• 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:
    Extractor valve for distribution of beverages with automatic change of container and installation thereof without interruption and without the need of manipulation by an operator when the liquid of the corresponding container or barrel is exhausted, said extractor valve being included with connections for the entrance of the container. gas, electrical connections governed from a control panel, connection of pipes for the conduction of the liquid content of the barrels, together with chilled water, said pipes being connected in a connection box that allows the distribution of the liquid towards the dispensing faucet with hose of flood or contact. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2673052A1
    申请号:ES201631608
    申请日:2016-12-16
    公开日:2018-06-19
    发明作者:Fernando DOMÍNGUEZ RODRÍGUEZ
    申请人:Fernando DOMÍNGUEZ RODRÍGUEZ;
    IPC主号:
    专利说明:

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    producing the buoyancy lift of the buoy (41) of the sensor (15) and also of the anti-drip ball (34), giving way to the beverage, for distribution.
    The intake connection (10) of carbon dioxide (CO2), which incorporates the housing of the fixed element (2) has an internal cavity, which is sealed by means of two O-rings (33), positioned in the body of valve of the movable element (13), the carbon dioxide being retained in said cavity, when the pneumatic piston rod (4) is collected and the actuating solenoid valve (5) of said pneumatic piston (4) is not activated, so that the barrel (28) remains unticked.
    Also shown is the joint joint, of the fixed element (2) with the mobile element (13) coupled inside the fixed element (2), made through a pin (21) inserted between the closing bushing (14) of the movable element (13) and a threaded joint (22) in the pneumatic piston rod (4), incorporated in the fixed element (2).
    The movable element (13) moves vertically through the cavity of the fixed element (2) through a mechanized slot (24) positioned longitudinally of said housing.
    The distributor block (32) is also shown, indicating the drain (20), the lower blind connection (38) and the coupling connector (45) in connection with the flood hose (16).
    The closing cover (3) closed the housing of the fixed element (2) serving as a coupling for the pneumatic piston (4) is indicated
    When all the drink is consumed from a barrel (28), it leaves its way inside the circuit, to the carbon dioxide that so far pushed it, which causes that due to the difference in densities between both fluids, the buoy (59 ) of the sensor (15) stop floating causing its fall by gravity to the base of said sensor (15), causing a reed contact, which generates an electrical signal.
    The generated electrical signal is received through the wiring (6) of the sensor (15), causing a change in the actuating solenoid valve (5) that controls the pneumatic piston (4), reversing the entry of carbon dioxide into said pneumatic piston (4) through conduction (12) and causing the rise of the threaded joint (22) and in turn the rise of the movable element (13) and consequently the raking of the barrel (28), automatically closing the flow inlet of carbon dioxide from the installation instantaneously.
    On the other hand, a clamping lever (26) attached to the housing of the fixed element (2) is indicated.
    Figure 4 shows the housing of the fixed element (2) of cylindrical configuration, with an inner cavity (23) destined to the housing of the mobile element (13), which is movable through said inner cavity (23), by a mechanized slot (24) positioned longitudinally of said housing, incorporating externally in said housing a threaded boss (25) intended for coupling a clamping lever (26).
    The housing of the fixed element (2) incorporates in its upper part two mamelons (27) positioned at 180º, intended for the coupling of a closing cover (3), by means of screws.
    The housing of the fixed element (2), comprises in its lower part, a cylindrical section of smaller diameter, incorporating a machining of anchoring (29) of rotating action, in coincidence with the outlet connection of a barrel (28), incorporating a intake connection (10) for carbon dioxide inlet.
    Figure 5 shows the closing cover (3), of the fixed element (2), of prismatic configuration of reduced thickness, incorporating two lugs (30) positioned at an angle of 180º, coinciding with the mamelons
    (27) of the housing of the fixed element (2), incorporating threaded holes (31) on its surface for coupling the pneumatic piston (4) by means of screws.
