RU2779396C1 - Method for replacing the protective glass of the display module for mobile devices - Google Patents

Abstract

FIELD: protective coatings.

SUBSTANCE: invention relates to a method for replacing the damaged protective glass of a display module for mobile devices. The expected result is achieved by replacing the protective glass of the display module, which includes dismantling the display module consisting of a functional component and protective glass from the frame, removing the damaged glass from the display, cleaning the display surface from glue residues, cleaning the display from dust, bonding the intact glass to the display with glue and removing air residues between the intact glass and the display. At the same time, before removing the display module from the frame and removing the damaged glass from the display, the damaged glass surface is duct-taped over the entire plane, then the display module is removed from the frame, providing heating of 60-100°C for 5-6 minutes. Disassembly of the display module is carried out by means of a flexible metal plate with a thickness of no more than 0.1 mm, which after 2-3 minutes of heating is inserted between the display module and the frame, forming a gap 2-3 cm long, where a plastic plate with a thickness of 0.1-0.2 mm is inserted and passed between the display module and the frame around the perimeter. Then the damaged glass is removed from the display, at a temperature of 85-100°C. Removal of the damaged glass from the display is carried out with a diamond-coated wire with a diameter of 0.03-0.05 mm. In the process of removing the damaged glass, a solvent of 0.3–0.8 ml is added to the section of the adhesive layer every 2-3 cm. After removing the damaged glass, the display is cleaned of glue residues at a temperature of 85-100°C. To remove glue residues, they are moistened with a solvent. The glue residues are removed by means of a mini drill, then the glue microparticles are removed from the display surface with a hard microporous sponge. After-cleaning of the functional component from dust is carried out with anti-pile wipes in anti-dust conditions. Then the cleaned display is placed on a silicone mat made according to the shape of the display. Then glue is applied to the undamaged glass. Then the undamaged glass is attached to the display. Then the display with the intact glass fixed on it is placed in an autoclave and vacuum lamination is carried out for 32-40 seconds at a press temperature of 30-40°C. At the same time, vacuum lamination for flat display modules is carried out at an increased pressure of no more than 2 atm, and for curved display modules from 3 to 4 atm. Then the display module is placed in the chamber to remove the remaining air between the display and the intact glass, heating up to 40-45°C at a pressure of 10 atm for 30 minutes.

EFFECT: increase in the safety of replacing the protective glass of the display module to maintain the operability of the display and ensuring the quality of the display module after repair at the level inherent in the factory, as well as increasing the efficiency of the method, including by reducing the repair time.

7 cl, 2 ex

Description

The invention relates to the field of repair of mobile devices, namely to a method for replacing a damaged protective glass of a display module for mobile devices.

Mobile devices in the present invention refers to smartphones, tablet computers, and the like.

The display module in the present invention refers to a functional display component glued together with an optically transparent glue (terminology as in RF patent No. 2628318) and a protective glass. In this case, the display module is placed in the housing part of the mobile device, which is a frame (terminology as in RF patent No. 2628318).

The invention can be used when the protective glass of the display module is damaged on the mobile device, while being fully operational (the screen clearly transmits an image and responds to touches).

From patent No. US10836151, a method for separating a display and a protective glass from each other is known. The protective glass and the display can be connected to each other with an optical transparent adhesive. The method can be applied when failures occur in the display panel, the glass can be reused by separating it from the display. In an embodiment of the invention according to patent No. US10836151, a method for separating glass and a display module is disclosed, including heating the display by placing it on a heating plate and heating it to a temperature of from about 50°C to about 150°C to soften the adhesive. Further in the process of separating the glass from the display, the display surface is also maintained at a temperature of from about 50°C to about 150°C. Simultaneously with the heating of the display module, a collapsible rod is inserted between the glass and the display, which includes at least one of the materials: polyethylene, acetal or monolithic nylon, and moves to sequentially separate the various edges of the display panel and glass from different sides of the device. The method may also include cleaning the glass after separating the display and glass from each other. The glass cleaning process may be a process of removing the residue of the detached adhesive layer that remains on the glass that has been separated from the display panel. The glass cleaning process may include physical glass cleaning or chemical cleaning. Each physical window cleaning process and the chemical glass cleaning process may be performed (for example, simultaneously or as a single continuous process).

The disadvantage of the invention according to patent No. US10836151 is that the method is designed to save the protective glass of the display module for its reuse in case of malfunction of the functional component of the display, i.e. the method is not intended for repairing the display module after the protective glass has been damaged. In addition, the use of a collapsible rod made of polyethylene, acetal or monolithic nylon to remove the protective glass from the functional component of the display leads to contamination of the rod during the removal of the protective glass, as a result of which it must be cleaned of glue, which slows down the process.

