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JP5308066B2 - Carbon dioxide pressure regulator - Google Patents
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JP5308066B2 - Carbon dioxide pressure regulator - Google Patents

Carbon dioxide pressure regulator Download PDF

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JP5308066B2
JP5308066B2 JP2008132248A JP2008132248A JP5308066B2 JP 5308066 B2 JP5308066 B2 JP 5308066B2 JP 2008132248 A JP2008132248 A JP 2008132248A JP 2008132248 A JP2008132248 A JP 2008132248A JP 5308066 B2 JP5308066 B2 JP 5308066B2
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pressure
carbon dioxide
valve
gas
dioxide gas
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JP2009280223A (en
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弘文 今井
茂雄 露木
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ACRITECH CORPORATION
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a pressure regulator for carbon dioxide gas which is capable of maintaining the minimum pressure necessary for well pouring a sparkling beverage from the inside of a container even at low temperature, and feeding an adequate carbon dioxide gas according to the temperature of the sparkling beverage to a sparkling beverage container, good in responsiveness, precise and reliable. <P>SOLUTION: The pressure regulator for carbon dioxide gas is equipped with a valve element 13 to be urged in the closing direction of a valve opening 11 of a valve seat body 9 by a first elastic body 7 between a gas inlet part 3 and a gas feeding part 6, a plate 15 with a fore end 14 of the valve element being abutted thereon, a first pressure chamber 16 for storing the plate 15, a second elastic body 19 for urging a diaphragm 17 abutted on the plate 15 in the direction for expanding the valve opening 11, a second pressure chamber 21 for storing the second elastic body 19, a first valve 22 provided in a gas passage communicated with the second pressure chamber from a gas outlet part 20 of the first pressure chamber, a second valve 25 provided in a gas passage communicated with a gas exhaust port 23 from the second pressure chamber, and an electronic control unit for controlling the first and second valves. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

本発明は、生ビール等の発泡飲料等の温度に応じて発泡飲料を貯留する容器内の圧力を調整する炭酸ガス圧力調整器に関する。   The present invention relates to a carbon dioxide pressure regulator that adjusts the pressure in a container that stores sparkling beverages according to the temperature of sparkling beverages such as draft beer.

発泡飲料容器から供給される発泡飲料の温度に応じて炭酸ガスボンベから発泡飲料容器に供給する炭酸ガスの圧力を、供給される発泡飲料の温度が低温時に炭酸ガスの圧力が低下し過ぎることにより、供給量が低下することなく、効率的な発泡飲料の供給を行うことができることを目的とした発泡飲料容器用圧力調整装置が提案されている(例えば、特許文献1参照。)。
特開2004−210274号公報
According to the temperature of the sparkling beverage supplied from the sparkling beverage container, the pressure of the carbon dioxide gas supplied from the carbon dioxide gas cylinder to the sparkling beverage container, the pressure of the carbon dioxide gas is too low when the temperature of the sparkling beverage supplied is low, A pressure adjusting device for sparkling beverage containers has been proposed for the purpose of efficiently supplying sparkling beverages without reducing the supply amount (see, for example, Patent Document 1).
JP 2004-210274 A

上記のような発泡飲料容器用圧力調整装置においては、サーモエレメントのワックスよってビール樽からのビール温度に応じてビール樽に供給する炭酸ガスの圧力を調節するものであるが、応答速度は決して速くなく、正確に目的の供給圧力を得ることが困難である。さらに、上記装置では、装置に直接ビールを通すため、サニタリー仕様にし、十分な洗浄ができることが要求されるという衛生上の課題がある。   In the pressure adjusting device for sparkling beverage containers as described above, the pressure of carbon dioxide gas supplied to the beer barrel is adjusted by the wax of the thermo element according to the beer temperature from the beer barrel, but the response speed is never fast. Therefore, it is difficult to accurately obtain the target supply pressure. Furthermore, since the apparatus directly passes beer through the apparatus, there is a sanitary problem that sanitary specifications are required and sufficient cleaning is required.

本発明は、低温時にも発泡飲料を貯留する容器内から発泡飲料を良好に注ぎだすのに必要な最低圧力を維持するとともに、発泡飲料の温度に応じた適切な炭酸ガスを発泡飲料容器に供給することができ、応答性がよく、正確で信頼性が高い、炭酸ガス圧力調整器を提供することを主目的とする。   The present invention maintains the minimum pressure required to pour a sparkling beverage from the container that stores the sparkling beverage even at low temperatures, and supplies the sparkling beverage container with an appropriate carbon dioxide gas corresponding to the temperature of the sparkling beverage. The main object of the present invention is to provide a carbon dioxide gas pressure regulator that can be responsive, accurate, accurate and reliable.

