CN203503259U - 3D (three-dimensional) integrated spliced liquid crystal display screen - Google Patents

Abstract

The utility model relates to a 3D (three-dimensional) integrated spliced liquid crystal display screen. The 3D integrated spliced liquid crystal display screen comprises a fixed framework, liquid crystal display units which are arranged along the longitudinal direction and a splicing assembly for fixing the liquid crystal display units onto the fixed framework. By adopting the splicing assembly, a function for adjusting the fixed liquid crystal display units in the left and right direction, in the up and down direction and in the front and back direction on a fixed position can be realized; the fixed framework is provided with framework units corresponding to the liquid crystal display units one by one, and each framework unit is provided with a fixed frame which extends in the transverse direction. The splicing assembly comprises hook fillets for fixing the liquid crystal display units, and each hook fillet is provided with a first adjusting fixed element for finely adjusting the hook fillet in the vertical direction; the fixed framework is provided with a stop block and long strips corresponding to the hook fillet, and the stop block is transversely provided with a second adjusting fixed element for finely adjusting the hook fillet in the lateral direction; the long strip is provided with a third adjusting fixed element for finely adjusting the hook fillet in the longitudinal direction. By adopting the liquid crystal display screen splicing mechanism, the overall load capacity of the fixed framework can be greatly scattered, and the installation and debugging working hours of the in-situ personnel can be effectively reduced.

Description

The integrated splicing LCDs of 3D

Technical field

The utility model relates to the large-screen splicing field of LCDs, particularly relates to the integrated splicing LCDs of a kind of 3D.

Background technology

The seamless spliced of LCDs is widely used at large screen display system integration field, each producer has taked a lot of ways to carry out the improvement of the assembling technique of LCDs in this field for many years, finally will reach between each display screen in the horizontal direction, the consistance of vertical direction and the higher requirement of flatness of giant-screen integral body.

At present traditional splicing adopts following two kinds of methods:

First method is the mode that adopts LCDs independently splice: i.e. the direct fixing framework that splices of processing in single LCDs, sets up at the construction field (site) each is equipped with and splices the giant-screen fixed frame that the LCDs of framework is stitched together one by one.The splicing of this method, each invisible of weight that LCDs of splicing framework is housed has been increased a lot, cause the stressed load of giant-screen fixed frame to increase, in addition, this joining method is in work progress, inconvenient site operation personnel's installation, the adjusting difficulty between its each display screen is also larger simultaneously, thereby causes the construction period also longer.

Another kind method is the mode that adopts the whole splicing of LCDs: be about to single LCDs and be directly fixed on giant-screen fixed frame by the laterally and longitudinally rib being fixed on its backplate, adopt this connecting method, can greatly alleviate the duration of workmen's site operation, but, feature due to this splicing construction, the suffered gravity of LCDs that is positioned at top is directly pressed on the screen body of the LCDs that is positioned at its below, thereby the interaction force that causes shielding between body is very large, after time grown, shielded the mutual extruding between body, the screen body that is positioned at below easily causes extruding to break.Therefore this connecting method is not suitable for surpassing the accumulation of screen body of the LCDs of three row.

In addition, in the adjustment process of single LCDs when large-screen splicing, owing to not possessing the adjustment structure of 6 degree of freedom in top to bottom, left and right, front and rear, be not easy to make fast its reach LCDs in the horizontal direction, the requirement of the consistance of vertical direction and the flatness of giant-screen integral body.

Utility model content

Based on this, be necessary for the problems referred to above, provide a kind of and can save field staff's construction period, alleviate giant-screen fixed frame load capacity and can reach fast each liquid crystal display in the horizontal direction, the integrated splicing LCDs of a kind of 3D of the requirement of the consistance of vertical direction and the flatness of giant-screen integral body.

