CN114664195A - LED transparent display and dynamic picture synchronous transmission display equipment and process - Google Patents

Abstract

The invention provides a LED transparent display and dynamic picture synchronous transmission display device and a process, which relate to the technical field of display screens and comprise a power supply conversion module, a sending module, a receiving module, a connecting module and a display module, wherein the power supply conversion module converts 220V voltage into 5V direct current, the sending module is a sending card, the sending card packs and sends a video signal of a terminal to the receiving card, the receiving module consists of a receiving box and a receiving card, the sending module is electrically connected with the receiving module, the receiving card carries out image processing on the information sent by the sending module, the connecting module is a connecting plate, the connecting plate is in soldering connection with the display module, the display module consists of a transparent base material and a lamp bead matrix, and lamp beads are welded on one surface of the transparent base material through an SMT technology, so that the LED electronic display screen can be bent, has good transparency, and the dynamic picture display effect is improved, the product publicity board has good light transmission, does not affect the lighting of shops, and has wide application range.

Description

LED transparent display and dynamic picture synchronous transmission display equipment and process

Technical Field

The invention relates to the technical field of display screens, in particular to LED transparent display and dynamic picture synchronous transmission display equipment and a process.

Background

Patent No. CN202110454663.0, a flexible transparent LED display screen, comprising: the packaging structure comprises a first transparent flexible substrate, a second transparent flexible substrate and a transparent adhesive sealing layer; the circuit comprises a first transparent flexible substrate, a second transparent flexible substrate and a transparent sealing adhesive layer, wherein the upper surface of the first transparent flexible substrate is provided with a circuit layer, the circuit layer is provided with a conducting wire area and a bonding pad, the bonding pad is provided with an LED light source, the LED light source and the bonding pad are bonded together through a conducting medium, the area of the circuit layer is smaller than that of the first transparent flexible substrate, the transparent sealing adhesive layer is arranged between the upper surface of the first transparent flexible substrate and the lower surface of the second transparent flexible substrate, and the first transparent flexible substrate and the second transparent flexible substrate are bonded into a whole face to face. The invention can realize flexible transparent display and ensure the reliability of bonding and electric connection of the LED light source.

The patent number is CN201911381796.9, a bendable transparent LED display screen and a processing method thereof, wherein a top circuit layer is arranged on the upper surface of a base layer, a bottom circuit layer is arranged on the lower surface of the base layer, and a bottom protective film is arranged on the lower surface of the bottom circuit layer; the LED lamps are electrically connected to the top circuit layer through circuit contacts respectively, and all the LED lamps are covered on the top circuit layer through the packaging layer; the base layer, the packaging layer and the bottom protective film are all made of bendable transparent insulating materials. Aim at solves among the prior art flexible display screen water-proof effects poor and the poor problem of stability. The technical effects achieved are as follows: the waterproof performance of the bendable transparent LED display screen is obviously improved, the installation is convenient, the service life of the bendable transparent LED display screen is obviously prolonged, and the running stability of the bendable transparent LED display screen is obviously improved; the heat dissipation performance of the bendable transparent LED display screen is remarkably improved.

The above patent introduces flexible transparent LED electronic display screen, equipment transparency and degree of curvature are general, and the effect is not good when the equipment is carrying out dynamic picture display, and present LED electronic display screen is a monoblock, can not be crooked, and opaque, no light transmissivity, and the back is dark behind the electronic screen installation, especially in some cities, the shop front is glass basically, if install traditional electronic display screen come propaganda product and introduce the shop activity, then the commodity in the shop is sheltered from, in addition can also influence the daylighting in the shop.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the LED transparent display and dynamic picture synchronous transmission display equipment and the process, which solve the problems that an LED electronic display screen can be bent, has good transparency, improves the dynamic picture display effect, has good light transmission when publicizing products, does not influence the lighting of shops, and has wide application range.

