CN210295728U - LED mask, LED bending screen - Google Patents

Abstract

The utility model provides a LED face guard, LED screen of buckling, wherein, the LED face guard includes first panel layer (10), second panel layer (20), metal bullet piece layer (30) are inlayed and are established first panel layer (10) with between second panel layer (20), first panel layer (10) with bending groove (101) have all been seted up in second panel layer (20), bending groove (101) of first panel layer (10) with bending groove (101) of second panel layer (20) align to set up. By the technical scheme, the technical problem that the display effect of the LED bent screen is poor after the LED bent screen is bent and formed in the prior art can be solved.

Description

LED face shield, LED screen of buckling

Technical Field

The application belongs to the technical field of display screen equipment, and more specifically relates to an LED face guard, LED screen of buckling.

Background

In the prior art, the bending screen is usually realized by matching two or more than two adjacent LED modules with a rotating shaft, the LED modules are displayed on an electronic circuit board in a dot matrix manner by a plurality of LEDs to realize a display function, and because the light-emitting surface of the screen is arranged on the surface of the LED modules, only when the axis is closer to the surface of the LED modules, the arm length of the axis from the surface of the LED modules is smaller, the distance between the LED modules and the LED modules generated by the bending screen is smaller, and the display effect of the bending screen is also optimal. Generally, when the deviation of the distance dimension between two adjacent LED modules is greater than or less than 5% of the standard distance, the display effect is affected (i.e. the naked eye can see that corresponding dark lines or bright lines appear in the display image), so that when designing the bending screen, the deviation of the distance dimension between two adjacent LED modules on the bent screen after bending is not greater than ± 5%.

Traditional bending screen is because assembly structure and electronic components's restriction reason, the rotatory axle center after bending is far away from the surface of LED module usually, and the swinging boom is corresponding longer, and the screen is bent the back, and the distance size deviation between two adjacent LED modules all exceeds 5% usually, and the display effect of bending screen receives obvious influence.

Disclosure of Invention

An object of this technical scheme is to provide a LED face guard, LED screen of buckling to the LED who exists among the solution prior art buckles the screen and buckles the poor technical problem of display effect after the shaping.

For realizing above-mentioned purpose, this technical scheme provides a LED face guard, including first panel layer, second panel layer, metal shell fragment layer, the metal shell fragment layer inlays to be established between first panel layer and second panel layer, and the bending groove has all been seted up on first panel layer and second panel layer, and the bending groove of first panel layer aligns the setting with the bending groove of second panel layer.

Furthermore, the metal elastic sheet layer is provided with a light through hole for light through.

Furthermore, the metal elastic sheet layer is provided with a connecting hole for connecting the first panel layer and the second panel layer.

Further, the connecting holes are distributed in a rectangular array.

Furthermore, the bisector of the plane of the first panel layer coincides with the central axis of the bending groove thereon, and the bisector of the plane of the second panel layer coincides with the central axis of the bending groove thereon.

Use this technical scheme's LED face guard, through covering the tight assembly of clamp with first panel layer and second panel layer to metal shrapnel layer, and through set up corresponding bending groove on first panel layer and second panel layer, make the LED face guard buckle along bending groove when buckling, at this moment, because metal shrapnel layer self good elasticity and tensile strength, the LED face guard can be followed bending groove and freely crooked, and can reply the flat state under the effect of the elastic restoring force of metal shrapnel layer. When LED that will this LED face guard was used buckles in the screen product, the LED buckles the distance range of the interval of buckling between the LED module in the screen can guarantee within 5% of standard interval distance, ensures the good display effect of LED screen of buckling.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural view of a metal bullet layer according to an embodiment of the present application;

FIG. 2 is a front view of an LED face shield of an embodiment of the present application;

FIG. 3 is a bottom view of FIG. 2;

FIG. 4 is a front view of a flat LED bending screen according to an embodiment of the present application;

FIG. 5 is a bottom view of FIG. 4;

FIG. 6 is a schematic structural diagram of an LED bending screen with a screen display surface being an inward concave surface;

FIG. 7 is a schematic structural diagram of an LED bending screen with a wave-shaped display surface;

fig. 8 is a schematic structural diagram of an LED bending screen with a convex screen display surface.

