| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种简易型和毛油喷涂装置 | CN201610768012.8 | 2016-08-30 | CN106222816A | 2016-12-14 | 刘福岩 |
| 本发明提供了一种简易型和毛油喷涂装置,底座沿长轴方向设有外凸滑道;箱体底部设有两平行内凹滑道,两内凹滑道之间的箱体底部设有连接区;往复机构设于两底座之间,支撑柱一端连接运动部分,另一端设有电磁圈;支架A的支撑腿固接于底座上;传送机构固接于框体中间;两喷涂杆固接于传送机构一端的框体内侧;羊绒制条机构设置于传送机构的上方;切割机构设于羊绒制条机构与传送机构之间;控制器连接传送机构、羊绒制条机构、切割机构与往复机构。本发明根据光电传感器B的信息控制切割机构将羊绒条切断;通过往复机构与箱体的可拆卸连接与往复运动实现了箱体的往复运动,使喷涂后的羊绒条自动折叠并堆放于箱体内。 | ||||||
| 2 | 一种和毛油加油装置 | CN201610766970.1 | 2016-08-30 | CN106435859A | 2017-02-22 | 刘福岩 |
| 本发明提供了一种和毛油加油装置,底座两侧设有两平行滑道,底座中间设有平行于滑道的第二传送机构,框体中间设有第一传送机构,第一传送机构上方设有羊绒制条机构,第一传送机构一端的下方设有两平行喷涂杆;底座的一端设有伸缩机构,伸缩机构固设于横跨第二传送机构的n型支架B,并连接支架A;羊绒制条机构与第一传送机构之间设有切割机构;控制器连接第一传送机构、第二传送机构、羊绒制条机构、切割机构与伸缩机构。本发明通过超声探测机构确定喷涂杆电磁阀开启的大小;通过光电传感器A用于检测箱体内的羊绒条堆放的高度,第二传送机构与光电传感器C实现了箱体的自动往复运动,提高了自动化程度。 | ||||||
| 3 | 一种智能型和毛油喷涂装置 | CN201610766968.4 | 2016-08-30 | CN106435858A | 2017-02-22 | 刘福岩 |
| 本发明提供了一种智能型和毛油喷涂装置,底座沿长轴方向设有外凸滑道;箱体底部设有两平行内凹滑道,两内凹滑道之间的箱体底部设有连接区;往复机构设于两底座之间,支撑柱一端连接运动部分,另一端设有电磁圈;支架A的支撑腿固接于底座上;传送机构固接于框体中间;切割机构与两喷涂杆均固接于传送机构一端的框体内侧,且切割机构在喷涂杆的外斜上方;羊绒制条机构设置于传送机构的上方;控制器连接传送机构、羊绒制条机构、切割机构与往复机构。本发明根据光电传感器B的信息控制切割机构将羊绒条切断;通过往复机构与箱体的可拆卸连接与往复运动实现了箱体的往复运动,使喷涂后的羊绒条自动折叠并堆放于箱体内。 | ||||||
| 4 | 一种羊绒条生产过程中的新型和毛油喷涂装置 | CN201610768901.4 | 2016-08-30 | CN106400214A | 2017-02-15 | 刘福岩 |
| 本发明提供了一种羊绒条生产过程中的新型和毛油喷涂装置,底座设有两平行滑道,支架A的支撑腿设于滑道上,框体中间设有传送机构,传送机构上方设有羊绒制条机构,传送机构一端的下方设有两平行喷涂杆,羊绒条从两喷涂杆之间穿过;底座的一端设有的伸缩机构使支架A沿滑道往复运动;羊绒制条机构与传送机构之间设有切割机构;喷涂机构的下方设有箱体;控制器连接传送机构、羊绒制条机构、切割机构与伸缩机构。本发明所述的超声探测机构可以检测羊毛绒的厚度,控制器根据羊毛绒的厚度控制喷涂杆开关大小;光电传感器用于检测箱体内的羊绒条堆放的高度,当高度到达光电传感器时,控制器控制切割机构将羊绒条切断,以方便箱体的更换。 | ||||||
| 5 | Liquid sprinkling method and apparatus to fiber bale | JP17528084 | 1984-08-24 | JPS6065165A | 1985-04-13 | FUERUDEINANDO RAIFUERUDO; RORUFU KOENEN; BERUNAA OERERINGU; RUDOBIGU KUROTSUPU |
| 6 | JPH0571708B2 - | JP23655086 | 1986-10-03 | JPH0571708B2 | 1993-10-07 | KINOSHITA TSUKASA; KATO TOMOHIRO |
| 7 | Oil agent for spinning cotton | JP23655086 | 1986-10-03 | JPS6392781A | 1988-04-23 | KINOSHITA TSUKASA; KATOU TOMOHIRO |
| 8 | PROCEDE DE FABRICATION D'UN FIL ET PRODUITS COMPRENANT CE FIL | EP00958729.6 | 2000-08-24 | EP1409426A2 | 2004-04-21 | MOIREAU, Patrick; GIBELLO, Bruno |
| The invention concerns a method for making continuous yarn from filaments (12) which consists in depositing at the surface of at least part of the filaments (12) a mixture in liquid state, before assembling them into at least one yarn, said method comprising successive steps which consist in: continuously soaking an absorbent mat (10) with the mixture in liquid state; removing continuously at least part of the mixture with a rotating roller (11) in contact with said mat (10); and depositing on the filaments (12) while they are being drawn said mixture from the sizing roller (11). The invention is characterised in that the mat (10) is driven in rotation along an axis parallel to that of the sizing roller (11). The invention also concerns a product comprising a yarn resulting from said method. | ||||||
| 9 | Methods and apparatus for fibre preparation | EP88305912.3 | 1988-06-29 | EP0303345A3 | 1990-01-03 | Brydon, Alan |
The application of lubricants and other substances in fibre preparation machinery is regulated by measuring fibre mass flow rate through the machinery at a measuring position (14,51,45), applying lubricant to the fibre at a position (16) downstream of the measuring position, and controlling the rate of applicaion in accordance with the measured fibre mass flow rate after a delay corresponding to the time taken by the fibre to pass between the measuring and application positions. |
||||||
| 10 | Apparatus and method for producing weighed charges of loosely aggregated filamentary material from compacted bales of the material | EP90125613.1 | 1985-08-12 | EP0426207A3 | 1992-09-23 | Weder, Donald E.; Ruth, Howard Milton; Badgley, Kenton Daniel; Weder, William C.; Jones, Larry James; Snider, Harry Joe; Weder, Erwin H.; Craig, Franklin J.; Dye, S. Owen; King, Michael John; Langenberg, Robert Louis; Weidner, Clay Robert |
