221 |
Feeder for article to be transported of conveyor |
JP942182 |
1982-01-23 |
JPS57145714A |
1982-09-08 |
RUUNARU SUBUENSU |
|
222 |
ARCHIMEDEAN CONVEYORS AND COMBUSTION ENGINES |
PCT/US2005005362 |
2005-02-22 |
WO2005081890A3 |
2007-03-15 |
HENRY JAMES D |
A helical screw conveyor having a helical screw rotatably mounted within a casing and cooperating with a chain of platens to convey objects from one end of the casing to the other end or to selected locations therebetween. A thermodynamic combustion engine is provided having a helical screw rotatably mounted within a casing and cooperating with a platen chain to draw a combustible mixture into the casing, compress the mixture for ignition, and exhaust the burned mixture therefrom. |
223 |
CONVEYING SCREW APPARATUS FOR TRANSPORTING LOOSE MATERIAL |
PCT/IB2009006438 |
2009-08-03 |
WO2010026453A2 |
2010-03-11 |
MARCHESINI VAINER; GOLINELLI LUCA |
A conveying screw apparatus (10) for transporting loose material. The apparatus (10) comprises: - a power unit (20) apt to rotate an Archimedes screw (21) pushing the loose material; - a charging hopper (30) of the loose material in a tubular body (31) containing the Archimedes screw (21) and the loose material; - a feeding channel (40) of the loose material towards a user; - pushing elements of the loose material present in the feeding channel (40); and - a back flow preventing device (70), preventing the back flow of pushing air together with loose material; such a device closing, in case, a through hole (63) to the feeding channel (40). The back flow preventing device (70) comprises a shutter (71), provided with a plate (71A), undergoing the action of a helical spring (81) which, in any opening/closing step of the through hole (63), is always substantially perpendicular to the feeding first direction (Fl) of the material in the tubular body (31). |
224 |
オーガーコンベヤ |
JP2018521717 |
2016-07-06 |
JP2018529373A |
2018-10-11 |
ヨハン・ロフバッカ |
このイノベーションは、農業に使用される草刈り機からのわら様または同様の材料(18)例えば草または他の作物を輸送するためのオーガーコンベヤ(6)に関する。このオーガーコンベヤは、少なくとも一部がハウジング(5,15)内に収納されており、過負荷防止機構を備える。この過負荷防止機構は、開くことが可能なハッチ(15)を備え、このハッチの軸方向の範囲(長さ)は、オーガー(19)の主輸送エリア内にある。 |
225 |
未固結物質を搬送するためのコンベヤスクリュー |
JP2011521651 |
2009-08-03 |
JP5694160B2 |
2015-04-01 |
マルケシーニ、バイネル; ゴリネッリ、ルカ |
|
226 |
Device for conveying the material in the dispensing system |
JP2009514934 |
2007-06-08 |
JP2009539731A |
2009-11-19 |
スティーブン・エル・ベッカー; デール・エフ・バウマー |
計量分配システムにおいて材料を搬送する装置が開示される。 この装置は、小さな断面直径、大きな外径と長いピッチを有する1個以上のらせん状搬送部材を有する心なしのオーガー又はヘリックスを備える。 |
227 |
Carrying device of waste and operating method thereof |
JP20440898 |
1998-07-03 |
JPH11130209A |
1999-05-18 |
MAY KARL; HERM HARTMUT |
PROBLEM TO BE SOLVED: To relatively reduce the length of a screw conveyor shaft and relatively minimize the structural capacity by providing a cutting device between a screw conveyor and a carrying passage in such a manner that the inside diameter of the crushing ring of the cutting device is adjustable.
SOLUTION: A waste A is carried from left to right by a screw conveyor 4 during the operation of an electric motor 8. In order to prevent an obstacle 32 having a resisting force from stopping a carrying device, a cutting device 36 is provided with a crushing ring 38 adjustable in inside diameter. The crushing ring 38 has an inside diameter smaller than a carrying passage 14 in a general cutting position. In order to remove the obstacle 32, segments 40, 42 are moved radially outward to increase the inside diameter so that the obstacle 32 is passed in the direction of a falling pit 16. A switching flap is oscillated to an obstacle discharging position to slide the obstacle 32 down on the falling passage toward an obstacle discharging device.