本発明の炭酸ガス圧力調整器は、気温、発泡飲料の温度、及び/又は、発泡飲料容器の温度を測定して温度信号を出力する温度センサ(27,28)と、ガス入口部(3)とガス供給部(6)の間に第1弾性体(7)により弁座体(9)の弁開口(11)が閉じる方向に付勢される弁体(13)と、該弁体の先端(14)が当接するプレート(15)と、該プレートを収容する第1圧力室(16)と、該プレートに当接するダイヤフラム(17)に、前記弁開口を広げる方向に、かつ、前記第1圧力室の炭酸ガスが所定圧力より下がらないように、該所定圧力と前記第1弾性体が前記ダイヤフラムに付勢する力と釣り合う大きさの力を付勢する第2弾性体(19)と、該第2弾性体を収容する第2圧力室(21)と、前記第1圧力室のガス出口部(20)から前記第2圧力室に通じるガス通路に第1バルブ(22)と、前記第2圧力室からガス排出口(23)に通じるガス通路に第2バルブ(25)と、温度に対する炭酸ガス供給圧力の関係を規定する制御マップを有し、前記温度信号及び圧力信号を入力して、供給する炭酸ガスの圧力が該温度信号に対する制御マップに規定する炭酸ガス供給圧力になるように前記第1バルブと前記第2バルブを制御する電子制御ユニットとを備え、前記電子制御ユニットは、前記供給する炭酸ガスの圧力が前記制御マップに規定する炭酸ガス供給圧力より低いとき炭酸ガスを通すべく第1バルブを作動させ、高いとき炭酸ガスを通すべく第2バルブを作動させることを特徴とする。 The carbon dioxide pressure regulator of the present invention includes a temperature sensor (27, 28) that measures the temperature, the temperature of the sparkling beverage, and / or the temperature of the sparkling beverage container and outputs a temperature signal, and the gas inlet (3). A valve body (13) urged in a direction in which the valve opening (11) of the valve seat body (9) is closed by the first elastic body (7) between the gas supply section (6) and the tip of the valve body (14) and abutting plates (15), a first pressure chamber for accommodating the plates (16), the diaphragm (17) abuts to the plate, in a direction to widen the valve opening port and the A second elastic body (19) that urges a force having a magnitude that balances the predetermined pressure and the force that the first elastic body urges the diaphragm so that the carbon dioxide gas in the first pressure chamber does not drop below the predetermined pressure. , a second pressure chamber for accommodating a second elastic body (21), outlet gas of the first pressure chamber Part (20) the first valve to a gas passage communicating with the second pressure chamber from (22), a second valve (25) to the gas passage leading to the second pressure chamber or et gas outlet (23), the temperature A control map for defining the relationship between the carbon dioxide gas supply pressure and the carbon dioxide gas supply pressure defined in the control map for the temperature signal. and an electronic control unit for controlling the first valves and the second valves, the said electronic control unit, carbonate when the pressure of the supplied carbonic acid gas is lower than the carbon dioxide supply pressure prescribed in the control map actuating the first valve to pass gas, characterized Rukoto actuating the second valve to pass carbon dioxide is higher.

本発明によれば、第2弾性体が第1圧力室の炭酸ガスの所定圧力と第1弾性体の力を加えた力と釣り合う力を反対側からダイヤフラムに付勢し、ガス供給部のガス第1及び第2バルブの作動により第2弾性体が収容されている第2圧力室に導かれ、さらに大気へ排出される構造であり、電子制御ユニットが、測定される圧力と測定される温度に対する制御マップで規定される炭酸ガス供給圧力との関係から、供給する炭酸ガスの圧力が測定される温度に対する制御マップに規定する炭酸ガス供給圧力になるように、供給する炭酸ガスの圧力が制御マップに規定する炭酸ガス供給圧力より低いとき第1バルブを作動させ、高いとき第2バルブを作動させるので、発砲飲料が低温のときにも、発泡飲料を良好に注ぎだすのに必要な最低圧力を容器内の発泡飲料に付与するとともに、応答性よく発泡飲料の温度に応じた正確な圧力の炭酸ガスを発泡飲料容器に供給することができる。 According to the present invention, a force that balances the force which the second elastic body by adding a predetermined pressure and the force of the first elastic body of carbon dioxide gas in the first pressure chamber biases from the opposite side to the diaphragm, the gas supply unit he guide the second pressure chamber which the gas is the second elastic body is accommodated by the operation of the first and second valves, a structure further Ru is discharged to the atmosphere, the electronic control unit is measured and the measured pressure The pressure of the supplied carbon dioxide gas so that the pressure of the supplied carbon dioxide gas becomes the carbon dioxide gas supply pressure specified in the control map for the measured temperature from the relationship with the carbon dioxide gas supply pressure specified in the control map for the temperature to be Since the first valve is activated when the pressure is lower than the carbon dioxide supply pressure specified in the control map, and the second valve is activated when the pressure is high, it is necessary to pour the sparkling beverage well even when the foamed beverage is cold. Minimum pressure Together impart foaming beverage inner, an accurate pressure of the carbon dioxide gas in accordance with the temperature of the good response foamed beverage can be supplied to the foaming beverage container.

本発明において、前記電子制御ユニットは、供給する炭酸ガスの圧力が前記制御マップに規定する炭酸ガス供給圧力より高いとき、さらに炭酸ガスを通すべく第1バルブを作動させることが好ましい。このことにより、ガス供給部の炭酸ガスの一部が第2圧力室を通って大気に排出されるため、供給する炭酸ガスの圧力を迅速に制御マップに規定する炭酸ガス供給圧力とすることができる。 In the present invention, before Symbol electronic control unit, when the pressure of the carbon dioxide gas supplied is higher than the carbon dioxide supply pressure prescribed in the control map, it is preferable to operate the first valve to further pass carbon dioxide. As a result, part of the carbon dioxide in the gas supply section is discharged to the atmosphere through the second pressure chamber, so that the pressure of the supplied carbon dioxide can be quickly set to the carbon dioxide supply pressure defined in the control map. it can.

