TH64038B - Methods and tools for the manufacture of containers. - Google Patents

Claims (2)

Disclaimer (all) which will not appear on the advertisement page. : ------ 15/12/2017 ------ (OCR) Page 1 of 2 pages Disclaimer 1. Methods for manufacturing containers. This includes the steps of: - Provision of a preform (100), which is almost like a preform (100). It is cylindrical and is provided with an open end (101) connecting the cavity (102); - the placement of the said tubes (100) inside the mold (103) in such a way that the opening (101) of the said tubes (100) protrude from the aforementioned (103) mold shape. (103) such a container is hardly (300); - Injecting paths (112, 118,119, 123, 125), in which the injection paths (112, 118, 119, 123,125) are arranged in connection with the fluid that is sealed to the open end. (101) as such Of the mouthpiece (100) thereof, and which is also being structured to inject a volume of liquid (130) into the said cavity (102) of the said (100) mouthpiece; - injecting such volumes of liquid (130) into a hollow (102) As such of the pre-blow tube (100), by moving the plunger in the injection (125), the brew is formed as an injection path (112, 118, 119, 123, 125), which increases the internal pressure. The cavity (102) and the induction of the mouthpiece (100) are deformed into the aforementioned mold (103) and to form a container (300); And - reducing the pressure inside the vessel (300) up to atmospheric pressure by making The injection piston (125) is retracted until the vessel (300) is reduced to atmospheric pressure. While maintaining the fluid connection sealed between the said injection path (112, 118, 119, 123, 125) and the said open end (101). 1 that is still unique is After the procedure for pasting Position the mouthpiece (100). Methods include: Procedure for stretching the mouthpiece (100) along the long axis (129) 3. The unique method of claim 1 or 2 is: The pressure generated within the aforementioned cavity (102) during the injection procedure is between 15 and 50 bar. 4. The characteristic Clause 3 method is: The pressure created within the cavity (102) during the injection procedure is between 30 and 40 bar. 5. Method of any one of Claims 1 to 4 that is characterized during The intra-vessel pressure reduction procedure (300) is monitored by a pressure sensor (122) 6. Methods of one of the characteristic claims 1 to 5 are during the procedure. The intra-vessel pressure drop (300) was reduced to the intra-atmospheric pressure between 0.1 and 2 s, p. 2 of the number 2, p. 7. The method of any one of claims 1 to 6 is still present. Specifically, after the reduction process, that method includes The closing process for closing the container (300) with the liquid (130) in it 8. Tools for the manufacture of the container (300) that include: - Mold (103), which the shape of the mold (103) is almost The container was bounded (300) and was also configured to accept the nearly cylindrical (100) mouthpiece arranged with the open end (101) connected to the cavity. (102), such (101) open end of the said (100) mouthpiece protruding from the aforementioned mold (103); And - injection paths (1 12, 1 18, 1 19, 123, 125) where such injection paths (112, 118,119, 123, 125) are placed in fluid connection, which It is sealed against the aforementioned open (101) end of the aforementioned mouthpiece (100), whose injection path (1 12, 1 18, 1 19, 123, 125) consists of the injection plunger. (125), which is designed to move the water to inject a volume of liquid (130) into the aforementioned cavity (102) of the trium blown tube (100), thereby increasing the pressure inside the said cavity (102) and the induction of the said tube (100) to It deforms the shape of the aforementioned mold (103) and produces a container (300), and is also structured so that later it is made. It is retracted to reduce the pressure inside the vessel (300) up to the atmospheric pressure while still Maintain fluid connection sealed between the aforementioned injection path 012, 118, 1 19, 123, 125) and such open-ended (101). That tool It is assembled with a stretch (128), in which the above stretch (128) is structured to stretch the mouthpiece (100) along the long axis (129) 1 0.The instrument of the 8th or 9th claim. There is a unique The injection piston (125) was placed inside the cylinder (123) where the cylinder (123) was also connected. The fluid and cavity (102) of the aforementioned mouthpiece (100) 1 1. Apparatus of any of the above claims 8-10, the method of injection (112,118,119, 123, 125) also