In order to realize the purpose, the invention is realized by the following technical scheme: a kind of LED transparent display and dynamic picture synchronous transmission display equipment, the said apparatus includes power conversion module, sending module, receiving module, connection module and display module;

the power supply conversion module: the power supply conversion module converts the voltage of 220V into direct current of 5V;

a sending module: the sending module is a sending card, and the sending card packs and sends the video signal of the terminal to the receiving card;

a receiving module: the receiving module consists of a receiving box and a receiving card, the sending module is electrically connected with the receiving module, and the receiving card decompresses the information sent by the sending module and then carries out image processing;

a connecting module: the connecting module consists of a connecting plate and a receiving card, and the connecting plate is connected with the display module in a soldering way;

a display module: the display module comprises a transparent substrate and a lamp bead matrix, and the lamp beads are welded on one surface of the transparent substrate through an SMT technology.

A LED transparent display and dynamic picture synchronous transmission display process comprises the following steps:

ASp 1: preparation of the substrate: mixing and hot melting the selected raw materials, uniformly filling the raw materials into a mold, heating and drying the raw materials, separating the transparent base material from the mold to form a transparent base material, and recovering the transparent base material for later use;

BSp 1: preparation of the substrate: mixing and hot melting the selected raw materials, uniformly filling the raw materials into a mold, heating and drying the raw materials, separating the transparent base materials from the mold to form the transparent base materials, fixing a convex part in a filling cavity of the mold, wherein one surface of the formed transparent base materials is a concave part, the concave parts of the two transparent base materials can be mutually attached, and the transparent base materials are recovered for later use;

ASp 2: installing lamp beads: the lamp beads are internally provided with chips and are connected with each other through circuits, the lamp beads are welded on a transparent screen in the correct position and the correct direction through an SMT technology, a plurality of transparent substrates pasted with the lamp beads are subjected to hot melting and sealing, one end of a connecting plate is used for being soldered and fixed with the circuits on the transparent substrates, and the other end of the connecting plate is connected with an output signal terminal of a receiving card;

BSp 2: installing lamp beads: the lamp beads are internally provided with chips, the lamp beads are connected with each other through a circuit, the lamp beads are welded on a concave part between two transparent base materials through an SMT technology, the two transparent base materials are sealed in a hot melting mode, and one end of a connecting plate is fixed with the circuit on the transparent base materials in a tin soldering mode;

sp3: connection of the equipment: the power converter changes the voltage and sequentially connects the terminal, the sending card, the receiving box and the connecting plate;

sp4: and (3) picture transmission: the terminal sends information to the sending card, the sending card packs the information and sends the information to a receiving card arranged in the receiving box, the information is decompressed and processed, a lamp bead circuit connected with one end of the connecting plate in a tin soldering mode is powered on, and the lamp beads display pictures on the transparent base material.

Preferably, the base material is PI or PET, the superconducting circuit is electroplated on the substrate by combining vacuum magnetron sputtering plating and vertical electroplating, single-sided electroplating and double-sided electroplating can be carried out, and one end of the connecting plate is fixed with the circuit on the transparent base material by soldering;

the superconducting circuit board is characterized in that the base material is PI or PET, the raw material solution is uniformly filled in a prepared die, a filling cavity of the die is rectangular, a rectangular convex part is arranged in the middle of the filling cavity, the formed transparent base material is taken out after the raw material is dried and cured, a concave part is arranged on one surface of the transparent base material, the superconducting circuit is electroplated on the base plate by combining vacuum magnetron sputtering plating and vertical electroplating, and one end of a connecting plate is fixed with a circuit on the transparent base material through tin soldering.

Preferably, the lamp beads are internally sealed chip RGB lamp beads, and the circuit of the lamp bead chip is a TX1816 constant current driving dedicated circuit integrated with an MCU single-wire digital interface, a data latch, LED constant current driving, PWM luminance control, and gamma correction circuit, and the communication transmission circuit of the lamp beads is TX1816ZC, and TX1816ZC is a single-wire communication mode, and sends signals in a return-to-zero code mode.