Bales (46) of filamentary material are separated into weighed charges of the material by disintegrating the bales in a rotating drum (50) to produce tufts that are passed to a picking chamber (262) wherein a toothed roll strips individual filaments from a supply roll formed from the tufts and passing the filaments to scales (68) upon which the charges are accumulated. Each time a charge is accumulated on a scale, air (54) is blown across the scale to discharge the scale. The charges are delivered to a magazine having a plurality of vertically stacked chambers (708-716), each chamber underlain by a movable gate (700-706), through which the charges are passed sequentially to be discharged at a fixed schedule from the lowermost chamber (708). Spikes mounted on the interior of the drum are shaped to loosen portions of bales entering the drum, tear tufts from such portions, and finally deposit the tufts into an air stream passing through the drum to expel the tufts. Between the drum and the picking chamber (262), the tufts are treated with an anti-static compound in a chamber through which the tufts fall while a mist of the compound is injected into the chamber. Above the picking chamber, the tufts enter a deflection tower (352) and are deflected to one side or the other of the picking chamber to concentrate the supply roll (298) at one side of the picking chamber and filaments to each of two scales (347,349) are drawn from opposite sides of the picking chamber. |
||||||
| 11 | Methods and apparatus for fibre preparation | EP88305912.3 | 1988-06-29 | EP0303345A2 | 1989-02-15 | Brydon, Alan |
The application of lubricants and other substances in fibre preparation machinery is regulated by measuring fibre mass flow rate through the machinery at a measuring position (14,51,45), applying lubricant to the fibre at a position (16) downstream of the measuring position, and controlling the rate of applicaion in accordance with the measured fibre mass flow rate after a delay corresponding to the time taken by the fibre to pass between the measuring and application positions. |
||||||
| 12 | Apparatus and method for producing weighed charges of loosely aggregated filamentary material from compacted bales of the material | EP85110118.8 | 1985-08-12 | EP0173160A2 | 1986-03-05 | Weder, Donald E.; Weder, Erwin H.; Ruth, Howard Milton; Craig, Franklin J.; Badgley, Kenton Daniel; Dye, S. Owen; Weder, William C.; King, Michael John; Jones, Larry James; Langenberg, Robert Louis; Snider, Harry Joe; Weidner, Clay Robert |
@ Bales of filamentary material are separated into weighed charges of the material by disintegrating the bales in a rotating drum to produce tufts that are passed to a picking chamber wherein a toothed roll strips individual filaments from a supply roll formed from the tufts and passing the filaments to scales upon which the charges are accumulated. Each time a charge is accumulated on a scale, air is blown across the scale to discharge the scale. The charges are delivered to a magazine having a plurality of vertically stacked chambers, each chamber underlain by a movable gate, through which the charges are passed sequentially to be discharged at a fixed schedule from the lowermost chamber. Spikes mounted on the interior of the drum are shaped to loosen portions of bales entering the drum, tear tufts from such portions, and finally deposit the tufts into an air stream passing through the drum to expel the tufts. Between the drum and the picking chamber, the tufts are treated with an anti-static compound in a chamber through which the tufts fall while a mist of the compound is injected into the chamber. Above the picking chamber, the tufts enter a deflection tower and are deflected to one side or the other of the picking chamber to concentrate the supply roll at one side of the picking chamber and filaments to each of two scales are drawn from opposite sides of the picking chamber. |