The integrated splicing LCDs of 3D, comprises liquid crystal display that fixed frame, at least two are longitudinally arranged and for liquid crystal display described in each is fixed on to the splicing component on described fixed frame;

Described fixed frame is provided with the frame unit corresponding with liquid crystal display described in each, the adjusting frame that described frame unit comprises the fixed border extending transversely and extends longitudinally;

Described splicing component comprise for liquid crystal display described in each is fixed on hook rib on described frame unit, for to described liquid crystal display longitudinally fine setting first regulate retaining element, for to described liquid crystal display laterally fine setting second regulate retaining element for regulating retaining element to the 3rd of fine setting before and after described liquid crystal display the;

Described hook rib comprises to be fixed the rib portion of liquid crystal display described in each and described rib portion is fixed on to the hook portion on described frame unit; On described fixed frame, be provided with described first and regulate retaining element, described first regulates one end of retaining element to be pushed against in described hook portion.

Described fixed frame also comprises the block being arranged on described fixed border, the setting adjacent with described block of described hook portion, on described block, be horizontally arranged with described second and regulate retaining element, described second regulates one end of retaining element to be pushed against in described hook portion;

Described fixed frame also comprises long lead-in, is provided with at least two the described the 3rd and regulates retaining element described in each on long lead-in, and the described the 3rd regulates one end of retaining element to be pushed against on described hook rib.

In an embodiment, the width of described hook rib is greater than the width of described long lead-in therein.

Therein in an embodiment, described splicing component also comprises for regulating retaining element to the 4th of auxiliary fine setting before and after described liquid crystal display the, on described adjusting frame, be provided with at least two the described the 4th and regulate retaining element, the described the 4th regulates one end and the described liquid crystal display of retaining element to offset.

In an embodiment, on described fixed border, be provided with slide rail therein, described block is slidably arranged on described slide rail.

Therein in an embodiment, described liquid crystal display comprises liquid crystal panel and for controlling the circuit control box of described liquid crystal panel, described rib portion is fixed on described liquid crystal panel, and described splicing component also comprises for described circuit control box being fixed on to the some short lead-in in described rib portion.

In an embodiment, described frame unit is spliced by some aluminium-alloy pipes therein, between adjacent described aluminium-alloy pipe, by retaining element, fixes.

In an embodiment, described retaining element is gusseted plate or corner brace therein.

In an embodiment, it is screw or screw rod that described the first adjusting retaining element, second regulates retaining element, the 3rd to regulate retaining element, the 4th to regulate retaining element therein.

In an embodiment, described fixed frame is rectangular parallelepiped framework therein, and on described fixed frame, except the one side of fixing described liquid crystal display, all the other each faces are all packaged with liner plate.

In an embodiment, on described fixed frame base, be provided with for regulating the burr adjustable tail margin of the levelness of described fixed frame therein.

The integrated splicing LCDs of above-mentioned 3D, each liquid crystal display can be fixed on the frame unit corresponding with each liquid crystal display by splicing component, by the bearing capacity effect on splicing component and each frame unit, will greatly disperse the overall load ability of giant-screen fixed frame; The finely tuning up and down, by the second adjusting retaining element, the left and right of each liquid crystal display being finely tuned, regulated retaining element to finely tune the front and back of each liquid crystal display by the 3rd each liquid crystal display by the first adjusting retaining element, thereby reach each liquid crystal display 6 locational fine settings of degree of freedom, and realize the level of giant-screen, the requirement of vertical and flatness.In addition, the integrated splicing LCDs of above-mentioned 3D is carried out the splicing assembling of each liquid crystal display to classify unit as, at the scene in work progress, only need be by being assemblied in giant-screen frame of the integrated splicing LCDs of 3D permutation, carry out the level of LCDs, the adjusting of vertical and flatness.Thereby effectively saved field staff's construction period.

Accompanying drawing explanation

Fig. 1 is that liquid crystal display is arranged on the three-dimensional structure schematic diagram on frame unit;

Fig. 2 is that two row liquid crystal displays are arranged on the three-dimensional structure schematic diagram on fixed frame;

Fig. 3 is the vertical view of accompanying drawing 2;

Fig. 4 is the partial structurtes enlarged drawing that in accompanying drawing 2, A place first regulates retaining element to finely tune up and down liquid crystal display;

Fig. 5 is the partial structurtes enlarged drawing that in accompanying drawing 2, B place first regulates retaining element to finely tune up and down liquid crystal display;

Fig. 6 is that in accompanying drawing 2, A place second regulates the partial structurtes enlarged drawing of retaining element to the fine setting of liquid crystal display left and right;

