TH111000A - Replaceable gas nozzle assembly for use with underwater granulation systems. - Google Patents

Abstract

DC60 replaceable gas nozzle assembly with nozzle tube for spraying and directing. Pressurized air or other inert gas enters the slurry used to make pellet materials to increase speed. The slurry is injected from the pellet maker to the drier and through the dryer. To dry it Different types of repositionable nozzles can be inserted, retracted and / or instantly repositioned, either manually operated or with automatic controls. Such automatic controls are often preferred to have a pneumatic cylinder that is mounted on the carrier in Movable characteristics where the carrier is fixed fixed to the nozzle tube The pneumatic cylinder contains a piston which is magnetically attached to the body. Transported so that Movement of the piston in response to injecting pressurized air into the cylinder. The pump will also move the carrier and the nozzle tubes, allowing for different positioning purposes. Replaceable gas nozzle assembly with nozzle tubes for spraying and piloting. Pressurized air or other inert gas enters the slurry used to make pellet materials to increase speed. Of the said liquid It is injected from the pellet maker to the drier and through the dryer. To dry it Different types of repositionable nozzles can be inserted, retracted and / or instantly repositioned, either manually operated or with automatic controls. Such automatic controls are often preferred to have a pneumatic cylinder that is mounted on the carrier in Movable characteristics where the carrier is fixed fixed to the nozzle tube The pneumatic cylinder contains a piston which is magnetically attached to the body. Transported so that Movement of the piston in response to injecting pressurized air into the cylinder. The pump will move the carrier and the nozzle tubes as well, allowing for different positioning.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: Amendment 11/11/2015 1. Injection device for use with a set of submersible granulation machine (10). Materials, which are extruded and cut polymers into pellets. And a set of delivery tubes for the delivery of liquids and substances The slurry used to make the pellets is removed from the pelletizer and into the separator. It is intended as a centrifugal drier (20) for separating and drying the pellets with the following characteristics: The device is equipped with a replaceable nozzle assembly (100) with a movable nozzle tube (110) located inside the housing (128) for the actuation of the pellet speed. Into the liquid and slurries used to make the pellets such materials to speed up the granulation slurries. The material goes to the drier and passes through the drier in such a way that heat is retained. The inside of the pellet is even more so that the nozzle tube can move between the inserted position. Go in all the way and the position that is fully pulled back 2. Injecting device according to claim 1 Where the aforementioned delivery tubes of the machine for making pellets The substrate consists of an outlet pipe (14) which is connected to the pellet maker, which is The slurry is discharged through the pipeline (18) where the slurry is transported to the dryer by At the outlet pipe and the pipelines are connected by using an oblique bend fitting (102), the movable nozzle can be passed through to keep it aligned. Same with The axle of such a hose is located towards the end of the line of the replaceable nozzle assembly. Such a repositionable nozzle assembly in a suitable manner. It is intended to contain a sealing replacement sleeve which is attached to the oblique joint, a housing attached to the said sealing change sleeve (132) and a sliding sleeve (122) that is fastened. rigid To the nozzle tube and is loaded inside the housing where the casing and the head tube 3. The spraying device according to claim 2, provided that the housing has a tension spring (134), which is provided along the perimeter. Shaped around the nozzle tube and is worn onto the front surface of the sliding casing and The rear face of the sleeve changes its sealing condition, with the tension spring being compressed while the head tube. The movable spray is moved forward relative to the oblique joint. 4. Spray device according to claim 3, where the nozzle tube can be manually adjusted between Where it is fully inserted and the position fully retracted, and there is at least one groove (138) running parallel to the aforementioned mobile nozzles, where there is Niches Oblique at least one niche, with the guide pin (136) attached. It can be repositioned within the groove and when loaded into the said oblique niche it locks the unit. The nozzle assembly provides a predetermined level of compression of the tension spring in accordance with its position. The specificity of the impulse insertion of such material in a desirable manner is the gas that The nozzle assembly has been pressurized and the nozzle assembly is in a desirable manner. At least one valve assembly (104, 120) is configured to control the flow of the pressurized gas. Said 5. Spray equipment according to claim 1, where a set of components of a repositioning nozzle It includes an automatic control system that is configured to allow the nozzle tube to be moved. This can be automatically set between the position that was fully inserted and the position where it was retracted. And so that the nozzle pipe can be repositioned to any position during the period. 