TH73490B - Coating system, material adhesion and substrate adhesion method. - Google Patents

Abstract

DC60 (06/01/15) Coating system for bonding materials onto an electronic substrate including a frame, supports that are attached to a frame. and is structured Provides support for the electronic substrate during the island laminating operation, the stand frame is attached to the frame and the coated head is attached to the stand frame. The island head can move around. above supported by the movement of the pedestal frame. The island's glazed head consisted of a chamber that was Structured to receive material, actuator structured to push a volume of material out of the chamber, a needle stick out of the chamber. and ends in a needle orifice and at least two air jets are arranged on opposite sides of that needle orifice. required volume of material will be generated at the needle orifice in response to the stimulus. and each set of air jets at least Two of those sets produce a pulsating stream of air over time to create microscopic droplets from the desired volume. and to accelerate the tiny droplets to high speed In addition, other characteristics of the coating system were also disclosed. and how to leave it Revised invention summary 06/01/2015. A coating system for bonding materials onto an electronic substrate, including a frame, a support that is attached to a frame. and is structured Provides support for the electronic substrate during the island laminating operation, the stand frame is attached to the frame and the coated head is attached to the stand frame. The island head can move around. above supported by the movement of the pedestal frame. The island's glazed head consisted of a chamber that was Structured to receive material, actuator structured to push a volume of material out of the chamber, a needle stick out of the chamber. and ends in a needle orifice and at least two air jets are arranged on opposite sides of that needle orifice. required volume of material will be generated at the needle orifice in response to the stimulus. and each set of air jets at least Two of those sets produce a pulsating stream of air over time to create microscopic droplets from the desired volume. and to accelerate the tiny droplets to high speed In addition, other characteristics of the coating system were also disclosed. and how to leave it ---------------------------------------------------- ----------------------------------------------- Coating system Bonding material for coating adheres material onto the electronic substrate including the frame, supports that are attached to the frame. and is structured Provides support for the electronic substrate during the island laminating operation, the stand frame is integrated into the frame, and the coated head is attached to the stand frame. The island head can move around. above supported by the movement of the pedestal frame. The island head can move around. structured to receive material, actuator structured to push a volume of material out of the chamber, a needle stick out of the chamber and ends in a needle orifice and at least two air jets are arranged on opposite sides of that needle orifice. Required volume of material will be generated at the needle orifice in response to the stimulus. and each set of air jets at least Two of those sets produce a pulsating stream of air over time to create microscopic droplets from the desired volume. and to accelerate the tiny droplets to high speed In addition, other characteristics of the coating system were also disclosed. and how to leave it

Claims (8)

Disclaimer (all) which will not appear on the advertisement page: Amendment 03/01/2020 Claims None -------------------------------------------------- -------------------------------------------------- ------ 19/06/2018 ------ (OCR) Page 1 of 1 Page Disclaimer 1. Methods for Nozzle cleaning of coats of adhesion systems that are Structure To adhere to the material on the electronic substrate Method of assembly: a coating operation with a structured substrate coating system. The electronic substrates are placed under the laminated head that can be moved by the stand frame, to dispense the material into the One chamber of the glaze nozzle, to extend a set of pistons of the glaze from the chamber by the needle adhering nozzle which ends in the needle orifis, and to eject a certain volume of material from the chamber by the actuator of Adhesion head to create the required volume of the material at the needle Orifis. Which is coated on the substrate Electronic; And cleaning the Oriphis needle with the air directed towards the Orifis needle. Where cleaning orifis needle includes at least two air jet alignment on Opposite sides of the Orifis needle And creating a pulsating air to Orifis needle 2. Method of claim 1, which is supplemented by synchronization of the time the air flow is The timing stroke from two or more air jets to clean the needle Orifis 3. Method of claim 1 where the material includes low viscosity materials and high viscosity materials 4. The method of holding Rights 3 where the micro droplets supplied through the needle Orifis equal to or smaller than the Orifis needle 5. Method for nosel cleaning of structured coating systems. To adhere to the material on the electronic substrate Method of assembly: a coating operation with a structured substrate coating system. The electronic