lcd display bezel free sample

A: Video walls impress viewers with large-scale graphics or videos displayed on multiple screens, creating a digital visual that goes beyond the current size of a single sign display. Contemporary lobbies can project stunning visuals that even include live TV onto their video walls

A: While there are many options and factors for a video wall, a decent starting price for a 2×2 video wall made up of 46” LCD monitors is about $18,000.

A: The overall costs of a video wall depend largely on size, processor, type of display technology and quality of video mounts, as well as ancillary costs like installation, making video walls one of the most customizable pieces of technology you can install.

A: The basis of LCD technology is the liquid crystal, a substance made of complicated molecules. Like water, liquid crystals are solid at low temperatures. Also like water, they melt as you heat them. But when ice melts, it changes into a clear, easily flowing liquid.

A: It’s estimated that lifespan of LCD could be approximately 60,000 hours depending on the life of its backlighting bulb. While for LEDs have expected lifespan of twice more than LCDs about 100,000 hours.

A: The control of graphical content is via video wall controller (processor). It takes one or several inputs (sources), and split the content for delivery onto multiple displays, and generally enable administrators to manage the configuration or contents of their video wall.

A: User Company has 3 years of warranty for all the products in there will be a technical issue in your display systems. Usersdt Warranty covers the defects resulting from defective parts, materials or manufacturing. The device is considered defective if it fails to perform the functions as indicated in the operation manuals, technical specifications or any other similar documents supplied with the equipment, and the failure is due to internal device characteristics.

A: Unlike a conventional display surface which it’s not possible to view the monitor at 178 degrees (side to side). User LED display wall let you have this wide viewing angle keeping display brightness and contrast.

A: As video wall is made by some smaller tiles, if any parts or pixels of wall display get black or burn out, it is easily replaced with another tile.

Looking for wholesale lcd monitor bezel free? Look no further than Alibaba.com, one of the largest collections of wholesale shipment suppliers in the world. We have a huge range of lcd computer monitor options and lcd display screen options to choose from. Whether you need a small lcd screen or a large one, we have you covered.

These lcd monitor bezel free products have become the go to display types for computers today. With tft color monitors slowly being phased out, lcd computer monitor displays are the standard in the industry. All customers need a flat screen computer monitor to interact with their personal computers. For ardent gamers that require high refresh rates to minimize lagging and make use of high performance computers there are a range of lcd gaming monitors available.

We also have more specialised products like rack mounted monitors for IT administrators and network administrators working in commercial settings. These monitors are used to oversee large server rooms and network infrastructure. New transparent lcd screen options are also coming on the market that are futuristic and allow for a sleek look to fit modern aesthetics.

So, start ordering your shipment of lcd monitor bezel free today from our suppliers. They are ready and willing to answer any questions you may have about their products and get you started today!

bezel less lcd provide the touch interface in smartphones, which are vital for them to function. Alibaba.com stocks a stunning range of high-tech bezel less lcd with vibrant color depictions. Truly crystal-clear displays of bezel less lcd are available covering various brands and models such as the Samsung Galaxy Edge 2, OnePlus 7T, Samsung Galaxy C5, and many more.

bezel less lcd are the most commonly used displays, as they produce great image quality while consuming low power. Rather than emitting light directly, they use back lights or reflectors to produce images, which allows for easy readability even under direct sunlight. bezel less lcd are energy-efficient, and are comparatively safer to dispose of, than CRTs. bezel less lcd are much more efficient when it comes to usage in battery-powered electronic equipment, due to their minimal power consumption.

Some other advantages of bezel less lcd over the CRT counterparts are - sharper images, little to no heat emission, unaffected by magnetic fields, narrow frame borders, and extreme compactness, which make them very thin and light. Some types of bezel less lcd are transmissive, reflective, and transflective displays. Transmissive displays provide better image quality in the presence of low or medium-light, while reflective displays work best in the presence of bright light. The third type of bezel less lcd, transflective, combine the best features of both the other types and provide a well-balanced display.

Whether as an individual purchaser, supplier or wholesaler, browse for an extensive spectrum of bezel less lcd at Alibaba.com if you don"t want to stretch a dollar yet find the best fit.

I"ve been working on a project that used a 16x2 LCD display and wanted a nice finish that also allowed me to seal against water and other liquids. I also needed impact resistance, low cost and the ability to be changed easily if worn or broken.

2) A small piece of perspex over a cut hole in the enclosure. Cheaper but not so nice finish, showing the full LCD through and any rough enclosure cutting.

So, eventually I tried something else and ended up with what I think is a nice professional finish that is easy to do, cheap, and results in an iPhone type black glass frame style, with a clear window exactly the right size to show the display properly. It can also be easily adapted to any other type or size of display.

I took the original dimensions of the 16x2 LCD display I had and drew it up, including the stand-off holes. I then added an additional 5mm surround to give my bezel additional strength around the fixing holes, and also to make it look better since the holes wouldn"t be right on the edge.

For the 16x2 LCD the display area is approx 15mm x 65mm. I made my window 14mm x 64mm so there is a slight overlap to the display so no edges can be seen.

Remove the template and then peel the outer area of tape away and this will leave a nice clean cut 14mm x 64mm piece where our display will eventually show through.

These correspond exactly to the stand-off holes in the LCD PCB. This means we can use a single metal or plastic bolt to mount both our bezel and the LCD when finished.