Preferably, a circuit is carved on one side of the transparent base material, and a solder paste is coated on one side of the transparent base material, wherein the solder paste Sn: pb = 60: 35, the viscosity is 180-;

the lamp pearl adopts the welding of SMT technique in the depressed part of transparent substrate one side, laminates another transparent substrate and the transparent substrate of lamp pearl installation each other, and the lamp pearl gomphosis between the depressed part of two substrates, laminates each other with the vacuum technique, seals it, perhaps utilizes the technique of embedment transparent adhesive tape to seal its whole in order to reach water-proof effects, the connecting plate other end is connected with the output signal terminal of receiving the card.

Preferably, the power converter converts 220V voltage into direct current 5V, the sending card is connected with the terminal through a network cable, a serial port line and an HDMI video high definition transmission line respectively, the sending card is connected with the receiving box through a network cable, a receiving card is arranged in the receiving box, the receiving box is connected with an interface of a connecting plate through a line, the sending card is connected with the connecting plate through a flat cable, connectors are arranged at two ends of the flat cable respectively, the terminal sends information to the sending card, the sending card packs the information and sends the information to the receiving card arranged in the receiving box, the information is decompressed and processed, a lamp bead circuit connected with one end of the connecting plate in a tin soldering mode is powered on, and a picture is displayed on the transparent base material by the lamp beads.

Advantageous effects

The invention provides a device and a process for LED transparent display and dynamic picture synchronous transmission display. The method has the following beneficial effects:

1. the invention can install the product on the glass in some markets, the back of the traditional electronic display screen is black, the lighting is affected after the traditional electronic display screen is installed on the glass, the beauty is also affected when the product is seen from the back, the transparent LED electronic display screen is adopted, the display screen can be conveniently installed at different places by workers, the good transparency and the light transmission are provided, the beauty and the lighting are not affected when the product is installed on the glass in a commercial shop, the lamp beads are internally sealed chip lamp beads, the interior of the lamp beads is provided with a standard protocol to control the on and off of the lamp beads, and different colors mixed between the bright red green blue and the red green blue are controlled, the brightness of the lamp light is controlled, the transmission of lower-pole signals is not affected when a single lamp is damaged, by adopting the sending module, the receiving module and the connecting module, the information of the terminal can be transmitted, and the picture is displayed through the display screen, so that the effect of dynamic picture transmission is improved.

Drawings

FIG. 1 is an overall view of the apparatus of the present invention;

FIG. 2 is a flow chart of the present invention;

FIG. 3 is a schematic diagram of the present invention;

FIG. 4 is a product display diagram of the present invention.

Wherein, 1, the power supply conversion module; 2. a sending module; 3. a receiving module; 4. a connection module; 5. and a display module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1, an embodiment of the present invention provides an LED transparent display and dynamic image synchronous transmission display device, which includes a power conversion module 1, a sending module 2, a receiving module 3, a connection module 4, and a display module 5;

the power supply conversion module: the power supply conversion module 1 converts the voltage of 220V into direct current 5V;

a sending module: the sending module 2 is a sending card, and the sending card packs and sends the video signal of the terminal to a receiving card;

a receiving module: the receiving module 3 consists of a receiving box and a receiving card, the sending module 2 is electrically connected with the receiving module 3, and the receiving card decompresses the information sent by the sending module 2 and then carries out image processing;

a connecting module: the connecting module 4 is a connecting plate, and the connecting plate is connected with the display module 5 in a soldering mode;

a display module: the display module 5 is composed of a transparent substrate and a lamp bead matrix, and the lamp beads are welded on one surface of the transparent substrate through an SMT technology.

