CN201285629Y - Adjustable multi-screen display apparatus - Google Patents

Abstract

The utility model relates to an adjustable multi-screen display device of engineering assembles, which comprises a display screen body combined by a plurality of display units. The adjustable multi-screen display device is characterized by comprising a frame and at least two parallel display panel groups, wherein each display panel group comprises at least one display screen body, two display screen groups are arranged on the frame, and the display screen bodies of different display panel groups can be in relative translation and mutually overlapped; the two display panel groups comprise a fixed display panel group and a movable display panel group, wherein the fixed display panel group comprises a fixed display screen body fixedly connected to the rear row, and the movable display panel group comprises a movable display panel body movably fixed on the front row; the frame is formed by connecting and combining a plurality of I-shaped brackets in parallel, wherein a first auxiliary support is arranged at the lower side of the front part of the I-shaped brackets, the fixed display screen body is arranged on the first auxiliary support, and a movable hoisting mechanism which is connected with the movable display screen body is additionally arranged at the upper top end of the first auxiliary support. The utility model has wide application range, strong practicability and maneuverability and high reliability.

Description

A kind of adjustable multi-display apparatus

Technical field

The utility model relates to engineering part, relates in particular to a kind of adjustable multi-display apparatus.

Background technology

Existing display screen body, as shown in Figure 1, display screen body A is combined by a plurality of display unit A0, has shown one 3 row, 5 layers display unit A0 combination among Fig. 1.As shown in Figure 2, link to each other with display unit A0 by fixed plate A 01 and bolt between the display unit A0, make between the display unit A0 fixedly connected.

In general, display screen body A is that fixed in position is on an erecting frame, display screen body A after the installation can't move, display screen body A lacks background frame, and picture shows that performance is single, for some certain applications, for example, polytechnic art performance, large scale business displaying/advertisement etc. then lack enough adaptive facultys and expressive force, have limited the range of application of display screen body A.

Summary of the invention

The purpose of this utility model is to provide a kind of adjustable multi-display apparatus, to overcome the restricted shortcoming of range of application in the prior art.

The adjustable multi-display apparatus that the utility model adopted comprises the display screen body that is combined into by a plurality of display units, it is characterized in that:

Described device comprises a framework and at least two display plane groups that are parallel to each other;

Comprise at least one display screen body in described each display plane group, described two display plane groups are installed on the framework, but relative translation and mutually overlapping between the display screen body in the different display plane group.

Described two display plane groups comprise fixedly a display plane group and a movable display plane group, wherein,

Described fixedly display plane group comprises a fixedly display screen body, and described fixedly display screen body is fixedly connected on the back row of framework;

Described movable display plane group comprises at least one movable display screen body, and described movable display screen body is movably connected on the front row of framework.

Described framework is linked to each other side by side by a plurality of " worker " type support and makes up, wherein,

The underside of forward of described " worker " type support is provided with the first secondary bearing, settles fixedly display screen body on the described first secondary bearing;

Mobile hoisting mechanism is set up on the top on the front portion of described " worker " type support, and described mobile hoisting mechanism connects the movable display screen body;

The upper and lower both sides, rear portion of described " worker " type support connect first bracing diagonal and second bracing diagonal respectively.

Described mobile hoisting mechanism comprises a walking track, a plurality of driving assembly and driving fixed support, wherein,

Described walking track is the I shape track, and this walking track is connected in the inboard of each " worker " type support push rod;

Described driving assembly connects two groups of relative skidding wheels, and described two groups of skiddings wheel fastens in the inside groove of I shape track, a driving of the common connection of described a plurality of adjacent driving assemblies fixed support;

Described driving fixed support is hung and is connected corresponding movable display screen body.

Described driving assembly also connects drive motor.

Described device also comprises a control module, and described control module links to each other with drive motor, and this control module sends control signal corresponding and data according to the movement directive that receives to drive motor.

Described movable display screen body top connects the transition bearing, and described transition bearing directly links to each other with the driving fixed support.

Described fixedly display screen body and movable display screen body have resolution inequality.

Corresponding to described mobile hoisting mechanism, in the underside of forward of " worker " type support the second secondary bearing is set, mobile guide mechanism is installed on the described second secondary bearing, described mobile guide mechanism comprises a guide rail and guide pole assembly, wherein,

Described guide rail is set up on the second secondary bearing;

Described guide pole assembly links to each other with the bottom of respective activity display screen body;

Two groups of relative skiddings wheels of the terminal connection of described guide pole assembly, described two groups of skiddings wheel contacts at the both sides of guide rail.