本発明において、前記電子制御ユニットは、前記供給する炭酸ガスの圧力が低下して前記制御マップに規定する炭酸ガス供給圧力になると、前記第1バルブ及び前記第2バルブを閉じる制御信号を出力することが好ましい。このことにより、ガス出口部20から炭酸ガスが大気へ排出されなくなるので、炭酸ガス供給圧力の低下は停止する。 Oite the present invention, the electronic control unit, the pressure of the supplied carbonic acid gas is carbon dioxide supply pressure prescribed in the control map decreases, the control signal for closing the first valve and the second valve It is preferable to output. Thus, since the carbon dioxide gas from the gas outlet 20 is no longer discharged into the atmosphere, reduction of carbon dioxide gas supply pressure that stops.

本発明の炭酸ガス圧力調整器によれば、低温時にも発泡飲料を貯留する容器内から発泡飲料を良好に注ぎだすのに必要な最低圧力を維持できるとともに、発泡飲料の温度に応じた適切な炭酸ガスを発泡飲料容器に供給することができるので、応答性がよく、正確で信頼性が高い According to the carbon dioxide pressure regulator of the present invention, it is possible to maintain the minimum pressure required to satisfactorily pour the sparkling beverage from the container for storing the sparkling beverage even at a low temperature, and to appropriately adjust the temperature of the sparkling beverage. Runode can supply carbon dioxide gas for foaming the beverage container, better response, is accurate and reliable.

以下、添付図面を参照ながら本発明の一実施形態に係る炭酸ガス圧力調整器ついて詳細に説明するが、本発明は、これに限定されて解釈されるものではなく、本発明の範囲を逸脱しない限りにおいて、当業者の知識に基づいて、種々の変更、修正、改良を加え得るものである。   Hereinafter, a carbon dioxide pressure regulator according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not construed as being limited thereto, and does not depart from the scope of the present invention. Insofar as various changes, modifications and improvements can be made based on the knowledge of those skilled in the art.

図1は、本発明に係る炭酸ガス圧力調整器1を備える発泡飲料供給装置100の全体構成を示す。炭酸ガスボンベ39中の高圧炭酸ガスは、炭酸ガス圧力調整器1によって減圧され炭酸ガス供給通路33を通ってビール樽26に供給される。ビール樽26内のビールは、炭酸ガスの圧力によってビール樽26内の下部に設けられている取り出し口(図示せず)からビール通路32を通って供給される。炭酸ガス圧力調整器用の電気は電源(ACアダプタ)40から導かれる。   FIG. 1: shows the whole structure of the sparkling beverage supply apparatus 100 provided with the carbon dioxide pressure regulator 1 which concerns on this invention. The high-pressure carbon dioxide in the carbon dioxide cylinder 39 is decompressed by the carbon dioxide pressure regulator 1 and supplied to the beer barrel 26 through the carbon dioxide supply passage 33. Beer in the beer barrel 26 is supplied through a beer passage 32 from a take-out port (not shown) provided in the lower portion of the beer barrel 26 by the pressure of carbon dioxide gas. Electricity for the carbon dioxide pressure regulator is derived from a power source (AC adapter) 40.

図2は、本発明に係る炭酸ガス圧力調整器1の断面図を、図3は図2の中央部分の拡大断面図を示す。本実施例において、第1弾性体及び第2弾性体としてスプリングを使用し、以下の実施例においても同様にスプリングを使用する。
炭酸ガスは、ガス入口部3から入り、弁座体9の弁開口11を通って減圧された後、第1圧力室16へ入り、ガス供給部6から出てビール樽26に供給される。弁体13は、第1スプリング7により弁座体9の弁開口11が閉じる方向に付勢されており、弁体の先端14はプレート15と当接している。
2 is a cross-sectional view of the carbon dioxide pressure regulator 1 according to the present invention, and FIG. 3 is an enlarged cross-sectional view of the central portion of FIG. In the present embodiment, springs are used as the first elastic body and the second elastic body, and springs are similarly used in the following embodiments.
Carbon dioxide gas enters from the gas inlet 3, is decompressed through the valve opening 11 of the valve seat 9, enters the first pressure chamber 16, exits the gas supply unit 6, and is supplied to the beer barrel 26. The valve body 13 is biased by the first spring 7 in the direction in which the valve opening 11 of the valve seat body 9 is closed, and the tip 14 of the valve body is in contact with the plate 15.

プレート15と当接しているダイヤフラム17は、該プレート15の当接面とは反対の面に当接している第2スプリング受け18を介して第2スプリング19により図面右方向、すなわち弁座体9の弁開口11を広げる方向に、第1スプリング7よりも大きな弾性力で付勢されているので、運転開始前、弁座体9の弁開口11は開いた状態にある。
第2スプリング19は第2圧力室21に収容されており、第1圧力室16の炭酸ガスは第1ソレノイドバルブ22が開かれることによってガス出口部20を介して第2圧力室21に供給される。第2圧力室21の炭酸ガスは第2ソレノイドバルブ25が開かれることによってガス排出口23から排出される。
The diaphragm 17 in contact with the plate 15 is moved in the right direction of the drawing, that is, the valve seat body 9 by the second spring 19 via the second spring receiver 18 in contact with the surface opposite to the contact surface of the plate 15. The valve opening 11 of the valve seat body 9 is in an open state before the operation is started because the valve opening 11 is urged with a larger elastic force than the first spring 7 in the direction of expanding the valve opening 11.
The second spring 19 is accommodated in the second pressure chamber 21, and the carbon dioxide gas in the first pressure chamber 16 is supplied to the second pressure chamber 21 through the gas outlet portion 20 when the first solenoid valve 22 is opened. The The carbon dioxide gas in the second pressure chamber 21 is discharged from the gas discharge port 23 when the second solenoid valve 25 is opened.