    Figure 6 shows the mobile element (13) comprised of a cylindrical valve body, which incorporates a cavity (36) with a threaded section (37) in its upper part, incorporating a distributor block (32) that has two connections front, a blind bottom connection (38), and a top connection (39), manual purging, also comprises a side outlet connection (40) provided for the connection of a flood hose (16).
    The valve body of the mobile element (13), comprises in its lower part a cylindrical section of smaller diameter, with o-rings (33), housing between them a silicone anti-drip ball (34) that acts as a non-return valve , to seal or open the outlet of the liquid coming from the barrel (28), configuring the


    end of the lower part of the valve body of the mobile element (13), by a connection nozzle (35) to proceed to puncture the corresponding barrel (28).
    Figure 7 shows the closing bushing (14) comprised of two facing extensions (42),
    5 comprising at the lower end a threaded section (43) in coincidence with the threaded section (37) of the valve body, causing the closure thereof, incorporating said closing bushing (14) in its central part a through threaded hole (44) , intended for the sensor housing (15).
    Figure 8 shows the link device (17) between flood hoses (16) and Figure 9 shows
    10 the link device (17) between an inlet flood hose (16) and an outlet contact hose (19).
    In figures 8 and 9 the link device (17) is comprised of a frame (50) with an inlet cover
    (51) and facing this, an outlet cover (52), incorporating both coupling coupling caps (53).
    The linking device (17) also comprises branch fittings (54) for connecting the different conduits, between flood hoses (16), or between flood hoses (16) with contact hoses (19), said seal being sealed linking device (17), by joining the frame (50) with both covers (51 and 52) through adhesive contact means.
    20 The frame (50) is represented by a discontinuous path to show the internal mounting between the different lines of the flood (16) and contact (19) hoses.
    The linking device (17) holds the return ducts (46) and the beverage ducts (48) together in their
    25 inside, the flood ducts (47) registered in the corresponding covers (51 and 52) being registered, so that the circulating water invades the linking device (17) being continuously absorbed by the flood duct (47) connected to the outlet cover (52), maintaining a constant cycle of distribution and cooling of water.
    30 Figure 10 shows an installation scheme for distribution of beverages with automatic container change, provided as an example in a two-barrel installation (28), comprising:  A CO2 bottle (8) with pressure regulator, and pipes (12) with two-way fittings (55) and non-return valves (11), in connection with the CO2 inlet of the actuating solenoid valve (5) of the pneumatic piston (4)
    35  Inlet pipes (9) with two-way fittings (55) in communication with the CO2 inlet connection (10) of the fixed element (2) of the extractor valve (1), each of the extractor valves being connected (1) in its corresponding barrel (28).  Programmable control panel (7), in connection to the general electrical outlet (56), with direct wiring
    (6) with the actuating solenoid valve (5) of the pneumatic piston (4) and with the sensor (15) integrated in
    40 the valve body of the mobile element (13)  Closed water circuit, with outlet and arrival to a refrigerator (57),  Flood hoses (16), thermally insulated, for the distribution of beverage, in direct connection with a device connection (17) from each side outlet connection (40) of the distributor block (32) of the mobile element (13) of each of the extractor valves (1)
    45  Link device (17), coupling with flood hoses (16) or coupling between flood hoses (16) and contact (19) in direct connection with the dispensing tap (18) through a duct Drink (48).
    The installation procedure is carried out with the assembly of the link device (17), passing the return ducts 50 (46), and drinking ducts (48) of a flood hose (16) through the inlet cover
    (51) joining the free ends of the return ducts (46) with a bypass fitting (54) and with another bypass fitting (54) joining the drinking ducts (48), the flooding duct (47) being registered on the inlet cover (51), then continuing with the assembly of another flood hose (16) or contact (19), repeating the process through the outlet cover (52), joining the return ducts (46 ) and the
    55 drinking pipes (48) through the referred bypass fittings (54).