We now want to spray paint the area that will be the bezel outer border. Choose your colour for this, although I used black and found it produced a lovely black glass type finish.

EDIT: On making one for a 64x128 1.8" TFT display it occurred to me that we can simply mask the back side of the acrylic completely. This ensures 100% that you don"t get any overspray on what will become the top face. When everything is dry just peel off the masking on the other side too.

You can now mount the bezel to your enclosure, using the mounting holes and some 3mm bolts. The same bolts can be used to mount the LCD behind. I found 3mm x 20mm bolts are ideal. You can also use nylon ones that are used for PCB stand-offs.

Awesome idea! I"m just starting on an Arduino based chess timer project with a small VFD display and a couple of those big "arcade" style microswitch buttons for my son and was thinking about how to make a decent looking hole / bezel for the display. Your instructable solved my problem elegantly! Thanks and thumbs up for you!

Another trick is to use stand-offs behind the front panel, bolted to the front panel via countersunk holes at the front with the relevant bolts, then mount the operstional display etc to the stand-offs. The front bezel can then be applied OVER the countersunk bolts using double-sided adhesive or using a silicone bead as it should never need to come off again. I am using this process currently for a frequency meter display.

The bezel is the outside frame or edge that surrounds the monitor’s front glass or LCD panel. For aesthetics or hygiene, many people prefer a bezel less monitor, or frameless monitor.  Theygo by many names: zero-bezel monitors,  or bezel-free  monitor.  These are simply monitors without frames.  Products in this category feature LCD monitors that have a single piece of glass covering the entire front face of the monitor. The glass covers the entire front of the display, edge-to-edge, top to bottom, without bezels. This type of  monitor has no bezel or frame around the front edges, as seen with typical LCD monitors. You’ll love the sleek, modern appearance as well as the hygiene benefits.

The enclosure of a monitor is what surrounds the screen and all other components. Enclosures offer different looks, feels, and advantages and disadvantages.Since monitors without bezels use a single, solid surface, they are easy to clean. You won’t have to worry about contamination or germ build-up. There is nowhere for germs to hide. These hygiene advantages are why so many modern medical LCD monitors and medical touch screens feature a zero bezel monitor design. A monitor with no bezel can be built as 4:3 aspect ratio or 16:9 widescreen monitors. See our monitor cleaning guidelines, and monitor COVID-disinfecting guidelines for more details.

Both our LCD monitors and projected capacitive multi-touch touch screens are available as frameless monitors. The projected capacitive multi-touch screen has two major advantages compared to standard touch screens. First, it can be activated by both a bare finger and a finger covered by a surgical glove or thin cotton glove. Second, the multi-touch screen enables activation with up to 10 inputs simultaneously. In addition, it cannot be false-trigged by liquids or grease on the surface.  The UL 60601 versions are ideal for surgical OR’s, medical carts.  They are also deployed for microscopy, clean rooms, and more. Call us to discuss the different specifications you have so that we may answer any questions!

All of our Zero Bezel frameless monitors and touch screens feature a waterproof front face, rated IP65. This ensures protection against dirt, dust, moisture, blood and other fluids. This also simplifies cleaning and disinfecting, and ensures reliable long-term performance.

I got tired of having all my projects show the rough edges of the cut when using 20x4 LCD"s in projects, this solves that and also adds a level of protection for the fragile glass face of the LCD.

This is a black or white, acrylic bezel for your LCD. This is laser cut from .118" acrylic also includes a .060 piece of clear acrylic cut to the same size behind it to provide some protection for the LCD. Each piece of acrylic has 4 holes for 4-40 screws that fit into the LCD. This faceplate will cover the face of the LCD and only let the glass portion show through.

When used in conjunction with a 900 series module (purchased separately), this bezel provides an IP67 /NEMA 4X rating from the front. A robust and attractive alloy construction with glass window gives the product a professional finish. BEZ 900-IP uses the same panel cut-out as the bezel supplied with a 900 series module.

The invention disclosed herein relates generally to electronic displays. More particularly, the present invention relates to an electronic display without a bezel, i.e., a bezel-less electronic display.

Electronic displays, such as flat panel monitors used with computers or flat panel televisions, generally have a bezel or frame surrounding a display screen or portion of the electronic display.

The invention provides a bezel-less electronic display comprising an electronic display device having an image-displaying portion and a cover positioned adjacent the electronic display device that are mounted in an assembly without a bezel. The cover may also be referred to as a lens in the context of an electronic display. However, such lenses typically do not refringe (e.g., focus or diverge) light. The cover overlays the image-displaying portion of the display device and forms a front of the electronic display. The cover also overlays any portion of the display device outside of the image-displaying portion that is visible from the viewing side or front of the electronic display. Thus, the front of the display is presented as a cover without a bezel. Preferably, the cover and the display device are mounted to an enclosure which forms the rear and side of the electronic display. The cover and display device may be mounted or assembled into an assembly in any suitable manner, some of which, including preferred embodiments, are disclosed herein. Also, the cover, display device and enclosure, may be mounted or assembled into an assembly in any suitable manner, some of which, including preferred embodiments, are disclosed herein. For example, the cover and display device may be assembled into a sub-assembly and this sub-assembly may be mounted in an enclosure to form an assembly.

