1 |
一种肠衣连续套缩生产的夹手装置及自动肠衣套缩机 |
CN201610829772.5 |
2016-09-19 |
CN106305952A |
2017-01-11 |
莫少难 |
本发明公开了一种肠衣连续套缩生产的夹手装置及自动肠衣套缩机,包括气缸底板,气缸底板的顶部设有B夹座和气缸座,B夹座上通过齿轮轴安装有齿轮,齿轮上还设有左摆臂和右摆臂,左摆臂和右摆臂上均设有补气夹转销和补气夹限位板,左摆臂和右摆臂的另一侧设有接近开关座,左摆臂和右摆臂的顶部设有第一夹片和第二夹片;本肠衣连续套缩生产的夹手装置及自动肠衣套缩机,气缸通过Y型接头推动左右摆臂闭合时,带动补气夹臂闭合,沟槽正对准活塞阀侧壁的一圈通气孔,从而充气进入套缩杆,且不会泄漏,确保肠衣内部气压的稳定,牢固的夹持住套缩杆,并环状密封住活塞侧壁,向活塞侧壁上的一圈小孔充气且不会泄露充气。 |
2 |
成褶组合物及其应用 |
CN201210306616.2 |
2012-08-24 |
CN102948452A |
2013-03-06 |
扬·伊纳基·加西亚马丁内斯 |
本发明涉及用于成褶人造肠衣的组合物,其允许赋予所述肠衣高的附着于其中所填充肉糊的能力。本发明的组合物包含至少一种热可固化聚阳离子树脂组分、多元醇组分和水,其中水活度指数的值大于或等于0.70。还考虑由所述组合物浸渍的肠衣、填充到所述肠衣中的肉制品和用于用本发明组合物浸渍所述肠衣的方法。 |
3 |
拉褶肠衣 |
CN200580032472.4 |
2005-08-15 |
CN101048067B |
2011-03-16 |
A·D·斯托尔; D·B·西梅利; K·A·瓦茨 |
拉褶纤维食品肠衣定义为由管状纤维肠衣(12)形成的拉褶棒(30)。拉褶棒(30)的平均外径至少为去褶肠衣平均充气直径的120%。此外,拉褶棒(30)的平均内径至少为肠衣充气直径的70%,其褶距定义为拉褶棒(30)去褶后在肠衣上测定的相邻主褶的顶点之间的距离。 |
4 |
封闭打褶的管状肠衣端部的方法 |
CN200880128129.3 |
2008-03-17 |
CN101977512A |
2011-02-16 |
奥古斯丁·奥利塔雷蒙; 卡洛斯·阿扎卡拉特加柳; 卡洛斯·朗格阿里索; 埃利特万·马丁内斯加西亚; 贾维尔·吉梅内斯费尔南德斯; 杰西·阿路斯提泽坎博; 杰西·艾丘雷迪; 安东尼奥曼努埃尔·吉尔鲁伊斯; 罗伯特·普维特洛帕特基 |
本发明涉及一种封闭打褶的管状肠衣的端部的方法,该方法包括在棒的轴向方向抻平所述管状肠衣的末端部分,翻转所述已抻平的末端部分以将其插入到所述肠衣的内部,从所述肠衣的内部固定已抻平的末端部分,旋转所述末端部分并压平所述已旋转的末端部分。该方法可以作为所述操作的额外的过程在打褶线的出口(线上)实施,或者可以作为脱离所述抻平的独立操作在抻平线外(线下)实施。 |
5 |
成褶组合物及其应用 |
CN201210306616.2 |
2012-08-24 |
CN102948452B |
2016-12-21 |
扬·伊纳基·加西亚马丁内斯 |
本发明涉及用于成褶人造肠衣的组合物,其允许赋予所述肠衣高的附着于其中所填充肉糊的能力。本发明的组合物包含至少一种热可固化聚阳离子树脂组分、多元醇组分和水,其中水活度指数的值大于或等于0.70。还考虑由所述组合物浸渍的肠衣、填充到所述肠衣中的肉制品和用于用本发明组合物浸渍所述肠衣的方法。 |
6 |
封闭打褶的管状肠衣端部的方法 |
CN200880128129.3 |
2008-03-17 |
CN101977512B |
2014-04-30 |
奥古斯丁·奥利塔雷蒙; 卡洛斯·阿扎卡拉特加柳; 卡洛斯·朗格阿里索; 埃利特万·马丁内斯加西亚; 贾维尔·吉梅内斯费尔南德斯; 杰西·阿路斯提泽坎博; 杰西·艾丘雷迪; 安东尼奥曼努埃尔·吉尔鲁伊斯; 罗伯特·普维特洛帕特基 |
本发明涉及一种封闭打褶的管状肠衣的端部的方法,该方法包括在棒的轴向方向抻平所述管状肠衣的末端部分,翻转所述已抻平的末端部分以将其插入到所述肠衣的内部,从所述肠衣的内部固定已抻平的末端部分,旋转所述末端部分并压平所述已旋转的末端部分。该方法可以作为所述操作的额外的过程在打褶线的出口(线上)实施,或者可以作为脱离所述抻平的独立操作在抻平线外(线下)实施。 |
7 |
拉褶肠衣 |
CN200580032472.4 |
2005-08-15 |
CN101048067A |
2007-10-03 |
A·D·斯托尔; D·B·西梅利; K·A·瓦茨 |
拉褶纤维食品肠衣定义为由管状纤维肠衣(12)形成的拉褶棒(30)。拉褶棒(30)的平均外径至少为去褶肠衣平均充气直径的120%。此外,拉褶棒(30)的平均内径至少为肠衣充气直径的70%,其褶距定义为拉褶棒(30)去褶后在肠衣上测定的相邻主褶的顶点之间的距离。 |
8 |
접힌 튜브형 케이싱 단부 밀봉 방법 |
KR1020107020670 |
2008-03-17 |
KR1020110014973A |
2011-02-14 |
올레타레몬아구스틴; 아즈카라트갈루에스,카를로스; 롱고아레소,카를로스; 마르티네즈가르시아,에스테반; 히메네즈페르난데즈,하비에르; 알루스티자쿰바,헤수스; 아예추레딘,헤수스; 길뤼즈,안토니오마누엘; 푸엔테로파테귀,로베르토 |
The invention relates to a method for closing the end of shirred tubular casings which comprises deshirring a terminal portion of the tubular casing in the direction of the axis of the stick, turning over the deshirred terminal portion in order to insert same inside the casing, securing the deshirred terminal portion from inside the casing, rotating the terminal portion and flattening the rotated terminal portion. This method is performed at the outlet of the shirring line (ON-LINE) as an additional phase of said operation, or it is performed away from the deshirring line (OFF-LINE) as an operation independent from the deshirring. |
9 |
IMPROVED NET RUCKING APPARATUS AND METHOD |
PCT/US2004032125 |
2004-09-30 |
WO2005032759A8 |
2006-09-21 |
PINTO ROBERT; HASCHKE EGGO |
An apparatus and method for shirring netting onto a netting tube. A second tube is placed over and coaxially to the netting tube and netting is stretched over the second tube. The two tubes are caused to move in a reciprocating manner through a plurality of spring-loaded fingers, which allow the netting to pass on the downstroke and hold the netting on the upstroke. As the two tubes move, the netting is pulled over the second tube and shirred onto the netting tube. An annular space formed by a tube ring placed between the netting tube and the second tube causes the netting to shir in multiple, neatly aligned layers. |