Fig. 7 is that in accompanying drawing 2, B place second regulates the partial structurtes enlarged drawing of retaining element to the fine setting of liquid crystal display left and right;

Fig. 8 is that in accompanying drawing 2, C place the 3rd regulates the partial structurtes enlarged drawing of retaining element to fine setting before and after liquid crystal display;

Fig. 9 is that in accompanying drawing 2, D place the 4th regulates the partial structurtes enlarged drawing of retaining element to liquid crystal display auxiliary front and back fine setting;

Figure 10 is arranged on the three-dimensional structure schematic diagram on liquid crystal display for linking up with rib;

Figure 11 is that short lead-in is by the fixing three-dimensional structure schematic diagram of circuit control box and hook rib;

Figure 12 is the three-dimensional structure schematic diagram of fixed frame overall package;

Figure 13 is the front view of fixed frame overall package structure.

The reference numeral of its related elements is as follows:

110, fixed frame; 111, frame unit; 1111, fixed border; 11111, slide rail; 1112, regulate frame; 112, long lead-in; 113, block; 120, splicing component; 121, hook rib; 1211, hook portion; 1212, rib portion; 122, short lead-in; 123, first regulate retaining element; 124, second regulate retaining element; 125, the 3rd regulate retaining element; 126, the 4th regulate retaining element; 130, liquid crystal display; 131, liquid crystal panel; 132, circuit control box; 140, retaining element; 150, liner plate.160, burr adjustable tail margin.

Embodiment

Illustrate: " laterally " described in the present embodiment refers to the left and right directions shown in accompanying drawing 13, and " longitudinally " refers to the above-below direction shown in accompanying drawing 13, " front and back " refer in accompanying drawing 13 direction perpendicular to paper.

Please refer to the drawing 1, Fig. 2, the integrated splicing LCDs 100 of 3D of the present embodiment, comprises the fixed frame 110 of rectangular parallelepiped framework, at least two liquid crystal displays 130 of longitudinally arranging and for each liquid crystal display 130 is fixed on to the splicing component 120 on fixed frame 110.

On fixed frame 110, be provided with the frame unit corresponding with each liquid crystal display 130 111, frame unit 111 comprises the fixed border 1111 of horizontal expansion and adjusting frame 1112 extending longitudinally.Please refer to the drawing 10, splicing component 120 comprises for fixing a pair of hook rib 121 of each liquid crystal display 130, and a pair of hook rib 121 comprises to be fixed the rib portion 1212 of each liquid crystal display 130 and rib portion 1212 is fixed on to the hook portion 1211 on frame unit 111.

Splicing component 120 comprise for each liquid crystal display 130 is fixed on hook rib 121 on frame unit 111, for to liquid crystal display 130 longitudinally fine setting first regulate retaining element 123, for to liquid crystal display 130 laterally fine setting second regulate retaining element 124 for regulating retaining element 125 to the 3rd of liquid crystal display 130 front and back fine settings the.

Fig. 4 and Figure 5 shows that in Fig. 2 the first partial structurtes enlarged drawing that regulates 123 pairs of liquid crystal displays 130 of retaining element to finely tune up and down.On fixed border 1111 position corresponding with hook portion 1211, offer a through hole, the first adjusting retaining element 123, the first that the through hole of fixed border 1111 is provided with for hook rib 121 is finely tuned up and down regulates one end of retaining elements 123 to be pushed against in hook portion 1211.

In adjustment process, by rotating the height of the first adjusting retaining element 123, the position of hook rib 121 is finely tuned up and down, thus the upper-lower position of adjustable liquid crystal display display unit 130.In the present embodiment, first regulates retaining element 123 to be mutually threaded with the through hole on fixed border 1111, and first regulates retaining element 123 to be preferably screw or screw rod.

In addition, this fixed frame 110 also comprises a pair of block 113 being arranged on fixed border 1111 for to the 121 left and right fine settings of hook rib.Fig. 6 and Figure 7 shows that the partial structurtes enlarged drawing of block in Fig. 2 113 and hook rib 121.In figure, can find out, the hook portion 1211 on a pair of hook rib 121 is arranged on this between block 113, and the fine setting gap certain with block 113 maintenances.Each block 113 inside offer the center pit laterally running through, and the center pit internal thread on each block 113 is connected with the second adjusting retaining element 124.Second regulates retaining element 124 levels through the center pit of block 113, its one end can clamp mutually with an end of block 113, its the other end offsets with the hook portion 1211 on hook rib 121, by regulating the position of a pair of the second adjusting retaining element 124, make to link up with rib 121 and move left and right, can will be fixed on left and right, the position fine setting of the liquid crystal display 130 on hook rib 121.In the present embodiment, second regulate retaining element 124 to be preferably screw or screw rod.

