| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Hinge | US13419937 | 1937-04-01 | US2133307A | 1938-10-18 | EDWIN PRESTAGE |
| 122 | Apparatus for heating and cooling liquids | US28309819 | 1919-03-17 | US1373953A | 1921-04-05 | DESOBRY CHARLES W |
| 123 | 微生物減少のための促進酸化処理 | JP2019503279 | 2017-07-06 | JP2020517231A | 2020-06-18 | モイヤー,ポール; バンダービーン,マーク |
| 微生物の存在の影響を受けやすい製品、特に食品上で、細菌を不活性化するおよび/または微生物数を減少させるためのシステムが開示され、前記システムは、i)UV−C光を発生させるための手段とii)過酸化水素蒸気を発生させるための手段および/またはオゾンを発生させるための手段とiii)熱源とに動作可能に接続された処理チャンバを備える。微生物の存在の影響を受けやすい製品、特に食品上で、細菌を不活性化するおよび/または微生物数を減少させるための方法も開示され、前記方法は、処理チャンバ内の前記製品を、5〜120秒の処理時間にわたって、紫外線C(UV−C)光および過酸化水素蒸気および/またはオゾン、ならびに熱との曝露に供することを含み、過酸化水素蒸気は最大12%v/v溶液で存在し、処理チャンバ内部の温度は約22℃から60℃の間で維持される。 |
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| 124 | 食品材料の高電圧処理装置 | JP2017112593 | 2017-06-07 | JP2018201445A | 2018-12-27 | 星野 弘 |
| 【課題】牛乳や豆乳などに連続的に高電圧を印加して殺菌等の処理を行うにあたり、電極表面でのスケールの発生、付着、さらには電極表面の焼き付きを防止し得るようにし、これによって長時間安定して運転することが可能な食品材料の高電圧処理装置を提供する。 【解決手段】流動性を有する食品材料を、一対の電極間の流路内を連続的に通過させながら、前記一対の電極間に高電圧パルス等の高電圧を加えることによって、食品材料の殺菌等を行う高電圧パ処理装置において、前記一対の電極間に高電圧を供給するための一対の出力端子を備えた高電圧発生部と、前記一対の電極を備えた高電圧印加部と、高電圧発生部の一対の出力端子のうち、いずれか一方の出力端子と、高電圧印加部の一対の電極のうちいずれか一方の電極との間に介挿された電気抵抗体とを有することを特徴とする高電圧処理装置。 【選択図】図5 |
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| 125 | 多孔質外面を有する食用物品を汚染除去する方法およびシステム | JP2018521910 | 2016-07-12 | JP2018537079A | 2018-12-20 | ミールニック、サディアス、ジェイ.; バーク、ピーター、エー. |
| 多孔質外面を有する物品を汚染除去する方法。この方法は以下のステップを含む:汚染除去チャンバを設けるステップ;予め定められた速度で汚染除去チャンバを通して物品を搬送しその速度は予め定められた期間にわたって物品が汚染除去チャンバ内に配置されるように選択されたものとするステップ;滅菌剤蒸気の供給源を設けこの供給源は温度が予め定められた許容温度範囲内であり濃度が予め定められた許容濃度範囲内である滅菌剤蒸気を供給するステップ;滅菌剤蒸気の供給源から汚染除去チャンバに滅菌剤蒸気を搬送するステップ;物品を滅菌剤蒸気に曝露するステップ。予め定められた期間および予め定められた滅菌剤蒸気の許容濃度範囲は、滅菌剤蒸気が物品の多孔質外面を貫通しないように選択される。 【選択図】図1 |
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| 126 | 焦げ付き抑制剤 | JP2015088028 | 2015-04-23 | JP2016202080A | 2016-12-08 | 加藤 良; 根田 隆史; 長谷川 潤 |
| 【課題】 飲食品の呈味に影響を与えることなく、プレート式殺菌機(例えば、UHT殺菌機等)で飲食品を殺菌する際に生じる、プレート式殺菌機への飲食品の焦げ付きを抑制する、焦げ付き抑制剤を提供する。更には、簡便な方法で、プレート式殺菌機への飲食品の焦げ付きを抑制する方法、及びプレート式殺菌機を用いて殺菌される焦げ付きが抑制された飲食品の製造方法を提供する。 【解決手段】 焦げ付き抑制剤として、ガティガムを飲食品に配合する。 【選択図】なし |
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| 127 | Continuous type heat treatment device | JP2012151105 | 2012-07-05 | JP2014012099A | 2014-01-23 | OGASAWARA YUKIO |
| PROBLEM TO BE SOLVED: To provide a continuous type heat treatment device capable of maintaining a heat treatment atmosphere inside a heat treatment chamber even using a non-sealed type heat treatment chamber and accommodating a request of miniaturization and a reduction in cost.SOLUTION: The heating treatment chamber 1 is divided into a lower side space 27 and an upper side space 28 by a partition part while communicating both to each other through a suction port 30. The lower side space 27 is a space for transporting a processing object while heating the processing object by a heating medium and the upper side space 28 is a heating space for sucking the heating medium of the lower side space 27 to re-heat the heating medium and sending then the heating medium to the lower side space 27. A heating medium jetting nozzle 17 is disposed in at least an inlet 2 and an outlet 3 of the lower side space 27 so that jetting ports 17a, 17a thereof face each other, and the re-heated medium that is expanded in volume by being re-heated in the upper side space 28 is jetted inward of the heating treatment chamber 1 together with the heating medium that is jetted from the jetting port 17a of the heating medium jetting nozzle 17. | ||||||