substrates are placed under the laminated head that can be moved by the stand frame, to dispense the material into the One chamber of the glaze nozzle, to extend a set of pistons of the glaze from the chamber by the needle adhering nozzle which ends in the needle orifis, and to eject a certain volume of material from the chamber by the actuator of Adhesion head to create the required volume of the material at the needle Orifis. Which is coated on the substrate Electronic; Cleaning the Oriphis needle with the air directed towards the Orifis needle; 6. Method of claim 5 where the collection cup is placed on a movable slide ---------- - EDIT 6/01/2015 1. A material adhesion system for coating a material onto an electronic substrate. The substrate coating system consists of: a frame; One support that attaches to the frame The support is structured to support the substrate. Electronic coating during operation; One stand frame that attaches to the frame; And one set of island coated heads that are attached to the stand frame The coated head can move around. Above that can be supported by the movement of the stand frame. The coated head consists of A chamber structured to receive material, a set of actuators that are structured to push a volume of material out of the room, a pin that extends from the chamber. And at least two sets of air jets are placed on opposite sides of the needle orifos, where the required volume of material is created at the needle orifice. The orifis needle in response to a stimulator and where each or more of two sets of air jets produce a pulsating air flow with time. To create tiny droplets from the desired volume And to accelerate micro-droplets to high speed 2. Material adhesion coating system according to claim 1, which consists of a control system. For synchronous timing air flows from at least two air jets. The required volume of the material at the needle orifis is generated by an actuator 3. The material adhesion system according to claim 2 where the control system activates the air jet. At least two sets before the required volume of material is created at the Orifis needle. 4. The material adhesion system according to claim 3, where the control system stops the air jet. At least two sets after generation of micro droplets 5. Material adhesion system according to claim 1 where the material includes low viscosity materials. 6. Coating system according to claim 5, where the micro droplets are equal or smaller than the Orifis needle. 7. Method for bonding the material onto the electronic substrate. Nick The methods include: aligning the electronic substrate under the movable island head by the stand frame; Feeding material into the chamber chamber of the island coating head; Extending one of the enamel's needles from the chamber By which the needle ends in an orifis needle; Ejecting one volume of material out of the chamber with a coater actuator to create The required volume of the material at the Orifis needle; Align at least two sets of air jets on opposite sides of the needle Orifis; And timing air flow to create tiny droplets from the desired volume. And to accelerate the tiny droplets to high speed to coat the tiny droplets. 8. Method according to claim 7, which includes the connection with the control system. One set of timing pulsed air flows from at least two air jets. With the creation of The required volume of the material at the orifis needle by the actuator 9. Method for claim 8 consisting of at least two sets of air jet activation. Before creating the required volume of material at the Orifis needle 1 0. Method for claim 9, which includes the process of stopping the air jet. At least two sets after formation of microscopic droplets 1 1. Method to claim 7 where the material includes low viscosity and high viscosity material 1 2. Method to claim 11 where the droplet size Tiny is equal to or smaller than the Orifis pin 1 3. Material adhesion system for bonding materials onto an electronic substrate. The coating system consists of: a set of frames; One support that attaches to the frame The support is structured to support the substrate. Electronic coating during operation; One stand frame that attaches to the frame; And one set of island coated heads that are attached to the stand frame The coated head can move around. Above that can be supported by the movement of the stand frame. The coated head consists of One chamber structured to receive material, one actuator structured to push one volume of material out of the chamber, the first needle that comes out of the chamber. And ended up in the Orifis needle Where required volume The material is generated in the Orifis needle in response to the stimulator and the device arranged on the opposite side of the Orifis needle. For generating air currents It is rhythmic to create tiny parallel drops from the desired volume. And to accelerate the tiny droplets To have high speed 1 4. Coating system according to claim 13, which includes a control system. One unit for synchronizing the rhythmic air currents with volume generation. The needle by the actuator 1 5. The material adhesion system according to claim 14 where the control system is activated. At least two sets of air jets before creating the required volume of material at the Orifis needle 1 6. The coating system according to claim 15, where the control system stops the air jet. At least two sets after the formation of micro droplets 1 7. Material adhesion system according to claim 13, where the material includes low viscosity materials. 