In order to increase the left and right adjusting scope of display unit 130, in a preferred embodiment, block 113 is set to slideable, in addition, on fixed border 1111, be provided with the slide rail 11111 that connects fixed border 1111, this is slidably arranged on slide rail 11111 block 113 slidably.On block 113, be also provided with the slack adjuster perpendicular to fixed border 1111, when slack adjuster gets loose, block 113 can be free to slide on slide rail 11111; When the left and right of liquid crystal display 130 initial setting is determined to a certain position of fixed frame 110, by tightening this slack adjuster, make block 113 be fixed to the two ends of the hook portion 1211 on hook rib 121, after this, can, again by the WidFin of the second adjusting retaining element 124, liquid crystal display 130 be fixed on suitable position.

At fixed frame 110, be also provided with and the corresponding long lead-in 112 that longitudinally runs through this fixed frame 110 of each hook rib 121, on each long lead-in 112, be provided with two for regulating retaining element 125 to the 3rd of the 121 front and back fine settings of hook rib the.The 3rd regulates one end of retaining element 125 to be pushed against on hook rib 121.

Figure 8 shows that the partial structurtes enlarged drawing that in accompanying drawing 2, C place the 3rd regulates 125 pairs of liquid crystal displays of retaining element, 130 front and back to finely tune.For the ease of the front and back position of hook rib 121 is adjusted, the design width of hook rib 121 is slightly larger than the width of long lead-in 112.The 3rd regulates retaining element 125 be symmetricly set on respectively on 4 diagonal angles corresponding with liquid crystal display 130 and through long lead-in 112 and offset with the corresponding a pair of hook rib 121 of long lead-in 112.In adjustment process, by regulating the 3rd to regulate retaining element 125 and the degree that pushes against of linking up with rib 121, the corner location of liquid crystal display 130 is adjusted, thereby can be adjusted the degree that liquid crystal display 130 tilts forward and back.In the present embodiment, the 3rd regulate retaining element 125 to be preferably screw or screw rod.

By above-mentioned splicing body, being arranged on any one liquid crystal display 130 on fixed frame 110 all can regulate retaining element 123, second to regulate retaining element 124 and the 3rd to regulate retaining element 125 to finely tune upper and lower, the left and right of each liquid crystal display 130 and front and back by corresponding with it first, thereby reach each liquid crystal display, quick and precisely adjust 6 degree of freedom are locational, and realize the level of whole LCDs, the requirement of vertical and flatness.

In addition, owing to being provided with the frame unit corresponding with each liquid crystal display 130 111 on fixed frame 110, and be arranged on the gravity of the splicing component 120 support liquid crystal displays 130 in each frame unit 111, thereby can effectively disperse the stressed degree of integral body on fixed frame 110, especially disperse the holding capacity on the frame unit 111 bottom being positioned at.This structure makes the gravity of superposed liquid crystal display 130 be converted into the anchorage force of linking up with rib 121 on splicing component 120, the liquid crystal display 130 that is positioned at bottom does not need to bear the gravity that is located thereon portion's liquid crystal display 130, thereby avoided the giant-screen of traditional splicing construction after long-time use, owing to being positioned at the liquid crystal display 130 of bottom, need bear the gravity that is located thereon portion's liquid crystal display 130, and cause shielding the problem of breaking after the mutual extruding between body.Therefore the giant-screen that, has the present embodiment splicing construction can support the stack of liquid crystal displays 130 more than 4 row.

