lcd panel separting from bracket manufacturer

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Reason I am writing today is because I bought a display for my iPhone 6, due to my screen is broken. The thing is, when I got the display, I noticed the brackets that go in the bottom (to secure the screen with the pentalobe bottom screws) were not in place (photo attached).

This display component is used within cardboard POS displays to help form a strong joint. These corrugated display bracket clips attach to boards up to 9mm thick. Suitable for any retail environment, both the standard and heavy duty versions of these clips can be easily installed in-store by slotting the bracket into a die-cut cardboard shelf and resting the shelf unit on top of the bracket clip to create a sturdy support.

A polarizer removing device according to the present invention includes a fixing member fixing a liquid crystal display including a panel and a polarizer attached to the panel, a separator which separates an edge of a polarizer from the panel by inserting itself between the polarizer and the panel, a first moving member transferring the separator, a clamping member clamping the edge of the polarizer separated from the panel, and a second moving member moving the clamping member to separate the polarizer from the panel.

The clamping member has a fixing member coupled to the separator, a moving member installed to the fixing member with a gap, and a clamping cylinder coupled to the moving member to move toward or away from the fixing member.

A device for removing a polarizer of the present invention removes the polarizer from the panel. When the liquid crystal display is fixed by adsorption plate of vacuum adsorber of holder, a sharp edge of the separator is located in the edge part of the liquid crystal display. The separator gets inserted between the polarizer and the panel to separate the corner of the polarizer from the panel. When the clamping member clamps the edge of the polarizer separated from the panel, the second moving member moves the clamping member.

As shown in FIGS. 1-4, a polarizer remover of a liquid crystal display according to the present invention includes a fixing member fixing a liquid crystal display 2, a separator 20 which separates an edge of a polarizer 6 from the panel 4 by inserting itself between the polarizer 6 and panel 4, a first moving member transferring the separator 20, a clamping member clamping the edge of the polarizer 6 separated from the panel 4, and a second moving member moving the member to separate the polarizer 6 from the panel 4.

As shown in FIG. 3, the second moving member has a servomotor and a ball screw system. A ball screw shaft 34 is provided at the frame 8, and the servormotor 32 rotates the ball screw shaft 34. A ball nut 36 is coupled to the ball screw shaft 34 and moves according to the rotation of the ball screw shaft 34. A moving bracket 38 is provided at the ball nut 36.

The ball screw shaft 34 makes an angle with the liquid crystal display 2 such that the clamping member clamping the polarizer separated from the panel moves away from the working plate 10.

As shown in FIG. 2, the second moving member further includes at least one guide bar 35 and a connecting member 37. The guide bar 35 is parallel to and separated from the ball screw shaft 34. The connecting member 37 is movably coupled to the guide bar 35 and moves together with the ball nut 36.

As shown in FIG. 3, the first moving member includes a separating cylinder 42, a guide rail 44 and a separating bracket 48. The separating cylinder 42 is provided at the moving bracket 38 of the second moving member. The guide rail 44 is installed at the moving bracket 38 parallel to the working plate. The separating bracket 48 is movably installed along the guide rail 44 and coupled to a piston rod 43 of the separating cylinder 42.

As shown in FIG. 3, the clamping member includes a fixing member 54, a clamping bracket 58, a clamping cylinder 52 and a moving member 56. The fixing member 54 is installed at the separating bracket 48, and the separator 20 is provided at one end of the fixing member 54. The clamping bracket 58 is installed separated from the fixing member 54. The clamping cylinder 52 is installed at the clamping brackets 58. The moving member 56 is installed on the piston rod 53 of the clamping cylinder 52 and moves toward or away from the fixing member 54.

At an end portion of clamping bracket 58 corresponding to an end of separating member 20, a sensor 60 for detecting an edge of the polarizer is located.

For example, when the separator 20 separates the polarizer 6 of the panel 4, the separator 20 remains fixed by a torsion spring (not shown). When the second moving member moves the fixing member 54, the separator 20 rotates about the rotating pin 28 by the moving force of the second moving member. This overcomes elasticity force of torsion spring. So the sharp edge of the separator 20 is prevented from damaging the porarizer 6 (shown FIG. 9).

As shown in FIG. 1, the polarizer remover comprises a pushing member. The pushing member operates in response to the operation of the second moving member and push the liquid crystal display 2 to protect deformation of panel 4 while the polarizer 6 is separated from the panel 4.

When a polarizer of a liquid crystal display turns out to be wrong due to impurities accidentally involved between a panel and the polarizer, misattachment of the polarizer, or damages on the polarizer, as shown in FIG. 5, the liquid crystal display is loaded on the adsorb plate 12 by using a transferring system (not shown). At this time, the liquid crystal display 2 is located on the adsorbing plate 12 such that the polarizer 6 is projected over the fixing jig 16, and an edge of the polarizer 6 closely contact the fixing jig 16. The liquid crystal display 2 is adsorbed on the adsorbing plate 12 by the vacuum adsorber, and the servomotor 32 of the second moving member begins to rotate by a control signal of the controller (not shown). The ball screw shaft 34 rotates according to the rotation of the servomotor 32, the separator 20 moves toward the liquid crystal display 2.

As shown in FIG. 6, the working plate 10 rotates along the corner of polarizer such that the corner rotates from the dot-dash line to the solid line. As shown in FIG. 7, the separating bracket 48 moves toward the polarizer 6 along the guide rail by the separating cylinder 42 of the first moving member in response to the signal from the controller.

