• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    1. DEVICE FOR FLUID VSCHACHI SRVDY from a pressurized container of compressed gas, comprising a pressure regulator and assembly for its connection to the container, vklyuchanschy transition element imekhtsy channel for communication with a pressure regulator, and a support member with a socket for the transition member, wherein that, in order to increase the reliability of the device. By creating forces to interconnect the above elements, it is equipped with two sealing means located on the transition element on both sides of the channel to form an annular cavity to balance the forces generated by a compressed azom. 2. A device according to claim 1, characterized in that the sealing means are embodied in the form of annular gaskets of circular cross section, located in the grooves formed on the outer surface of the transition element. 3. A device according to Claim 1, characterized in that the transition element is provided with a normally closed valve connected to the channel and triggered when interacting with the supporting element. (L 4. Device pop. 3, characterized in that a normally closed valve includes a plunger with a brush and a spring. 5. Device according to Claim 1, characterized in that an outlet is formed in the supporting element. 4i 6. Device according to Claim 5 .1, characterized by the fact that the transition element is located in the vertical plane N9 of the bone above the supporting element.
    公开号:SU1145920A3
    申请号:SU823517308
    申请日:1982-11-19
    公开日:1985-03-15
    发明作者:Д.Холбен Клэйр
    申请人:Дзе Кока-Кола Компани (Фирма);
    IPC主号:
    专利说明:

    f1 The invention relates to devices for pressurizing liquids and can be used for extracting fluid from a container under the pressure of a compressed gas. A valve assembly to a container for pressurized liquids is known, comprising a pressure regulator and a unit connecting it to a container, made in the form of a nut with a sealing ring 1. The disadvantage of this node is the unreliability of the connection. Closest to the proposed technical solution is a device for delivering fluid from a pressurized container and a junction with a container, comprising a transition element having a channel for communicating with the pressure regulator, and a support element with a socket for the transition element 2. The disadvantage of this device is the unreliability of operation. The purpose of the invention is to increase the reliability of the device by creating efforts to interconnect the above elements. This goal is achieved in that a device for pumping fluid from a container under pressure of compressed gas, comprising a pressure regulator and a node connecting it to a container, including a transition element having a channel for communicating with the pressure regulator, and a support element with a socket for the transition element It is equipped with two sealing means, positioned on the transition element on both sides of the channel with the formation of an annular cavity to balance the forces created by the compression by gas. Sealing means can be made in the form of annular gaskets of circular cross section, located in the grooves formed on the outer surface of the transition element. The transition element has a normally closed valve, which is connected to the channel and operates when it interacts with the supporting element. . The normally closed valve includes a plug and stem and a spring. An outlet is formed in the support member. The transition element is located in the vertical plane under the supporting element. Figure 1 shows the proposed device, a General view; in Fig.2 a section aa in Fig.1. The device contains a cylinder 1, a pressure regulator 2 and a node 3 connecting the latter with a cylinder 1, a key switch transition element 4 having a channel 5, on both sides of which in the grooves 6 and 7 are installed sealing means, executed in the form of annular gaskets 8 and 9 round the sections forming the annular cavity and the supporting element 10 having a seat 11 for the transition element 4, the latter having a normally closed valve 12 including. the plunger 13 with the rod 14 and the spring 15, and the outlet hole 16. The device operates as follows. The housing 17 is fastened with a threaded connection to the cylinder 1, and the transition element 4 is also attached to the housing 17 with a threaded connection. The balloon 1 is then filled through transition element 4, for example, carbon dioxide under pressure. If, for example, carbon dioxide gas is used for carbonation, the cylinder 1 is turned over and the pressure regulator 2 is connected to the transition element 4 by introducing it into the nest 11 of the support element 10. In this case, the rod 14 interacts with the finger 18 fixed in the nest 11 and removes the plunger 13 from the seat 19, overcoming the force of the spring 15. As a result, gaseous carbon dioxide under pressure flows through the channel 20 and the hole in the saddle 19 into the channel 5. The gas outlet around the circumference of the rod 14 is eliminated due to the presence of an annular seal 21. copulating in position gaskets 8 and 9 provide the balancing efforts between the transition piece 4 and two pressure regulator. The gas coming out of the channel 5 and entering the pressure regulator 2 with equal and oppositely directed force presses on the gaskets 8 and 9, and therefore the force directed upwards and tending to pull the pressure regulator 2 from the transition element 4 is balanced by the force downward and tending to break the pressure regulator 2 from the transition element 4. As a result, the compressed gas leaving the channel 5 and entering the channel 22 cannot detach the transition element 4 from the pressure regulator 2.
    When entering the channel 22, the gas passes through the filter disk 23 into the valve channel 24, and then through the valve seat 25 into the chamber. 26, where it presses on: the membrane 27 and exits through the outlet 28 of the pressure regulator 2. The pressure of the gas flowing into the pressure regulator 2 is regulated by the valve mechanism 29 and the membrane 27. The force of the gas acts on the membrane 27, shifting it to the left and overcoming the force of the spring 30. At a certain value of the gas pressure in the chamber 26, the membrane 27 moves to the left, ensuring the contacting of the rod 31 with the seat 25 and thus blocking the flow of gas exiting channel 24. When the pressure drops below a predetermined level, the force of the spring 30 pushes the diaphragm 27 to the right, passing the flow of gas through the seat 25 into chamber 26 and then through the outflow opening Tie 28 in a container. ,
    The application of the present invention will improve the reliability of the device.