As discussed herein, electronic display devices typically include another portion outside of and at the periphery of the image-displaying area, which function as a frame or support for the display device, or perform other functions. The cover overlays the image-displaying portion and the other portion of the display device. Thus, the cover provides that portion of the electronic display that is exposed to or faces a user viewing the electronic display, i.e., provides in a bezel-less fashion the front of the electronic display.

Depending upon parameters selected for the cover, different bezel-less effects may be provided. For example, a flat cover, which is preferred, presents a flat, bezel-less front. However, other configurations may be used depending upon the effect desired. For example, curved configurations may be used. Such curved configurations are curved in the sense that the cover has a curved outer surface. Configurations that have other surface structures may also be used. Regardless of the cover configuration, the cover is mounted in a bezel-less fashion as described herein.

The cover includes at least a first and second portion, with the first portion overlaying the image-displaying portion and the second portion overlaying the other portion o the display. The portions of the cover overlaying the image-displaying portion and the other portion of the display preferably have optical properties selected to provide a desired appearance across the cover when no image is being displayed by the image-displaying portion (e.g., when the image-displaying portion is darkened or presents a screen of a given color), or when an image is being displayed by the image-displaying portion (e.g., a graphic or text image), or both. The optical properties of first portion are also selected with regard to transmission of images therethrough from the image-displaying portion of the display device, for example to provide for a high transmissivity.

The optical properties of the portions of the cover overlaying the image-displaying portion and the other portion of the display device can be selected so that the portions present a uniform appearance when the display device is not displaying an image. In the preferred embodiment, the optical properties are selected to provide a uniform darkened appearance across both portions of the cover when the image-displaying portion is darkened. The optical properties of the two portions can be selected to also provide a desired effect when the display device is displaying an image. For example, the optical properties of the portion of the cover overlaying the other portion of the display device can be selected to provide a border of a desired color which partially or completely masks, obscures or otherwise reduces the visibility of the other portion of the display device.

Regardless of the optical properties of the portion of the cover overlaying the other portion of the display device, a flat cover in accordance with the invention provides a flush or flat appearance due to elimination of a bezel. However, covers having configurations other than flat can provide other bezel-less appearances. The optical properties of the portion of the cover overlaying the other portion of the display device may be selected to present a desired border appearance, particularly when the display device is displaying an image. In the preferred embodiment, the portion of the cover overlaying the other portion is opaque, and the color of the opaque portion may be selected to provide a desired appearance. Cover properties such as shape, configuration, size, etc., may also be selected to provide a desired bezel-less effect.

In a preferred embodiment of the invention, the optical properties of the second portion of the cover are also selected to partially or completely mask or obscure or otherwise reduce the visibility therethrough of the other portion of the display device. This may be achieved where the second portion has low transmissivity or is opaque, e.g., has an opaque coating. In this embodiment, the second portion presents a border or frame appearance. With a flat cover, the frame or border appears flush with any image being presented by the image-displaying portion of the display device. In a preferred embodiment of the invention, the second portion of the cover comprises opaque material having the same red, green, and blue color values as the image-displaying portion of the display device when no image is displayed thereon. This provides the effect of a borderless, frameless and bezel-less front when the display device is not displaying an image.

The invention also provides a composite electronic display comprising a main display device and secondary display device. The main display device may be conventional, or may comprise the inventive electronic display disclosed herein. The secondary display device presents one or more images independently of the main display device, with the image(s) being presented outside of an image-displaying portion of the main display device. In one embodiment, the secondary display device generates a single, fixed image, such as a corporate logo, advertisement, licensed character, personalized image or message, etc.

The secondary display device preferably displays an image both when the main display device is displaying an image and when the main display device is not displaying an image, e.g., when the main display device is darkened or off altogether. The image presented by the secondary display device is displayed even when no power is provided to the main display device. For example, the secondary display device may display its image as long as outside power is provided to the composite electronic display or as long as battery power is supplied to the secondary display device.

In accordance with a preferred embodiment of the invention, the composite electronic display comprises a bezel-less electronic display, as disclosed herein, and a secondary display device positioned to provide its image(s) in the second portion of the cover. The secondary display device comprises a light source and structure defining an image. For example, the light source can be a light emitter such as an LED or lamp, and the image-defining structure can be a part of the second portion of the cover having contrasting optical properties that define the image. In this embodiment, the image is fixed. Alternatively, the light source can be an LCD or other display device that includes structure for generating an image, fixed, changeable or dynamic. The LCD or other display device can also generate a fixed image by providing light therefrom to contrasting optical properties in the second portion of the cover as disclosed herein.

The invention also provides a method for providing a bezel-less electronic display. The method comprises mounting or assembling a cover, having first and second portions, with a display device including an image-displaying portion and another portion extending along at least a portion of a side thereof, so that the first portion of the cover overlays the image-displaying portion and the second portion of the cover overlays the other portion of the display device; and selecting the optical properties of the first and second portions so that the cover presents a desired appearance when the image-displaying portion of the display device is not displaying an image. The optical properties may also be selected so that the cover presents a desired border appearance when the image-displaying portion is displaying an image.

According to a preferred embodiment of the invention depicted in FIG. 1, the electronic display 10 comprises an electronic display device 100, a cover 200 and an enclosure 300 to which the display device 100 and the cover 200 are mounted. (Some of the components shown in the figures are exaggerated and shown somewhat schematically for purposes of explanation, and may not be to scale.)