Then, the fixing member 54 and the separator 20 move toward the polarizer 6 and the separator 20 is inserted between the polarizer and the panel 4 to separate the corner of the polarizer 6 from the panel 4. When the separated portion of the polarizer 6 is placed between the clamping surfaces 55 of the fixing member 54 and the moving member 56 and the size of the separated portion becomes proper, the clamping cylinder 52 of the clamping member operate in response to the control signal of controller to move the moving member 56 toward the fixing member until the separated portion of the polarizer is clamped between the clamping surfaces 55.

The servomotor 32 of the second moving member rotates in response to the control signal of the controller to move the moving bracket 38 via the ball nut 36 coupled to the ball screw shaft 34. The moving direction of the moving bracket 38 is left in FIG. 8 such that the polarizer 6 is detached from the panel 4. Since the ball screw shaft 34 makes an angle with the working plate 10, the clamping surfaces 55 moves upward and left.

The pushing cylinder 72 operates according to the control signal from the controller when the second moving member operates, and the pushing roller 72 moves left to prevent the panel 4 from being damaged.

The polarizer 6 is completely detached from the panel the vacuum adsorber stops its operation, and the liquid crystal display 2 can be removed from the adsorb plate 12 to proceed to the next process.

The minimalist, off-the floor design of the Altus Plus eliminates the need for a separate wall-mount TV bracket and is the perfect pairing for any flat screen TV up to 60". At 58 inches wide, it boasts three compartments for A/V components and a bottom shelf for media and games with room for 137 Blu-Ray Discs or 93 DVDs. Cables & power bars can be neatly concealed to maintain a clean, modern look. When installed according to the manufacturer’s directions, the Altus Plus has a 165 pounds weight capacity which will accommodate most flat screen TVs and A/V components. Installing the Altus Plus at any height is simple, thanks to its innovative metal hanging rail mounting system. Available in deep black, pure white, rich espresso and drifted gray laminate finishes. Manufactured in Canada from non-toxic, CARB 2 compliant, laminated composite woods and meets all North American safety standards. Ships Ready to Assemble with an instruction booklet for easy assembly and links to an installation video. Includes a 5-year manufacturer’s limited warranty.

Built from a single aluminum extrusionwith a square footprint of just 7.7 inches and a height of only 3.7 inches, Mac Studio takes up very little space and fits perfectly under most displays. Mac Studio also features an innovative thermal design that enables an extraordinary amount of performance. The unique system of double-sided blowers, precisely placed airflow channels, and over 4,000 perforations on the back and bottom of the enclosure guide air through the internal components and help cool the high-performance chips. And because of the efficiency of Apple silicon, Mac Studio remains incredibly quiet, even under the heaviest workloads.

Mac Studio and Studio Display were designed to minimize their environmental impact. Mac Studio uses far less energy than competitors to deliver its extraordinary performance. For example, over the course of a year, Mac Studio will use up to 1,000 kilowatt-hours less energy than a high-end PC desktop.6Both Mac Studio and Studio Display use 100 percent recycled rare earth elements in all magnets and recycled tin in the solder of the main logic board — as well as recycled aluminum and plastic in various components. Both products also meet Apple’s high standards for energy efficiency, are free of numerous harmful substances, and use wood fiber in the packaging that comes from recycled sources or responsibly managed forests.

Today, Apple is carbon neutral for global corporate operations, and by 2030, plans to have net-zero climate impact across the entire business, which includes manufacturing supply chains and all product life cycles. This means that every Apple device sold, from component manufacturing, assembly, transport, customer use, charging, all the way through recycling and material recovery, will be 100 percent carbon neutral.

Testing was conducted by Apple in February 2022 using preproduction Mac Studio systems with Apple M1 Ultra with 20-core CPU and 64-core GPU. Power was measured using a representative workload in a commercial application. High-end PC desktop data comes from testing Alienware Aurora R13 with Core i9-12900KF and GeForce RTX 3090. Performance tests are conducted using specific computer systems and reflect the approximate performance of Mac Studio.

Burn-in image damage may occur on monitors that display the same static image on screen for a prolonged period of time.* To avoid burn-in image damage on the monitor screen, you should always activate a screen saver application or turn off the monitor when it is not in use for a prolonged period of time. Image retention is a condition that may occur on all LCD screens. Monitors with a “burned-in image” are not covered under the HP warranty.

The monitor automatically scans the signal inputs for an active input and uses that input for the display. If two or more inputs are active, the monitor will display the default input source. If the default source is not one of the active inputs, then the monitor will display the highest ranking priority input in the following order: DisplayPort, DVI, then VGA. You can change the default source in the OSD by pressing the front panel menu button and selecting Source Control > Default Source.

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NEC"s 55" UN552S sets the standard for quality color reproduction in video wall environments. Direct LED backlighting and factory calibration for brightness intensity, gamma, uniformity, white point and RGB allows for ideal panel settings and an easy out-of-the-box experience. Brand new panel technology minimizes the bezel gap of this display, allowing for a <1.0mm distance between adjacent displays with a 0.44mm even and near bezel-less design per unit. This display is integrated with the proprietary SpectraView Engine, which not only allows for ultimate color control but also allows for increased color calibration capabilities including white copy, self calibration to an external sensor and manual CIE chromaticity adjustment for maximum control when color matters most. This display also includes both a DisplayPort and an HDMI Out connections for daisy chaining signals up to 4K UHD. This new generation of display also received a full chassis upgrade with faster processing times, evolved daisy chain performance, and new TileMatrixing capabilities.

Industrial-strength, premium-grade panel with additional thermal protection, internal temperature sensors with self-diagnostics and fan-based technology, allow for 24/7 operation