運転開始時、炭酸ガスボンベ39の元バルブ41を開けると、弁開口11は開いているので炭酸ガスは、炭酸ガス圧力調整器1を通ってビール樽26に流れ、ビール樽26が加圧される。この供給圧力、つまり第1圧力室16内の炭酸ガスの圧力が第2スプリング19によって付勢される弾性力に逆らって、ダイヤフラム17を図面左方向、すなわち弁座体9の弁開口11を閉じる方向に作用し、一定圧力以上になると弁開口11が閉じて、炭酸ガスボンベ39からの炭酸ガスの供給が停止し、供給する炭酸ガスの圧力は一定に保持される。   At the start of operation, when the original valve 41 of the carbon dioxide cylinder 39 is opened, the valve opening 11 is open, so that the carbon dioxide flows into the beer barrel 26 through the carbon dioxide pressure regulator 1 and the beer barrel 26 is pressurized. . The supply pressure, that is, the pressure of the carbon dioxide gas in the first pressure chamber 16 is opposed to the elastic force urged by the second spring 19, and the diaphragm 17 is closed in the left direction in the drawing, that is, the valve opening 11 of the valve seat body 9 is closed. When the pressure is higher than a certain pressure, the valve opening 11 is closed, the supply of carbon dioxide from the carbon dioxide cylinder 39 is stopped, and the pressure of the supplied carbon dioxide is kept constant.

ビール樽26からビールが供給されビール樽26の供給する炭酸ガスの圧力が下がると、第1圧力室16内の炭酸ガスの圧力が下がり、第2弾性体19の弾性力によって付勢される図面右方向の力が勝るので、弁座体9の弁開口11は開き、炭酸ガスボンベから炭酸ガスがビール樽26に供給される。   When beer is supplied from the beer barrel 26 and the pressure of the carbon dioxide gas supplied from the beer barrel 26 is reduced, the pressure of the carbon dioxide gas in the first pressure chamber 16 is lowered and is urged by the elastic force of the second elastic body 19. Since the force in the right direction is won, the valve opening 11 of the valve seat body 9 is opened, and carbon dioxide is supplied from the carbon dioxide cylinder to the beer barrel 26.

本実施例に係る炭酸ガス圧力調整器1では、ダイヤフラム17に対して第2スプリング19の付勢力が弁座体9の弁開口11を開く方向に作用し、第1圧力室15の炭酸ガス圧力と第1スプリング7の付勢力が弁座体9の弁開口11を閉じる方向に作用する。このため、炭酸ガスの供給圧力が低下し第1圧力室15の炭酸ガスが所定圧力より下がると第2スプリング19の付勢力が第1圧力室15の炭酸ガス圧力と第1スプリング7の付勢力を上回る。そして、ダイヤフラム17が、該ダイヤフラム17に当接しているプレート15を介して弁体13を図面右方向に移動させることによって、弁座体9の弁開口11が開く。このことにより、炭酸ガスボンベ39から炭酸ガスが供給されるので、再び第1圧力室15の炭酸ガス圧力は上昇し、供給炭酸ガスの圧力は所定圧力以上に維持される。   In the carbon dioxide pressure regulator 1 according to the present embodiment, the urging force of the second spring 19 acts on the diaphragm 17 in the direction of opening the valve opening 11 of the valve seat body 9, and the carbon dioxide pressure in the first pressure chamber 15. The urging force of the first spring 7 acts in the direction of closing the valve opening 11 of the valve seat body 9. For this reason, when the supply pressure of the carbon dioxide gas decreases and the carbon dioxide gas in the first pressure chamber 15 falls below a predetermined pressure, the biasing force of the second spring 19 changes the carbon dioxide gas pressure in the first pressure chamber 15 and the biasing force of the first spring 7. It exceeds. Then, when the diaphragm 17 moves the valve body 13 to the right in the drawing via the plate 15 in contact with the diaphragm 17, the valve opening 11 of the valve seat body 9 is opened. Accordingly, since carbon dioxide gas is supplied from the carbon dioxide gas cylinder 39, the carbon dioxide gas pressure in the first pressure chamber 15 rises again, and the pressure of the supplied carbon dioxide gas is maintained at a predetermined pressure or higher.

前記所定圧力は、第1スプリングと第2スプリング19の付勢力の選定により適宜決めることができるが、通常は、第1スプリングは一定のものを使用し、第2スプリング19の付勢力を設定最低圧力となるように選定する。本実施例では、最低圧力Po(図4で説明する。)となるように第2スプリング19の付勢力を選定している。   The predetermined pressure can be appropriately determined by selecting the urging force of the first spring and the second spring 19, but normally, the first spring is fixed and the urging force of the second spring 19 is set to the lowest value. Select the pressure. In this embodiment, the urging force of the second spring 19 is selected so as to be the minimum pressure Po (described in FIG. 4).

