• 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:
    A valve sub-assembly (10) that can be used with either a mechanical (60) or an electrical (62) valve actuator, and in either pressure or gravity operation. The valve sub-assembly has a pair of paddle valves (34,44) with valve actuating arms (40,46) that are simultaneously snap actuated by a yoke (64;108) of either the mechanical or electrical valve actuator. In addition, a valve assembly with a mechan­ical valve actuator that includes a snap acting, over-center spring arrangement. Also, a method for converting a valve assembly between pressure and gravity operation, and mechanical or electrical operation.
    公开号:SU1516005A3
    申请号:SU864028653
    申请日:1986-12-08
    公开日:1989-10-15
    发明作者:С.Кредл Вилльям (Младший);А.Шредер Альфред
    申请人:Дзе Кока-Кола Компани (Фирма);
    IPC主号:
    专利说明:

    the start of sparkling water with syrup turns the lever 12 for the vessel, which, acting on the levers 10 and 11, simultaneously opens the valves 4 and 5. At the same time, the liquid through the openings 30 and 3 is discharged into the nozzle 33, where it is mixed and sewn into the vessel. When using a mechanical drive, the lever 12, when rotated, moves the springs 19, 20 from the center, which forces the pivot bracket 15 to snap, and the valves 4, 5 are fixed in the open position.
    The spring 18 facilitates movement over the center by means of that means for fastening the lever. 12 moves downwards and contacts the spring 18 approximately in the middle of its length, forcing it to bend and reach its position on the other side of the center. Preferably, instead of the central spring 18, two additional springs 19, 20 located on the sides are used, which are connected by studs with a rotary bracket, 11 e.p. f-lp, 11 ill.
    The invention relates to a dosage technique and can be used for bottling beverages.
    The main point of the invention is to increase the reliability of operation.
    FIG. 1 shows a device for dispensing beverages with a mega-magnetic drive; in Fig .. - valves for regupirovin fluid flow; fig. 3 - KpemltiHn "lever for moving the cup; FIG. L is an electrically driven device; and “FIG. 5 is the same, front view; figb is the position of the lever for moving the vessel to the rest position; Fig, 7 - body, cross section; Fig. 8 is a section through the chamber for controlling the flow; Fig. 9 shows the lower housing (option I for filling under the force of gravity), a vertical section; in fig. U is a diagram of a block of valves spilling liquid under the force of gravity} in FIG. 11 is a diagram of a block of valves spilling liquid under pressure.
    The device consists of a housing 1 having pipes 2, 3 for supplying syrup and carbonated water, respectively, mounted valves 4 and 5 in each of them to regulate the flow of syrup and carbonated water, respectively, installed with a gap relative to the housing 1 of the vertical mounting plate 6 chambers 7 for regulating the flow of fluid. and piping, electric 8 or mechanical 9 actuators, mounted on the valves 4 and 5 on the arcing side of the levers 10 and 11 to control their operation, the articulated lever 12 d vessel, means 13
    five
    0
    five
    0
    five
    0
    for holding the lever 12 and means 14 for detachably attaching an electric B or mechanical 9 actuator, the latter including a pivot bracket 15 having two means 16, 17 for engaging with the levers 10, 11 and spring means which can contain) central helical 18 and additional springs 19, 20 installed on its opposite sides, and the center spindle spring 18 may be located between the bracket 15 and the lever arm I2 for the vessel
    The levers 10, 11 for controlling the operation of the valves 4, 5 can be located in one plane and mounted so that their shoulders converge and the opposite arms are located in the bracket 15.
    The lever arm 12 for the vessel may be provided with a hollow body.
    21dl springs 18, and additional saddles 19, 20 can be located between the bracket 15 and the housing 21.
    The unit can be equipped with
    22dl bending the spring 18 downwards, and the housing 21 with the fastening means 23 with the possibility of removing the lever 12. The means 14 for detachably fastening the valve drive is mounted in the gap between the housing 21 and the mounting plate 6 and includes elements 24
    and elements for separately fastening the electric 8 or mechanical 9 valve actuator.
    The unit may have additional chambers 25, 26 mounted in each pipeline 2, 3 for regulating the flow of fluid and installed 5:
    in each pipeline 2, 3 flow controllers 27, while in one of the chambers of the pipeline 3 a flow controller 27 can be installed, and in the other - a plug 28 with a through channel 29.
    In the mounting plate 6, two fluid openings 30, 31 located at a distance from one another can be formed, communicating with conduits 2, 3 arranged in the housing. The lever 12 is hingedly mounted on the axis 32, Drainage of fluid can occur through the nozzle 33 by means of the lever FOR having a finger 35.