| 128 | Heat treatment device according to the superheated steam | JP2008295322 | 2008-11-19 | JP4980331B2 | 2012-07-18 | 雅行 井樋; 照幸 川崎; 泰往 松永; 義晶 榎並; 満 藤田; 正倍 長岡 |
| 129 | Liquid food sterilization device | JP2006195619 | 2006-07-18 | JP2008022717A | 2008-02-07 | SAKAI NOBORU; FUKUOKA MIKA; OSHIMA YOSHIKO; IMAMICHI SUMITOSHI |
| PROBLEM TO BE SOLVED: To provide a liquid food sterilization device using a plate-type heat exchanger or a tube-type heat exchanger, wherein problems of easy generation of denatured substance during sterilizing treatment, and difficulty in cleaning the denatured substance (contamination). SOLUTION: The liquid food sterilization device comprises a flow path with its upper side open, a supply part supplying liquid food to the upstream side of the flow path, and an infrared emission body irradiating the liquid food flowing through the flow path with the infrared radiation. The flow path is inclined so as to get lower toward the downstream side from the upstream side. The angle of the inclination α of the flow path is preferably 1-5 degree(s), the width-direction cross sectional surface of the bottom face of the flow path is preferably formed into a linear state, and the cross sectional surface of the bottom face of the flow path may have unevenness. COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 130 | Plate type liquid sterilizer | JP24433093 | 1993-09-30 | JP3213658B2 | 2001-10-02 | 朝一 松岡 |
| 131 | Filling controlling system for bottled drink and method and apparatus for sterilizing drink bottle to be employed in the system | JP35735099 | 1999-12-16 | JP2001171622A | 2001-06-26 | HOSHIDA SHINICHI |
| PROBLEM TO BE SOLVED: To provide a novel filling controlling system for bottled drinks wherewith the outside of a moth/neck part of a drink bottle and the inside of a cap can be sterilized scrupulously at the same level as that applied to the inside of the bottle, and also to provide a method and apparatus for sterilizing drink bottles to be employed in such system. SOLUTION: In a sterilizing process which is applied to a bottle B prior to filling of drinks into the bottle, sterilization is applied, in addition to the inside of the bottle, to the outside of a mouth/neck part N of the bottle B and the inside of a cap to be put on the mouth/neck part N at a level the same as that applied to the inside of the bottle. The drink bottle sterilizing apparatus 1 has a characteristic wherein sterilizing lamps 5 emitting high power pulse beams and a bottle transfer device 3 for transferring works such as the bottles B to effective irradiation areas of the lamps are provided and sterilization is made efficiently around the mouth/neck part N by ultraviolet rays and heat while discharge tubes 11 are effectively cooled down by operating winds of cooling units 4. | ||||||
| 132 | Heat exchange method and apparatus of heating and cooling such a high viscosity food | JP19124191 | 1991-07-05 | JP3078882B2 | 2000-08-21 | 実 佐野; 雅夫 守屋 |
| 133 | Continuous flow variable liquid sterilizer | JP11665392 | 1992-04-10 | JP3060716B2 | 2000-07-10 | 伯明 出口; 守夫 弘蔵 |
| 134 | Plate type sterilization equipment | JP20999898 | 1998-03-18 | JP3052421U | 1998-09-25 | 善宏 大野; 時 鈴木 |