6. Injection device according to claim 5, where the automatic control system has a rod-less pneumatic cylinder (154) connected to Magnetic way, linear pneumatic cylinder, hydraulic cylinder And a power unit, or a servo motor, or a pulsating motor with a pellet screw or a 29 degree threaded screw in a desirable manner. The numatic cylinder (154) is mounted to the housing. It is designed to move the nozzle tube between the first and second ends of the barrel. It is pumped in response to injecting pressurized air into the cylinder. 7. Spraying device in accordance with claim 6, where the displacement nozzle assembly is set up. As such, there is an additional component, the sliding sleeve (122), which is fixed to the nozzle tube (112) and is loaded inside the housing and the carrier (160), which is attached to the pneumatic cylinder. (154) in such a way that it is movable whereby the numatic cylinder contains a piston (172) that is magnetically attached to the carrier in such a way that the movement of the piston by Pressurized air will cause the carrier and the nozzle tube to move as well in a desirable manner.The carrier is attached to the sliding sleeve (122) by means of a bolt. (162) inserted through the cavity in the said housing. 8. Spray device according to claim 1, provided that the geometric configuration of the nozzle tube has Either of the following characteristics is circular, square, rectangular, oval, polygon, semicircular, arc, shell or C-shaped or such nozzle in a desirable manner. Wishes to have a tapered end at the end for release Or such spray nozzle in a desirable manner. The internal surfaces that are volute, arc, internal thread shape, tapered or blended, or such nozzle tubes in a desirable manner are coated with an erosion resistant coating. Scrubbing and Corrosion 9. Methods for processing materials that can be extruded into pellets using an extrusion device. Injection of claim 1, which includes - extruding extruded material into strips and - cutting the extruded material into pellets in a liquid with a preparation. Submersible granules and - the transmission of the pellets and the said liquid in a liquid and liquid form. The concentrate is used to make pellets of material through a tube passed to a separator. Specifically, the method includes - adjustment of the repositionable gas nozzle assembly. The required level is to be inserted inside the pipeline - the injection of pressurized gas into the pipeline at high speed using a series The nozzle assembly facilitates the separation of liquids from the pellets while And - Separation of the pellets from the said liquid. 1 0. Method of claim 9 whereby the gas nozzle assembly (s) shall not be removed. include The gas nozzle is installed inside the sliding sleeve, on which the guide bolt is hit at the Such workbench will be performed by hand and there is an injection procedure as an additional action. Slide the nozzles into a housing mounted on the pipeline where the nozzle has a slit. At least one groove and oblique nook for inserting the guide bolt into fixed position when the nozzle. The aforementioned level has already been inserted into the desired level. 1 1. Approach to claim 9 where the adjustment procedure consists of moving The gas nozzle of the gas nozzle assembly is automatically inserted at a level that Required under the control of the automatic control system. In a desirable manner, the process of moving the head The gas is automatically sprayed using a magnetically coupled rodless pneumatic cylinder, linear pneumatic cylinder, hydraulic cylinder and power unit or servo motor or motor. Walking type with pellet screw or 29 degree thread screw 1 2. Method of claim 9 where the gas nozzle assembly has a control system. Automatic, which has a pneumatic cylinder that is designed to allow the nozzle tube to be shifted by Automatically between the position that was fully inserted and the position that was fully retracted by means of It consists of a process of injecting pressurized air into one end of the cylinder. Pump it to move the nozzle tube to where it was fully inserted and to inject the received air. Pressure enters the opposite end of the cylinder to move the nozzle tube to the The position that has been completely retracted And in a desirable manner also consists of steps of conduit The nozzle is fixed fixed to the carrier and the carrier is connected to the way. The magnet attaches to the piston, and with such a magnetic coupling, the carrier and the tube The nozzles are moved as well. 1 3. Method of claim 9 where such material can be extruded is a polymer material which Crystals can be produced with sufficient heat to form crystals, and the injecting process allows the material to It is such a polymer that holds sufficient amounts of heat to allow it to generate crystals on its own. Up to a level of at least 20% 1 4. Method according to claim 9, where the injection procedure will increase the capacity of Separating pellets from liquids and / or drying them during the pellet separation process. Material out of liquid -------------------------------------------------- ----- 1. Injection device for use with a set of submersible granulation machine, which is extruded and cut. Polymer is released into granules, where the unit has a set of tubes for discharging liquid into the preparation machine. The pellets and the delivery route to deliver the pellet liquid and slurries out of the binder. Pellets and goes into a centrifugal drier for drying the pellets, where the injection device consists of Replaceable nozzle assembly with movable nozzle tubes located Inside the housing to release the speed of the pellets into the slurries and slurries used to make To speed up the granulation slurry to the drier and through the machine. This is dried in such a way that more heat is retained inside the pellet, whereby the nozzle tube can move between the insertion point and the fully retracted position. 