The beneficial effects of the utility model are: in the utility model, comprise at least one display screen body in each display plane group, two display plane groups are installed on the framework, but relative translation and mutual overlapping the between the display screen body in the different display plane groups, relatively moving between the display screen body strengthened the expressive force that picture shows, be in the background that picture that back row's display plane group performs in a radio or TV programme can be used as the picture that front-seat display plane group performs in a radio or TV programme, this performs for polytechnic art, certain applications such as large scale business displaying/advertisement have very strong adaptive faculty, for the application of display screen body opened up one new by way of.

In the utility model, two display plane groups comprise fixedly a display plane group and a movable display plane group, fixedly the display plane group comprises a fixedly display screen body, fixedly the display screen body is fixedly connected on the back row of framework, movable display plane group comprises at least one movable display screen body, the movable display screen body is movably connected on the front row of framework, fixedly the assembly of the display screen body of display plane group/fixedly and movable display plane group/movable display screen body has further improved practicality of the present utility model.

In the utility model, framework is linked to each other side by side by a plurality of " worker " type support and makes up, the underside of forward of " worker " type support is provided with the first secondary bearing, settle fixedly display screen body on the first secondary bearing, mobile hoisting mechanism is set up on the top on the front portion of " worker " type support, mobile hoisting mechanism connects the movable display screen body, the upper and lower both sides, rear portion of " worker " type support connect first bracing diagonal and second bracing diagonal respectively, framed structure is simple, rationally distributed, further improved operability of the present utility model.

In the utility model, mobile hoisting mechanism comprises a walking track, a plurality of driving assemblies and driving fixed support, the walking track is the I shape track, this walking track is connected in the inboard of each " worker " type support push rod, the driving assembly connects two groups of relative skidding wheels, two groups of skidding wheels fasten in the inside groove of I shape track, a driving of the common connection of a plurality of adjacent driving assemblies fixed support, the driving fixed support is hung and is connected corresponding movable display screen body, mobile hoisting mechanism connects reliable, movable display screen body gliding smoothing has further improved practicality of the present utility model and operability.

In the utility model, corresponding to mobile hoisting mechanism, underside of forward at " worker " type support is provided with the second secondary bearing, mobile guide mechanism is installed on the second secondary bearing, mobile guide mechanism comprises a guide rail and guide pole assembly, guide rail is set up on the second secondary bearing, the guide pole assembly links to each other with the bottom of respective activity display screen body, two groups of relative skiddings wheels of the terminal connection of guide pole assembly, described two groups of skiddings wheel contacts at the both sides of guide rail, for movable display screen body mobile provides further guarantee, further improved reliability of the present utility model.

Description of drawings

Fig. 1 is a prior art display screen body back appearance synoptic diagram;

Fig. 2 is the local enlarged diagram of connecting portion B between the display unit in the prior art;

Fig. 3 is the utility model middle frame schematic appearance;

Fig. 4 is " worker " type support enlarged diagram in the utility model;

Fig. 5 is the utility model overall frontside synoptic diagram;

Fig. 6 is the utility model schematic side view;

Fig. 7 is the front schematic view of mobile hoisting mechanism and connection thereof in the utility model;

Fig. 8 is the positive local enlarged diagram of mobile hoisting mechanism and connection thereof in the utility model;

Fig. 9 is the local enlarged diagram in the side of mobile hoisting mechanism and connection thereof in the utility model;

Figure 10 is the local enlarged diagram in the side of mobile guide mechanism and connection thereof in the utility model;

Figure 11 is a drive motor control principle block diagram in the utility model.

Embodiment

With embodiment the utility model is described in further detail with reference to the accompanying drawings below:

According to Fig. 3, Fig. 4, Fig. 5 and Fig. 6, the utility model comprises a framework 2 and two display plane groups that are parallel to each other, two display plane groups are installed on the framework 2, comprise the display screen body in each display plane group, as shown in Figure 6, two display plane groups comprise fixedly a display plane group 1G and a movable display plane group 1H, but fixedly relative translation and overlapping mutually between the display screen body among display plane group 1G and the movable display plane group 1H.

As shown in Figure 5 and Figure 6, fixedly display plane group 1G comprises a fixedly display screen body A1, and fixedly display screen body A1 is fixedly connected on the back row of framework 2, and fixedly display screen body A1 is one 12 row, 5 layers display unit A0 assembly.

As Fig. 3, Fig. 5 and shown in Figure 6, movable display plane group 1H comprises two movable display screen body A2, A3, and two movable display screen body A2, A3 are movably connected on the front row of framework 2, and movable display screen body A2, A3 are 3 row, 5 layers display unit A0 assembly.