From the invention according to patent No. US11097439, a method for replacing a damaged protective glass of a display module on a mobile phone using a wire is known. Removal of damaged protective glass can be done by cutting through the intermediate adhesive layer between the glass and the electronic display with a moving wire. The wire has a thickness less than or equal to the thickness of the intermediate layer. The display and the wire move relative to each other so that the wire will gradually penetrate the interlayer and separate the glass from the electronic display, cutting the interlayer. At the same time, an option is provided for heating the wire for faster cutting or melting of the intermediate layer. The wire will naturally heat up as it moves through the layer, and the heat will help melt the layer, speeding up the process even more. To further increase the cutting action of the wire, the wire itself can be heated either indirectly, by means of a heating block adjacent to the wire, or by passing a current through the wire. Nickel-chromium or other resistive wire is preferred, but this wire can be heated by magnetic induction, especially if it is ferromagnetic. To further increase the cutting action and limit the risk of damage to the electronic display, the blade (and to a lesser extent the wire) can be cooled on the surface that contacts the electronic display and heated on the surface that contacts the glass and its front cutting edge. The glass of the display module can be made hotter than the electronic layer to facilitate melting or softening of the intermediate layer to improve separability. This can be combined with the methods mentioned above using a wire, a blade, and a solvent (an acid that attacks the interlayer). Also, the method may further include the step of applying a solvent to the cutting device, wherein said solvent is capable of softening the intermediate layer. The wire or blade may also pass through a puddle or splash of solvent (acid, base, alcohol, etc.) that can help dissolve the adhesive layer.

The disadvantage of the method according to patent No. US11097439 is the lack of efficiency and quality of repair. Using a wire to separate a damaged protective glass from a functional display component when the temperature of the display module is below 60 °C and/or higher than 100 °C may damage the functional display component and make it difficult to separate the damaged protective glass from the functional display component due to the fact that the adhesive layer is not sufficiently softened.

Patent Document No. KR20190041424 criticizes the method of using a thin iron wire when removing the protective glass from a functional display component, due to the fact that during the cutting process of the adhesive layer, the wire breaks and the process is interrupted, and the metal wire can scratch the object. The invention of Patent Document No. KR20190041424 is characterized by the use of a tape-shaped film made of non-metallic synthetic resin instead of wire. At the same time, in the description of the invention it is indicated that the OKA glue existing on the object being processed can stick to the film, which leads to a deterioration in the quality of performance and it is proposed to apply a layer of a water-repellent coating on the film. During the removal of the protective glass, the display module is located on the heating device.

The disadvantages of the invention according to patent document No. KR20190041424 is that the use of a tape-shaped synthetic resin film complicates the process of removing the protective glass from the functional display component due to the fact that it is necessary to monitor the application of a water-repellent coating to the thread in order to avoid contamination. At the same time, the possibility of breaking the wire, which is criticized in patent No. KR20190041424, on the contrary, makes it possible to make the process of cutting the adhesive layer safer for the functional component of the display, since excessive tension of the cutting tool can damage the functional component of the display, and breaking the wire with excessive tension avoids such damage. and check that the functional component of the display remains operational.

From patent document No. KR20180113663, a method is known for separating display module elements by reducing the bonding force of the adhesive layer using the device disclosed in the patent, which includes a heating plate and a temperature controller, on which the temperature range necessary to reduce the bonding force of the adhesive layer between the protective glass and the rest is set. part of the display module (display part) without damaging the elements of the display module. The method, according to patent document No. KR20180113663, includes the steps of: separating the glass from the display part, connected by an adhesive layer; removal of adhesive remaining on the display part and glass; cleaning the display part and the glass part; loading the display block and the glass block onto the loading block. The step of separating the glass from the display portion bonded with an adhesive layer may include: placing a display module on a heating plate of a display heating device; setting the temperature within the range at which the bonding force of the adhesive layer is reduced and the display is not damaged; inserting a separating element of the device between the display and glass; separating the display and glass by spraying liquid between them. The separating element of the device may be thinner than the adhesive layer between the glass and the display part.

The disadvantage of this invention is its complexity. The difficulty lies in the fact that the temperature control for heating the display module depends on the bonding strength of the adhesive layer between the protective glass and the functional component of the display, that is, in the process of removing the protective glass, it is necessary to measure the bonding force of the adhesive layer in order to select the optimal temperature.

Patent Document No. US2020391362 criticizes the method of using wire when removing the protective glass from the display module due to the fact that the wire breaks during the process and requires the use of both hands, it can only be used for pulling movements, which limits its application. In patent document No. US2020391362, when separating glass from a display module, it is proposed to use a tool made of any material with a thickness of less than 0.15 mm. The tool has smooth edges, which allows for a smoother cut of the adhesive layer, while at the same time better avoiding damage to the digitizer (sensor), since the smooth surface of the underside glides gently over it. The tool moves from side to side during installation until the tool cuts through all of the adhesive holding the piece of glass. A heat source is also used to supply heat throughout the process to soften the adhesive, thus making the process easier. Isopropyl alcohol or other solvents can be periodically applied to the tool to reduce the resistance created by the adhesive and also to further soften the adhesive.