Example two:

referring to fig. 2, an embodiment of the present invention provides a process for LED transparent display and dynamic image synchronous transmission display, including the following steps:

ASp 1: preparation of the substrate: mixing and hot melting the selected raw materials, uniformly filling the raw materials into a mold, heating and drying the raw materials, separating the transparent base material from the mold to form a transparent base material, and recovering the transparent base material for later use;

BSp 1: preparation of the substrate: mixing and hot melting the selected raw materials, uniformly filling the raw materials into a mold, heating and drying the raw materials, separating the transparent base materials from the mold to form the transparent base materials, fixing a convex part in a filling cavity of the mold, wherein one surface of the formed transparent base materials is a concave part, the concave parts of the two transparent base materials can be mutually attached, and the transparent base materials are recovered for later use;

ASp 2: installing lamp beads: the lamp beads are internally provided with chips and are connected with each other through circuits, the lamp beads are welded on a transparent screen in the correct position and the correct direction through an SMT technology, a plurality of transparent substrates pasted with the lamp beads are subjected to hot melting and sealing, one end of a connecting plate is used for being soldered and fixed with the circuits on the transparent substrates, and the other end of the connecting plate is connected with an output signal terminal of a receiving card;

BSp 2: installing lamp beads: the lamp beads are internally provided with chips, the lamp beads are connected through a circuit, the lamp beads are welded on a concave part between two pieces of transparent base materials through an SMT technology, the two pieces of transparent base materials are sealed in a hot melting mode, and one end of a connecting plate is fixed with the circuit on the transparent base materials in a soldering mode;

sp3: connection of the equipment: the power converter changes the voltage and sequentially connects the terminal, the sending card, the receiving box and the connecting plate;

sp4: and (3) picture transmission: the terminal sends information to the sending card, the sending card packs the information and sends the information to a receiving card arranged in the receiving box, the information is decompressed and processed, a lamp bead circuit connected with one end of the connecting plate in a tin soldering mode is powered on, and the lamp beads display pictures on the transparent base material.

Example three:

as shown in fig. 1-4, the base material is PI or PET, the superconducting circuit is electroplated on the substrate by combining vacuum magnetron sputtering plating and vertical electroplating, single-sided electroplating and double-sided electroplating can be performed, one end of the connecting plate is fixed with the circuit on the transparent substrate by soldering, the PI and PET can be replaced by traditional glass as the base material, the base material made of PI and PET is a flexible screen, the base material made of glass is a hard screen, the base material made of glass can be replaced to different places according to customer requirements, the lamp bead is an internal sealing chip RGB lamp bead, the circuit of the lamp bead chip is provided with a TX1816 constant current driving special circuit integrated with an MCU single-wire digital interface, a data latch, an LED constant current driving circuit, a PWM luminance control circuit and a gamma correction circuit, the input and output digital interfaces can be cascaded through double channels, and an external controller can control the chip by only a single wire. Spare communication port, realize that certain chip damages in the cascade and does not influence the normal use of back stage, constant current value and PWM luminance value that every OUT drive port output all can set up alone through the order, the communication transmission circuit of lamp pearl is TX1816ZC, TX1816ZC is the single-wire communication mode, adopt the mode transmission signal of return-to-zero code, TX1816ZC adopts automatic plastic retransmission technique, make this TX1816 ZC's cascade number not by the restriction of signal transmission, transparent substrate one side is carved with the circuit, integrate control circuit on the substrate, the circuit becomes simpler, small in size, it is simpler to install, transparent substrate one side coating solder paste, solder paste Sn: pb = 60: 35, viscosity is 180-, the interface of the transmitting card comprises an audio interface, a DVI interface, a kilomega network interface, a USB interface, a hundred mega network interface and a direct current power interface, the transmitting card is connected with a receiving box through a network cable, the receiving box is internally provided with a receiving card, the receiving card adopts a 60PIN high-precision seal plug-in interface, 24 groups of RGB parallel data are supported to the maximum extent, the band load reaches 256X512 pixel points, the receiving box has strong processing capacity, ultra-stable performance and ultra-high cost performance, the band load reaches 130 ten thousand pixel points, the front panel of the receiving box consists of a main control power supply switch, a panel for displaying the current brightness, a working state indicator lamp and a brightness increasing and decreasing button, the rear panel of the receiving box consists of kilomega network interfaces 1 and 2, an audio inlet, a DVI inlet, a USB inlet and an alternating current power interface, the receiving box is connected with the interface of a connecting plate through a circuit, the transmitting card is connected with the connecting plate through a flat cable, two ends of the flat cable are respectively provided with connectors, and a terminal transmits information to the transmitting card, the sending card packs and sends the information to a receiving card arranged in the receiving box, the information is decompressed and processed, a lamp bead circuit connected with one end of the connecting plate through tin soldering is electrified, and the lamp beads display pictures on the transparent base material.