COPYRIGHT: (C)1999,JPO |
228 |
Waste transport device |
JP50613995 |
1994-07-25 |
JPH08507998A |
1996-08-27 |
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 |
(57)【要約】 廃棄物(A)を供給する供給縦坑(14)が搬送管路(10)の側方に接続されている。 この搬送管路(10)の長手方向にウォーム(4)が設けられている。 この発明によれば、ウォーム(4)と搬送管路(10)との間に、、特に供給縦坑(14)の角(24)に切断装置が設けられている。 この切断装置は、ウォーム(4)に配置されている第一の切断用金属片(20)と、必要に応じて供給縦坑(14)に固定されている第二の切断用金属片(22)とからなる。 |
229 |
AgeKoku equipment |
JP10317884 |
1984-05-22 |
JPH0741969B2 |
1995-05-10 |
正美 大崎; 道男 石川 |
|
230 |
The transfer material supply device of the conveyor |
JP942182 |
1982-01-23 |
JPH0611616B2 |
1994-02-16 |
RUUNARU SUENSU |
|
231 |
JPH0427134B2 - |
JP15550884 |
1984-07-27 |
JPH0427134B2 |
1992-05-11 |
TANAKA JUJIRO; KAMIWAKI TADAYOSHI |
|
232 |
Deaerator for particulate matter |
JP13021588 |
1988-05-30 |
JPH01299640A |
1989-12-04 |
YAMADA YASUO; NAKAYAMA MAMORU; SAGARA KAZUO |
PURPOSE:To enable precision filtration, to facilitate backwashing, and to increase the service life of a filter body by using a metallic-fiber sintered body for a perforated cylindrical part formed almost in the middle of a main cylindrical body. CONSTITUTION:Particulate matter is supplied into the main body 1 from a particulate matter supply port 10, and transferred toward a discharge port 11 by a screw conveyor 4. In this case, when the particulate matter passes through the inside of the perforated cylindrical part 1a, the air in the matter is sucked and removed by a vacuum pump through an evacuating chamber 2a and a suction and discharge pipe 8, the bulk density is gradually increased, and finally the matter is discharged from the discharge port 11. The cylindrical part 1a is formed by sandwiching both sides of the layer 12 of a metallic-fiber sintered body between wire meshes 15 and 15' to obtain a laminated filter, adhering a protective plate 14 of a perforated metallic sheet to the inside of the filter, and shaping the whole body into a cylinder. Consequently, the matter does not leak out to the pipe 8 side, and backwashing is easily carried out by compressed air without damaging the filter. |
233 |
Boom screw feeder in cart for grain like feed |
JP16571184 |
1984-08-09 |
JPS6145833A |
1986-03-05 |
HORI MASAKI |
PURPOSE:To make easily a boom screw expansible to any length by providing at least two screw piece pipes constituting a boom screw and unable to pivot but slidable relative to each other by 1 pitch of the screw. CONSTITUTION:On the upper portion of a vertical boom pipe provided vertically on the rear end face of a chassis 1 is mounted an upper side boom pipe 3 communicating thereto and capable of turning, erecting and falling. A boom screw 5 rotatably driven by a motor is pivotary loosely fitted inside the upper side boom pipe 3 which consists of a fixed base pipe 6 and an end putting-in-and-out exhaust pipe 7. The boom screw 5 consists of at least two screw piece pipes 8, 9 which are arranged in series on the identical axis and unable to pivot but slide relative to each othr by 1 or less pitch of the screw. The slide of the screw pieces 8, 9 causes the end putting-in-and out exhaust pipe 7 of the upper side boom pipe to be advanced, retreated, expanded and contracted. |
234 |
Rotary excavator of vertical screw conveyor |
JP15550884 |
1984-07-27 |
JPS6137628A |
1986-02-22 |
TANAKA YUJIRO; KAMIWAKI TADAYOSHI |
PURPOSE:To reduce the residual amount of processing material to a great extent by furnishing an excavating nail and a vertical excavation blade, whose top is covered with a swash plate, on the exterior wall of a rotary drum, which rotates oppositely to a screw conveyor installed at the bottom periphery of the external cylinder. CONSTITUTION:A plurality of nails 6 per arm 4 are installed at the undersurface of the arm 4 at the bottom opening of an external cylinder 1 in such a way as with shifted phase for each arm 4. The whole device is depressed according to whether the fluidity is good or not, or otherwise intruded to a certain depth, while a screw conveyor 2 and a rotary drum 8 are rotated in the opposite directions by their respective drivers with a specific speed ratio, and thereafter the marerial is loosened by an excavating nail 13 at the exterior wall of rotary drum 8 by means of horizontal movement so as to drop naturally to the part around the intake 14 and then scratched into the space between the screw 2 and rotary drum 8 by nail 6 and excavating blade 15. At this time, the vertical blade 15 and a swash plate 16 enclosing it will prevent splash and/or effusion from the intake 14. |