The disadvantages of the solution according to patent document No. US2020391362 is the insufficient quality and efficiency of the repair. The ability to break the wire, which is criticized in patent No. US2020391362, on the contrary, makes the process of cutting the adhesive layer between the protective glass and the functional display component safer for the functional display component, since excessive tension of the cutting tool can lead to damage to the functional display component, and breaking the wire if excessive tension allows you to avoid such damage and to check the continued operation of the functional component of the display. However, the use of a hard object may lead to the fact that if pressed excessively during its movement between the protective glass and the functional display component, there is a risk of damage to the functional display component. In addition, the employment of both hands when using the wire does not affect the speed of repair when using a specialized device with a vacuum compressor and mechanical fasteners during the removal of the protective glass, which makes it possible to stably fix the display module on the work surface.

US10011090 discloses methods for evenly applying adhesive between layers of a display module, among which vacuum lamination and autoclaving can be used. These methods are used to prevent the appearance of bubbles and other defects in the adhesive layer. Autoclaving involves exposing the module to elevated ambient pressure for an extended period of time. Autoclaving may also include heating the module. For example, the module may be placed in an autoclave chamber for a period of 15 to 45 minutes in which the temperature is 35 to 65°C and the ambient pressure is 300 to 600 kilopascals (kPa). Vacuum lamination involves exposing an electronic device module to a reduced ambient pressure for an extended period of time. Vacuum lamination may also involve heating the module. For example, the module may be placed in a vacuum chamber for one to 30 seconds in which the temperature is 25 to 50°C and the ambient pressure is 0.1 to 3.0 kPa. Both methods can be used to create a module with two layers and adhesive between the layers.

The disadvantage of the methods disclosed in patent No. US10011090 is that the implementation of the method does not take into account the model of the display module - flat or curved, which entails the possibility of unreliable fastening of the glass on the functional component of the display and the occurrence of defects in the adhesive layer (for example, the appearance of bubbles, peeling off the adhesive etc.). In addition, autoclaving in US10011090B1 takes a long time.

The method according to patent No. US10011090B1 is selected as the closest analogue (Prototype).

The technical problem solved by the invention is the creation of a reliable and safe method for replacing the protective glass of a display module for a mobile device with factory quality.

The technical result achieved by the invention is to increase the safety of replacing the protective glass of the display module of a mobile device to maintain the operability of the functional component of the display and to ensure the quality of the display module after repair without dust, bubbles and other defects, as well as to increase the efficiency of the method by reducing the repair time.

The claimed technical result is achieved by the fact that in the method for replacing the protective glass of the display module for a mobile device, which includes dismantling the display module consisting of a functional component and a protective glass from the frame, removing the damaged protective glass from the functional display component, cleaning the surface of the functional display component from optically transparent remnants adhesive after removing the damaged protective glass, additional cleaning of the functional display component from dust and other foreign microparticles, bonding the intact protective glass to the functional display component using optically transparent glue, connecting the intact protective glass to the functional display component and removing air residues between the intact protective glass and the functional component display, according to the invention, before dismantling the display module from the frame and removing the damaged protective glass from the functional component of the display, I glue t tape the damaged surface of the protective glass over the entire plane, then dismantle the display module from the frame, providing heating of the display module in the temperature range of 60 - 100 ° C for 5-6 minutes while dismantling the display module, dismantling the display module is carried out first by using a flexible metal a plate with a thickness of not more than 0.1 mm, which, after the first 2-3 minutes of heating the display module, is inserted between the display module and the frame, forming a gap of 2-3 cm between the display module and the frame, then into the gap formed between the display module and the frame 2-3 cm insert a plastic plate with a thickness of 0.1 - 0.2 mm and pass it between the display module and the frame around the entire perimeter, remove the damaged protective glass from the functional component of the display, ensuring that the heating temperature of the display module is maintained in the temperature range of 85 - 100 ° C during the removal of the damaged protective glass, the removal of the damaged the protective glass from the functional component of the display is carried out using a diamond-coated wire with a diameter of 0.03 - 0.05 mm, in the process of removing the damaged protective glass from the functional component of the display, a solvent of 0.3 - 0.8 ml is periodically added to the cross section of the adhesive layer every 2-3 cm, after removing the damaged protective glass from the functional component of the display, the functional component of the display is cleaned from the remnants of optically transparent glue, ensuring that the heating temperature of the functional component of the display is maintained in the range of 85 - 100 ° C during its cleaning from the remnants of optically transparent glue , to remove the remnants of the optically transparent adhesive from the surface of the functional component of the display, they are wetted with a solvent, the removal of the remnants of the optically transparent adhesive moistened with the solvent is carried out first by using a mini-drill, then the microparticles of the remaining optically transparent adhesive are removed from the surface of the functional display component with a hard microporous sponge, additional cleaning of the functional display component from dust and foreign microparticles is carried out with anti-lint wipes under anti-dust conditions, then, under anti-dust conditions, the cleaned functional display component is placed on a silicone mat, made in the form of a functional display component and embossed under the component group and then, under anti-dust conditions, optically transparent glue is applied to the intact protective glass, then, under anti-dust conditions, the undamaged protective glass is attached to the functional display component using optically transparent glue, then the functional display component with the intact protective glass fixed on it is placed in autoclave and carry out vacuum lamination in the autoclave for 32 - 40 seconds at a press temperature of 30 - 40 ° C, while vacuum lamination for flat models For display modules, it is carried out at an increased pressure of not more than 2 atmospheres, and for curved models of display modules, vacuum lamination is carried out at an increased pressure of 3 to 4 atmospheres, then the display module is placed in a chamber that ensures the removal of air residues between the functional component of the display and the undamaged one attached to it. protective glass, while providing heating of the display module in the temperature range of 40 - 45 ° C at a pressure of 10 atmospheres for 30 minutes.