Example four:

as shown in fig. 2, the raw material of the substrate is PI or PET, the raw material solution is uniformly filled in the prepared mold, the filling cavity of the mold is rectangular, the middle part in the filling cavity is a rectangular convex part, the raw material is dried and cured, the formed transparent substrate is taken out, one surface of the transparent substrate is a concave part, the superconducting circuit is electroplated on the substrate by combining vacuum magnetron sputtering plating and vertical electroplating, one end of the connecting plate is soldered and fixed with the circuit on the transparent substrate, the circuit is carved on the concave part on one surface of one transparent substrate, the lamp bead is welded on the concave part on one surface of the transparent substrate by adopting the SMT technology, the other transparent substrate is mutually attached to the transparent substrate on which the lamp bead is arranged, the lamp bead is embedded between the concave parts of the two substrates, the two substrates are mutually attached by using the vacuum technology and sealed, or the whole of the transparent substrate is sealed by using the technology of encapsulating transparent glue to achieve the waterproof effect, the other end of the connecting plate is connected with an output signal terminal of the receiving card, when the LED lamp is used for a product, a sealing effect can be achieved on a lamp bead arranged in the product, the LED lamp can be used outdoors, a waterproof effect is achieved, and the method can replace a flexible screen made of PI or PET with a rigid screen made of glass.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. However, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Under the condition of no more limitation, the element limited by the sentence 'include a reference structure' does not exclude that other same elements exist in the process, method, article or equipment including the element, the required photo and video are selected by checking the recorded photo and video at the terminal, the selected video is decomposed into photos through the terminal, the required decomposed photo is selected again, all the required photos are arranged, a low-pass filtering method is firstly carried out, the noise in the image is removed, high-frequency signals such as edges and the like are enhanced, the blurred image is made to be clear, the spatial domain image enhancement method is then used for carrying out gray level correction, gray level transformation, histogram correction and the like, meanwhile, the image enhancement processing is carried out on the photo, and when the dynamically blurred photo exists, the terminal classifies the dynamically blurred photo and the dynamic blur restoration processing is carried out at the same time.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The LED transparent display and dynamic picture synchronous transmission display equipment is characterized by comprising a power supply conversion module (1), a sending module (2), a receiving module (3), a connecting module (4) and a display module (5);

the power supply conversion module: the power supply conversion module (1) converts the voltage of 220V into direct current 5V;

a sending module: the sending module (2) is a sending card, and the sending card packs and sends the video signal of the terminal to a receiving card;

a receiving module: the receiving module (3) consists of a receiving box and a receiving card, the sending module (2) is electrically connected with the receiving module (3), and the receiving card decompresses the information sent by the sending module (2) and then carries out image processing;

a connecting module: the connecting module (4) is a connecting plate, and the connecting plate is connected with the display module (5) in a soldering way;

a display module: the display module (5) is composed of a transparent substrate and a lamp bead matrix, and the lamp beads are welded on one surface of the transparent substrate through an SMT technology.

2. An LED transparent display and dynamic picture synchronous transmission display process is characterized by comprising the following steps:

ASp 1: preparation of the substrate: mixing and hot melting the selected raw materials, uniformly filling the raw materials into a mold, heating and drying the raw materials, separating the transparent base material from the mold to form a transparent base material, and recovering the transparent base material for later use;

BSp 1: preparation of the substrate: mixing and hot melting the selected raw materials, uniformly filling the raw materials into a mold, heating and drying the raw materials, separating the transparent base materials from the mold to form the transparent base materials, fixing a convex part in a filling cavity of the mold, wherein one surface of the formed transparent base materials is a concave part, the concave parts of the two transparent base materials can be mutually attached, and the transparent base materials are recovered for later use;