Assembled with a nozzle (112) provided with a valve (124) in which the valve (124) is configured to block or allow the fluid connection with the said cavity (102) of the aforementioned mouthpiece (100) ----- ------- Edit 9/2/2015 1. Methods for container production. The process of: - Provision of a preform (100) in which the preform (100) is almost cylindrical and is provided with an open end (101) connected to the Cavity (102); - the placement of the said tubes (100) inside the mold (103) in such a way that the opening (101) of the said tubes (100) protrude from the aforementioned (103) mold shape. (103) such a container is hardly (300); - arrangement of injection paths (112, 118, 119, 123, 125), in which such shafts (112, 118, 119, 123, 125) were placed in connection with the sealed fluid. With the opening (101) of the said mouthpiece (100) and which is also being structured to inject the amount of liquid (130) into the cavity (102) of the said mouthpiece (100). ; - Injecting such a volume of liquid (130) into the cavity (102) of the said mouthpiece (100), for the pressure of the cavity (102) and the induction of the mouthpiece (100). The aforementioned deformation of the aforementioned mold (103) and to create a container (300); And - Reducing the pressure inside the vessel (300) up to atmospheric pressure while maintaining The fluid connection sealed between the aforementioned injection path (112, 118, 119, 123, 125) and the said open end (101). 2. The existing Clause 1 method. The unique characteristics are After the procedure for pasting Position the mouthpiece (100). Methods include: Procedure for extending the mouthpiece (100) along the long axis (129) 3. The unique right handhold method 1 or 2 is where the pressure is created inside the cavity (102). During the injection procedure, values are between 15 and 50 bars. 4. The unique Claim 3 method is: The pressure that is generated in the cavity (102) during the injection procedure is between 30 and 40 bar. 5. Methods of any one of Claims 1 to 4 that are characteristic are: During The pressure drop inside the vessel (300) was examined by the pressure sensor (122). 6. The method for any one of claims 1 to 5 is unique. During the process of reducing the pressure inside the vessel (300) is reduced to an internal atmospheric pressure between 0.1 and 2 s. 7. The method of any one of Claims 1 to 6 is characterized by After the reduction process, that method includes The closing procedure for closing the container (300) with the liquid (130) in it 8. The container (300) which was produced by means of any of the clauses 1 through 7. 9. The equipment for the Produced a container (300) that included: - Mold (103), in which the shape of the mold (103) almost defines the container boundary (300), and is also structured to accept a nearly cylindrical (100) mouthpiece. ) Provided with the opening (101) connected to the cavity (102), the said opening (101) of the aforementioned mouthpiece (100) protruding from the mold (103). ; And - injection paths (112, 118, 119, 123, 125) where such injection paths (112, 118, 119, 123, 125) are placed in the fluid connection that is Sealed against the said opening (101) of the aforementioned mouthpiece (100), the aforementioned injection path (112, 118, 119, 123, 125) is designed to inject the liquid volume (130 ) Into the cavity (102) of the mouthpiece prepared to blow (100) thereof. This increases the pressure inside the aforementioned cavity (102) and the induction of the mouthpiece (100) to deform the mold (103) and to form the vessel (300). To later reduce the pressure inside the vessel (300) up to the atmospheric pressure while It also maintains the fluid connection sealed between the aforementioned injection path (112, 118, 119, 123, 125) and the open end (101) thereof. The characteristics that the tool It is assembled with a stretch (128), where the stretch (128) is structured to extend the mouthpiece (100) along the long axis (129) 1 1. The instrument of the 9th or 10th claim. There is a unique The injection path (112, 118, 119, 123, 125) consists of a piston (125) located inside the cylinder (123) where the cylinders (123) are connected by fluid to the cavity. (102) as mentioned of the aforementioned (100) mouthpiece 1 2. Apparatus of any of the aforementioned Clause 9-11, which means for injection (112, 118, 119, 123, 125). Also included is the nozzle (112), which is provided with the valve (124), the valve (124) is structured to block or allow the fluid to be connected to the cavity (102) as follows. Specifically stated of