||||||
| 13 | PROCEDE DE FABRICATION D'UN FIL ET PRODUITS COMPRENANT CE FIL | EP00958729.6 | 2000-08-24 | EP1409426B1 | 2007-07-18 | MOIREAU, Patrick; GIBELLO, Bruno |
| The invention concerns a method for making continuous yarn from filaments (12) which consists in depositing at the surface of at least part of the filaments (12) a mixture in liquid state, before assembling them into at least one yarn, said method comprising successive steps which consist in: continuously soaking an absorbent mat (10) with the mixture in liquid state; removing continuously at least part of the mixture with a rotating roller (11) in contact with said mat (10); and depositing on the filaments (12) while they are being drawn said mixture from the sizing roller (11). The invention is characterised in that the mat (10) is driven in rotation along an axis parallel to that of the sizing roller (11). The invention also concerns a product comprising a yarn resulting from said method. | ||||||
| 14 | Apparatus and method for producing weighed charges of loosely aggregated filamentary material from compacted bales of the material | EP85110118.8 | 1985-08-12 | EP0173160B1 | 1993-03-10 | Weder, Donald E.; Weder, Erwin H.; Ruth, Howard Milton; Craig, Franklin J.; Badgley, Kenton Daniel; Dye, S. Owen; Weder, William C.; King, Michael John; Jones, Larry James; Langenberg, Robert Louis; Snider, Harry Joe; Weidner, Clay Robert |
| 15 | Apparatus and method for producing weighed charges of loosely aggregated filamentary material from compacted bales of the material | EP90125613.1 | 1985-08-12 | EP0426207A2 | 1991-05-08 | Weder, Donald E.; Ruth, Howard Milton; Badgley, Kenton Daniel; Weder, William C.; Jones, Larry James; Snider, Harry Joe; Weder, Erwin H.; Craig, Franklin J.; Dye, S. Owen; King, Michael John; Langenberg, Robert Louis; Weidner, Clay Robert |
Bales (46) of filamentary material are separated into weighed charges of the material by disintegrating the bales in a rotating drum (50) to produce tufts that are passed to a picking chamber (262) wherein a toothed roll strips individual filaments from a supply roll formed from the tufts and passing the filaments to scales (68) upon which the charges are accumulated. Each time a charge is accumulated on a scale, air (54) is blown across the scale to discharge the scale. The charges are delivered to a magazine having a plurality of vertically stacked chambers (708-716), each chamber underlain by a movable gate (700-706), through which the charges are passed sequentially to be discharged at a fixed schedule from the lowermost chamber (708). Spikes mounted on the interior of the drum are shaped to loosen portions of bales entering the drum, tear tufts from such portions, and finally deposit the tufts into an air stream passing through the drum to expel the tufts. Between the drum and the picking chamber (262), the tufts are treated with an anti-static compound in a chamber through which the tufts fall while a mist of the compound is injected into the chamber. Above the picking chamber, the tufts enter a deflection tower (352) and are deflected to one side or the other of the picking chamber to concentrate the supply roll (298) at one side of the picking chamber and filaments to each of two scales (347,349) are drawn from opposite sides of the picking chamber. |
||||||
| 16 | Apparatus and method for producing weighed charges of loosely aggregated filamentary material from compacted bales of the material | EP85110118 | 1985-08-12 | EP0173160A3 | 1988-08-03 | Weder, Donald E.; Weder, Erwin H.; Ruth, Howard Milton; Craig, Franklin J.; Badgley, Kenton Daniel; Dye, S. Owen; Weder, William C.; King, Michael John; Jones, Larry James; Langenberg, Robert Louis; Snider, Harry Joe; Weidner, Clay Robert |