    Once the assembly is done, the connections of the covers (51 and 52) with the frame (50) are hermetically fixed, the extractor valves (1) are connected in their corresponding barrels (28), as well as all the elements that make up the installation , and its activation is activated from the control panel (7), according to
    60 programming, and when the dispensing tap (18) is opened, the fluids begin to be distributed by the installation as follows:
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    55
    60


    The intake connection (10) of carbon dioxide (CO2), which incorporates the housing of the fixed element (2) has an internal cavity, which is sealed by means of two O-rings (33), positioned in the body of valve of the mobile element (13), the carbon dioxide being retained in said cavity, when the pneumatic piston rod (4) is collected and the actuating solenoid valve (5) of said control is not activated from the control panel (7) pneumatic piston (4), so the barrel (28) remains unticked.
    At the moment when the actuating solenoid valve (5) of the pneumatic piston (4) receives the start signal, from the control panel (7), as programmed, through its corresponding wiring (6), the moving element ( 13) descends by "puncturing" the barrel (28) by means of the mechanical action exerted by the thrust of the threaded joint (22) of the pneumatic piston (4), causing the carbon dioxide retained in the internal cavity of the connection of intake (10) of the housing of the fixed element (2), communicate with the inside of the barrel (28), which, due to the difference in pressure causes the thrust of the drink, invading the cavity of the valve body of the mobile element (13), in the direction of the lateral outlet connection (40) of the mobile element (13), the buoyant elevation (59) of the sensor (15) and also of the anti-drip ball (34) occurring, giving way to the drink, for distribution.
    From the moment the barrel (28) is automatically "punctured" by the connection nozzle (35) of the valve body of the mobile element (13), caused by the thrust of the pneumatic piston (4), the beverage starts the distribution path through the corresponding flood hose (16) to a linking device (17), from which, through a flood hose (16) or contact (19), distributes the beverage outlet to through the dispensing tap (18), as long as it is open, and as follows:
     The linking device (17) holds the return ducts (46) and the drinking ducts together
    (48) inside, the flood ducts (47) positioned in the corresponding inlet (51) and outlet (52) caps being registered, so that the circulating water invades the link device (17) being absorbed continuously through the flood duct (47) connected to the outlet cover (52), maintaining a constant cycle of distribution and cooling of water.
    While the dispensing tap (18) is closed, the beverage will remain stored in the distribution circuit, which will always be cold while the refrigerator (57) located in the installation is active, since the installation has a closed water circuit, with leaving and arriving at said refrigerator (57), said closed circuit running parallel to that of the beverage, being registered in a thermally insulated flood hose (16).
    In this way the user can proceed to use the beverage from the barrel (28) whenever requested without requiring any additional operation to the opening of the dispensing tap (18), the installation remaining in a stable balance with the buoy (41) of the sensor (15) and anti-drip ball (34) both floating.
    When the moment when all the drink has been consumed from a barrel (28) has been consumed, it leaves its way inside the circuit to the carbon dioxide that so far pushed it, which causes that due to the difference in densities between both fluids , the buoy (41) of the sensor (15) stops floating causing its fall by gravity to the base of said sensor (15), causing a reed contact, which generates an electrical signal
    The generated electrical signal is received in the control module (7), through the wiring (6) of the sensor (15), causing a change in the actuating solenoid valve (5) that controls the pneumatic piston (4), reversing the carbon dioxide in said pneumatic piston (4) and causing the threaded joint to rise (22) and in turn the rise of the mobile element (13) and consequently the barrel ripping (28) and automatically closing the entrance of the Carbon dioxide flow from the CO2 bottle (8), instantaneously.
    At that same moment and in a completely automatic way, by means of the programmable control module (7), at the same time that the first barrel (28) is ripped off, the next barrel (28) is punctured. connected in the installation, then starting a new cycle described above.
    This makes the change from one barrel (28) to another almost instantaneously minimizing the entry of carbon dioxide into the beverage circuit and avoiding the need to be purged the complete circuit with the benefits that this generates to the user, such as better user experience for its clientele, improvement of working conditions and comfort, reduction of the spillage of drink and gas as waste, or what is the same, greater use of raw materials, cost savings and reduction of environmental impact .