Removal of solvent-moistened residues of optically transparent glue is carried out by means of a mini-drill, made with the possibility of adjusting the rotation speed.

Removal of solvent-moistened residues of optically transparent glue is carried out using a mini-drill equipped with a silicone nozzle.

To remove microparticles of the remaining optically transparent adhesive from the surface of the functional display component, a melamine sponge is used as a hard microporous sponge.

Attachment of an intact protective glass to a functional display component with an optically transparent adhesive is carried out using an aluminum precision mold designed for a specific model of the display module.

OKA adhesive is used as an optically transparent adhesive to attach an intact protective glass to a functional display component.

OKA-adhesive in the form of OKA-film is used to attach the intact protective glass to the functional component of the display.

The inventive method is carried out as follows.

The claimed method includes the following main technological steps:

1) Taping the damaged surface of the protective glass of the display module of the mobile device with tape over the entire plane and dismantling the display module from the frame of the mobile device, ensuring that the display module is heated in the temperature range of 85 - 100 ° C for 5-6 minutes during the dismantling of the display module. In this case, the dismantling of the display module is carried out first by using a flexible metal plate with a thickness of not more than 0.1 mm, which, after the first 2-3 minutes of heating the display module, is inserted between the display module and the frame, forming a gap of 2-3 cm between the display module and the frame , then a plastic plate 0.1-0.2 mm thick is inserted into the 2-3 cm long gap formed between the display module and the frame and is passed between the display module and the frame along the entire perimeter.

At this stage, as a device for heating the display module to the specified temperatures, it is optimal to use a specialized well-known device - a vacuum separator with a rotating platform and a timer, which allows not only to control the necessary temperature conditions, but also to adjust the most convenient angle of rotation of the display module during repair, with At the same time, the size of the platform of such a device should provide the ability to accommodate any mobile devices with standard diagonal sizes (for example, https://www.alibaba.com/product-detail/NASAN-SP3-LCD-Separating-Machine-For_62021199427.html).

Taping the damaged surface of the protective glass of the display module of the mobile device with adhesive tape at this stage is necessary so that the fragments of the damaged protective glass do not move and do not damage the functional component of the display.

The dismantling of the display module from the frame of the mobile device is carried out at a heating temperature of the display module in the range of 60-100 °C for 5-6 minutes. This temperature regime and time interval allow you to change the properties of the optically transparent adhesive between the display module and the frame, thereby achieving its optimal softening for dismantling, and at the same time not damaging the operable functional component of the display.

After the first 2-3 minutes of heating the display module, a flexible metal plate with a thickness of not more than 0.1 mm is inserted between the display module and the frame to form a gap between the display module and the frame with a length of 2-3 cm.

Heating the display module for the first 2-3 minutes allows the adhesive layer to soften to a state that allows it to be safe for the functional display component to insert a flexible metal plate between the display module and the frame and form the necessary gap between them.

As a flexible metal plate with a thickness of not more than 0.1 mm, it is optimal to use a specialized well-known tool designed to separate the display module from the frame (for example, https://www.qianlispace.com/index/product/detail/id/288.html) , which, due to its shape and flexibility (unlike a knife or blade), allows you to make the process of working with a tool controlled. In addition, unlike the knife and blade, this tool has smooth edges (not sharp), which avoids damage to the functional component of the display and frame.

The thickness of the flexible metal plate, no more than 0.1 mm, makes it easy and safe for the functional display component to insert the plate between the display module and the frame and form a gap of 2-3 cm between them. The need for this gap and its length make it possible to quickly and without risk of damage to the functional component of the display insert a plastic plate with a thickness of 0.1 - 0.2 mm and pass it around the entire perimeter of the display module. The thickness of the plastic plate of 0.1 - 0.2 mm also allows you to gently, easily and quickly cut through the adhesive layer between the display module and the frame without damaging the functional display component.

If, during the use of a plastic plate, its difficult movement occurs, then it is recommended to add a few drops of a solvent to the cross section of the adhesive layer between the display module and the frame, which ensures the wettability of the surface between the display module and the frame, which, in turn, reduces the friction of materials, and thus thereby avoiding damage to a functional display component, as well as speeding up the dismantling procedure.