The electronic display device 100 may be conventional and may comprise any device capable of generating and presenting images to a user, such as, for example, an LCD panel. An example of an electronic display device that may be used with the invention is the TFT LCD Model LTM 170EI from Samsung Electronics Co., Ltd.

The electronic display device 100 (FIG. 1) includes an image-displaying portion 110 on which images generated by the display device are presented to a user. For example, the image-displaying portion 110 of display device 100 may comprise the display area of an LCD panel. The side of the display device 100 on which images are presented to a user may be referred to as the front of the device.

The electronic display device 100 (FIG. 1) also includes another portion 120 that is visible from the front of the display device 100, e.g., viewable by a user looking at the front of display device 100. The other portion 120 may comprise any component part or parts of display device 100 other than the image-displaying portion 110 that are visible from the front of display device 100, e.g., a frame or support for the display device to support the display device or for mounting the display device, or for other purposes. In the embodiment depicted in FIG. 1, the other portion 120 extends adjacent and surrounds the image-displaying portion 110. The other portion 120 may be configured and located other than as shown in FIG. 1 depending upon the particular display device.

For example, where display device 100 (FIG. 1) is an LCD, the other portion 120 is referred to as the LCD frame, that may serve a variety of functions, such as, for example, those described above. Where the display device 100 is an LCD, the portion 120 may contain holes, as shown for example in FIG. 1, for mounting screws that attach the display device to the enclosure 300.

Referring to FIG. 1, the cover 200 includes at least a first portion 210 and a second portion 220. A line 230 illustrates the demarcation of the first and second portions 210, 220. However, the line 230 and the demarcation may not be visible, depending upon lighting conditions behind the cover 200. For example, with the cover 200 mounted to the display device 100, and the display device 100 not displaying an image, e.g., having a darkened image displaying portion 110, line 230 is not visible, and the cover 200 has a uniform appearance as shown in FIG. 2. On the other hand, when the display device 100 is displaying an image, e.g., is projecting light in the form of an image, the image will be visible in portion 210 of cover 200, and line 230 will appear as a demarcation between portions 210 and 220, with portion 220 appearing as a flush border to the image appearing in cover portion 210. FIG. 5 depicts the display 10 displaying an image surrounded by a flush border 220, which is shown uncolored but in the preferred embodiment is darkened.

The first and second portions of the cover 200 are sized, and the cover 200 is positioned adjacent to the front side of the electronic display device 100 with the first portion 210 of cover 200 positioned adjacent and at least coextensively with the image-displaying portion 110 of display device 100, and with the second portion 220 of cover 200 positioned adjacent and at least coextensively with the portion 120 of display device 100. The size relationship of the first and second portions 210, 220 of the cover 200 is preferably identical or substantially similar to the size relationship of the image-displaying portion 110 and the other portion 120 of the display device 100. In the embodiment depicted in FIG. 1, the second portion 220 of cover 200 surrounds the first portion 210.

The first portion 210 and second portion 220 of cover 200 each have optical properties selected such that, (a) when images are displayed on image-displaying portion 110 of the electronic display device 100, the displayed images are suitably transmitted through the first portion 210 so as to be visible to a user, and may have a flush border or frame 220, as illustrated in FIG. 5 and, (b) when no images are displayed on the image-displaying portion 110, the first portion 210 and second portion 220 of cover 200 present a uniform appearance such that they present a flush uniform front of the electronic display 100 without a bezel, as illustrated in FIG. 2.

In a preferred embodiment of the invention, the optical properties of second portion 220 are selected so as to completely mask images of other portion 120 and any objects and materials attached to portion 120, and thus prevent them from being transmitted through second portion 220 and being seen by a user. In this embodiment, cover 200 may comprise any suitable structure capable of transmitting light, such as, for example, a glass or plastic sheet, with portions 210 and 220 forming different regions of the sheet. Portions 210 and 220 are provided with optical properties, e.g., tinting, or coloring, or coating(s) such that (a) images of other portion 120 of display device 100 and any objects and materials attached to portion 120 are not visible through second portion 220, and, (b) when images are displayed on image-displaying portion 110 of the electronic display device 100, the displayed images are transmitted through the first portion 210 so as to be visible to a user, and, (c) when no images are displayed on the image-displaying portion 110, the first portion 210 and second portion 220 of cover 200 present a uniform appearance such that they appear to be a single, flush front or cover without a bezel.

The optical properties above may be imparted to second portion 220 of cover 200 by, for example, applying a layer or coating of opaque material, e.g., paint or ink, to the structure comprising cover 200 in the region of second portion 220. In the preferred embodiment, the color of the opaque material is selected so as to match the appearance of image-displaying portion 110 of display device 100 when no images are displayed thereon. This may be accomplished by, for example, obtaining the red, green, and blue color values of the image-displaying portion 110 of display device 100 when no images are displayed thereon, e.g., using a calorimeter, and selecting an opaque material having the same color values.

First portion 210 of cover 200 may be tinted or colored to impart optical properties as described above. In the preferred embodiment, tinting is provided having characteristics that are selected so that, when images are displayed on image-displaying portion 110 of the electronic display device 100, the displayed images are suitably transmitted, e.g., at 80% transmissivity, through the first portion 210 so as to be visible to a user, and yet, when no images are displayed on the image-displaying portion 110, the tint provides an appearance of first portion 210 that matches the appearance of the opaque material applied to second portion 220, which together present the uniform appearance described herein.