本発明に係る炭酸ガス圧力調整器1では、ビールが低温の場合であっても、ダイヤフラム17に作用する第2スプリング19の弾性力を調整することによって、最低の供給する炭酸ガスの圧力を設定できるので、ビールが低温時にもビール樽内から発泡飲料を良好に注ぎだすのに必要な最小必要圧力Poを維持することができ、応答性はよく、正確である。   In the carbon dioxide pressure regulator 1 according to the present invention, the lowest pressure of carbon dioxide gas to be supplied is set by adjusting the elastic force of the second spring 19 acting on the diaphragm 17 even when the beer is at a low temperature. Therefore, even when the beer is cold, the minimum necessary pressure Po required for pouring the sparkling beverage from the beer barrel can be maintained, and the responsiveness is good and accurate.

図1に示すように、ビール樽26から出た直後のビール温度は温度センサ27により検出され、信号として温度センサコード35を通って炭酸ガス圧力調整器1の電子制御ユニット(図示せず)に送られる。ビール樽26の温度は、ビール樽26の下部に設けられた温度センサ28により検出され、信号として温度センサコード35を通って電子制御ユニット(図示せず)に送られる。温度センサとしては、サーミスタ素子を使用することができる。ビール樽26の内部の圧力を検出するために、ビール樽26の上部に圧力センサ29が設けられており、この圧力が信号として電子制御ユニット(図示せず)に送られる。   As shown in FIG. 1, the beer temperature immediately after coming out of the beer barrel 26 is detected by a temperature sensor 27 and passes through a temperature sensor cord 35 as a signal to an electronic control unit (not shown) of the carbon dioxide pressure regulator 1. Sent. The temperature of the beer barrel 26 is detected by a temperature sensor 28 provided at the lower portion of the beer barrel 26, and is sent as a signal to an electronic control unit (not shown) through the temperature sensor code 35. As the temperature sensor, a thermistor element can be used. In order to detect the pressure inside the beer barrel 26, a pressure sensor 29 is provided at the top of the beer barrel 26, and this pressure is sent as a signal to an electronic control unit (not shown).

図4は、本発明による炭酸ガス圧力調整器1によって調整する炭酸ガスの温度と供給圧力の関係を示す。この制御マップは、それぞれの温度に対する最適な炭酸ガス供給圧力として炭酸ガス圧力調整器1が制御する温度と圧力の関係を示すものであり、予め、その関係が電子制御ユニットに入力される。ここでは、所定の温度範囲内においては、温度の増加に対して炭酸ガス供給圧力も増加する単調増加の関係にあり、その範囲外では、温度の変化に対して炭酸ガス供給圧力は一定値とする。これにより、ガス供給圧力が低すぎてビールの注出に支障が出たり、逆に供給圧力が高すぎてビールの吐出圧力が高くなりすぎたりすることを回避することができる。温度としては、気温、発泡飲料の温度、及び/又は、発泡飲料容器の温度の単独又はこれらの組合せを用いることができ、組合せとしては所定の範囲におけるこれらの温度を変数とする一次関数としてガス供給圧力を規定することができる。   FIG. 4 shows the relationship between the temperature of carbon dioxide adjusted by the carbon dioxide pressure regulator 1 according to the present invention and the supply pressure. This control map shows the relationship between the temperature and pressure controlled by the carbon dioxide pressure regulator 1 as the optimum carbon dioxide supply pressure for each temperature, and this relationship is input to the electronic control unit in advance. Here, within a predetermined temperature range, the carbon dioxide gas supply pressure increases monotonically with increasing temperature. Outside this range, the carbon dioxide gas supply pressure remains constant with respect to temperature changes. To do. As a result, it is possible to avoid that the gas supply pressure is too low and hinders beer dispensing, or that the supply pressure is too high and the beer discharge pressure becomes too high. As the temperature, the temperature, the temperature of the sparkling beverage, and / or the temperature of the sparkling beverage container can be used singly or in combination, and the combination is a gas as a linear function with these temperatures in a predetermined range as variables. Supply pressure can be defined.

ビール温度が温度センサ27から電子制御ユニット(図示せず)に入力されると、制御マップに入力されているその温度(T℃)に対する最適な炭酸ガス供給圧力(以下、「Pt」とする。)と圧力センサ29から送られてきたビール樽26の供給圧力(以下、「Pa」とする。)との比較が行われる。
その結果、PaがPtより低いときには、電子制御ユニットは第1ソレノイドバルブ22に制御信号を出力し、この信号を入力した第1ソレノイドバルブ22は、炭酸ガスを通すように作動する。この作動により、第1圧力室16のガス出口部20から一部炭酸ガスが第1ソレノイドバルブ22を通って第2圧力室21に入るので、第1圧力室16と第2圧力室21の圧力が等しくなる。つまり、上記の運転開始時の状態となるので、ガス入口部3からガス供給部6に炭酸ガスが流れ、ビール樽26内の炭酸ガス圧力が上昇する。
When the beer temperature is input from the temperature sensor 27 to the electronic control unit (not shown), the optimum carbon dioxide supply pressure (hereinafter referred to as “Pt”) for the temperature (T ° C.) input in the control map. ) And the supply pressure of the beer barrel 26 sent from the pressure sensor 29 (hereinafter referred to as “Pa”).
As a result, when Pa is lower than Pt, the electronic control unit outputs a control signal to the first solenoid valve 22, and the first solenoid valve 22 receiving this signal operates to pass carbon dioxide gas. By this operation, a part of carbon dioxide gas enters the second pressure chamber 21 from the gas outlet portion 20 of the first pressure chamber 16 through the first solenoid valve 22, so that the pressure in the first pressure chamber 16 and the second pressure chamber 21 is increased. Are equal. That is, since the above operation is started, carbon dioxide flows from the gas inlet 3 to the gas supply 6 and the carbon dioxide pressure in the beer barrel 26 increases.