the mouthpiece (100) --------------------------------------- -------------- New request, update 1. Method for producing container. This includes the steps of: - Arrangement of the blowpipe (perform) (100), which is almost said to be performed (100). Cylindrical And was provided with the open end (101) connected to the cavity (102); - The placement of such (100) tubes inside the mold (103) in such a way that the said opening (101) of the prep tube. The blow (100) protrudes from the aforementioned (103) mold, where the shape of the mold (103) almost defines the container boundary (300); - arrangement of the injection path (112, 118, 119, 123). , 125), in which the aforementioned injection path (112, 118, 119, 123, 125) is placed in connection with the fluid sealed with the said opening (101) of the mouthpiece (100) as follows: And that is also being structured to inject a volume of liquid (130) into the aforementioned cavity (102) of the said (100) mouthpiece; - Injecting such a volume of liquid (130) into the cavity (102) of the said mouthpiece (100), increasing the pressure inside the cavity (102) and the induction of the mouthpiece (100). The aforementioned deformation of the aforementioned mold (103) and to create a container (300); And - reducing the pressure inside the vessel (300) up to atmospheric pressure while still Maintain fluid connection that is sealed between the said injection path (112, 118, 119, 123, 125) and the said open end (101). The unique characteristics are After the procedure for pasting Position the mouthpiece (100). Methods include: Procedure for stretching the mouthpiece (100) along the long axis (129) 3. The characteristic method of claim 1 or 2 is that the pressure created inside the cavity (102) in the During the injection procedure, values are between 15 and 50 bars. 4. The unique Claim 3 method is: The pressure created within the cavity (102) during the injection procedure is between 30 and 40 bar. 5. Method of any one of Claims 1 to 4 that is characterized during The intra-vessel pressure relief procedure (300) is monitored by the pressure sensor (122) 6. Methods of one of the characteristic claims 1 to 5 are during the procedure. The intra-vessel pressure drop (300) is reduced to an internal atmospheric pressure between 0.1 and 2 s. 7. The method of one of the characteristics of claims 1 to 6 is: After the reduction process, that method includes The closing procedure for closing the container (300) with the liquid (130) in it 8. The container (300) which was produced by means of any of the clauses 1 through 7. 9. The equipment for the Produced a container (300) that included: - Mold (103), in which the shape of the mold (103) almost defines the container boundary (300), and is also structured to accept a nearly cylindrical (100) mouthpiece. ) Provided with the opening (101) connected to the cavity (102), the said opening (101) of the aforementioned mouthpiece (100) protruding from the mold (103). ; And - injection paths (112, 118, 119, 123, 125) where such injection paths (112, 118, 119, 123, 125) are placed in the fluid connection that is Sealed against the said opening (101) of the aforementioned mouthpiece (100), the aforementioned injection path (112, 118, 119, 123, 125) is designed to inject the liquid volume (130 ) Into the cavity (102) of the said mouthpiece (100), thereby increasing the pressure inside the said cavity (102) and the induction of the said tube (100) to deform it. The shape of the mold (103) and the formation of the vessel (300) was also configured to subsequently reduce the pressure inside the vessel (300) to the atmospheric pressure while maintaining the fluid connection which was It is sealed between the aforementioned injection path (112, 118, 119, 123, 125) and the open end (101) thereof. 1 0. The instrument of claim 9 that remains unique to that tool. It is assembled with a stretch (128), in which the aforementioned stretch (128) is structured to extend the mouthpiece (100) along the long axis (129) 1. 1. The unique tools of claim 9 or 10 are: The injection path (112, 118, 119, 123, 125) consists of a piston (125) located inside the cylinder (123) where the cylinders (123) are connected by fluid to the cavity. (102) as above of the mouthpiece (100) as mentioned 1 2. The instrument of any one of claim 9-11, the injectable path (112, 118, 119, 123, 125) also includes a nozzle (112), which is also provided. The valve (124) to which the valve (124) is configured to block or allow the fluid connection with the said cavity (102) of the said puff tube (100).