2. Injection device according to claim 1, whereby the aforementioned delivery route of the machine set for making pellets The substrate consists of an outlet pipe, which is connected to the pellet maker, which is released. The slurry passes through the pipeline that conveys the slurry to the drier, where the pipe The outlet and the pipelines are connected by using an oblique bend fitting. Such a movable spray can be passed through so that it is aligned with the axis of the pipeline. 3. The spraying device according to claim 2, where the displacement nozzle assembly is located towards the end of the line of the nozzle assembly. As such, there is an additional component, a sealing change sleeve, which is attached to the line joint. As mentioned above, the housing attached to the casing changes the sealing condition, and the sliding casing is fixed. To the nozzle pipe and is loaded inside the housing with the said non-sliding and head tube The sprayer can move freely within the housing. 4. Spray device according to claim 3 provided that the housing has a tension spring provided. Along the perimeter around the nozzle tube and put on the front face of the casing and the rear face. Of the sleeve changes its sealing condition with the tension spring being compressed while the nozzle tube 5. The spraying device according to claim 4, where the nozzle tube can be manually adjusted between the The position that is fully inserted and the position fully retracted, and such housing will have at least a groove One groove running parallel to the movable nozzle tube, where the groove is The guide pin is attached to one of the niches, where the guide pin can be replaced. It is positioned within the groove and when loaded into the diagonal niche it locks the assembly. Assemble the nozzle so that the tension spring is compressed at a predetermined level in accordance with the 6. Injection device according to claim 5, where the pellet velocity actuator is the gas that is Is pressurized, and the nozzle assembly contains at least one additional valve, Which is configured to control the flow of the pressurized gas 7. Spraying device according to claim 1 where the repositioning nozzle assembly This includes an automatic control system that is configured to allow the nozzle tube to be moved. This can be automatically set between the position that was fully inserted and the position where it was retracted. And so that the nozzle pipe can change position to any position during the period. 8. Injection device according to claim 7, with the automatic control system having a pneumatic cylinder. Magnetic coupling rodless, linear pneumatic cylinder, hydraulic cylinder and Power supply unit or servo motor or stepper motor with pellet screw or 29 degree screw thread 9. Injection device according to claim 7, with such automatic control system having a pneumatic cylinder. It is mounted to the housing and is structured to move the nozzle tube between the The first and second of such cylinders in response to injecting pressurized air into The cylinder 1 0. Injection device according to claim 9, where the replaceable nozzle assembly There is an additional component, a sliding sleeve, which is fixed to the nozzle tube and is loaded. Into the aforementioned housing and the carrier, which is fitted to the said numatic cylinder in such a way that It can move where the pneumatic cylinder contains a piston that is coupled to the carrier. It is magnetic in such a way that the movement of the piston is by injecting pressurized air. This will cause the carrier and the nozzle tube to move as well. 1 1. The spraying device according to claim 10, where the carrier is connected to the sliding sleeve. 1 2. A set of machines for processing polymer and other extrudable materials into pellets. Slitting extruding material into pellets in liquid - a set of pipelines for delivering pelleting liquids and slurries from the pellet maker. The material and to the separation device to separate the pellets from the liquid, and - an injection machine for releasing the speed of the pellet into the liquid and liquid. The concentrate is used to make such pellets within the pipeline to increase the speed at which the pellets pass through the set. A machine to perform this process to keep the pellets at a high level of internal heat. The sprayer consists of a replaceable nozzle tube located inside the housing, where the nozzle tube. It can be inserted into the pipeline and can be moved between the position it is inserted. All the way to the end and the position that is fully retracted in relation to the aforementioned tube set 1 3. Set of equipment according to claim 12, where the nozzle tube is part of the parts assembly. A customizable nozzle assembly consisting of a sealed replaceable sleeve which is attached. With the aforementioned tubing set, the housing attached to the said sealing condition change casing, and the It is loaded into the housing where the casing and the nozzle tube can move. 1 4. Set of the device according to claim 13, where the housing has a tension spring which is provided. Along the perimeter around the nozzle tube and put on the front face of the casing and the rear face. Of the sleeve changes its sealing condition with the tension spring being compressed while the assembly The nozzle of the nozzle is moved forward to the position where it was fully inserted. 