さらに、Paが上昇してPtに達すると、電子制御ユニットは第1ソレノイドバルブ22にバルブを閉じさせる制御信号を出力する。このことにより、第1ソレノイドバルブ22は閉じ、第2圧力室への炭酸ガスの供給が停止するので、ダイヤフラム17が弁座体9の弁開口11を閉じる位置でバランスし、ビール樽26への炭酸ガスの供給は停止し、ビール樽26内の炭酸ガス供給圧力の上昇は停止する。   Further, when Pa increases and reaches Pt, the electronic control unit outputs a control signal for causing the first solenoid valve 22 to close the valve. As a result, the first solenoid valve 22 is closed and the supply of carbon dioxide gas to the second pressure chamber is stopped, so that the diaphragm 17 is balanced at a position where the valve opening 11 of the valve seat body 9 is closed, and the beer barrel 26 is supplied to the beer barrel 26. The supply of carbon dioxide gas is stopped, and the increase in carbon dioxide gas supply pressure in the beer barrel 26 is stopped.

PaがPtより高いときには、電子制御ユニットは第2ソレノイドバルブ25に制御信号を出力し、この信号を入力した第2ソレノイドバルブ25は、炭酸ガスを通すように作動する。この作動により、第2圧力室21内の炭酸ガスが第2ソレノイドバルブ25を通ってガス排出口23から大気に排出されるので、第2圧力室21内の圧力が低下し、ダイヤフラムが図面左方向へ移動することにより、プレート15を介して弁体13は図面左方向へ移動し、弁開口11は閉じ、炭酸ガスの供給が停止する。   When Pa is higher than Pt, the electronic control unit outputs a control signal to the second solenoid valve 25, and the second solenoid valve 25 receiving this signal operates to pass carbon dioxide gas. By this operation, carbon dioxide gas in the second pressure chamber 21 passes through the second solenoid valve 25 and is discharged from the gas discharge port 23 to the atmosphere, so that the pressure in the second pressure chamber 21 is reduced and the diaphragm is left on the drawing. By moving in the direction, the valve element 13 moves to the left in the drawing via the plate 15, the valve opening 11 is closed, and the supply of carbon dioxide gas is stopped.

次いで、電子制御ユニットから出力される制御信号により第1ソレノイドバルブ22が作動すると、第1ソレノイドバルブ22を炭酸ガスが流れることができるようになるので、第1圧力室16のガス出口部20から供給炭酸ガスが第2圧力室21を通過して、ガス排出口23から大気に排出されるので、ビール樽26内の炭酸ガス供給圧力はより迅速に減圧する。   Next, when the first solenoid valve 22 is actuated by a control signal output from the electronic control unit, carbon dioxide gas can flow through the first solenoid valve 22, so that from the gas outlet 20 of the first pressure chamber 16. Since the supplied carbon dioxide gas passes through the second pressure chamber 21 and is discharged to the atmosphere from the gas discharge port 23, the carbon dioxide supply pressure in the beer barrel 26 is reduced more rapidly.

さらに、Paが低下してPtになると、電子制御ユニットが、第1ソレノイドバルブ22と第2ソレノイドバルブ25を閉じさせる制御信号を出力する。このことにより、ガス出口部20から炭酸ガスが大気へ排出されなくなので、炭酸ガス供給圧力の低下は停止する。 Further, when Pa decreases to Pt, the electronic control unit outputs a control signal for closing the first solenoid valve 22 and the second solenoid valve 25. Thus, since the carbon dioxide gas from the gas outlet 20 ing not be discharged into the atmosphere, reduction of carbon dioxide gas supply pressure is stopped.

本実施例では、図4に示す制御マップにより、温度Tm以上では炭酸ガス供給圧力が一定(Pm)となるように規定しているので、発泡飲料の温度が温度Tm以上になった場合でも、供給圧力が異常に高くなり、発泡飲料の供給が増えすぎることを防止できる。   In the present embodiment, the control map shown in FIG. 4 stipulates that the carbon dioxide gas supply pressure is constant (Pm) above the temperature Tm, so even when the temperature of the sparkling beverage is above the temperature Tm, It can prevent that supply pressure becomes abnormally high and supply of sparkling beverages increases too much.