235 |
Grain lifter |
JP14626984 |
1984-07-14 |
JPS6127817A |
1986-02-07 |
AKIYAMA TAKAO; NAGAI TOSHIRO |
PURPOSE:To block counter-flow of grains thus to prevent clogging by providing a guideboard associated with a counter-flow prevention face for guiding the grains at the joint between grain feed screw and inclined lifting screw. CONSTITUTION:A guide member 14 having a collision guide face 16 for guiding the gains dispersed ragially through the screw vane 6 at the end of a screw 4 in the direction of a screw 9, a flow-down face 17 for flowing into the grain lift tube 12 and a face 18 for preventint the counter-flowing grains is provided. The grains fed laterally through the screw 4 are dispersed radially through the vane 6 then colide against the guide face 16 to be flowed into the tube 12. Here, the grains falled onto the flow-down face 17 are inclined with loe underline 21 and flowed into the tube 12 while those which will counter flow through rotation of the screw 9 are blocked by a prevention face 18 to realize smooth flow. |
236 |
Grain elevator |
JP10497984 |
1984-05-24 |
JPS60248509A |
1985-12-09 |
IMAMURA HIDEKAZU |
PURPOSE:To improve a capability to elevate grains in the captioned grain elevator having a jump blade between a traverse-feed and longitudinal feed screw conveyors by making large an outer diameter of the longitudinal feed screw on the casing discharge outlet side and small it on the upper side of the screw. CONSTITUTION:Grains are conveyed into a casing 3 by means of a screw conveyor 2, forced to be jumped on by a jump blade 31, and sent for grain elevation by a screw 51 into the lower end part 50a of a grain elevator cylinder 50 of the longitudinal-feed screw conveyor 5 from a conveyor 5 from a connection port 52 provided on the side of said lower end part 50a. Thereupon, a spiral blade 53 of the screw 51 is formed to the large in a diameter of a spiral blade 53b located at the lower end facing to the connection port 52 while to be small in that of a upper spiral blade 53a, and thereby almost of the grains sent from the connection port 52 are sent upward with little return thereof. With such arrangement, a capability of the device to elevate grains can be improved. |
237 |
JPS6036927B2 - |
JP7365280 |
1980-05-30 |
JPS6036927B2 |
1985-08-23 |
RATSUSERU AI PIITAASON JUNIA |
|
238 |
JPS60501344A - |
JP50205983 |
1983-05-16 |
JPS60501344A |
1985-08-22 |
|
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. |
239 |
Transferring apparatus |
JP12263783 |
1983-07-06 |
JPS6015311A |
1985-01-26 |
KISHI JIYOUTAROU |
PURPOSE:To smoothly transfer an object to be delivered toward the vertical upper direction without shedding the object by the edge of a wing plate, by providing a cut portion by making the diameter of a supplying section of a spiral wing plate inserted axially into a transferring cylinder smaller than that of the other portion of the wing plate. CONSTITUTION:A transferring cylinder body 4 is constructured by a transferring cylinder body 1 provided with a discharge cylinder 2 and 2 supply cylinder 3 connected to the upper end portion of the cylinder 1 and the lower end portion of the cylinder 1, respectively. In addition, a spiral wing shaft 8 is constructed by a rotary shaft 5 provided in the transferring cylinder 4, being supported by bearing members 6 at its upper and lower end portions, and a spiral wing plate 7 consisting of a sheet of continuous band plate and secured to the outer circumferential surface of the shaft 5 over the whole length of the transferring cylinder 4. In this case, a supply port 9 is provided at the side wall of the supply cylinder 3, and a cut portion is formed by making the diameter of a part of said wing plate 7 corresponding to the height of supply port 9 smaller. Thereby, after the object to be delivered is dropped on the wing plate 7 spaced at one pitch lower from the cut portion 10, the object is, in turn, transferred upward following the rotation of the wing plate 7. |
240 |
Auger feeder |
JP7365280 |
1980-05-30 |
JPS55164119A |
1980-12-20 |
RATSUSERU AI PIITAASON JIYUNIA |
|