10 |
IMPROVED NET RUCKING APPARATUS AND METHOD |
PCT/US2004032125 |
2004-09-30 |
WO2005032759A9 |
2005-07-14 |
PINTO ROBERT; HASCHKE EGGO |
An apparatus and method for shirring netting onto a netting tube. A second tube is placed over and coaxially to the netting tube and netting is stretched over the second tube. The two tubes are caused to move in a reciprocating manner through a plurality of spring-loaded fingers, which allow the netting to pass on the downstroke and hold the netting on the upstroke. As the two tubes move, the netting is pulled over the second tube and shirred onto the netting tube. An annular space formed by a tube ring placed between the netting tube and the second tube causes the netting to shir in multiple, neatly aligned layers. |
11 |
Apparatus and method for inflating a casing enclosing a sausage stick |
US15274489 |
2016-09-23 |
US09661861B1 |
2017-05-30 |
Roland Tallberg |
An apparatus and method for inflating a casing enclosing a sausage stick is disclosed, wherein the apparatus includes a holder configured to receive the sausage stick enclosed in the casing and move together with the sausage stick thereby received from an inflation starting position to an inflation end position, and an inflating needle configured to penetrate the casing of the sausage stick received by the holder and to follow the holder immoveably relative to the holder moving together with the sausage stick from the inflation starting position to the inflation end position to inflate the casing between the inflation starting position and the inflation end position. |
12 |
COMPUTER PROGRAM PRODUCTS FOR RUCKERS CAPABLE OF RUCKING FIXED DIAMETER COVERINGS |
US13241591 |
2011-09-23 |
US20120042608A1 |
2012-02-23 |
Dennis J. May; Samuel D. Griggs; Matthew Lowder |
Computer program products for ruckers for rucking sleeves of covering material onto a chute body include a translating member disposed in a housing having an axis of movement configured to reciprocally translate a chute body about the axis of movement; and at least one gripping member disposed in the housing in cooperating alignment with the translating member. In operation, the at least one gripping member has an automated stroke cycle whereby the at least one gripping member is configured to travel inwardly a distance sufficient to snugly abut an outer surface of the chute body while the chute body travels in a first direction about the axis of movement and to travel outwardly a sufficient distance to prevent contact with the chute body while the chute body travels in a second opposing direction about the axis of movement. |
13 |
RUCKERS CAPABLE OF RUCKING FIXED DIAMETER COVERINGS AND ASSOCIATED DEVICES, METHODS, SYSTEMS AND COMPUTER PROGRAM PRODUCTS |
US12723017 |
2010-03-12 |
US20100167898A1 |
2010-07-01 |
Dennis J. May; Samuel D. Griggs; Matthew Lowder |