本実施例において、第1ソレノイドバルブ22及び第2ソレノイドバルブ25の作動は、バルブの開閉を断続的に繰り返す操作であり、その間隔は、炭酸ガスの急激な流れを抑制し、正確な圧力制御ができるように電子制御ユニットにて調整される。   In the present embodiment, the operation of the first solenoid valve 22 and the second solenoid valve 25 is an operation that repeats opening and closing of the valve intermittently, and the interval thereof suppresses a rapid flow of carbon dioxide gas, thereby enabling accurate pressure control. It is adjusted by the electronic control unit so that

図5は、実施例2の炭酸ガス圧力調整器10の断面図を示す。なお、図5において、図2及び図3で用いた構成要素と同一の構成要素には同一符号を付し、その説明は省略する。
図5に示すように、炭酸ガス圧力調整器10では、ガスの流れを絞るためにガス入口部3とガス出口部20にそれぞれオリフィス4,6を形成し、第1圧力室16の圧力を検出するために圧力センサ30が設けている他は、実施例1と同じである。
FIG. 5 shows a cross-sectional view of the carbon dioxide pressure regulator 10 of the second embodiment. In FIG. 5, the same components as those used in FIGS. 2 and 3 are denoted by the same reference numerals, and the description thereof is omitted.
As shown in FIG. 5, the carbon dioxide pressure regulator 10 detects the pressure in the first pressure chamber 16 by forming orifices 4 and 6 in the gas inlet 3 and the gas outlet 20, respectively, in order to restrict the gas flow. For this purpose, the second embodiment is the same as the first embodiment except that the pressure sensor 30 is provided.

実施例2の炭酸ガス圧力調整器10では、オリフィス4,5を形成しているので、炭酸ガスボンベ39から第1圧力室16へ、第1圧力室16からビール樽26への急激な炭酸ガスの流れを防止でき、よりスムーズで正確な炭酸ガス供給圧力の調整ができる。   In the carbon dioxide pressure regulator 10 according to the second embodiment, the orifices 4 and 5 are formed, so that the sudden carbon dioxide gas from the carbon dioxide gas cylinder 39 to the first pressure chamber 16 and from the first pressure chamber 16 to the beer barrel 26 is increased. The flow can be prevented, and the carbon dioxide supply pressure can be adjusted more smoothly and accurately.

また、本実施例において、ビール樽26の上部に設置した圧力センサ29に代えて、炭酸ガス圧力調整器10に形成された圧力センサ30にて検出される炭酸ガス供給圧力を信号として電子制御ユニットに送り、炭酸ガス供給圧力を調整する。電子制御ユニットは炭酸ガス圧力調整器10(図面裏面)に取り付けられているので、圧力センサコードを最短にすることができる。本実施例において、ビール樽26内の炭酸ガス供給圧力の制御は、実施例1にもまして、迅速かつ正確に行われる。   Further, in this embodiment, instead of the pressure sensor 29 installed on the upper part of the beer barrel 26, the electronic control unit uses the carbon dioxide supply pressure detected by the pressure sensor 30 formed in the carbon dioxide pressure regulator 10 as a signal. To adjust the carbon dioxide supply pressure. Since the electronic control unit is attached to the carbon dioxide pressure regulator 10 (the back side of the drawing), the pressure sensor cord can be minimized. In the present embodiment, the control of the carbon dioxide gas supply pressure in the beer barrel 26 is performed more quickly and accurately than the first embodiment.

以上説明したように、本発明によると温度に応じた炭酸ガス供給圧力の調整を応答速度が速く、きめ細かくできるので、ビアホールや居酒屋などの発泡飲料樽用の炭酸ガス圧力調整器として使用できる。   As described above, according to the present invention, the adjustment of the carbon dioxide gas supply pressure in accordance with the temperature can be made finely because the response speed is fast and fine, so that it can be used as a carbon dioxide gas pressure regulator for a foamed beverage barrel such as a via hole or a pub.

実施例1に係る炭酸ガス圧力調整器を備える発泡飲料供給装置の全体構成を示す概観図である。BRIEF DESCRIPTION OF THE DRAWINGS It is a general-view figure which shows the whole structure of a sparkling beverage supply apparatus provided with the carbon dioxide gas pressure regulator which concerns on Example 1. FIG. 実施例1に係る炭酸ガス圧力調整器の構成を示す一部欠載断面図である。FIG. 3 is a partially omitted cross-sectional view illustrating the configuration of the carbon dioxide pressure regulator according to the first embodiment. 図2の中央部分の構成を示す拡大断面図である。It is an expanded sectional view which shows the structure of the center part of FIG. 本発明に係る炭酸ガス圧力調整器によって調整するガスの供給圧力と温度の関係を示す特性図である。It is a characteristic view which shows the relationship between the supply pressure of gas adjusted with the carbon dioxide pressure regulator which concerns on this invention, and temperature. 実施例2に係る炭酸ガス圧力調整器の構成を示す一部欠載断面図である。FIG. 5 is a partially omitted cross-sectional view illustrating a configuration of a carbon dioxide pressure regulator according to a second embodiment.

符号の説明Explanation of symbols

1,10 炭酸ガス圧力調整器
3 ガス入口部
4,5 オリフィス
6 ガス供給部
7 第1スプリング
9 弁座体
11 弁開口
13 弁体
14 弁体の先端
15 プレート
16 第1圧力室
17 ダイヤフラム
18 第2スプリング受け
19 第2スプリング
20 ガス出口部
21 第2圧力室
22 第1ソレノイドバルブ
23 ガス排出口
25 第2ソレノイドバルブ
26 ビール樽
27,28 温度センサ
29,30 圧力センサ
39 炭酸ガスボンベ
100 発泡飲料供給装置
DESCRIPTION OF SYMBOLS 1,10 Carbon dioxide pressure regulator 3 Gas inlet part 4,5 Orifice 6 Gas supply part 7 First spring 9 Valve seat body 11 Valve opening 13 Valve body 14 Tip of valve body 15 Plate 16 First pressure chamber 17 Diaphragm 18 First 2 spring receiver 19 second spring 20 gas outlet 21 second pressure chamber 22 first solenoid valve 23 gas outlet 25 second solenoid valve 26 beer barrel 27, 28 temperature sensor 29, 30 pressure sensor 39 carbon dioxide gas cylinder 100 supply of sparkling beverage apparatus