As a solvent added when dismantling the display module from the frame of a mobile device, any solvent intended for soft cleaning of mechanisms is usually used, for example, such as “contact clinker”, isopropyl alcohol, but the safest for the functional component of the display, effective and cheap, are:

- solvent gasoline for the rubber industry "Kalosha" (or "Galosha"), the trade name of the oil solvent "Nefras C2-80/120", which is a low-boiling fraction of dearomatized gasoline (best used for flat models of the display module);

- solvent - a solvent consisting of approximately aromatic hydrocarbons and unsaturated hydrocarbons, reassigned for softer cleaning of softer materials (it is best to use for curved display module models, since it is less aggressive for contacts and has a greasy, sliding effect, reducing the friction of materials).

2) Removing the damaged protective glass from the functional component of the display while maintaining the heating temperature of the display module dismantled from the frame of the mobile device in the range of 85 - 100 ° C during the removal of the damaged protective glass using a diamond-coated wire with a diameter less than the thickness of the adhesive layer between the damaged protective glass and a functional component of the display, and with the periodic addition of an adhesive layer to the cross section in the process of removing the damaged protective glass of the solvent, 0.3 - 0.8 ml each.

At this stage, as well as at the previous stage, as a device for heating the display module, it is optimal to use a device - a vacuum separator with a rotating platform and a timer, which allows not only to control the necessary temperature conditions, but also to adjust the most convenient angle of rotation of the display module during repair .

Removal of damaged protective glass from the functional component of the display is carried out at a heating temperature of the display module in the range of 85–100 °C. This temperature regime allows you to change the properties of the optically transparent adhesive between the damaged protective glass and the functional display component, thereby achieving optimal softening of the adhesive for removing the protective glass, and at the same time not damaging the operable functional display component.

For damaged protective glass from the functional component of the display, use a diamond-coated wire with a diameter less than the thickness of the adhesive layer between the glass and the matrix of the display module. In this case, the optimal diameter of the wire used during the removal of damaged glass is 0.03 - 0.05 mm. The specified wire thickness makes it easy to cut through the adhesive layer between the damaged protective glass and the functional display component, and the diamond coating of the wire protects it from contamination, which avoids the need to clean the wire from the adhesive, thereby reducing the time spent on repairs. Unlike other tools used in the removal of a damaged protective glass and a functional display component, the wire is the safest for the functional display component, as excessive tension causes the wire to break, thereby avoiding damage to a working functional display component.

During the removal of the damaged protective glass from the functional component of the display with a diamond-coated wire, a solvent is periodically added to the cross section of the adhesive layer between the damaged protective glass and the functional component of the display, 0.3 - 0.8 ml every 2-3 cm. The indicated amount of solvent and frequency its addition ensures wettability of the entire surface between the functional display component and the protective glass, which in turn reduces the friction of materials, thereby avoiding damage to the operable functional display component.

As a solvent added when removing a damaged protective glass from a functional display component, use any of the above types of solvent for gentle cleaning of materials.

3) Cleaning the functional component of the display from the remnants of the optically transparent adhesive while maintaining the heating temperature of the functional component of the display in the range of 85 - 100 ° C during its cleaning from the remnants of the optically transparent adhesive and sequentially performing the following actions: applying a solvent to the remnants of the optically transparent adhesive, removing wetted solvent of optically transparent adhesive residues by using a mini-engraver, removing microparticles of the remaining optically transparent adhesive with a hard microporous sponge.

At this stage, as well as at the previous stage, it is optimal to use a device - a vacuum separator with a rotating platform and a timer, as a device for heating the functional component of the display, which allows not only to control the necessary temperature conditions, but also to adjust the most convenient angle of rotation of the functional component of the display during repair time.

The cleaning of the functional component of the display from the remnants of the optically transparent adhesive is carried out at a heating temperature of the display module in the range of 85 - 100 °C. This temperature mode allows you to maintain the optically transparent adhesive in a softened state at an optimal level for its removal and at the same time not damage the operable functional component of the display.

To gently remove residual optically transparent adhesive from the surface of the functional display component, wet them with any of the above types of solvent for gentle cleaning of materials.

Removal of solvent-moistened residues of optically transparent adhesive from the surface of the functional component of the display is carried out first by using a mini-drill, made with the possibility of adjusting the rotation speed and equipped with a silicone nozzle (for example, https://aliexpress.ru/item/4000071467632.html?spm=a2g0o .search0302.0.0.1d2f3b01HI3ai5&algo_pvid=126d86ec-be37-4761-abbe-2f6f7250560b&algo_expid=126d86ec-be37-4761-abbe-2f6f7250560b7&btsid=0b8b034e16357663889435168e97f9&ws_ab_test=searchweb0_0,searchweb201602_,searchweb201603). Adjusting the speed of rotation of the mini-drill and silicone nozzle allow you to gently and effectively remove optically transparent glue without damaging the sensitive surface of the functional component of the display, due to the ability to control the speed of rotation of the drill nozzle and silicone properties that reduce adhesion (adhesion force of dissimilar surfaces of optically transparent adhesive and display functional component).