Methods, apparatus and associated devices for rucking sleeves of covering material onto a chute body include a translating member disposed in a housing having an axis of movement configured to reciprocally translate a chute body about the axis of movement; and at least one gripping member disposed in the housing in cooperating alignment with the translating member. Each at least one gripping member has a gripping edge portion that defines a gripping surface. The at least one gripping member configured to reciprocally translate substantially orthogonal to the axis of movement. In operation, the at least one gripping member has an automated stroke cycle whereby the at least one gripping member is configured to travel inwardly a distance sufficient to snugly abut an outer surface of the chute body while the chute body travels in a first direction about the axis of movement and to travel outwardly a sufficient distance to prevent contact with the chute body while the chute body travels in a second opposing direction about the axis of movement. |
14 |
NET RUCKING APPARATUS AND METHOD |
US12051307 |
2008-03-19 |
US20080248735A1 |
2008-10-09 |
Eggo Haschke; Robert Pinto |
An apparatus and a method for rucking netting onto a tube are described. The apparatus, in a first embodiment, comprises a frame having an axis, a passage along the axis, means for reciprocating movement along the axis, a netting tube releasably attachable to the means for reciprocating movement, a second tube comprising a frustum having a bore, the second tube being slidable co-axially to the netting tube, an annular space defined by the second tube and the netting tube, and spring-loaded fingers attached to the frame and extending into the passage. In another embodiment, a method for rucking netting onto a tube comprises attaching a netting tube to a moveable platform, mounting a second tube axially over the netting tube, the second tube comprising a frustum having a bore therethrough, placing an end of a netting over the second tube, forming an annular space between the netting tube and the second tube, and moving the second tube reciprocatingly through spring-loaded fingers. The second tube is a frusto-conical shape, a frusto-pyramidal shape, or another frustum shape |
15 |
RUCKERS CAPABLE OF RUCKING FIXED DIAMETER COVERINGS AND ASSOCIATED DEVICES, METHODS, SYSTEMS AND COMPUTER PROGRAM PRODUCTS |
US11456356 |
2006-07-10 |
US20070022712A1 |
2007-02-01 |
Dennis May; Samuel Griggs; Matthew Lowder |
Methods, apparatus and associated devices for rucking sleeves of covering material onto a chute body include a translating member disposed in a housing having an axis of movement configured to reciprocally translate a chute body about the axis of movement; and at least one gripping member disposed in the housing in cooperating alignment with the translating member. Each at least one gripping member has a gripping edge portion that defines a gripping surface. The at least one gripping member configured to reciprocally translate substantially orthogonal to the axis of movement. In operation, the at least one gripping member has an automated stroke cycle whereby the at least one gripping member is configured to travel inwardly a distance sufficient to snugly abut an outer surface of the chute body while the chute body travels in a first direction about the axis of movement and to travel outwardly a sufficient distance to prevent contact with the chute body while the chute body travels in a second opposing direction about the axis of movement. |
16 |
Shirred casing |
US10924086 |
2004-08-23 |
US20060040602A1 |
2006-02-23 |
Alan Stall; Dennis Simerly; Keith Watts |