Claims (3)

気温、発泡飲料の温度、及び/又は、発泡飲料容器の温度を測定して温度信号を出力する温度センサ(27,28)と、
供給する炭酸ガスの圧力を測定して圧力信号を出力する圧力センサ(29,30)と、
ガス入口部(3)とガス供給部(6)の間に第1弾性体(7)により弁座体(9)の弁開口(11)が閉じる方向に付勢される弁体(13)と、該弁体の先端(14)が当接するプレート(15)と、該プレートを収容する第1圧力室(16)と、
該プレートに当接するダイヤフラム(17)に、前記弁開口を広げる方向に、かつ、前記第1圧力室の炭酸ガスが所定圧力より下がらないように、該所定圧力と前記第1弾性体が前記ダイヤフラムに付勢する力と釣り合う大きさの力を付勢する第2弾性体(19)と、該第2弾性体を収容する第2圧力室(21)と、
前記第1圧力室のガス出口部(20)から前記第2圧力室に通じるガス通路に第1バルブ(22)と、
前記第2圧力室からガス排出口(23)に通じるガス通路に第2バルブ(25)と、
温度に対する炭酸ガス供給圧力の関係を規定する制御マップを有し、前記温度信号及び圧力信号を入力して、供給する炭酸ガスの圧力が該温度信号に対する制御マップに規定する炭酸ガス供給圧力になるように前記第1バルブと前記第2バルブを制御する電子制御ユニットとを備え、
前記電子制御ユニットは、前記供給する炭酸ガスの圧力が前記制御マップに規定する炭酸ガス供給圧力より低いとき炭酸ガスを通すべく前記第1バルブを作動させ、高いとき炭酸ガスを通すべく前記第2バルブを作動させる炭酸ガス圧力調整器。
A temperature sensor (27, 28) for measuring the temperature, the temperature of the sparkling beverage, and / or the temperature of the sparkling beverage container and outputting a temperature signal;
A pressure sensor (29, 30) for measuring the pressure of the supplied carbon dioxide gas and outputting a pressure signal;
A valve body (13) biased in a direction in which the valve opening (11) of the valve seat body (9) is closed by the first elastic body (7) between the gas inlet section (3) and the gas supply section (6); , the tip of the valve body (14) and abutting plates (15), a first pressure chamber for accommodating the plates (16),
The diaphragm (17) abuts to the plate, in a direction to widen the valve opening mouth, and, as carbon dioxide gas in the first pressure chamber is not lowered below a predetermined pressure, the predetermined pressure to the first elastic body wherein A second elastic body (19) for urging a force of a magnitude commensurate with a force for urging the diaphragm, a second pressure chamber (21) for housing the second elastic body ,
A first valve (22) in a gas passage leading from the gas outlet (20) of the first pressure chamber to the second pressure chamber ;
A second valve (25) to the gas passage leading to the second pressure chamber or et gas outlet (23),
A control map for defining the relationship between the carbon dioxide gas supply pressure and the temperature, and by inputting the temperature signal and the pressure signal, the pressure of the supplied carbon dioxide gas becomes the carbon dioxide gas supply pressure defined in the control map for the temperature signal. and an electronic control unit for controlling the first valves and the second valves so,
The electronic control unit operates the first valve to pass carbon dioxide when the pressure of the supplied carbon dioxide gas is lower than the carbon dioxide supply pressure defined in the control map, and when the pressure is high, the second valve to pass the carbon dioxide gas. carbon dioxide pressure regulator Ru actuate the valve.
前記電子制御ユニットは、前記供給する炭酸ガスの圧力が前記制御マップに規定する炭酸ガス供給圧力より高いとき、さらに炭酸ガスを通すべく前記第1バルブを作動させる請求項1記載の炭酸ガス圧力調整器。 2. The carbon dioxide pressure adjustment according to claim 1, wherein when the pressure of the supplied carbon dioxide gas is higher than the carbon dioxide supply pressure defined in the control map, the electronic control unit further activates the first valve to pass the carbon dioxide gas. vessel. 前記電子制御ユニットは、前記供給する炭酸ガスの圧力が低下して前記制御マップに規定する炭酸ガス供給圧力になると、前記第1バルブ及び前記第2バルブを閉じる制御信号を出力する請求項1及び2記載の炭酸ガス圧力調整器。 The electronic control unit, the pressure of the supplied carbonic acid gas is carbon dioxide supply pressure prescribed in the control map decreases, claim 1 you output a control signal for closing the first valve and the second valve And the carbon dioxide pressure regulator described in 2 above.
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KR101387015B1 (en) 2013-05-20 2014-04-21 두얼메카닉스 주식회사 Pressure valve with function to relief-open
JP6667703B1 (en) * 2019-04-24 2020-03-18 サントリーホールディングス株式会社 Beverage serving device management system
JP2023096943A (en) 2021-12-27 2023-07-07 アサヒビール株式会社 Carbon dioxide supply device

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JPH0816513B2 (en) * 1989-06-09 1996-02-21 麒麟麦酒株式会社 Carbon dioxide pressure regulator for carbonated drinks

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