    In the embodiment of the electrically driven unit 8, the lever 36 is rotatably mounted about the axis 37 and has a button 38 for interfacing with a switch 39, a solenoid 40, a bracket 41 hingedly mounted on the axis 42 of turning of the chute 43, 44, while the solenoid includes the bracket 45 attached to the housing 46, the lever 36 has a spring 47 for returning to the initial position the solenoid 40 has a spring 48. The unit may have a lower housing 49 that can be replaced with the housing 50 having a pipe 51 for feeding the syrup and a pipe 52.
    For bottling, a valve block 53 is used, which has pipes 54, 55 for supplying, respectively, carbonated water and syrup. For filling under pressure, a valve block 56 is used, having pipes 57, 58 for supplying water and syrup, respectively, and mounting block 6 has pipes 59, 60.
    The device works as follows.
    The lever 12 is installed to rotate relative to the rotary axis 32 and can occupy two positions - rest and dispensing fluid. When tempering sparkling water, which is drained through the nozzle 33, which has a mixing chamber, rotate the lever 34, which through the finger 35 moves the lever 11 of the valve 5.
    When dispensing carbonated water with syrup, the lever 12 for the vessel, when it turns, acts on the levers 10 and II, which simultaneously
    160056
    the valves 4 and 5 are opened, and the fluids through the holes 30, 31 are drained into the nozzle 33, where they are mixed.
    When using a mechanical actuator 9 for dispensing soda water, its rotary bracket 15 does not have a lever that would cause the corresponding valve to close.
    IQ The pressure of sparkling water provided by the valve 5 is sufficient to force the valve to be locked with the valve 5 fixed. When filling the sparkling water
    5 with the syrup, the lever 12, when rotated, moves the springs 18, 20 from the center, which force the pivoting bracket 15 to snap, resulting in a shift with the fixation of valves 4 and 5 to the open position. Sequential movement of the lever 12 forces the springs to move on the other side of the center until they provide
    25 moving with snap fastening of the bracket 15. Prkhtkin 18 facilitates movement in a position above the center by means of that the means 23 for fastening the lever 12 moves down and
    30 contacting the spring 18 approximately in the middle of its length, forcing it to bend, reaching a certain position on the other side of the center. Preferably, instead of the central spring 18, additional springs 19, 20 located on the sides are used, which are connected by studs with a rotary bracket 15. This reduces the forces required to move the lever 12.
    When using an electric actuator 8, the lever 36 is mounted for movement relative to the axis 37. The lever arm 36 acts on the button 38 so as to ensure the closure of the switch 39, as a result of which power will be transferred to the solenoid 40, which turns on its measles, which moves upwards by turning the bracket 41 relative to the axis of rotation 42. The ends of the arms 10, 11 are then located in the grooves 43, 44. The solenoid 40 includes a bracket 45, which is connected to the upper housing 46.
    Thus, when the vessel moves to the lever 36, the valves 4, 5 for supplying the syrup and carbonated water are opened for dispensing the beverage.
    35
    45
    50
    55
    After the vessel is removed, the lever 36 is released and under the influence of the spring 47 returns to its original position, as a result of which the switch 39 opens, the power is removed from the solenoid 40 and the spring 48 pushes down the yoke, thereby closing the valve 4 for syrup supply, Yu
    In this embodiment of the unit, it is also possible to pour carbonated water separately.
    The flow controller 27 can be replaced by a plug 28 with a through channel 15.
    The lower body 49 may be replaced by a body 50, which operates under the force of gravity and has a conduit 51 for feeding syrope and a pipe 52.
    The valves have a significantly larger diameter in order to block and connect the openings used when operating under the force of gravity.
    To facilitate the transition from work under pressure to work under the influence of gravity in the mounting rod C, the holes for supplying snort and 30 of the gasoline water are separated, while the pasto n 1 is different between them.
    The valve block 53 is designed to operate systems using gravity, and has conduits 54, 55 for supplying, respectively, sparkling water and syrup.
    The valve block 56 is designed for use in systems operating under pressure, has a pipeline of water 57, 58 for supplying water and syrup, respectively, and is connected to the mounting block 6, which has its own pipelines 59, 0.
    Thus, the valve block according to the invention does not require any modifications in the transition from the variant using pressure to the variant using the force of gravity.
    50
    权利要求:
    Claims (12)
    [1]
    1. A valve unit for a beverage dispenser, comprising a housing, liquid pipes located therein, valves mounted for each of them to regulate the flow of liquid, installed with
    five
    0
    five
    0
    0
    0
    relative to the housing on its rear side and a vertical mounting plate associated with it, a chamber for regulating the flow of fluid in the pipeline and a mechanical or electric actuator, characterized in that, in order to increase reliability in operation, it is equipped with mounted on each valve for controlling the flow fluid control levers mounted on the outside for simultaneous closing and opening of valves, a pivotally mounted lever for the vessel, means for holding the latter and means ohm for removable fastening of mechanical and electrically driven actuators, wherein the mechanical actuator consists of a swivel bracket connected to the vessel lever and having two means for interacting with the valve levers, and spring means connected with the bracket for moving it from the working position to non-working when moving the lever with the vessel, the tool dp interacting with the levers of the valves is made with the possibility of simultaneous opening of both valves,
    [2]
    2, The unit according to claim 1, characterized in that the spring means comprise a central spiral spring and additional springs mounted on its opposite sides.