Wherein, in the figures, the respective reference numerals:

10. a first panel layer; 20. A second panel layer;

30. a metal pellet layer; 101. Bending the groove;

31. a light through hole; 32. Connecting holes;

210. a face mask; 220. An LED module;

230. and (6) splicing.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

As shown in fig. 1 to 3, the LED mask of the present embodiment includes afirst panel layer 10, asecond panel layer 20, and a metalelastic sheet layer 30, wherein the metalelastic sheet layer 30 is embedded between thefirst panel layer 10 and thesecond panel layer 20, thefirst panel layer 10 and thesecond panel layer 20 are both provided with abending groove 101, and thebending groove 101 of thefirst panel layer 10 is aligned with thebending groove 101 of thesecond panel layer 20.

Use this technical scheme's LED face guard, through coveringfirst panel layer 10 andsecond panel layer 20 to metalbullet piece layer 30 and press from both sides tight assembly, and through set upcorresponding groove 101 of buckling onfirst panel layer 10 andsecond panel layer 20, make the LED face guard buckle along bendinggroove 101 when buckling, at this moment, because metalbullet piece layer 30 self good elasticity and tensile strength, the LED face guard can freely be crooked along bendinggroove 101, and can reply the flat state under the effect of the elastic restoring force of metalbullet piece layer 30. When LED that will this LED face guard was used buckles in the screen product, the LED buckles the distance range of the interval of buckling between the LED module in the screen can guarantee within 5% of standard interval distance, ensures the good display effect of LED screen of buckling.

In the LED mask of this embodiment, the metalelastic sheet layer 30 is provided withlight passing holes 31 for passing light, and eachlight passing hole 31 corresponds to each LED light emitting patch light source on the LED module one to one, so that the light emitted by the LED patch light source can be emitted through thelight passing hole 31 for displaying.

In the process of stacking and assembling thefirst panel layer 10, thesecond panel layer 20 and the metalelastic sheet layer 30, thefirst panel layer 10 and thesecond panel layer 20 need to be stably connected, and the delamination of thefirst panel layer 10 and thesecond panel layer 20 is avoided in the process of bending along thebending groove 101, so that the metalelastic sheet layer 30 is provided with a connectinghole 32 for connecting thefirst panel layer 10 and thesecond panel layer 20. In the production process, in the pre-designed mold, thefirst panel layer 10 is firstly laid flat, then the metalelastic sheet layer 30 is placed on thefirst panel layer 10, and then thesecond panel layer 20 is covered on the metalelastic sheet layer 30, so that the molten materials of thefirst panel layer 10 and thesecond panel layer 20 flow through the connectingholes 32 to form effective connection. Moreover, theconnection holes 32 are distributed in a rectangular array, so that thefirst panel layer 10 and thesecond panel layer 20 are stably connected through the connection points formed by theconnection holes 32 distributed in the rectangular array, and thus, within the normal bending range of thebending groove 101, delamination between thefirst panel layer 10 and thesecond panel layer 20 does not occur, which affects the normal use of the LED mask.

In order to simplify the difficulty of the production process of thefirst panel layer 10 and thesecond panel layer 20 and improve the production efficiency, the bisector of the plane of thefirst panel layer 10 coincides with the central axis of thebending groove 101 thereon, and the bisector of the plane of thesecond panel layer 20 coincides with the central axis of thebending groove 101 thereon. Therefore, the design difficulty of the design die can be greatly reduced, the production cost of the die is reduced, and the forming efficiency of thebending groove 101 is facilitated.

As shown in fig. 4 and 5, the present solution provides an LED bending screen. The LED bent screen comprises a plurality offace masks 210 and a plurality ofLED modules 220, wherein theface masks 210 are the LED face masks, theface masks 210 are formed by splicing and arranging in a straight shape, theLED modules 220 are installed on theface masks 210, the spacing gaps between every twoadjacent LED modules 220 and thebent grooves 101 in theface masks 210 are arranged in a one-to-one correspondence mode, and the splicing positions 230 between every twoadjacent face masks 210 are spanned by theLED modules 220. Thus, in the process of bending the LED bending screen, the LED mask can be bent along the designedbending groove 101, and a larger LED mask formed by splicing a plurality of LED masks cannot break at the splice 230, but the splice 230 is spanned by theLED module 220 to provide traction strength, so as to ensure the integrity of the LED mask.