As an alternative to the silicone nozzle, a thin metal flexible rod is also used (for example, https://aliexpress.ru/item/4000637065270.html?sku_id=10000005807356296&spm=a2g2w.productlist.0.0.77741f5ce0r9EK), which, due to its shape and flexibility, allows you to assemble optically transparent adhesive from the surface of the functional component of the display, but the specified rod is less effective than the silicone nozzle.

The removal of microparticles of the remaining optically transparent adhesive from the surface of the functional component of the display is carried out with a hard microporous sponge. The use of a hard microporous sponge makes it possible to effectively clean the surfaces of the functional display component from adhesive microparticles, since such a sponge gets into the smallest irregularities (micropores, microcracks, etc.) on the surface being cleaned. As such a sponge, melamine sponges are currently known.

4) Additional cleaning of the functional component of the display from dust and other foreign microparticles is carried out with anti-lint wipes in anti-dust conditions with increased illumination and green glow. As a device that provides anti-dust conditions with increased illumination and green glow, a specialized well-known device can be used - a portable dustproof workroom with the ability to ventilate the working surface from dust and other foreign microparticles (for example, https://aliexpress.ru/item/4000693951712 .html?spm=a2g2w.productlist.0.0.2b416c2fFh38OM).

Operation in these conditions allows to reduce the level of dust and other foreign microparticles on the functional component of the display, as well as to ensure their effective detection and removal. The use of anti-lint wipes makes it possible to avoid dust, lint and other microparticles from getting on the surface of the functional display component due to the properties of the wipes material and thus to clean the display functional component as efficiently as possible. Compliance with the specified set of conditions for post-cleaning of the functional component of the display makes it possible to avoid the ingress of dust or other foreign microparticles between the protective glass and the functional component of the display, thereby eliminating the appearance of defects in the display module after repair and ensuring the quality of the display module after repair at the level inherent in the factory.

5) Fastening to the functional component of the display of an undamaged protective glass, where, under anti-dust conditions, the cleaned functional component of the display is placed on a silicone mat, made in the form of a functional component of the display and having embossing for the component group and the cable of the matrix of the functional display component (https://aliexpress.ru /item/4000160923686.html?spm=a2g2w.productlist.0.0.39e054694cWP43), then, under anti-dust conditions, an optically transparent adhesive is applied to the intact protective glass and the intact protective glass is attached to the functional component of the display using optically transparent adhesive.

An undamaged protective glass is also attached to the functional display component in anti-dust conditions to avoid dust and other foreign microparticles getting between the protective glass and the functional display component.

The placement of the functional display component on a silicone mat, made in the shape of the functional display component and having embossing for the component group and the cable of the matrix of the functional display component, is necessary so as not to damage the functional display component during the pressing process, and to evenly distribute pressure over the entire surface of the functional display component .

An optically clear adhesive is used to attach the intact protective glass to the functional display component. OKA glue is currently known as such an adhesive, which can be liquid or in the form of an OKA film (https://aliexpress.ru/item/4000436960726.html?spm=a2g2w.productlist.0.0.7b2e127ebdhAhr). To fix an intact protective glass to a functional display component, it is optimal to use OKA-glue in the form of OKA-film, since the application of OKA-film allows you to evenly distribute the adhesive layer and provide more reliable fixing of the intact protective glass on the functional display component.

An undamaged protective glass is attached to a functional display component using an optically transparent adhesive using an aluminum high-precision mold designed for a specific display module model (for example, https://aliexpress.ru/item/32971945851.html?spm=a2g2w.productlist.0.0. 39ed251caIXRBP).

The specified shape allows you to maintain the exact distance and gaps so that the display module turns out to be even, without distortions relative to the functional component of the display to the protective glass.

6) Connection of an intact protective glass with a functional display component, where the functional display component with an intact protective glass fixed on it is placed in an autoclave and vacuum lamination is carried out in the autoclave for 32-40 seconds at a press temperature of 30-40 ° C, while vacuum lamination for flat models of display modules, vacuum lamination is carried out at an increased pressure of not more than 2 atmospheres, and for curved models of display modules, vacuum lamination is carried out at an increased pressure of 3 to 4 atmospheres.

These modes are the safest for the functional display component and at the same time ensure that the undamaged protective glass is securely attached to the functional display component with factory quality.

As an apparatus for vacuum lamination, a specialized well-known autoclave device is used (for example, .html https://aliexpress.ru/item/4000285929471).

7) Removal of residual air by the functional component of the display and the intact protective glass attached to it, where the display module is placed in a chamber that ensures the removal of residual air between the functional component of the display and the intact protective glass attached to it, while ensuring that the display module is heated in the temperature range of 40 - 45 °C at a pressure of 10 atmospheres for no more than 30 minutes.

These modes are the safest for the functional display component and at the same time provide efficient removal of air between the intact protective glass and the functional display component with factory quality.