    [3]
    3. The unit according to claim 2, characterized in that the central spiral spring is located between the bracket and the lever arm for the vessel,
    [4]
    4. Block 1, which differs from the fact that the valve control levers are located in one plane and mounted so that one of their shoulders converges, while the opposite arms are located in the bracket.
    [5]
    5, the block of pop, 1, is distinguished by the fact that the lever arm for the vessel is provided with a hollow body for locating therein the end of the central spring to move the lever from the inoperative position to the working one.
    [6]
    6. The unit according to claim., Differs from that 3 and with the fact that additional springs are installed between the valve body and the clamp,
    [7]
    7, Block pop, 3, excellent. ayu-shu and so that it is supplied
    means for bending the central spiral spring downward while retracting the lever for the vessel.
    [8]
    8. Pop 1 block, which differs in the fact that the housing is provided with fastening means with the possibility of removing the lever for the vessel, and the means for detachably fastening the valve actuator is mounted in the gap between the housing and the vertical mounting plate and includes elements for separate fastening or mechanical valve actuator.
    [9]
    9. Pop. Block 1, which is also distinguished by the fact that it is equipped with an additional chamber for controlling the flow of liquid, with the chambers being mounted in each pipeline.
    Figz
    1600510
    [10]
    10. The unit according to claim 9, which is also distinguished by the fact that it is equipped with a flow regulator installed in each chamber for controlling the flow of liquid.
    [11]
    The block according to claim 9, characterized in that it is provided with a flow regulator installed in one of the chambers and in the other with a plug with a through channel.
    [12]
    12. POP.1 unit, characterized in that two fluid openings, spaced apart from each other, are formed in the mounting plate, which are connected to liquid pipelines located in the housing,
    /
    Y /
     39
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    Phage. five
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    S3
    59
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    Lj uj
    firm eleven
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1516005A3|1989-10-15|Valve unit to beverage dispansing machine
    US3447281A|1969-06-03|Apparatus for filling containers
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    US6029699A|2000-02-29|Water tap construction
    SU967272A3|1982-10-15|Dispensing cartridge for apparatus for filling containers with ltquid under backpressure
    US2373294A|1945-04-10|Beer dispensing device
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    EP1190985B1|2005-12-07|Drink dispenser device for domestic refrigerators
    GB2116294A|1983-09-21|Liquid dispensing apparatus
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    JP2571990B2|1997-01-16|Apparatus for cleaning and draining liquid conduits
    US1093452A|1914-04-14|Faucet-operating mechanism.
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    CN109006535A|2018-12-18|A kind of control method of feeding water-feed
    US677751A|1901-07-02|Soda-water fountain.
    EP0614851A1|1994-09-14|Rapid connection head for a container containing a beverageunder pressure
    US4987926A|1991-01-29|Faucet using a cistern pump handle and a water mixing valve
    JP4570287B2|2010-10-27|Beverage pouring cock
    SU1181986A1|1985-09-30|Dispense cock
    JPH07167395A|1995-07-04|Automatic charging device for gas bomb
    同族专利:
    公开号 | 公开日
    IE62080B1|1994-12-14|
    EP0510776B1|1995-05-17|
    ES2049720T3|1994-05-01|
    DE3689686T2|1994-09-22|
    AU580697B2|1989-01-27|
    US4741355A|1988-05-03|
    JPS62208394A|1987-09-12|
    AU6570586A|1987-06-11|
    EP0226437B1|1994-03-02|
    DE3650326D1|1995-06-22|
    CA1311223C|1992-12-08|
    ES2072693T3|1995-07-16|
    ZA869288B|1987-08-26|
    EP0226437A3|1988-07-27|
    YU47250B|1995-01-31|
    HU210571B|1995-05-29|
    JPH0786037B2|1995-09-20|
    JPH0840496A|1996-02-13|
    KR910001272B1|1991-02-26|
    EP0226437A2|1987-06-24|
    EP0510776A1|1992-10-28|
    DE3650326T2|1995-12-21|
    HUT45597A|1988-07-28|
    IE863069L|1987-06-09|
    KR880008214A|1988-08-30|
    MX160740A|1990-05-08|
    YU208686A|1991-04-30|
    BR8606042A|1987-09-15|
    DE3689686D1|1994-04-07|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US06/806,886|US4741355A|1985-12-09|1985-12-09|Low cost beverage dispenser valve assembly|LV930911A| LV5444A3|1985-12-09|1993-06-30|A jar block for a drinking device|
    LTRP1027A| LT2527B|1985-12-09|1993-09-21|BEAUTIFUL COMBUSTION FLOWER BLOCK|
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