Preferably, the area of eachLED module 220 in the LED bending screen of the present embodiment is the same as the area of eachmask 210, and since the bisector of the plane of thefirst panel layer 10 coincides with the central axis of thebending groove 101 thereon and the bisector of the plane of thesecond panel layer 20 coincides with the central axis of thebending groove 101 thereon, the alignment and assembly of theLED modules 220 and the LED masks is simplified, and the purpose of quick connection and assembly is achieved by quick alignment. Alternatively, in another possible embodiment, the length of eachLED module 220 is equal to the length of eachface mask 210, and the width of eachLED module 220 is an integer multiple of the width of eachface mask 210, such as 2 times, 3 times, 4 times, 5 times, and so on. In this way, the LED cover is joined in the width direction to form a large cover that can cover theentire LED module 220.

When utilizing LED to buckle the screen and show the figure content, through designing the LED light emitting component one-to-one setting on logicalunthreaded hole 31 on the LED face guard and theLED module 220 to can all shine away and form the picture that shows the image simultaneously with the light that every LED paster light source ofLED module 220 sent, make the demonstration of LED buckling the screen complete, the display effect is clear.

After the LED bending screen is assembled in a tiled state, the LED bending screen in a flat state needs to be bent. As shown in fig. 6, the LED bent panel with the display surface being a concave curved surface is obtained by bending the LED bent panel in a flat state toward one side of the LED cover along eachbent groove 101. As shown in fig. 7, the LED bent panel with the display surface being a wave-shaped curved surface is obtained by bending the LED bent panel in a flat state along each of thebent grooves 101 in a wave-shaped curve. As shown in fig. 8, the LED bent panel having the display surface with the convex curved surface is obtained by bending the LED bent panel in the flat state toward one side of theLED module 220 along each of the bendinggrooves 101. In addition, the display surface of the LED bending screen in a flat state can be bent to form an inner circular shape, an outer circular shape and the like.

In this technical scheme,first panel layer 10,second panel layer 20 all adopts transparent plastic material to make, make the insulating properties of LED face guard good, andmetal bullet lamella 30 then can adopt 65Mn material or the elasticity that the performance is close with 65Mn material is good, the material of tensile strength carries out the punching press and forms, good elasticity can be guaranteed to buckle the screen to LED and also can kick-back original planar state after buckling, high tensile strength can improve the LED by a wide margin and buckle the hoist and mount height and the hoist and mount security of screen in the integral hoisting in-process. The LED module is protected by the LED face shield, the effect of attractive display surface can be achieved, the LED module can be protected from being polluted and damaged by outdoor environment, and normal display work of the LED bending screen is guaranteed.

According to another aspect of the technical scheme, a design method of the LED bent screen is provided. Specifically, the design method of the LED bent screen comprises the following steps:

step S10: embedding the metalelastic sheet layer 30 between thefirst panel layer 10 and thesecond panel layer 20, and correspondingly forming bendinggrooves 101 on thefirst panel layer 10 and thesecond panel layer 20 so as to form the LED mask;

step S20: splicing a plurality of LED face covers adjacently, installing a plurality ofLED modules 220 on the LED face covers, and enabling the interval gaps between twoadjacent LED modules 220 to be arranged in one-to-one correspondence with the bendinggrooves 101 on the LED face covers, so as to form an LED screen;

step S30: and bending the assembled LED screen to form the LED bent screen in the target shape.

By applying the design method of the technical scheme to design the LED bending screen, each relative rotating shaft and the display surface of the LED bending screen in the bending process are positioned on the same surface, so that the problem that the distance between twoadjacent LED modules 220 exceeds +/-5% of the standard distance due to the fact that the twoadjacent LED modules 220 rotate relative to the rotating shaft to form the bending display surface can be solved to the greatest extent, and the display effect is influenced due to the fact that obvious dark lines or bright lines appear on an image displayed on the screen. Meanwhile, the designed LED mask is used for effectively protecting theLED module 220, and the LED mask using the metalelastic sheet layer 30 has better bending elasticity and tensile strength compared with the masks in the prior art.

Preferably, before step S10, the metalelastic sheet layer 30 is provided with aconnection hole 32 for connecting thefirst panel layer 10 and thesecond panel layer 20, and thefirst panel layer 10 and thesecond panel layer 20 are melted and integrally connected through theconnection hole 32 in the process of implementing step S10. This ensures that thefirst panel layer 10 and thesecond panel layer 20 do not delaminate when the LED bending screen is bent.