In order to reduce the weight of fixed frame 110, the material of the frame unit 111 of the present embodiment is aluminum alloy materials, that is, frame unit 111 is comprised of some aluminium-alloy pipe splicings, between adjacent aluminium-alloy pipe, by retaining element 140, fixes.The retaining element 140 that the present embodiment adopts is gusseted plate or corner brace.But, in other embodiments, consider the problems such as client's input cost, frame unit 111 also can adopt ferrous material; In addition, if more than the stack line number of liquid crystal display 130 is increased to 8 row, in order to ensure the stability of fixed frame 110, frame unit 111, especially base portion, need to adopt the tubing load-bearing of steel matter.

In preferred version, in order to increase the strength of adjustment of each liquid crystal display 130, on the adjusting frame 1112 of frame unit 111, be also provided be positioned at liquid crystal display 130 4 side opposite the angles can act directly on liquid crystal display 130 and it is carried out before and after fine setting the 4th regulate retaining element 126.Figure 9 shows that the partial structurtes enlarged drawing that in accompanying drawing 2, D place the 4th regulates 126 pairs of liquid crystal displays of retaining element, 130 front and back to finely tune.In corresponding liquid crystal display 130 back panel of adjusting frame 1112, on corner location, be provided with tapped through hole, the 4th regulates retaining element 126 through this tapped through hole and is pushed against in the back panel of liquid crystal display 130.In adjustment process, by regulating the degree offseting of the 4th adjusting retaining element 126 and liquid crystal display 130, finely tune the degree that liquid crystal display 130 tilts forward and back.In the present embodiment, the 4th regulate retaining element 126 to be preferably screw or screw rod.

The attached three-dimensional structure schematic diagram that Figure 11 shows that splicing component 120 and liquid crystal display Unit 130 are fixing.Wherein, liquid crystal display 130 comprises liquid crystal panel 131 and for controlling the circuit control box 132 of liquid crystal panel 131, liquid crystal panel 131 has reserved for the fixing screw hole of hook rib 121 when dispatching from the factory, and the rib portion 1212 on hook rib 121 is fixed on liquid crystal panel 131.In order to ensure enough bearing capacities of 120 pairs of liquid crystal displays 130 of splicing component, splicing component 120 also comprises for circuit control box 132 being fixed on to four short lead-ins 122 on hook rib 121.Each position that the use of this short lead-in 122 can make to link up with rib 121 is the gravity bearing at bearer circuit control enclosure 132 and liquid crystal panel 131 middle parts uniformly and effectively.

In the splicing construction of the present embodiment; except using liquid crystal panel 131 when dispatching from the factory reserved screw hole; the punching that this splicing construction is not done other to liquid crystal panel 131 destroys, thereby has effectively protected the structure of liquid crystal display 130 and effectively guaranteed the stability of liquid crystal display 130 integral working.

Figure 12 and the structural representation that Figure 13 shows that fixed frame 110 overall package.In order to guarantee the aesthetic property of fixed frame 110, on the spliced fixed frame 110 of liquid crystal display 130, except the one side of fixing liquid crystal display 130, all the other 5 faces are all packaged with liner plate 150.And be furnished with data line and power lead in liner plate 150 inside.In addition on the base of each row fixed frame 110, be also provided with for regulating the burr adjustable tail margin 160 of fixed frame 110 levelnesss.

The integrated splicing LCDs of 3D can be spliced the liquid crystal display 130 of any shape, comprises the arc liquid crystal display of newly developing recently, and makes it to reach rapid fine adjustment on 6 degree of freedom positions.In giant-screen Installation and Debugging process, the integrated splicing LCDs of 3D permutation is transported to working-yard, and is assemblied in giant-screen frame.In debug process, first it is suitable by burr adjustable tail margin 160, the levelness of fixed frame 110 bases to be regulated, by first, regulate the up and down fine setting of retaining element 123 to each liquid crystal display 130 again, by the second adjusting retaining element 124, the left and right of each liquid crystal display 130 is finely tuned, by the 3rd, regulate retaining element 125 or the 4th to regulate retaining element 126 to finely tune the front and back of each liquid crystal display 130, thereby reach each liquid crystal display rapid fine adjustment on 6 degree of freedom positions, thereby realize the level of giant-screen, the requirement of vertical and flatness.Thereby effectively saved field staff's construction period.