In the preferred embodiment, the electronic display device 100 is an LCD panel, and the above described optical properties of the cover can be achieved using an acrylic plastic sheet as cover 200. (An acrylic sheet is sometimes referred to as a lens, although the sheet does not refringe light (e.g., focus or diverge light) as would a lens.) The acrylic sheet is preferably provided with an anti-glare coating (e.g., having a gloss level of 44) and a scratch-resistant coating. Such coatings are known in the art. The second portion 220 of the plastic sheet includes a paint coating 220 ahaving a color of standard black as the opaque material forming part of the second portion 220. The first portion 210 includes a tint or coloring tint that does not noticeably alter colors of an image transmitted through portion 210. For example, the first portion 210 may comprise a neutral gray tint (e.g., smoked tint #2064) and be about 80% transmissive.

The assembly depicted in FIG. 3 includes the cover 200, the display device 100 and the enclosure 300. The second portion 220 of the cover is shown with a coating or layer of opaque material 220 a. The assembly also includes an adhesive or bonding agent 150 which attaches the cover 200 to the display device 100. The display device is mounted to the enclosure by screws passing through the rear of the enclosure and engaging threaded holes (see FIG. 1) in the frame 120 of the display device. Enclosure 300 comprises a side wall 310 of sufficient height to accommodate at least the thickness of electronic display device 100 and the cover 200. In another embodiment depicted in FIG. 4, the cover is not accommodated within the enclosure but outside the enclosure, as discussed in more detail below. A opening 320 at the rear of enclosure 300 may be provided so as to allow access to the rear of electronic display device 100, where, for example, input and output connectors may be located.

Although the first portion 210 and the second portion 220 are shown in FIG. 1 and described above as separate regions of a single structure comprising cover 200, the portions 210 and 220 may be separate pieces. For example, in an embodiment of the invention, first portion 210 and second portion 220 each may be distinct structures attached in any suitable manner together to form cover 200. In such an embodiment, portions 210 and 220 may be shaped and attached together using known procedures, which may include filling any gaps between the two portions or otherwise providing a desired flush appearance, such that portions 210 and 220 present a bezel-less cover.

Cover 200 may be mounted directly or indirectly (e.g., using a plastic frame as described below) to electronic display device 100 or enclosure 300 in any suitable manner that provides a secure attachment. It is preferred that a fastenless system be used so that fasteners are not visible from the cover 200. For example, cover 200 may be attached to display device 100, by an adhesive or thermal or acoustic bonding, so that cover 200 and display device 100 together form a sub-assembly. In the preferred embodiment, VHB™ Acrylic Foam Tape from the 3M™ Company is used. As shown in FIG. 3, the VHB™ tape 150 may be used to mount cover 200 to electronic display device 100. As assembled, the tape is between the portion 120 of the display device 100 and portion 220 of cover 200 and adheres the two. The tape may first be adhered to the portion 110 of the display device and then the portion of 220 of the cover 200 is adhered to the other side of the tape, or vice versa.

The sub-assembly of the cover 200 adhered to display device 100 using the VHB™ tape, as described above, may be mounted to enclosure 300 by placing the sub-assembly into enclosure 300 (or vise versa) so that cover 200 is flush with the raised edge 310 of enclosure 300 and then fixing the sub-assembly to enclosure 300 using mounting screws placed through holes in enclosure 300 and into the other portion 120 of display device 100.

Alternatively, as discussed above, cover 200 may be sized and the sub-assembly comprising cover 200 adhered to display device 100 may be mounted to enclosure 300 such that cover 200 lies on top of the edge of side wall 310 of enclosure 300 flush with the periphery thereof, as shown in FIG. 4. In this an embodiment, second portion 220 of cover 200 covers side wall 310 of enclosure 300 as well as the other portion 120 of display device 100. The sub-assembly may be fixed to enclosure 300 in the same manner as described above using screws entering the electronic display 10 from the rear of the enclosure 300.

Where portion 220 has optical properties that completely mask whatever is behind it, then, when images are displayed on image-displaying portion 110 of display device 100, portion 220 appears as an opaque, flush border or frame for portion 210. Unlike conventional displays, with a bezel that protrudes from the display screen, portion 220 is part of or appears to be part of the same structure comprising portion 210, and does not protrude from portion 210, but rather is flush or coplanar with portion 210.

FIG. 5 depicts an embodiment of the invention that includes a secondary display device 400 that presents one or more images (represented by “Logo”) independently of display device 100, which is referred to as the main display device in this embodiment. In one embodiment, the secondary display device 400 comprises an area 410 of the second portion 220 of cover 200 that is modified to form an image, such as, for example, a corporate logo, advertisement, licensed character, or personalized image or message, etc., and a light source 420 located behind this area 410 that transmits light through area 410 to present the image.

