes telescopic adjustment by automated manner, namely can realize automatic height regulation by linear electric motors; In addition, user can regulate the upper-lower position of positioning knob to realize the telescopic tube relative position of change two socket by conversion, and then the manual display of realization highly regulates.
Preferably, as a kind of embodiment, in each telescopic sleeve structure, multiple pilot hole is evenly arranged along the vertical bearing of trend interval of tube wall of described telescopic tube.
In the concrete structure of above-mentioned curve screens display system, described housing 1 regulates support 4 to removably connect with the described flexible elevation angle.
It should be noted that, the curve screens display system that the utility model embodiment provides according to the different needs of user and can adapt to different environments for use, installs and uses; User can be put and be used on the table, also can be lifted on roof or be lifted on wall simultaneously, can ensure that user watches display screen in more how comfortable mode like this.In order to housing and the above-mentioned flexible elevation angle regulate support fast to dismantle as required and to assemble.
In concrete structure, see Fig. 7 a, described curve screens display system also comprises hanging apparatus 7; Described hanging apparatus 7 comprises vertical loading board and is fixedly connected on the bolt-locking assembly (i.e. U bolt assembly) bottom vertical loading board; Described U bolt latch assembly is fixedly sleeved on the telescopic tube of described housing.
Preferably, as a kind of embodiment, described housing and described deformable flap assembly and described hanging apparatus are titanium alloy structure part.
It should be noted that, namely said structure all adopts pure titanium part or titanium alloy, and titanium is a kind of argenteous transition metal, it is characterized by lightweight, intensity is high, tool metallic luster, moisture-proof chlorine corrosion, and has excellent physical property.Therefore the curve screens display system that provides of the utility model embodiment more slim and graceful (overall weight is lighter), is convenient to lifting and motor driving.
In sum, the curve screens display system that the utility model embodiment provides, adopt brand-new structural design and automation control system framework, there is following all many-sided technical advantages: 1, deformable flap assembly can change the degree of crook of the soft screen of curved surface in housing, realize three-dimensional 3D to show, ensure that user can see the display frame of screen sides, help display screen to present stereo display, make user have impression on the spot in person, strengthen picture visual impact; 2, be equipped with the flexible elevation angle regulate support and control button and telepilot, the degree of crook of the soft screen of curved surface changing curve screens display system can be needed according to user at any time, the elevation angle rotates and regulate and telescopic lifting height etc., ensure that the picture attitude of the height of the soft screen of curved surface and the soft screen of curved surface is best.Application said structure can allow curve screens display system adapt to people better and watch display screen; It can regulate display system attitude to the demand of the viewing or viewing game screen that adapt to people on one's own initiative, and need people to shift one's position unlike traditional display and posture to adapt to screen, said structure conventional art of comparing more can bring comfortable and good experience that is robotization obviously.3, the soft screen of curved surface can increase human body visible angle, brings the visual effect be similar to as 3D film.Further, conversion view screen angle of bend can adapt to the viewing needs of people better, and user more can be allowed to distinguish Vistavision and shallow scape.4, above-mentioned curve screens display system can lift also can place and use on the table, and its installation site is more various, more freely.5, system architecture is compact, and weight is light and handy, can substitute traditional electronic media (as TV, computer etc.).6, curve screens display system can be applied on the display devices such as TV display, computer display, mobile phone display, also can have very wide application prospect in industries such as family's viewing, airport, hotel, advertisements because it has many technological merits simultaneously.
Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.
Claims (10)
1. a curve screens display system, is characterized in that,
Comprise housing and be arranged on the soft screen of curved surface and the deformable flap assembly of described enclosure interior; Described deformable flap assembly is arranged on the rear side of the soft screen of described curved surface;
Described deformable flap assembly comprises two flaps, turning axle and the first electric rotating machine, and two described flaps can be rotationally connected and the junction of described turning axle between two flaps in doubling; Each described flap is fixedly connected on respectively the two ends of the soft screen of described curved surface away from one end of junction; Described first electric rotating machine is fixedly connected with on the rotary shaft, and described first electric rotating machine is for driving one of them flap relative to another flap along described turning axle rotary motion; Described deformable flap assembly is for changing the degree of crook of the soft screen of described curved surface;
The bottom of described housing also arranges the flexible elevation angle and regulates support; The described flexible elevation angle regulates support to comprise base, two telescopic tubes, linear electric motors; Described base is fixedly connected with one of them telescopic tube, and it is slidably socketed another telescopic tube relatively; Described linear electric motors are for regulating the relative telescopic distance of change two telescopic tubes; Rotation axis and the second electric rotating machine are also set between described telescopic tube and housing bottom; Described second electric rotating machine is used for the elevation angle angle between adjustment housings and telescopic tube; The described flexible elevation angle regulates support for the picture attitude of the height and the soft screen of curved surface that regulate the soft screen of the curved surface on described housing.
2. curve screens display system as claimed in claim 1, is characterized in that,
Described curve screens display system also comprises the control mainboard being integrated in described enclosure interior; Described control mainboard is respectively with described first electric rotating machine, the second electric rotating machine with described linear electric motors are wired is electrically connected.
3. curve screens display system as claimed in claim 2, is characterized in that,
Described curve screens display system also comprises the control button being integrated in described outside surface; Described control button is electrically connected with described control mainboard respectively; Described control button is used for the drive actions being controlled described first electric rotating machine, the second electric rotating machine and linear electric motors by key mode adjustment.
4. curve screens display system as claimed in claim 2, is characterized in that,
Described curve screens display system also comprises telepilot; Described telepilot is connected with described control mainboard wireless signal; Described telepilot is used for the drive actions being controlled described first electric rotating machine, the second electric rotating machine and linear electric motors by control methods adjustment.
5. curve screens display system as claimed in claim 4, is characterized in that,
Described first electric rotating machine, described second electric rotating machine and described linear electric motors are servomotor.
6. curve screens display system as claimed in claim 1, is characterized in that,
The described flexible elevation angle regulates support also to include positioning knob; The tube wall of two telescopic tubes all arranges multiple pilot hole; Described positioning knob is arranged between two telescopic tubes, is connected respectively with the pilot hole pin on telescopic tube.
7. curve screens display system as claimed in claim 6, is characterized in that,
In each telescopic sleeve structure, multiple pilot hole is evenly arranged along the vertical bearing of trend interval of tube wall of described telescopic tube.
8. curve screens display system as claimed in claim 5, is characterized in that,
Described curve screens display system also comprises hanging apparatus; Described hanging apparatus comprises vertical loading board and is fixedly connected on the bolt-locking assembly bottom vertical loading board; Described bolt-locking assembly is fixedly sleeved on the telescopic tube of described housing.
9. curve screens display system as claimed in claim 1, is characterized in that,
Described housing and the described flexible elevation angle regulate support to removably connect.
10. curve screens display system as claimed in claim 8, is characterized in that,
Described housing and described deformable flap assembly and described hanging apparatus are titanium alloy structure part.
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