In use, if a certain liquid crystal display 130 occurs that quality problems need to change, can become flexible fast the liquid crystal display 130 of its periphery and the liquid crystal display damaging 130 is changed to also level, the vertical and flatness of local debugging giant-screen.Thereby overcome in traditional splicing construction, if liquid crystal display 130 runs into after damage, must permutation have changed, the drawback of whole debugging.Thereby effectively saved the maintenance cost of large-screen lc display unit 130.

The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. the integrated splicing LCDs of 3D, it is characterized in that, comprise liquid crystal display (130) that fixed frame (110), at least two are longitudinally arranged and for described liquid crystal display (130) being fixed on to the splicing component (120) on described fixed frame (110);

Described fixed frame (110) is provided with the frame unit (111) corresponding with described liquid crystal display (130), and described frame unit (111) comprises the fixed border (1111) extending transversely and the adjusting frame (1112) extending longitudinally;

Described splicing component (120) comprise for described liquid crystal display (130) is fixed on hook rib (121) on described frame unit (111), for to described liquid crystal display (130) longitudinally fine setting first regulate retaining element (123), for to described liquid crystal display (130) laterally fine setting second regulate retaining element (124) and for regulating retaining element (125) to the 3rd of fine setting before and after described liquid crystal display (130) the;

Described hook rib (121) comprises the rib portion (1212) of fixing described liquid crystal display (130) and described rib portion (1212) is fixed on to the hook portion (1211) on described frame unit (111); On described fixed frame (110), be provided with described first and regulate retaining element (123), described first regulates one end of retaining element (123) to be pushed against in described hook portion (1211);

Described fixed frame (110) also comprises the block (113) being arranged on described fixed border (1111), described hook portion (1211) and the adjacent setting of described block (113), on described block (113), be horizontally arranged with described second and regulate retaining element (124), described second regulates one end of retaining element (124) to be pushed against in described hook portion (1211);

Described fixed frame (110) also comprises long lead-in (112), on described long lead-in (112), be provided with at least two the described the 3rd and regulate retaining element (125), the described the 3rd regulates one end of retaining element (125) to be pushed against on described hook rib (121).

2. the integrated splicing LCDs of 3D according to claim 1, is characterized in that, the width of described hook rib (121) is greater than the width of described long lead-in (112).

3. the integrated splicing LCDs of 3D according to claim 1, it is characterized in that, described splicing component (120) also comprises for regulating retaining element (126) to the 4th of auxiliary fine setting before and after described liquid crystal display (130) the, on described adjusting frame (1112), be provided with at least two the described the 4th and regulate retaining element (126), the described the 4th regulates one end and the described liquid crystal display (130) of retaining element (126) to offset.

4. the integrated splicing LCDs of 3D according to claim 1, is characterized in that, is provided with slide rail (11111) on described fixed border (1111), and described block (113) is slidably arranged on described slide rail (11111).

5. the integrated splicing LCDs of 3D according to claim 1, it is characterized in that, described liquid crystal display (130) comprises liquid crystal panel (131) and for controlling the circuit control box (132) of described liquid crystal panel (131), it is upper that described rib portion (1212) is fixed on described liquid crystal panel (131), and described splicing component (120) also comprises for described circuit control box (132) being fixed on to the some short lead-in (122) in described rib portion (1212).

6. the integrated splicing LCDs of 3D according to claim 1, is characterized in that, described frame unit (111) is spliced by some aluminium-alloy pipes, fixing by retaining element (140) between adjacent two aluminium-alloy pipes.

7. the integrated splicing LCDs of 3D according to claim 1, is characterized in that, described retaining element (140) is gusseted plate or corner brace.

8. the integrated splicing LCDs of 3D according to claim 1, it is characterized in that, it is screw or screw rod that described the first adjusting retaining element (123), second regulates retaining element (124), the 3rd to regulate retaining element (125), the 4th to regulate retaining element (126).

9. the integrated splicing LCDs of 3D according to claim 1, it is characterized in that, described fixed frame (110) is rectangular parallelepiped framework, and upper except the one side of fixing described liquid crystal display (130) at described fixed frame (110), all the other each faces are all packaged with liner plate (150).

10. the integrated splicing LCDs of 3D according to claim 1, is characterized in that, is provided with for regulating the burr adjustable tail margin (160) of the levelness of described fixed frame (110) on described fixed frame (110) base.

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