Fixedly display screen body A1 and movable display screen body A2, A3 can have resolution inequality, and for example, fixedly the resolution of display screen body A1 is higher, are suitable for watching at a distance; The resolution of movable display screen body A2, A3 is a little then low relatively, is suitable for watching nearby.Certainly, fixedly display screen body A1 also can adopt identical resolution with movable display screen body A2, A3.

As shown in Figure 3, framework 2 is linked to each other side by side by a plurality of " worker " type support 21 and makes up, and links to each other with connecting rod between " worker " type support 21.

As Fig. 4 and shown in Figure 6, " worker " type support 21 comprises " worker " portion that push rod 215, main strut 218 and bottom bar 219 link to each other and form.

As Fig. 4 and shown in Figure 6, the underside of forward of " worker " type support 21 is provided with and settles the fixedly fixedly display screen body A1 of display plane group 1G on first secondary bearing 211, the first secondary bearings 211.

As Fig. 4, Fig. 5 and shown in Figure 6, mobile hoisting mechanism 212 is set up on the top on the front portion of " worker " type support 21, and mobile hoisting mechanism 212 connects two movable display screen body A2, A3.

As Fig. 4 and shown in Figure 6, the upper and lower both sides, rear portion of " worker " type support 21 connect first bracing diagonal 213 and second bracing diagonal 214 respectively.

As Fig. 7, Fig. 8 and shown in Figure 9, mobile hoisting mechanism 212 comprises a walking track 2121, a plurality of driving assembly 2122 and two driving fixed supports 2123.

As Fig. 7, Fig. 8 and shown in Figure 9, walking track 2121 is the I shape track, and this walking track 2121 is connected in the inboard of each " worker " type support 21 push rods 215.Driving assembly 2122 connects two groups of relative skidding wheels 2125, two groups of skidding wheels 2125 fasten in the inside groove of I shape track, a driving of a plurality of adjacent driving assembly 2122 common connections fixed support 2123, driving fixed support 2123 directly links to each other with transition bearing 2120.

As shown in Figure 9, skidding wheel 2125 in the driving assembly 2122 connects drive motor 2124, a driving of a plurality of adjacent driving assembly 2122 common connections fixed support 2123, can connect drive motor 2124 on a driving assembly 2122 therein, also can determine as the case may be at two so that all connect drive motor 2124 on the driving assembly 2122.

As shown in Figure 9, movable display screen body A2, A3 top connect transition bearing 2120.

As Fig. 8 and shown in Figure 9, driving assembly 2122 links to each other by bolt 2123B between the fixed support 2123 with driving.

As Fig. 8 and shown in Figure 9, link to each other by bolt 2123A between driving fixed support 2123 and the transition bearing 2120.

As Fig. 8 and shown in Figure 9, davit A02 is set up on the top of display unit A0 among the movable display screen body A3, davit A02 top is provided with through hole, davit A02 inserts in the transition bearing 2120, in through hole, insert pivot pin A021 again, pivot pin A021 is stuck in the transition bearing 2120, thereby makes transition bearing 2120 connect display unit A0, and every transition bearing 2120 can connect a plurality of display unit A0 side by side.

With shown in Figure 9, the hierarchical link of movable display screen body A2, A3 is roughly given as shown in Figure 8:

Top layer display unit A0 → movable display screen body A2 or A3 among push rod 215 → walking track 2121 → driving assembly 2122 → driving fixed support 2123 → transition bearing 2120 → movable display screen body A3

Like this, two drive a vehicle the fixed support 2123 corresponding movable display screen body A2 of the company of extension, A3 respectively.

As shown in figure 10, corresponding to mobile hoisting mechanism 212, underside of forward at " worker " type support 21 is provided with installation mobile guide mechanism 216 on second secondary bearing 217, the second secondary bearings 217, and mobile guide mechanism 216 comprises a guide rail 2161 and guide pole assembly 2162.

As shown in figure 10, guide rail 2161 is set up on the second secondary bearing 217, is connected the 3rd bracing diagonal 290 between the second secondary bearing 217 and the bottom bar 219.

As shown in figure 10, guide pole assembly 2162 links to each other with the bottom of respective activity display screen body A2, A3, link to each other by bolt 2162A between guide pole assembly 2162 and the display unit A0,2163, two groups of skiddings wheels 2163 of two groups of relative skiddings wheels of guide pole assembly 2162 terminal connections contact at the both sides of guide rail 2161.