| (57)【要約】 【課題】本考案の解決課題は、プレート式殺菌装置における支持シャフトへの、仕切り板を固定するための取り付け金具について、その位置決めに長時間を要してしまう点である。 【解決手段】本考案は、金属板全体を固定するシャフトに、複数の管状補助具を外挿する事を特徴とする、仕切り板部をシャフトに固定する取り付け金具の位置決めが簡便なプレート式殺菌装置の提供である。 | ||||||
| 135 | Disinfection device | JP7759088 | 1988-03-29 | JP2729199B2 | 1998-03-18 | HATANAKA SADAO |
| 136 | Plate type sterilization equipment | JP2463688 | 1988-02-03 | JP2605077B2 | 1997-04-30 | 賀雄 内山 |
| 137 | Sterilization processing unit of fruit | JP15069084 | 1984-07-20 | JPH082240B2 | 1996-01-17 | MAEDA HIROSHI; KURIHARA MINORU |
| 138 | Disinfection device | JP24172691 | 1991-09-20 | JPH0681589B2 | 1994-10-19 | YAMANAKA SEIJI |
| 139 | Sterilizing device | JP7758988 | 1988-03-29 | JPH01247069A | 1989-10-02 | HATANAKA SADAO |
| PURPOSE: To carry out heat exchange with a small heat consumption, by preheating warm water with a liquid when the liquid is not heated to a sterilization temperature and by preheating an untreated liquid with a sterilized liquid when the sterilized liquid is heated to the sterilization temperature. CONSTITUTION: The title sterilizing device is equipped with a tank 22 charged with a liquid to be sterilized under heating, a first plate type heat exchanger 20 to preheat the liquid in the tank 22, a second plate type heat exchanger 21 to heat the liquid passed from the heat exchanger 20 to the sterilization temperature, a warm water tank 23 to store warm water useful as a heat source for the heat exchanger 21 and a third plate type heat exchanger 24 to preheat the warm water discharged from the heat exchanger 21 and to return to the warm water tank 23. The liquid discharged from the heat exchanger 21 is used as a heat source for the heat exchangers 20 and 24. When the liquid reaches the sterilization temperature, the liquid is passed through the heat exchanger 20, sent to the next process and when the liquid does not reach the sterilization temperature, the liquid is passed through the heat exchanger 24 and returned to the tank 22. COPYRIGHT: (C)1989,JPO&Japio | ||||||
| 140 | Heating sterilizer | JP8034087 | 1987-03-31 | JPS63245653A | 1988-10-12 | YAMANAKA SEIJI |
| PURPOSE: To contrive to realize a testing small-sized heat sterilizer capable of efficiently selecting a heat sterilizing condition applicable to a real production machine from a small amount of a specimen solution in a heat sterilizer wherein a specimen solution is heated while being passed through a very small gap, applying a specific constitution to a heating face. CONSTITUTION: The following constitution is used in a heat sterilizer having members 1 and 10 with a built-in heat source 9, a cover plate 4 opposingly set to the member 1 while placing a very small gap between the surface of a member wall 13 and the member 1 and the cover plate and an outlet 5 and an inlet 6 for specimen solution connected to the cover plate 4 at an given interval. Namely, the very small gap between the surface of the member wall 13 of the member 1 and an inner face 4a of the cover plate 4 is made as a flow channel 12 for the specimen solution and the member wall 13 opposing to the heat source 9 is formed into a change zone of heat transfer capacity changing plate thickness (e.g. three stages of x 1, x 2 and x 3) along the direction of flow of the specimen in a stepwise or continuously. COPYRIGHT: (C)1988,JPO&Japio | ||||||
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