In the process of step S20, eachLED module 220 is mounted on the LED mask by screw fastening. Of course, theLED modules 220 may be fixed to the LED cover by bonding with an adhesive.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (9)

Translated fromChinese

1.一种LED面罩，其特征在于，包括第一面板层(10)、第二面板层(20)、金属弹片层(30)，所述金属弹片层(30)嵌设在所述第一面板层(10)和所述第二面板层(20)之间，所述第一面板层(10)和所述第二面板层(20)均开设有弯折槽(101)，所述第一面板层(10)的弯折槽(101)与所述第二面板层(20)的弯折槽(101)对齐设置。1. An LED mask, characterized in that it comprises a first panel layer (10), a second panel layer (20), and a metal dome layer (30), wherein the metal dome layer (30) is embedded in the first panel layer (30). Between the panel layer (10) and the second panel layer (20), both the first panel layer (10) and the second panel layer (20) are provided with a bending groove (101), the The bending groove (101) of a panel layer (10) is aligned with the bending groove (101) of the second panel layer (20).2.如权利要求1所述的LED面罩，其特征在于，所述金属弹片层(30)上开有用于通光的通光孔(31)。2 . The LED mask according to claim 1 , characterized in that, the metal dome layer ( 30 ) is provided with a light-passing hole ( 31 ) for passing light. 3 .3.如权利要求1所述的LED面罩，其特征在于，所述金属弹片层(30)上开有用于连接所述第一面板层(10)和所述第二面板层(20)的连接孔(32)。3. The LED mask according to claim 1, wherein a connection for connecting the first panel layer (10) and the second panel layer (20) is opened on the metal dome layer (30) hole (32).4.如权利要求3所述的LED面罩，其特征在于，所述连接孔(32)呈现矩形阵列分布。4. The LED mask according to claim 3, wherein the connecting holes (32) are distributed in a rectangular array.5.如权利要求1所述的LED面罩，其特征在于，所述第一面板层(10)所在平面的平分线与其上的弯折槽(101)的中心轴线相重合，所述第二面板层(20)所在平面的平分线与其上的弯折槽(101)的中线轴线相重合。5. The LED mask according to claim 1, wherein the bisector of the plane where the first panel layer (10) is located coincides with the central axis of the bending groove (101) thereon, and the second panel The bisector of the plane where the layer (20) is located coincides with the centerline axis of the bending groove (101) on it.6.一种LED弯折屏，其特征在于，包括：6. An LED bending screen, characterized in that, comprising:多个面罩(210)，多个所述面罩(210)为权利要求1至5中任一项所述的LED面罩，多个所述面罩(210)呈现一字型排列拼接成型；A plurality of face shields (210), wherein the plurality of the face shields (210) are the LED face shields according to any one of claims 1 to 5, and the plurality of the face shields (210) are arranged in an in-line shape and formed by splicing;多个LED模组(220)，多个所述LED模组(220)安装在所述面罩(210)上，相邻两个所述LED模组(220)之间的间隔空隙与所述面罩(210)上的弯折槽(101)一一对应设置，并且，相邻两个所述面罩(210)之间的拼接处(230)由所述LED模组(220)横跨。A plurality of LED modules (220), the plurality of LED modules (220) are mounted on the face shield (210), and the gap between two adjacent LED modules (220) is connected to the face shield The bending grooves (101) on the (210) are arranged in a one-to-one correspondence, and the splicing point (230) between two adjacent masks (210) is spanned by the LED module (220).7.如权利要求6所述的LED弯折屏，其特征在于，所述LED面罩上的通光孔(31)与所述LED模组(220)上的LED发光元件一一对应设置。7 . The LED bending screen according to claim 6 , wherein the light-transmitting holes ( 31 ) on the LED mask and the LED light-emitting elements on the LED module ( 220 ) are arranged in a one-to-one correspondence. 8 .8.如权利要求7所述的LED弯折屏，其特征在于，每个所述LED模组(220) 的面积大小与每个所述面罩(210)的面积大小相同。8. The LED bending screen according to claim 7, wherein the area size of each of the LED modules (220) is the same as that of each of the face shields (210).9.如权利要求7所述的LED弯折屏，其特征在于，每个所述LED模组(220)的长度与每个所述面罩(210)的长度相等，每个所述LED模组(220)的宽度是每个所述面罩(210)的宽度的整数倍。9. The LED bending screen according to claim 7, wherein the length of each of the LED modules (220) is equal to the length of each of the face shields (210), and each of the LED modules The width of (220) is an integer multiple of the width of each of said masks (210).

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