As shown in figure 11, drive motor 2124 among movable display screen body A2, the A3 is connected to control module 3 respectively, this control module 3 receives the order of playing controller, when playing controller after control module 3 sends movement directives, control module 3 sends control signal corresponding and data to (corresponding) drive motor 2124; Also can in control module 3, preset mobile control model, by control module 3 according to default control model directly to drive motor 2124 transmit control signal, data, make movable display screen body A2, A3 move to left, move to right or move respectively, can produce multiple move mode, repeat no more herein.

The mobile transmission process of movable display screen body A2, A3 is as follows:

I shape track inside groove rollings → the drive driving assemblies 2122 that drive motor 2124 work → skiddings wheels 2125 rotations → skiddings wheel 2125 follows away track 2121 move → and movable display screen body A2, A3 move → and guide pole assembly 2162 corresponding moving → skiddings take turns 2163 and lead along guide rail 2161 rollings

In playing process, playing controller is passed through channel information, the display screen body is selected, mobile process setting etc. is controlled, at movable display screen body A2, in the mechanical moving process of A3, can adopt the synchronous processing technology of video image, make the utility model produce multiple picture and show combination control and the effect that moves with the screen body, fixedly display screen body A1 and movable display screen body A2, A3 can play the picture of different channel respectively, also all display screen bodies can be integrated into the picture of a channel etc., realized that picture shows variation, has extremely strong expressive force.

In sum, although basic structure of the present utility model is specifically set forth by the foregoing description, under the prerequisite that does not break away from the utility model main idea, according to above-described inspiration, those of ordinary skills can not need to pay creative work can implement multiple conversion/alternative form or combination, repeats no more herein.

Claims (9)

1. an adjustable multi-display apparatus comprises the display screen body that is combined into by a plurality of display units, it is characterized in that:

Described device comprises a framework and at least two display plane groups that are parallel to each other;

Comprise at least one display screen body in described each display plane group, described two display plane groups are installed on the framework, but relative translation and mutually overlapping between the display screen body in the different display plane group.

2. adjustable multi-display apparatus according to claim 1 is characterized in that: described two display plane groups comprise fixedly a display plane group and a movable display plane group, wherein,

Described fixedly display plane group comprises a fixedly display screen body, and described fixedly display screen body is fixedly connected on the back row of framework;

Described movable display plane group comprises at least one movable display screen body, and described movable display screen body is movably connected on the front row of framework.

3. adjustable multi-display apparatus according to claim 2 is characterized in that: described framework is linked to each other side by side by a plurality of " worker " type support and makes up, wherein,

The underside of forward of described " worker " type support is provided with the first secondary bearing, settles fixedly display screen body on the described first secondary bearing;

Mobile hoisting mechanism is set up on the top on the front portion of described " worker " type support, and described mobile hoisting mechanism connects the movable display screen body;

The upper and lower both sides, rear portion of described " worker " type support connect first bracing diagonal and second bracing diagonal respectively.

4. adjustable multi-display apparatus according to claim 3 is characterized in that: described mobile hoisting mechanism comprises a walking track, a plurality of driving assembly and driving fixed support, wherein,

Described walking track is the I shape track, and this walking track is connected in the inboard of each " worker " type support push rod;

Described driving assembly connects two groups of relative skidding wheels, and described two groups of skiddings wheel fastens in the inside groove of I shape track, a driving of the common connection of described a plurality of adjacent driving assemblies fixed support;

Described driving fixed support is hung and is connected corresponding movable display screen body.

5. adjustable multi-display apparatus according to claim 4 is characterized in that: described driving assembly also connects drive motor.

6. adjustable multi-display apparatus according to claim 5, it is characterized in that: described device also comprises a control module, described control module links to each other with drive motor, and this control module sends control signal corresponding and data according to the movement directive that receives to drive motor.

7. adjustable multi-display apparatus according to claim 4 is characterized in that: described movable display screen body top connects the transition bearing, and described transition bearing directly links to each other with the driving fixed support.

8. adjustable multi-display apparatus according to claim 2 is characterized in that: described fixedly display screen body and movable display screen body have resolution inequality.

9. according to any described adjustable multi-display apparatus among the claim 3-7, it is characterized in that: corresponding to described mobile hoisting mechanism, underside of forward at " worker " type support is provided with the second secondary bearing, mobile guide mechanism is installed on the described second secondary bearing, described mobile guide mechanism comprises a guide rail and guide pole assembly, wherein

Described guide rail is set up on the second secondary bearing;

Described guide pole assembly links to each other with the bottom of respective activity display screen body;

Two groups of relative skiddings wheels of the terminal connection of described guide pole assembly, described two groups of skiddings wheel contacts at the both sides of guide rail.

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