The light source 420 may be any suitable source of light, such as an LCD or an LED. In the preferred embodiment, an LED assembly of the type commercially available from Global Lighting Technologies, Inc., as, e.g., the MicroLens™ LED, is used. The assembly is mounted behind the area 410 in any manner suitable to fix it securely between the cover 200 and the other portion 120 of the display device, and to direct light to area 410. For example, an adhesive or other bonding system, or fasteners, may be used to attach the light assembly 420 to the frame 120 of the display device 100. In the preferred embodiment, the light assembly 420 may be mounted by adhering it to the VHB™ tape placed on other portion 120 of the display device 100 at the position behind area 410, as shown in FIG. 6. Since the VHB™ tape is compliant, the assembly 420 may be depressed into the VHB™ tape so that, when the cover 200 is adhered to the VHB™ tape and the other portion 120 of display device 100, the VHB™ tape forms a seal around the assembly 420 that prevents light from the LED from leaking into the area behind the first portion 210 of cover 200 that may otherwise be visible to a user or an observer. If desired, a foam gasket may be placed around the assembly 420 to ensure that no light leaks from the LED. The light source is powered by known means independently of the electronic display device 100 and can remain on even when the display device 100 is off or in an inactive “sleep” mode. For example, the power can be derived from the AC lines (as long as the display 10 remains connected to AC power), or by battery power.

The portions of area 410 that do not form the image preferably have the same optical properties as portion 210. Thus, as shown in FIG. 7, when no images are presented on image-displaying portion 110 of display device 100, portions 210 and 220 of cover 200 present a uniform appearance as described above, except for the image presented by secondary display 400. In another embodiment of the invention, shown in FIG. 8, the image presented by the secondary display device 400 comprises a plate or cover 430 mounted on the exposed side of cover 200 overlying adjacent a light source (not shown), as described above. The image on plate or cover 430 may be formed as described above. The plate or cover 430 may also be mounted on the inside of cover 200 which then includes a light transmitting section in portion 220 overlaying the plate.

Another embodiment of the invention is shown in FIGS. 9 and 10. An electronic display 10 comprises an electronic display device 100, a cover 200, and an enclosure 300, as previously described above. The display device 100 fits into a plastic frame 350 and is attached thereto by any suitable means, such as, for example, screws entering the sides of the frame 350 and into the sides of the other portion 120 of display device 100. Attached to the front of the display device 100, on other portion 120, is a dust gasket 160. Dust gasket 160 may be attached to other portion 120 by any suitable means, such as, for example, an adhesive. A light assembly 420, as described previously, fits into a notch 380 at a location within the frame 350 beneath the display device 100. The light assembly 420 may be attached to the frame 350 at notch 380 by any suitable means, such as, for example, an adhesive. Cover 200 is bonded to frame 350 in any suitable manner, such as, for example, using VHB™ tape 150, as described previously. A printed circuit board (“PCB”) 360, providing power and input and output connections, attaches to the back of display device 100 in any suitable manner, such as, for example, fasteners, e.g., screws, or an adhesive. A button mounting board 370 mounts under the frame 350 in any suitable manner, such as, for example, using an adhesive, and provides buttons for controlling the display device 100, e.g., on/off and brightness buttons. Buttons from the button mounting board 370 extend down through holes 375 in a bottom sidewall 310 of enclosure 300 where they may be accessed by a user. The components above, i.e., frame 350, display device 100, dust gasket 160, cover 200, light assembly 420, PCB board 360, and button mounting board 370 form a sub-assembly that is then mounted to enclosure 300 in any suitable manner, such as, for example, screws entering through the back of enclosure 300 and into the back of frame 350.

With the thinnest bezel and outstanding image quality in the industry of LCD display, this LCD video wall is capable of displaying different content in different modes according to the real need of users, like showing big pictures or videos. Besides, LCD display wall is especially suitable for those high-end sites including the tremendous shopping center and meeting room, etc.

Any configuration for this LCD screen wall is supported, such as 2*2, 3*3, 1*6, 4*5, and so on. The intelligent temperature control enables this industrial display to work around the clock in a commercial application. Furthermore, a Virtually seamless appearance with a bezel screen is offering the great services of the HD solution and Ultra-wide angle of view as well as the display information as clear crisp, and vivid HD video images.

Just imagine the power of a video wall built out of the PN-V701. Huge, high-impact video walls can be created using fewer monitors with less bezel interruption across the entire on-screen image. And with upgraded colour calibration technology— SHARP Advanced UCCT—the PN-V701 gives high-quality video wall solutions that are sure to attract a crowd.

The PN-V701 was developed specifically for use in multi-monitor installations in either portrait or landscape orientation. Thanks to its combined bezel width of just 4.4 mm*, large images on a video wall appear natural and almost seamless. The grand scale of the 70-inch monitor allows you to build video walls with fewer monitors and fewer bezels, which serves to minimise the non-displayed area. Whether in an airport, railway station, shopping mall, or other public spaces, the PN-V701 expands the creative possibilities of visual communication.

The PN-V701 incorporates Sharp’s UV2A* technology to ensure highly efficient use of light from the backlight and prevent light leakage, resulting in truly bright whites and extremely deep blacks. The LCD panel also boasts 1,920 (H) x 1,080 (V)-pixel full HD resolution, making everything from fine text to intricate graphics stunningly crisp and clear. A brightness of 700 cd/m2 supports the PN-V701 in its digital signage duties. Four PN-V701 monitors set up in a 2 x 2 configuration, for example, can beautifully render every single pixel of 4K Ultra HD (3,840 x 2,160-pixel) content in a form equivalent to a huge 140-inch monitor. What’s more, the PN-V701 employs SHARP Advanced UCCT (Uniform Colour Calibration Technology) to achieve brilliant uniformity of colour and brightness across the entire video wall.