    FIG. one
    权利要求:
    Claims (6)
    [1]
    1. DEVICE FOR PREPARING A FLUID MEDIA FROM A CONTAINER UNDER PRESSURE OF A COMPRESSED GAS, comprising a pressure regulator and an assembly for connecting it to containers, including a transition element having a channel for communication with a pressure regulator, and a support element with a socket for the transition element, characterized in that , in order to increase the reliability of the device. by creating efforts to connect these elements together, it is equipped with two sealing means located on the transition element on both sides of the channel with azovaniem annular cavity for balancing the forces generated by a compressed time.
    [2]
    2. The device according to claim 1, characterized in that the sealing means is made in the form of annular gaskets of circular cross section located in grooves formed on the outer surface of the transition element.
    [3]
    3. A device according to claim 1, characterized in that the adapter element is provided with a normally closed valve associated with the channel and triggering of β batyvayuschim by reaction with SS opor- nym element.
    [4]
    4. The device pop.Z, characterized in that the normally closed valve includes a plunger with a stem and a spring.
    [5]
    5. The device according to claim 1, characterized in that an outlet is formed in the support element.
    [6]
    6. The device according to claim 1, characterized in that the transition element is located in a vertical plane above the support element.
    类似技术:
    公开号 | 公开日 | 专利标题
    US4013089A|1977-03-22|Back flow preventer valve
    EP0023072B1|1982-12-01|Filler valve for a liquefied gas tank
    US2371432A|1945-03-13|Faucet
    US7093605B2|2006-08-22|Pressure control device for a pipeline
    SU1145920A3|1985-03-15|Device for supplying liquid medium from container under compressed gas pressure
    US3960358A|1976-06-01|Pressure reducer
    GB2349200A|2000-10-25|Pressure regulating valve
    US2619108A|1952-11-25|Dual valve for controlling liquid level
    KR100644492B1|2006-11-10|Valve assembly for a pressure flush system
    US4256163A|1981-03-17|Valve cartridge
    US4718450A|1988-01-12|Pressure relief valve
    RU2243439C2|2004-12-27|Check valve
    US3319829A|1967-05-16|Encapsulated pressure regulator for liquid dispenser
    US5242581A|1993-09-07|Shut-off valve
    US3525356A|1970-08-25|Pressure regulator
    US4316598A|1982-02-23|Balanced relief valve with novel seal
    USRE25095E|1961-12-19|Dry-feed chlorinator and the like
    US3860026A|1975-01-14|Automatic air vent
    CN205013784U|2016-02-03|Pressure differential plunger automatic pressure regulator
    US2710003A|1955-06-07|Breathing apparatus dump valve
    US2831492A|1958-04-22|Rupture disc safety valve
    US4625941A|1986-12-02|Gas lift valve
    US4026316A|1977-05-31|Valve mechanism
    US2568980A|1951-09-25|Carbonating machine
    US639435A|1899-12-19|Relief-valve.
    同族专利:
    公开号 | 公开日
    ES517490A0|1984-04-16|
    JPH026960B2|1990-02-14|
    AR229714A1|1983-10-31|
    KR860000455B1|1986-04-26|
    IE822756L|1983-05-20|
    AU9032082A|1983-06-16|
    AU541921B2|1985-01-31|
    NZ202561A|1986-06-11|
    NO154771C|1986-12-17|
    PH19592A|1986-05-26|
    CA1181656A|1985-01-29|
    IE53677B1|1989-01-04|
    DE3277596D1|1987-12-10|
    NO154771B|1986-09-08|
    JPS5888300A|1983-05-26|
    ES8404166A1|1984-04-16|
    EP0080358B1|1987-11-04|
    NO823861L|1983-05-24|
    ZA828415B|1983-09-28|
    MX157815A|1988-12-15|
    BR8206656A|1983-10-04|
    EP0080358A1|1983-06-01|
    KR840002511A|1984-07-02|
    AT30631T|1987-11-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB1294881A|1969-11-05|1972-11-01|
    US3771762A|1972-10-13|1973-11-13|Steel Corp|Safely disconnectable flow limiter valves for a high pressure fluid line|
    US4363424A|1980-10-23|1982-12-14|Cadbury Schweppes Pcl|Quick coupling device for a gas pressurization system|US4947739A|1989-02-17|1990-08-14|Charlie O Company, Inc.|Home soda dispensing system|
    KR100448722B1|2001-08-24|2004-09-13|대진합성화학 주식회사|Regenerating method of waste spandex and manufacturing method of synthetic and artificial leather|
    KR101303560B1|2011-11-17|2013-09-09|기아자동차주식회사|Pressure Sustaing System for LPG Bombe|
    EP3562776A1|2016-12-27|2019-11-06|Midnight Madness Distilling, LLC|Effervescent liquid dispenser|
    WO2019023059A1|2017-07-25|2019-01-31|Midnight Madness Distilling, Llc|Effervescent liquid dispenser|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US32330981A| true| 1981-11-20|1981-11-20|
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