As a chamber that ensures the removal of air residues between the functional component of the display and the undamaged protective glass fixed to it, a specialized well-known device "Deadbl" is used (for example, https://www.szmtriangel.com/products/m-triangel-bubble-remover -machine).

Both examples of the proposed method were carried out in accordance with the above steps and modes.

Example 1 of the proposed method in the case of a flat model of the display module.

Before removing the damaged protective glass from the functional component of the display, the damaged surface of the protective glass is sealed with adhesive tape over the entire plane, then the display module is dismantled from the frame, ensuring that the display module is heated on a vacuum separator with a rotating platform and a timer at a temperature of 95 ° C for 5 minutes during dismantling display module. After the first 2 minutes of heating the display module with a flexible metal plate 0.1 mm thick, a gap of 2 cm is formed between the display module and the frame, and then a plastic plate with a thickness of 0.1 mm is inserted into the specified gap and is carried out along the entire perimeter of the display module. After the display module has been dismantled from the frame, remove the damaged protective glass from the functional display component, ensuring that the heating temperature of the display module is maintained at 95 °C while the damaged protective glass is removed. The removal of damaged protective glass from the functional component of the display is carried out by means of a diamond-coated wire with a diameter of 0.04 mm, adding 0.5 ml of gasoline-solvent for the rubber industry "Kalosha" ("Nefras C2-80/120") to the cross section of the adhesive layer every 3 cm. After removing the damaged protective glass from the functional component of the display, the functional component of the display is cleaned from the remnants of OKA-glue, ensuring that the heating temperature of the functional component of the display is maintained at 95 °C during its cleaning. To remove residual OKA-glue from the surface of the functional component of the display, they are moistened with gasoline-solvent for the rubber industry "Kalosha" ("Nefras C2-80/120"). Further, the removal of OKA-glue residues moistened with the specified solvent is carried out first by using a mini-drill with adjustable speed and a silicone nozzle, then the microparticles of the remaining OKA-glue are removed from the surface of the functional component of the display with a melamine sponge. Additional cleaning of the functional component of the display from dust and foreign microparticles is carried out with anti-lint wipes in anti-dust conditions with increased illumination and green glow. Then, under anti-dust conditions, the cleaned functional display component is placed on a silicone mat, made in the form of a functional display component and embossed under the component group and the matrix cable of the functional display component, then, under anti-dust conditions, an OKA-film is applied to the intact protective glass and the intact protective glass is fixed to the functional component of the display via OKA film using a high-precision aluminum mold designed for a specific model of the display module. Then the functional display component with the intact protective glass attached to it is placed in an autoclave and vacuum lamination is carried out in the autoclave for 35 seconds at a press temperature of 35 °C at an elevated pressure of 2 atmospheres. Then the display module is placed in the Debubble chamber, while heating the display module at a temperature in the range of 45 ° C at a pressure of 10 atmospheres for a time of 30 minutes.

Example 2 of the proposed method in the case of a curved model of the display module.

Before removing the damaged protective glass from the functional component of the display, the damaged surface of the protective glass is sealed with adhesive tape over the entire plane, then the display module is dismantled from the frame, ensuring that the display module is heated on a vacuum separator with a rotating platform and a timer at a temperature of 95 °C for 6 minutes. After the first 3 minutes of heating the display module with a flexible metal plate 0.1 mm thick, a gap of 3 cm is formed between the display module and the frame, and then a 0.1 mm thick plastic plate is inserted into the specified gap and is carried out along the entire perimeter of the display module. After the display module has been dismantled from the frame, remove the damaged protective glass from the functional display component, ensuring that the heating temperature of the display module is maintained at 95 °C while the damaged protective glass is removed. The removal of the damaged protective glass from the functional component of the display is carried out using a diamond-coated wire with a diameter of 0.04 mm, adding a solvent solvent of 0.5 ml every 2 cm to the cross section of the adhesive layer. After removing the damaged protective glass from the functional component of the display, the functional of the display component from OKA-glue residues, ensuring that the heating temperature of the functional display component is maintained at 95 ° C during its cleaning. To remove residual OKA-glue from the surface of the functional component of the display, they are moistened with a solvent solvent. Further, the removal of OKA-glue residues moistened with the specified solvent is carried out first by using a mini-drill with adjustable speed and a silicone nozzle, then the microparticles of the remaining OKA-glue are removed from the surface of the functional component of the display with a melamine sponge. Additional cleaning of the functional component of the display from dust and foreign microparticles is carried out with anti-lint wipes in anti-dust conditions with increased illumination and green glow. Then, under anti-dust conditions, the additionally cleaned functional display component is placed on a silicone mat, made in the form of a functional display component and having an embossment for the component group and a cable of the matrix of the functional display component, then, under anti-dust conditions, an OKA-film is applied to the intact protective glass and the intact protective glass is fastened to the functional component of the display via OKA film using a high-precision aluminum mold designed for a specific model of the display module. Then the functional display component with the intact protective glass attached to it is placed in an autoclave and vacuum lamination is carried out in the autoclave for 35 seconds at a press temperature of 35 °C at an elevated pressure of 4 atmospheres. The display module is then placed in the Debubble chamber while heating the display module at a temperature in the range of 45° C. at a pressure of 10 atmospheres for 30 minutes.

