序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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241 | スクリューコンベア | JP2015077702 | 2015-09-30 | JPWO2017056223A1 | 2018-07-26 | 平田 周一; 鈴山 惠史; 柳崎 淳; 長井 修 |
切削液内における切屑を適切に排出するスクリューコンベア(5)であり、貯留槽(33)を備えた容器型の本体(32)と、貯留槽(33)の内部に回転可能に組み付けられたスクリュー(35)と、貯留槽(33)と連通するように本体(32)の後方側に形成された排出管(37)と、前方側にあって貯留槽(33)に切屑及び切削液を受け入れるための投入部(33A)と、切屑と切削液をスクリュー(35)に誘導する誘導プレート(65)と、スクリュー(35)の上方空間を覆う複数の微細孔が形成されたスクリューカバー(53)と、スクリューカバー(53)より高い位置にあって本体(32)内に切削液が流入するように貯留槽(33)に形成された落し口(337)とを有する。 |
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242 | Screw and a method of manufacturing the same | JP2013558320 | 2012-03-07 | JP2014511780A | 2014-05-19 | ワルチョール、ゲルド; ケベルマン、ルツ |
本発明は軸(a)の回りを回転可能な基体(2)を備えるねじ(1)に関する。 ここで、少なくとも1つのねじ山(3)はらせん状に基体(2)の回りを延在し、少なくとも1つの流体通路(4)はねじ(1)内に配置され、該流体通路(4)は温度調節した流体を流すように設計される。 処理すべき品物の温度調節をより良くできるように、本発明は、ねじ山(3)に加工され、ねじ山(3)と共にらせん状に延在する通路として流体通路(4)を設計することを提案する。 さらに、本発明はこのようなねじの製造方法に関する。
【選択図】図1 |
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243 | Waste transport device | JP50613995 | 1994-07-25 | JP2810237B2 | 1998-10-15 | ウンフエルツアークト、カールハインツ; トラツツ、ヘルベルト; ヘルム、ハルトムート; マイ、カール |
244 | Deaerator of granular material | JP18772987 | 1987-07-29 | JPH0763616B2 | 1995-07-12 | 守 中山; 安男 山田; 和夫 相良 |
245 | Deaerator of granular material | JP13021588 | 1988-05-30 | JPH0747120B2 | 1995-05-24 | 守 中山; 安男 山田; 和夫 相良 |
246 | JPH0525766B2 - | JP14626984 | 1984-07-14 | JPH0525766B2 | 1993-04-14 | AKYAMA TAKAO; NAGAI TOSHIRO |
247 | Worm conveyer | JP23577491 | 1991-09-17 | JPH04246009A | 1992-09-02 | RORUFU REEMAN; RAINHORUTO HOODERU |
PURPOSE: To fix a transfer amount without a periodical fluctuation during a short time in the transfer of a small amount, on a worm conveyer. CONSTITUTION: A worm conveyer transfers the same amount of grain material per the rotation of a worm and the transfer ability is fluctuated during a comparatively short time of one rotation. Because, always a discontinuous transfer amount is formed by the individual spiral of conveyer worm. Therefore, by a fixed smallest transfer ability, in other words, in order to be usable for the discharge of the grain material without the periodicity caused by the nature of the conveyer worm, a pipe 5 born turnably is provided on the worm conveyer and this pipe surrounds the discharge end of the fixed transfer pipe 3 and is driven by a rotational speed in proportional to the rotational speed of the worm 2. COPYRIGHT: (C)1992,JPO | ||||||
248 | JPH031214B2 - | JP10536584 | 1984-05-23 | JPH031214B2 | 1991-01-10 | EGUCHI JUTARO; ODAWARA TETSUKAZU |
249 | JPH031213B2 - | JP12263783 | 1983-07-06 | JPH031213B2 | 1991-01-10 | KISHI JOTARO |
250 | Barabutsushitsuookurutamenosochi | JP50129380 | 1980-05-02 | JPH0246488B2 | 1990-10-16 | NEEFU PEETERU |
251 | JPS6410265B2 - | JP50205983 | 1983-05-16 | JPS6410265B2 | 1989-02-21 | KOORUDOERU JON DABURYUU |
The blade of a helical screw conveyor of centrifuge apparatus is improved to reduce the amount of torque required in operating the apparatus as well as to produce discharged solids drier than the solids discharged using a conventional blade; the improvement provides that the distal end of the leading surface of the blade at or adjacent at least the trunco-conical end of the centrifuge bowl have a generally arcuate configuration concave in the direction of the solids discharge port such that the more distal blade portions peel the separated solids material from the bowl wall with minimum torque requirements, while the less distal arcuate portions tumble the solids to reduce the moisture content. Typically, the blade's arcuate leading surface is formed by add-on, wear-resistant members attached to a backing plate which in turn is mounted on the leading surface of the blade. | ||||||
252 | JPS61105486U - | JP19116184 | 1984-12-17 | JPS61105486U | 1986-07-04 | |
253 | Method and apparatus for conveying adhesive waste matter | JP19762584 | 1984-09-20 | JPS6175718A | 1986-04-18 | UMEMURA HIDETOSHI; KUNO JIRO; MIZUMOTO SUMIYUKI |
PURPOSE:To reduce starting torque at the time of starting conveying operation and to prevent adhesion of adhesive waste matter to a transport path by throwing non-adhesive material into the bottom of a banker, and then throwing adhesive waste matter thereon. CONSTITUTION:In case of conveying adhesive waste matter, first impregnated chip of wood Ma which is non-adhesive material is thrown into the bottom of a banker 1 in such a manner as to cover two screw conveyors 11, 15. Secondly adhesive waste matter Mb is sequentially thrown into the banker on the impregnated chip of wood Ma. Subsequently, a scraper conveyor 3 is rotated, and simultaneously two screw conveyors 11, 15 are rotated. The oil impregnated chip of wood Ma is discharged to a base plate 6 from an outlet 2 and transferred by a scraper 5 of the belt conveyor 3 to be conveyed to another place from a drop opening 6a. After that, the adhesive waste matter Mb is discharged, so that the adhesive waste matter Mb is prevented from adhering to a transport path by the oil impregnated chip of wood Ma which previously adhered to the transport path. | ||||||
254 | Screw type grain conveyor | JP10536584 | 1984-05-23 | JPS60248510A | 1985-12-09 | EGUCHI JIYUUTAROU; ODAWARA TETSUKAZU |