ASp 2: installing lamp beads: the lamp beads are internally provided with chips and are connected with each other through circuits, the lamp beads are welded on a transparent screen in the correct position and the correct direction through an SMT technology, a plurality of transparent substrates pasted with the lamp beads are subjected to hot melting and sealing, one end of a connecting plate is used for being soldered and fixed with the circuits on the transparent substrates, and the other end of the connecting plate is connected with an output signal terminal of a receiving card;

BSp 2: installing lamp beads: the lamp beads are internally provided with chips, the lamp beads are connected through a circuit, the lamp beads are welded on a concave part between two pieces of transparent base materials through an SMT technology, the two pieces of transparent base materials are sealed in a hot melting mode, and one end of a connecting plate is fixed with the circuit on the transparent base materials in a soldering mode;

sp3 connection of the device: the power converter changes the voltage and sequentially connects the terminal, the sending card, the receiving box and the connecting plate;

sp4 picture transmission: the terminal sends information to the sending card, the sending card packs the information and sends the information to a receiving card arranged in the receiving box, the information is decompressed and processed, a lamp bead circuit connected with one end of the connecting plate in a tin soldering mode is powered on, and the lamp beads display pictures on the transparent base material.

3. The LED transparent display and dynamic picture synchronous transmission display process according to claim 2, wherein: the base material is PI or PET, the superconducting circuit is electroplated on the substrate by combining vacuum magnetron sputtering plating and vertical electroplating, single-sided electroplating and double-sided electroplating can be carried out, and one end of the connecting plate is fixed with the circuit on the transparent base material by soldering;

the superconducting circuit board is characterized in that the base material is PI or PET, the raw material solution is uniformly filled in a prepared die, a filling cavity of the die is rectangular, a rectangular convex part is arranged in the middle of the filling cavity, the formed transparent base material is taken out after the raw material is dried and cured, a concave part is arranged on one surface of the transparent base material, the superconducting circuit is electroplated on the base plate by combining vacuum magnetron sputtering plating and vertical electroplating, and one end of a connecting plate is fixed with a circuit on the transparent base material through tin soldering.

4. The LED transparent display and dynamic picture synchronous transmission display process according to claim 2, wherein: the lamp beads are RGB lamp beads with internally sealed chips, circuits of the lamp bead chips are provided with MCU single-wire digital interfaces, data latches, a TX1816 constant current driving special circuit integrating LED constant current driving, PWM luminance control and a gamma correction circuit, a communication transmission circuit of the lamp beads is TX1816ZC, a TX1816ZC is in a single-wire communication mode, and signals are sent in a return-to-zero code mode.

5. The LED transparent display and dynamic picture synchronous transmission display process according to claim 2, wherein: transparent substrate one side is carved with the circuit, and transparent substrate one side coating soldering paste, soldering paste Sn: pb = 60: 35, the viscosity is 180-;

the lamp pearl adopts the welding of SMT technique to laminate the transparent substrate of another transparent substrate and lamp pearl installation each other in the depressed part of transparent substrate one side, and lamp pearl gomphosis between the depressed part of two substrates, laminates each other with the vacuum technique, seals it, perhaps utilizes the technique of embedment transparent adhesive tape to seal its whole in order to reach water-proof effects, the connecting plate other end is connected with the output signal terminal of receiving card.

6. The LED transparent display and dynamic picture synchronous transmission display process according to claim 2, wherein: the power converter converts 220V voltage into direct current 5V, the sending card and the terminal are respectively connected through a network cable, a serial port line and an HDMI video high definition transmission line, the sending card and the receiving box are connected through a network cable, a receiving card is arranged in the receiving box, the receiving box is connected with an interface of a connecting plate through a line, the sending card and the connecting plate are connected through a flat cable, connectors are respectively installed at two ends of the flat cable, the terminal sends information to the sending card, the sending card packs the information to the receiving card arranged in the receiving box, decompression and post-processing of the information, a lamp bead circuit connected with one end of the connecting plate in a soldering mode is electrified, and a picture is displayed on a transparent base material by the lamp bead.

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