As a result of the implementation of the proposed method, in both examples, a fully functional display module was obtained with the quality inherent in the factory - both in terms of the reliability of the protective glass fastening, and in the absence of dust particles, bubbles, and other defects between the functional component and the protective glass. Reduced repair time by reducing autoclaving time compared to the closest equivalent.

Claims (7)

1. A method for replacing the protective glass of a display module for mobile devices, which includes dismantling the display module consisting of a functional component and a protective glass from the frame, removing the damaged protective glass from the functional display component, cleaning the surface of the functional display component from optically transparent adhesive residues after removing the damaged protective glass , additional cleaning of the functional display component from dust and other foreign microparticles, bonding the intact protective glass to the functional display component using optically transparent glue, connecting the intact protective glass to the functional display component and removing air residues between the intact protective glass and the functional display component, characterized in that before dismantling the display module from the frame and removing the damaged protective glass from the functional component of the display, tape the damaged surface of the protective glass with adhesive tape the entire plane, then the display module is dismantled from the frame, providing heating of the display module in the temperature range of 60–100 ° C for 5-6 minutes during the dismantling of the display module, the dismantling of the display module is carried out first by using a flexible metal plate with a thickness of not more than 0.1 mm, which after the first 2-3 minutes of heating the display module is inserted between the display module and the frame, forming a gap of 2-3 cm between the display module and the frame, then a plastic plate is inserted into the gap formed between the display module and the frame of 2-3 cm 0.1-0.2 mm thick and pass it between the display module and the frame around the entire perimeter, remove the damaged protective glass from the functional display component, ensuring that the heating temperature of the display module is maintained in the temperature range of 85-100 ° C during the removal of the damaged protective glass , removing the damaged protective glass from the functional component of the display using a diamond-coated wire with a diameter of 0.03-0.05 mm, in the process of removing the damaged protective glass from the functional component of the display, periodically add a solvent of 0.3-0.8 ml to the cross section of the adhesive layer every 2-3 cm, after removing the damaged protective glass from the functional display component, the functional display component is cleaned from the remnants of the optically transparent glue, ensuring that the heating temperature of the functional display component is maintained in the range of 85-100 ° C during its cleaning from the remnants of the optically transparent adhesive, to remove the remnants of the optically transparent adhesive they are wetted from the surface of the functional component of the display with a solvent, the remnants of the optically transparent adhesive moistened with the solvent are removed first by using a mini-drill, then the microparticles of the remaining optically transparent adhesive are removed from the surface of the functional component of the display with a hard microporous sponge, additional cleaning of the functional display component from dust and foreign microparticles is carried out with anti-lint wipes under anti-dust conditions, then, under anti-dust conditions, the cleaned functional display component is placed on a silicone mat, made in the form of a functional display component and having embossing for the component group and the cable of the matrix of the functional display component, then in under anti-dust conditions, an optically transparent adhesive is applied to the intact protective glass, then, under anti-dust conditions, the intact protective glass is attached to the functional display component using optically transparent glue, then the functional display component with the intact protective glass fixed on it is placed in an autoclave and vacuum lamination is carried out in the autoclave in for 32–40 s at a press temperature of 30–40°C, while vacuum lamination for flat models of display modules is carried out at an increased pressure of no more than 2 atm, and for iso bent models of display modules, vacuum lamination is carried out at an elevated pressure of 3 to 4 atm, then the display module is placed in a chamber that removes air residues between the functional component of the display and the undamaged protective glass fixed to it, while ensuring that the display module is heated in the temperature range of 40– 45°C at a pressure of 10 atm for 30 min. 2. The method for replacing the glass of a display module for mobile devices according to claim 1, characterized in that the removal of solvent-moistened residues of optically transparent glue is carried out using a mini-drill, made with the ability to adjust the speed of rotation. 3. The method of replacing the glass of the display module for mobile devices according to paragraphs. 1 and 2, characterized in that the removal of solvent-moistened residues of optically transparent glue is carried out using a mini-drill equipped with a silicone nozzle. 4. The method for replacing the glass of a display module for mobile devices according to claim 1, characterized in that a melamine sponge is used as a hard microporous sponge to remove microparticles of the remaining optically transparent adhesive from the surface of the functional display component. 5. The method of replacing the glass of a display module for mobile devices according to claim 1, characterized in that the fastening of the intact protective glass to the functional component of the display with an optically transparent adhesive is carried out using an aluminum high-precision mold designed for a specific model of the display module. 6. The method for replacing the glass of a display module for mobile devices according to claim 1, characterized in that OKA glue is used as an optically transparent adhesive to attach the intact protective glass to the functional component of the display. 7. A method for replacing the glass of a display module for mobile devices according to claim 6, characterized in that the OKA glue is used in the form of an OKA film.