The display characteristics of each small area in the LCD are measured in terms of RGB input signals. Uniformity of colour and brightness is then calibrated and corrected for each RGB signal element as shown in the graphs below. Sharp has further improved the accuracy of this technology for the PN-V701.

Picture-in-Picture (PIP) mode allows an AV-sourced image to be displayed within a PC-sourced one (or vice versa), while Picture-by-Picture (PbyP) mode puts images from AV and PC sources side by side for split-screen viewing.

The PN-V701 offers a choice of landscape or portrait installation, allowing customers to select the mode that best suits their display content and application.

With the E-Mail Notification function, display status updates will be sent periodically to a specified e-mail address. A notice will also be sent if a malfunction occurs.

Display status, continuous operating time, and other parameters can be monitored over a local area network using Simple Network Management Protocol (SNMP).

A video wall is not a one-size-fits-all solution. There are many options to choose from when designing a commercial building video wall display: the size and shape of the digital canvas, what type of content will be displayed and the purpose of the video wall. Operationally, you may focus on desired reliability, maintenance and serviceability of the equipment. Hardware and technology decisions ensure the video wall will deliver both the desired viewing and ownership experience.

One of these choices is deciding between an LCD display or an LED video wall. Continue reading to find out more about the basics, as well as the advantages and disadvantages of each solution.

Most people are familiar with LCD technology, which stands for Liquid Crystal Display. These types of displays have a massive presence in this world, used in living rooms to watch movies, fast-food restaurants to showcase menus, airports to show flight schedules, and everything in between. LCD technology was developed in the 1960s and has been used worldwide as a standard for roughly 20 years. It is a tried-and-true technology that has stood the test of time and will be around for the foreseeable future.

On an LCD screen, the panel is illuminated by a light source and works through reflection or transmission of light. Overall, LCD displays have better viewing angles and less glare than LED screens. This technology was designed to be energy efficient and tends to be lighter in weight.

An LCD video wall is made up of multiple LCD panel monitors mounted on a surface to create a digital canvas, which then work together to create a unified experience. They operate 24/7 at a high brightness and have thin bezels that help create a seamless look when the displays are placed next to one another.

Bezel thickness and the brightness rating are among key attributes to consider for an LCD video wall display. Here is what each of these means and why.

Bezel:Bezel thicknesses for video wall displays are measured in “bezel-to-bezel” thickness.This is the thickness of the bezel when two displays are placed next to one another. Displays can be either large bezel or thin bezel.

Nits:Brightness is measured in Nits. A higher Nit value means the display will be brighter. A brighter display is necessary in a room that sees plenty of direct sunlight, or if the intent is to draw in visitors from far away. With LCD video walls, the price of the hardware goes up as the display size and brightness increase, and the bezel width decreases.

The next item to consider is the type of content that will be displayed on your video wall. LCD displays have high resolution screens — modern 4K displays have over 8 million pixels! This means that the content being displayed is highly detailed and crystal-clear. A viewer could stand less than 1 foot away from the screen and be able to see exactly what is being shown on the screen.

Like previously mentioned with LCD video walls, an important consideration in the decision-making process is the type of content that will be displayed on the video wall. LED video walls suffer from image degradation and pixilation from up close, so fine details will be lost, and text will be illegible. If detail from up close is important, LCD displays are much better suited for that situation.Content examples that are well-suited for an LCD video wall:

Video walls are relatively new. But LCD technology has had decades of mainstream adoption, and with that comes both familiarity and lower costs. If those are important to you, then an LCD video wall is likely the right choice.

LED video walls are similar to LCD video walls, but the digital canvas is built using LED panels. Individual LED panels can be anywhere from 12”x12” to 36”x18”, which is much smaller than LCD displays. LED panels have a larger presence in this world than most might think—they are found indoors and outdoors at stadiums, arenas, concert venues, airports, and in use as large digital advertisements in iconic places such as Times Square.

The module is a small rectangular board that contains all the individual LEDs (light-emitting diodes).Unlike LCD, there is no glass or color filter on the LED video wall panels. The individual diodes that are placed on the modules produce both color and light.

One of the most impressive features of LED panels is that they can be combined to create almost any shape, without a bezel interrupting the digital canvas. LED video wall panels can be placed on curved surfaces, 90-degree edges, and other non-standard surfaces. The smaller size of the panels in relation to LCD video wall displays means they can fill more space on a surface—they aren’t limited to standard 46” and 55” sizes as are LCD video wall displays.

As is the case with an LCD video wall, an LED video wall will add exciting drama and premium value to showcase spaces. LED panel displays don’t enjoy the benefit of decades of mainstream adoption as do their LCD counterparts. However, the technology curve is increasing their availability and lowering their costs. At this time, an LED video wall will have higher upfront costs compared to an LCD video wall. If cost is the main concern, then an LED video wall system will not likely fit into your budget

Limitless shapes and sizes:the smaller size of LED panels allows them to be combined to create unique canvases, including curved, 90-degree edge, and other combinations not possible with LCD displays

There is nothing like a bezel-less screen because it is a frame that holds the screen. There is very minimal bezel in some monitors. Regarding modern technology, minimalism is the game’s name, and the lightweight, sleek devices we use today look nothing like the clunky boxes decades ago. However, there is still one very noticeable limitation in humanity’s quest to build the most futuristic-looking gadgets possible bezels. Those bulky frames do not look appealing.