@ Bales of filamentary material are separated into weighed charges of the material by disintegrating the bales in a rotating drum to produce tufts that are passed to a picking chamber wherein a toothed roll strips individual filaments from a supply roll formed from the tufts and passing the filaments to scales upon which the charges are accumulated. Each time a charge is accumulated on a scale, air is blown across the scale to discharge the scale. The charges are delivered to a magazine having a plurality of vertically stacked chambers, each chamber underlain by a movable gate, through which the charges are passed sequentially to be discharged at a fixed schedule from the lowermost chamber. Spikes mounted on the interior of the drum are shaped to loosen portions of bales entering the drum, tear tufts from such portions, and finally deposit the tufts into an air stream passing through the drum to expel the tufts. Between the drum and the picking chamber, the tufts are treated with an anti-static compound in a chamber through which the tufts fall while a mist of the compound is injected into the chamber. Above the picking chamber, the tufts enter a deflection tower and are deflected to one side or the other of the picking chamber to concentrate the supply roll at one side of the picking chamber and filaments to each of two scales are drawn from opposite sides of the picking chamber. |
||||||
| 17 | 면방적용 유제 | KR1019870010140 | 1987-09-12 | KR1019900002274B1 | 1990-04-07 | 기노시티쓰가사; 가토도모히로 |
| An oil agent contains a silicone having the viscosity of more than 10 cSt at 25≦̸C and a cationic surfactant of formula (I). In (I), X is halogen, CH3SO4, C2H5SO4, NO3, NO2 or H2PO4; R1 is C11-21 alkyl, alkenyl or C1-2 alkyl R2 is C1-2 alkyl; R3 is CnH2n+1NHCOR4, C3H2n+1NH2 or CnH2n+1OH; R4 is C11-21 alkyl, alkenyl or C1-2 alkyl; m is 1 or 2; n is 2 or 3. The agent improves the spinnability of the cotton. | ||||||
| 18 | Method of reducing static-charge on easter grass | US985529 | 1992-12-03 | US5238707A | 1993-08-24 | Donald E. Weder; E. H. Weder; Howard M. Ruth; Michael J. King; Franklin J. Craig; Larry J. Jones; Kenton D. Badgley; Harry J. Snider, deceased; Laura L. Snider, legal representative; S. Owen Dye; Clay R. Wiedner; Bill C. Weder; Robert L. Langenberg |
| A method for treating Easter grass to a substantially reduced static charge on the Easter grass by coating a substantial portion of the Easter grass with an anti-static compound. | ||||||
| 19 | Mineral fiber nodules and method of making same | US307495 | 1989-02-08 | US4997681A | 1991-03-05 | Mark B. Dockrill; John Buckham; Anthony P. Shen |
| A nodulizing machine for use in an apparatus for making loose fill insulation from mineral fibers comprises an input portal, a conduit containing a plurality of blades and an output portal. Apparatus for making loose fill insulation from mineral fibers comprises a duct extending from a source of the mineral fibers to the nodulizing machine of the present invention. The apparatus includes flow rate control means to control the flow rate of air and mineral fibers in the apparatus. A process for making loose fill insulation from mineral fibers in association with the apparatus of the invention is also disclosed. | ||||||
| 20 | Lubricants for cotton spinning | US334796 | 1989-04-05 | US4983309A | 1991-01-08 | Tsukasa Kinoshita; Tomohiro Kato |
| For cotton spinning, use is made of a treatment agent containing silicone with viscosity at 25.degree. C. of 10 centistokes or greater such as dimethylsilicone, end hydroxy modified dimethylsilicone or epoxy modified dimethylsilicone and an emulsifier such as polyoxyethylene alkylether or polyoxyethylene alkylphenylether. The treatment agent may also contain a cationic or non-ionic surface-active agent within a specified range of weight ratio. The treatment agent is applied to raw cotton during its bale opening or beating opener process at the rate of 0.001-2.0 wt %. | ||||||