PURPOSE:To simplify the captioned device by providing a pressure sensitive member for detecting clogging of the grains on a feed final end portion of a screw cylinder and shutting off a clutch for turning screw power on and off by means of a detector means of said pressure sensitive member. CONSTITUTION:When grains are clogged due to blocking of an outlet 10c of a grain elevator 10 to result in the pressure raised in a screw cylinder 10a and thereby a pressure sensitive member 16 is pressed to the conveyance downstream side against a spring 18, the pressure received is transmitted to a clutch operating lever 15 via a release wire 17 to stop the grain elevator 10 as well as to operate a switch SW for lighting an alarming lamp L. With such arrangement, the device can be simplified without requiring a prior particular device. | ||||||
255 | Grain elevator | JP10317884 | 1984-05-22 | JPS60248508A | 1985-12-09 | OOSAKI MASAMI; ISHIKAWA MICHIO |
PURPOSE:To improve a capability to elevate grains of the captioned grain elevator by forming an oppositely directed funnel shaped guide plane on a fitting cylinder part on the lower end of a longitudinal-feed grain elevator cylinder, forming a spiral blade of said portion into a double spiral, and making large an inner diameter of a connection portion of a connection cylinder part for connecting the longitudinal feed grain elevator cylinder. CONSTITUTION:Grains fed to a connection cylinder portion 4 by means of a traverse-feed screw conveyor 2 are pushed down in a guide plane 32 a reduced in its diameter in an oppositely-directed funnel shape from the inner diameter of the connection cylinder part made larger in its diameter to the grain elevator cylinder 30 side of the small diameter longitudinal-feed screw conveyor 3 by means of a spiral blade 31d structured into double spiral. Accordingly, grains exceeding a grain elevation capability of a screw 31 are pushed up at all times onto the lower end portion of the grain elevator cylinder 30, and thus the grain elevation capability can be prevented from being deteriorated owing to slipping- off the grains. | ||||||
256 | Fixed amount supply device | JP79284 | 1984-01-09 | JPS60148813A | 1985-08-06 | UTAI TAKASHI; AOYAMA HIDEKI; KINOSHITA MASANOBU |
PURPOSE:To enhance the accuracy and stability of supply in a fixed amount supply device for synthetic resin pellets, etc., by selecting the material of a cylinder innermost member so that the polarities of charged static electricity due to frictions among a substance to be conveyed, an conveying ribbon and the cylinder innermost member are reversed from each other. CONSTITUTION:The material of the innermost member 3b of a cylinder 3 is selected so that the polarity of static electricity due to friction between the innermost member 3b and a substance to be conveyed is reversed from the polarity of static electricity charged due to friction between a conveying ribbon 7 and the substance. For example, in the case of polyester pellets as a substance to be conveyed, vinyl chloride is used for the innermost member 3b. With this arrangement the charged polarity between the pellets to be conveyed and the ribbon 7 and the charged polarity between the same and the inner most member 3b are cancelled together so that the amount of charged electricity of the pellets may be made small. Accordingly, the pellets are stably fed in a fixed amount with a high degree of accuracy. | ||||||
257 | JPS56500491A - | JP50129380 | 1980-05-02 | JPS56500491A | 1981-04-16 | |
258 | JPS4991264A - | JP1886773 | 1973-02-15 | JPS4991264A | 1974-08-31 | |
259 | MATERIAL DISTRIBUTION SYSTEM | US15435275 | 2017-02-16 | US20180229992A1 | 2018-08-16 | Michael G. Reinke |
A material distribution system for efficiently distributing a material such as molasses products into one or more containers. The material distribution system generally includes an auger for conveying a material and a hopper connected to the auger. The hopper is adapted to receive the material from the auger. A distributor is rotatably connected below the lower opening of the hopper such that the material may flow through the lower opening into the distributor. A cutter is slideably connected between the hopper and the distributor, wherein the cutter is adjustable between a first position covering the lower opening of the hopper and a second position not covering the lower opening of the hopper. The cutter is adapted to cut through the material such that a portion of the material exits the distributor via an outlet. | ||||||
260 | SCREW CONVEYOR | US15764042 | 2015-09-30 | US20180201448A1 | 2018-07-19 | Shuichi HIRATA; Shigefumi SUZUYAMA; Jun YANAGISAKI; Osamu NAGAI |
A screw conveyor that appropriately discharges chips inside cutting fluid includes: a main body in the form of a container provided with a storage tank; a screw rotatably assembled inside the storage tank; a discharge pipe formed at a rear side of the main body and connected to the storage tank; an inlet section configured to receive the chips and the cutting fluid into the storage tank at a front side; a guide plate configured to guide the chips and the cutting fluid to the screw; a screw cover provided with multiple fine holes configured to cover a space above the screw; and an opening formed in the storage tank at a position higher than the screw cover such that the cutting fluid enters inside the main body. |