Whether we are talking about Smartphones, TV, or Monitors, it seems like bezels are still a necessity for the time being. The latest brands are manufacturing modern LCD and LED displays with thinner bezels. Bezel free monitors are more suitable when using double or triple monitors together. You can promptly focus on your content and use your screen’s parameters. This article is written to give you knowledge about some best bezel free monitors.

The Bezel-less design monitors are more eye-catching. These monitors are more attractive due to their design. These monitors are the best example of advancement in the latest technology. The bezel-less or thinner are stylish and fabulous to give you more screen.

Suppose you are a gamer, video editor, architectural designer, and content professional. You are enthusiastic about focusing your work. This means you will love a bezel-less design due multi-usage and multi-monitor setup. If you look at this monitor, you are in the right place where your dream comes true. There are the top 5 best bezel free monitors.

This best bezel free monitor is designed for multitasking. Its ultrawide design supports dual display, and its color gamut is more beneficial for creating graphic content. The high frame rate gives you an advantage for smooth gameplay.

The bezel less monitor 4k stand gives you the best support to find the perfect angle. The stand allows height adjustability to avoid neck pain, a Pivot angle for the best landscape and portrait position, and sometimes a 360-degree angle.

The AMD free sync technology of the bezel less monitor 4k removes tearing and stuttering-free performance for smooth gameplay. It delivers more than 4k performance. The monitor is equipped with USB type C that allows the display port and charging facility.

The widescreen of this best bezel free monitor is ideal for working and playing an online video with friends. This comprehensive monitor supports viewing and working on multiple documents. It can be displayed at once. The 99% coverage of sRGB color accuracy enables creative professional work.

The fast response time setting of the bezel less curved monitor means your screen will react more quickly. The faster response time is the best gaming session. The 1ms blur reduction effect helps to smooth out in gaming.

The bezel less curved monitor is virtually borderless, and its stand comes with display position adjustments like height and tilt. The Monitor supports connectivity with its ports. It has a USB C port that gives you smart connectivity for data transfer and power delivery up to 60w.

The Samsung FHD monitor with Bezel-less design provides an expanded view. It is equipped with an IPS panel. The flicker-free technology allows it to sit in front of it more extended. The Radeon free Sync has the best support for gaming.

The Samsung 24 inches provides a complete viewing experience with its 3-sided bezel design. Its sophisticated and slim design can be used for dual monitor usage because the displays line up for a nearly gapless viewing.

The 75 refresh rate boosts the image quality and gives you a smoother and life-like image or video quality. The best bezel free monitor is equipped with HDMI and D-Sub ports that support connecting multiple devices. The HDMI supports video and audio connectivity. The D-sub port is known as the VGA port.

The DELL ultrasharp 24 Inches Monitor allows you to view the best big picture and video quality without boundaries. The Dell monitor has consistently combined grade image quality with a good selection of features and an excellent design. The new 24:17 is no exception. The 24 inches display includes a 1080p IPS panel of a fully adjustable stand that provides good adjustability to pivot, swivel, tilt, and height.

The best bezel free monitor lets you view the top display with the best picture quality. This monitor is ideal for industry professionals and has an excellent desktop experience. The thinnest border of the dell bezel less monitor is only 5.3mm from the top left and right side and 8.3mm from the bottom border. It creates an almost seamless viewing experience.

The excellent design with silver and black color has long been Dell’s signature. It creates a significant effect with this combination on the dell bezel less monitor. The premium or overly stylish helping the look is the slimness of the Bezel.

The connectivity with HDMI of the full-size display port, Mini Display Port, and Display port (out) provide the best audio and video support. The audio port has best external support speakers. The USB upstream port available to connect the monitor to the computer, and the downstream USB port connect the monitor to USB devices.

The 27-inch monitor is built with a thin bezel. The monitor’s IPS panel delivers the best color/contract performance. It also facilitates color accuracy and screen consistency. The best thing about an IPS panel is that it enables sharp visibility from multiple angles. The bezel less monitor 144hz supports a 178-degree view angle that lets you get the same color accuracy from sideways. The aspect ratio is 16:9.

The bezel less monitor 144hz is best for gaming. This refresh rate is twice the rate of conventional monitors that provide smoother and higher FPS. The higher refresh rate supports a lower response time.

The best bezel free monitor has an integrated speaker that provides robust and smooth working and gaming and allows you a free desk environment. The colorful LED light brightens the back cover of your monitor and gives you the new look of your desk.

The monitor has one display port that supports up to 144 Hz, 1x 1.4 HDMI, and 1x HDMI 2.0, which also supports 144 Hz. The audio is a jack pin so you can use an external speaker. The stand provides adjustability. It gives you the adjustment of height and tilt. The 90-degree pivot allows the best viewing angle.

Bezel-Free Kit enables gamers with multiple-monitor setups. It visually reduces the gaps where their displays connect. It creates the appearance of one extra-large wraparound monitor for an immersive gameplay experience.

All monitors need a bezel, so “bezel-less” means “very minimal bezel.” A bezel-less monitor has a greater screen size without increasing the size of the device itself, so you get more screen to work on without impacting the layout of your workstation.