1 8. Material adhesion system according to claim 17 where the micro droplets are equal or smaller than the Orifis needle ----------------- ------------------------------------- 1.Material adhesion system for downward coating On the electronic substrate, the material adhesion system consists of: a frame; One support that attaches to the frame The support is structured to support the substrate. Electronic coating during operation; One stand frame that attaches to the frame; And one set of island coated heads that are attached to the stand frame The coated head can move around. Above that can be supported by the movement of the stand frame. The coated head consists of A chamber structured to receive material, a set of actuators that are structured to push a volume of material out of the room, a pin that extends from the chamber. It ends in the needle orifice and at least two sets of air jets are arranged on opposite sides of that needle orifis, where the required volume of the material is created at the ori. Fiss needle in response to an actuator and where each or more of two sets of air jets produce a pulsating air flow with time. To create tiny droplets from the desired volume And to accelerate micro-droplets to high speed 2. Material adhesion coating system according to claim 1, which consists of a control system. For interlocking time-pulsed air currents from at least two sets of air jets. The required volume of the needle Theoryphis material is created by an actuator 3. The material adhesion system according to claim 2 where the control system activates the air jet. At least two sets before the required volume of material is created at the Orifis needle. 4. The material adhesion system according to claim 3, where the control system stops the air jet. At least two sets after generation of micro droplets 5. Material adhesion system according to claim 1 where the material includes low viscosity materials. 6. Coating system according to claim 5, where the micro droplets are equal or smaller than the Orifis needle. 7. Method for bonding the material onto the electronic substrate. Nick The methods include: aligning the electronic substrate under the movable island head by the stand frame; Material feeding into one chamber of the perching nozzle; Extending one of the enamel's needles from the chamber By which the needle ends in an orifis needle; Ejecting one volume of material out of the chamber with a coater actuator to create The required volume of the material at the Orifis needle; Align at least two sets of air jets on opposite sides of the needle Orifis; And the generation of cool, rhythmic air flows to create tiny droplets from the desired volume. And to accelerate the tiny droplets to high speed to coat the tiny droplets. 8. Method according to claim 7, which consists of welding with the control system. One set of time-controlled pulsating air currents from at least two sets of air jet. With the creation of The required volume of the material at the orifis needle by the actuator 9. System according to claim 8 consisting of at least two sets of air jet actuation. Before creating the required volume of material at Orifis Needle 1 0. System according to claim 9, which includes the process of stopping the air jet. At least two sets after creating a 1 miniature droplet. 1. Method for claim 7 where materials include low viscosity and high viscosity materials 1 2. Method for claim 11, where the micro drop is equal to or smaller than the Orifis needle 1. 3.Material adhesion system for adherence to substrates The coating system consists of: a set of frames; One support that attaches to the frame The support is structured to support the substrate. Electronic coating during operation; One stand frame that attaches to the frame; And one set of island coated heads that are attached to the stand frame The coated head can move around. Above that can be supported by the movement of the stand frame. The coated head consists of One chamber that is structured to receive material, one actuator structured to push a volume of material out of the chamber. A needle that came out of the room. And ended up in the Orifis needle Where required volume The material is generated in the Orifis needle in response to the stimulator and the device arranged on the opposite side of the Orifis needle. For generating air currents It is rhythmic to create tiny droplets from the desired volume. And to accelerate the tiny droplets To have high speed 1 4. Material adhesion coating system according to claim 13, which includes a control system. One unit for synchronizing the rhythmic air currents with volume generation. Desired material of the Orifis needle by stimulator 1 5. Material coating system according to claim 14 where the control system will stimulate At least two sets of air jets before creating the required volume of material at the Orifis needle 1. 6. Coating system according to claim 15 where the control system stops the air jet. At least two sets after making 1 micro droplets. 7. Coating system according to claim 13, where the material includes low viscosity materials. And high viscosity 1 8.Material adhesion system according to claim 17, where micro droplets are equal or smaller than the needle Orifis.