A shirred fibrous food casing defines a shirred stick formed from a tubular fibrous casing, The shirred stick includes an average outside diameter at least 120% of the average inflated diameter of the deshirred casing. Additionally, the shirred stick includes an average inside diameter of at least 70% of the casing inflated diameter and a pleat pitch defined as the distance between adjacent apexes of major pleats measured on the casing after the shirred stick is deshirred. |
17 |
Net loader |
US10924838 |
2004-08-25 |
US20050048886A1 |
2005-03-03 |
Ennio Mercuri |
A device for filling tubular casings with edible material is disclosed. The device includes a tube upon which the casing can be shirred onto, a tube inlet, a tube outlet and tube support means. The support means allows the device to be supported for the manual insertion of edible material into the tube inlet and furthermore the manual forcing of this edible material through the tube and out of the tube outlet. |
18 |
Tubular net sleeve enclosing an unfilled food casing |
US10471715 |
2003-09-15 |
US20040092220A1 |
2004-05-13 |
Goran
Rydenfors |
The present invention relates to a tubular net sleeve enclosing unfilled shirred food casings, said tubular net sleeve being sealed at each end, usually by a clip. At least one end of the tubular net sleeve an opening is provided in order to facilitate the availability of the unfilled food casings. |
19 |
Meat product casing and method of shirring |
US737553 |
1996-11-12 |
US5980374A |
1999-11-09 |
Enrico Mercuri |
This invention relates to a casing (10) for use in encasing meat products. The casing (10) comprises a combination of a first tubular casing (11) which may comprise a fibrous casing material and a knitted tubular net (12) located around and substantially concentric to the first tubular member (11). The tubular net (12) comprises circumferential elastic cords (13) and longitudinal cords (14), and the relative diameter of the circumferential cords (13) to the first tubular casing (11) are such that when the casing (10) is being filled the circumferential cords (13) are placed under tension prior to the first tubular casing (11) reaching its maximum diameter. This enables the circumferential cords (13) to absorb some of the hoop stress before it is applied to the first tubular member (11) thereby preventing splitting of the first tubular member (11) which might otherwise occur without the tubular netting (12). The specification also discloses a method of shirring the casing (10) to an injection nozzle (16) which enables even spacing of the tubular net (12) around the first tubular casing (11) as the casing (10) is drawn from the injection nozzle (16). The method involves inflation of the casing (10) prior to shirring onto the injection nozzle (16). |
20 |
Method and apparatus for severing shirred tubular food casing |
US775861 |
1991-10-15 |
US5145449A |
1992-09-08 |
Michael P. Kazaitis; John Farkonas; Raymond A. Feldt |
Severing a shirred stick of sausage casing from casing feed stock joined to the stick is accomplished by perforating a section of the casing across its flat width prior to moving the section through a shirring zone. The section is then moved through a shirring zone and tension applied to tear the casing apart along the line of perforations. The result is that the severed ends of casing each have an edge which has a crenellated profile for at least a portion of its length and which is substantially free of casing shards that or likely to separate from the casing during a conventional stripping operation. |