    Once the automatic change to the next barrel (28), from the programmable control module (7), a signal is sent to the user that the first barrel (28) is empty, proceeding to replace it, at the time it is deem appropriate, for another full continuing the cycle indefinitely.


    This signal can be sent and received in different ways depending on the degree of technological implementation available in the establishment, from a simple LED light signal placed in the programmable control module itself (7), to an APP type communication via Wifi / Bluetooth ... with electronic devices such as computers, tablets or smartphones.
    5
    The procedure for replacing and replacing a barrel (28) is purely manual and consists of folding down a clamping lever (26), positioned in the housing of the fixed element (2), to facilitate the rotation of the extractor valve (1) until the necessary degrees depending on each standard anchoring system of the barrel manufacturer (28), so that once said extractor valve (1) is released, the spent barrel (28) is removed and replaced by
    10 the next full of drink, with the extractor valve (1) performing the opposite operation.
    When the contents of the barrel (28) are exhausted, the beverage circuit remains at all times sealed by the action of the anti-drip ball (34), which acts as an anti-return valve, leaving the valve body cavity with remains of beverage and carbon dioxide, being necessary to turn the trap (20) manually until the
    15 cited cavity is completely free.
    In the same way when the circuit is sealed by the action of the anti-drip ball (34), the beverage that has not been expelled by the circuit during the barrel change operation (28), is kept refrigerated by the circuit.
    20 With this the barrel (28) and the extractor valve (1) are prepared for a new cycle, leaving only their marking on the programmable control module (7), indicating that the replacement operation has already occurred and the barrel remains (28) operational for when necessary, in this case, when the next barrel (28) runs out.
    25
    权利要求:
    Claims (1)
    [1]
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    同族专利:
    公开号 | 公开日
    ES2745729T3|2020-03-03|
    ES2673052B1|2019-03-26|
    EP3336054B1|2019-07-17|
    HRP20191621T1|2019-12-13|
    EP3336054A1|2018-06-20|
    PT3336054T|2019-10-29|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB2415952A|2004-07-08|2006-01-11|Futuretec Technologies Ltd|Liquid supply changeover system|
    US20060169715A1|2004-11-09|2006-08-03|Jorg Emmendorfer|Controller-based management of a fluid dispensing system|
    EP2439170A1|2009-06-03|2012-04-11|ASAHI BREWERIES, Ltd.|Liquid supply system, liquid supply and switching device, and liquid flow path adjustment device|
    GB8723541D0|1987-10-07|1987-11-11|Whitford J|Float switch|
    BE1017841A6|2007-11-08|2009-08-04|Teeten Philippe|Remote control device for beer barrel, has pneumatic jack for mechanically driving piercing unit of beer barrel, and support units integrated to upper part of beer barrel, where two jacks are integrated on support units|
    法律状态:
    2018-06-19| BA2A| Patent application published|Ref document number: 2673052 Country of ref document: ES Kind code of ref document: A1 Effective date: 20180619 |
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201631608A|ES2673052B1|2016-12-16|2016-12-16|EXTRACTOR VALVE FOR DISTRIBUTION OF BEVERAGES|ES201631608A| ES2673052B1|2016-12-16|2016-12-16|EXTRACTOR VALVE FOR DISTRIBUTION OF BEVERAGES|
    PT172069593T| PT3336054T|2016-12-16|2017-12-13|Extractor valve for beverage dispensing|
    EP17206959.3A| EP3336054B1|2016-12-16|2017-12-13|Extractor valve for beverage dispensing|
    ES17206959T| ES2745729T3|2016-12-16|2017-12-13|Extractor valve for beverage distribution|
    HRP20191621| HRP20191621T1|2016-12-16|2019-09-09|Extractor valve for beverage dispensing|
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