1 5. Set of proposition 14, where the nozzle tube can be adjusted by hand and the housing. There is at least one groove running parallel to the nozzle pipe, provided that it has a recess. Oblique at least one niche, with the guide pin attached to it. It can be repositioned within the groove and when loaded into the said oblique niche it locks the assembly. Assemble the nozzle so that the tension spring is compressed at a predetermined level in accordance with the Specifications of insertion 1 6. Set of equipment according to claim 12, where the aforementioned adjustable nozzle assembly It consists of an automatic control system that is designed to allow the nozzle tube to be moved by Automatically between the position that was fully inserted and the point where it was retracted, and beyond In addition, the nozzle pipe can be repositioned to any position during the period. 1 7. Set of equipment according to claim 16, where the automatic control system has a pneumatic cylinder. Magnetic coupling rodless, linear pneumatic cylinder, hydraulic cylinder and Power supply unit or servo motor or stroke motor with a ball screw or 29 degree threaded screw 1 8. Set of units according to claim 16, where the automatic control system has a pneumatic cylinder. It has first and second ends that fit into the case and are structured to move the head tube. It sprays between the ends of the first and second cylinders in response to air injection. The pressure into the cylinder. 1 9. Set of machines according to claim 18, where a set of replaceable nozzle components. It has an additional component, a sliding sleeve, which is fixed to the nozzle tube and loaded. Into the housing and carrier, which are fitted to the numatic cylinder in a sliding manner that The pneumatic cylinder contains a piston that is magnetically connected to the carrier in a At the displacement of the piston by injecting the pressurized air, the carrier And the nozzle pipes moved as well. 2 0. Set of equipment according to claim 19, where the carrier is connected to the sliding sleeve. 2 1. Spray device according to claim 1, provided that the geometry of the nozzle tube has One of the following characteristics is circular, square, rectangular, oval, polygon, semicircle, shell arc or C-shaped. 21 where the nozzle tube has a tapered end at the ejection tip 2. 3. The spray device according to claim 21, provided that the nozzle tube has a volute internal surface, arc, contours. Internal thread, tapered-end or combination of these shapes 2 4. Methods for processing the extruded material into pellets, which include: - Extrudable materials are extruded into strips. Cut the extruded material into pellets in a liquid - transmission of the pellets and the said liquid in a liquid and liquid form. Concentrate used to make pellets through a transmission tube - adjustment of replaceable pressurized gas nozzle assemblies. It is to be inserted within the pipeline at the desired level - the injection of pressurized gas into the pipeline at high speed using a set of parts. The nozzles are assembled to facilitate the separation of liquids from the pellets while the liquid And - Separation of the pellets from the said liquid. 2 5. Method of claim 24 where the nozzle assembly consists of. The gas nozzle is installed inside the sleeve, on which the sleeve has a guide bolt. Where the process Such workbench will be performed by hand and there is an injection procedure as an additional action. Slide the nozzles into a housing mounted on the pipeline where the nozzle has a slit. At least one groove and oblique nook for inserting the guide bolt into fixed position when the nozzle. 2. 6. Method of claim 24 where the adjustment procedure consists of the movement of the instrument. The gas nozzle of the gas nozzle assembly is automatically inserted at a level that Requirements under the control of the automatic control system. 2 7. Method of claim 26 whereby the procedure of moving the gas nozzles to be automated is to be performed. This is done using a magnetic coupling rodless pneumatic cylinder, linear pneumatic cylinder, hydraulic cylinder and power unit or servo motor, or Stepping motor with pellet or threaded screw 29 degrees 2. 8. Method of claim 24 where the gas nozzle assembly has a system. Automatic control with a pneumatic cylinder that is designed to allow the nozzle tube to be moved. Automatically between the position where it was fully inserted and where it was fully retracted, with The method consists of a process of injecting pressurized air into one end of the The cylinder to move the nozzle tube to the position where it was fully inserted, and the Pressure is applied to the opposite end of the cylinder to move the nozzle tube to the 2. 9. Procedure according to claim 28, which has been mentioned above, also consists of the procedure for removing the head pipe. The spray is fixed to the carrier and the carrier is magnetically coupled. With the piston inside the cylinder so that The process of injecting air that receives such pressure is moved And thanks to their magnetic coupling, the carrier and nozzle tubes 3 0. Method according to claim 24 where such material can be extruded is a polymer material which Crystals can be produced with sufficient heat to form crystals, and the injecting process allows the material to It is such a polymer that holds sufficient amounts of heat to allow it to generate crystals on its own. Up to a level of at least 20% 3 1. Method according to claim 24, wherein the injection procedure will increase the capacity To separate pellets from liquids and / or to dry them during the separation process. Pellet material out of liquid