前苏联专利SU1186082A3 Device for vertical displacement of loose material

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专利摘要:
A novel apparatus for vertically conveying bulk materials is provided which includes a vertical bett conveyor comprised of two endless conveyor belts (25,26) guided to travel upwardly along a substantially vertical plane in a face-to-face overlapping relation to each other and a highspeed bulk projector (52) for packing bulk material into between the opposing faces of the two conveyor belts, utilizing the momentum of the bulk material per se. The two conveyor belts are guided at the bottom so as to turn round in directions opposite to each other in substantially symmetrical fashion and bulk material is projected rapidly under the effect of contrifugal force to the bottom belt junction where the two conveyor belts come to join each other. The conveying apparatus, with its highspeed bulk projector combined with a rotary bucket wheel type bulk feeder, forms a vertical bulk delivering apparatus which is compact and highly versatile. In combination with an appropriate movable support frame, the delivering apparatus is advantageously usable as a delivering unit of a vertical bulk delivering system for a bulk storing yard or for unloading bulk cargo which is operable in the yard or cargo hold to deliver the bulk cargo vertically upward with particular efficiency.
公开号:SU1186082A3
申请号:SU782643653
申请日:1978-07-26
公开日:1985-10-15
发明作者:Иино Фудзио
申请人:Кабусики Кайся Мицуи Миике Сейсакусе (Фирма)；
IPC主号:

专利说明:

2. A device according to claim 1, characterized in that the lower end drum of one of the conveyor belts is located below the loading drum of the scooper with the possibility of forming an inclined section of the conveyor belt facing towards it.
3, The device according to claim 1, wherein the tube is so that the tubular body is provided with a fixed bottom
He end of the blade type feeder, inside which is placed the thrower.
82
4. The device according to claim 1, characterized in that the tubular body is made of upper and lower sections, wherein the lower section is connected to the upper section pivotally with the possibility of its rotation in a vertical plane by means of a driving mechanism.
Priority points:
. 07/26/77 in paragraphs 1, 3 and 4; 01/24/78 on p. 2.
This invention relates to lift. transport engineering, namely, devices for the vertical movement of bulk materials, a PISTjecTHO device for the vertical movement of bulk material containing two belts, facing each other by working branches, between which the transported material is placed. The working branches are placed in a tubular casing. The material is fed at the ngzhnich conceptual drums, which bend around the ribbons. One of the ribbons has a horizontal section, the material from the hopper is fed to it (. The disadvantage of this device is that it has a significant wear. Tests one additional stretch of the bend and the same end drum from another tape. The device for vertical movement of the rash is the closest to the proposed technical essence and the achieved effect. This material contains two one-sided and vertically-located conveyor belts in the tubular body, envelopes of the upper drums and lower end drums for which the loading drum of the thrower 2J is spread. The disadvantage of this device is the low transport efficiency of the bulk material due to the fact that the material supplied by a paddle thrower between tapes across the direction of their movement. This leads to incomplete filling of the space between the tapes. The purpose of the invention is to increase the effect The ability to transfer bulk material by providing full volume volume between the ribbons, is set (it is achieved by means that in the vertical displacement device the bulk material is conveyed by two formed one to another and located in the tubular body of the conveyor belts. |; and the upper drums and the lower ends of the 6apa6afih, which have a zagr placed: the city of the scoop drum, lower cnc; i): a raban of one of the conveyor pent is located below the scoop drum of the scooper, which has the T1 slot .. tape, og a bass discharge drum and deflecting disks arranged to form with them and the loading drum a section of the feeding belt located at an angle to the conveyor belt, the feeding tape of the scoop having a higher speed than the speed of the conveyor belts. The lower end drum of one of the conveyor belts is located below the pick-up drum of the scooper with the possibility of forming an inclined section of the conveyor belt facing the Nemz. The tubular body is equipped with a paddle-type feeder fixed at its lower end, inside which the thrower is placed. . The tubular body is made of upper and lower sections, while the lower section is connected with the upper section hingely with the possibility of its turning in a vertical plane by means of a drive mechanism,. FIG. 1 shows a device for the vertical movement of a swept material, general view; in fig. section A-A in FIG. 1; in FIG. 3, a device for vertical displacement of a volatile material with a power supply installed at its lower end, a general view; in fig. 4 - section BB, fig. 3; in fig. 5 - blade type feeder with a thrower placed inside it; in fig. 6 is a perspective view of the device, a general view; in fig. 7 is a section bb of FIG. 6; in fig. 8 - section G-.G in FIG. 7; in fig. 9 - the device, the tubular body of which consists of sections, a general view; in fig. 10 - device with an inclined lower section of one of the conveyor belts, general view; in fig. And a device in which an inclined chute is used to supply the material; in fig. 12 is a section d-d in FIG. 11. A device for vertically moving bulk material comprises two conveyor belts 1 and 2, envelopes upper drums 3 and 4 and lower end drums 5 and 6, and Belts 1 and 2 are pressed against each other by rollers 7 arranged in a checkerboard pattern. The end drum 6 is located below the drum 5. For supplying the material to the belts 1 and 2, there is a thrower that has a feed belt 8, an envelope of the discharge drum 9, a loading drum 10 and a deflecting drum 11, as well as deflecting disks 12 placed along the edges of the belt 8. Baraba; n 10 is driven by the mechanism 13. The material is fed by the ribbon 8 from the hopper 14. The disks 12 are mounted on the axle. -15 mounted on the frame 16. The belts 1 and 2 are placed in the tubular body 17. A variant of the device for vertical movement of the bulk material with a feeder 18 of the blade type, which is mounted on the lower end of the tubular to the cable 17, is possible. The device is mounted on the frame 19, moved along a rail track 20, laid along a warehouse with bulk material (Fig. 3), Frame 19 contains two parallel beams 21 and 22, to which an intermediate belt conveyor 23 is attached, designed to transfer material, unloading th from the side of the funnel 24, on .statsionarny conveyor 25 via the discharge tray 26, tubular body 17 is mounted on. frame 19 by means of a support frame 27 having the ability to move along it. The frame 19 can be made ring-shaped or rectangular in shape, and the body 17 is installed therein with the possibility of lifting and lowering with the help of a cable 28. The latter is fixed at one end to the frame 27 and the other to the drum 29 installed in the lower part of the body 17. On housing 17, a feeder 18 is fastened, comprising a ring-shaped support frame 30 on which a rotating drum 31 is mounted (Fig. 5). The latter is driven to rotate clockwise by means of a known drive mechanism (not shown). A plurality of scooping buckets 3i2 are mounted on the drum 31 at equal intervals along its periphery. When the rotary drum 31 is rotated, the bulk material, scooped up, is dumped into the loading window of the support frame 30.. FIG. 6 shows a device for the vertical movement of bulk materials, which is mounted on a ground-movable frame containing a beam 33, located along the warehouse 34 located on the ground. The beam 33 is mounted at each of its ends on a displaced leg-shaped structure 35, which has significant height and is equipped with actuators 36. The traveling bulk beam can move by itself along the warehouse 34 along rails 37 laid on the ground, which lie parallel to each other from opposite hundred it warehouse, the beam on these rails 33 mounted by means of carriages 38, housing 17 is mounted on the beam 33 through the hollow tubular structure 39 with the possibility of movement in the vertical PLO
skew and rotate around a vertical axis.
The beam 33 is provided with an upwardly directed rail 40 along one edge of its upper surface, which runs along the entire length of the beam 33 (FIG. 7). The beam is also provided with a horizontally directed rail 41 and a downward rail 42. The upward rail 40 is supported to move wheels 43 on it, which are mounted on the bottom surface of an integral part of the device’s support frame 39. Accordingly, the wheels 44 and 45 are placed on the rails 41 and 42, which are mounted vertically and horizontally respectively on the extreme end part of the arm bracket 46, which covers the lower edge of the beam 33.
Such a design allows the tubular body 17 of the device to be positioned laterally from the beam 33, maintaining a vertical position, as well as freely moving along the beam 33.
A hollow cylindrically guiding device 47 is mounted in the cylindrical cavity of the housing 39 of the support frame rotatable by means of an annular c | 48 flange 48 attached to the top of the tubular guide device 47. From the bottom of the tubular
An assembly aid 47 is attached to an annular flange 49, similar to the 1H Bepxnef.iy flange 48. As shown in FIG. 8, the upper and lower flanges are provided inside with a pair of guide rollers 50 and 51 for a rectangular frame 17 in cross section.
Thus, the vertical frame 17 is guided by a tubular guide 47 for vertical movement and counter-action. rotates about it. The tubular guide device 47 is equipped with a gear wheel; 52 attached to it around the peripheral surface of the cylindrical shaft of the tubular guide device concentrically with it. A motor and gear 53 are mounted on the support frame 39, connected to it and meshed with the gear wheel 52 so that
The tubular guiding device had the ability to rotate around its axis relative to the support frame 39 under the action of the actuator. Vertical movement of the device relative to the beam 33 is achieved by means of a cable construction, which includes a cable 54, attached with its upper end to the lower flange 49, and a drum 55.
On one side of the bulk material warehouse 34, which is flush with the ground, there is a stationary conveyor moving the bulk material (not shown). In order for the bulk material delivered by the device from the warehouse to be delivered to the stationary conveyor, there is an intermediate transmitter a device that is connected to the window 56 unloading bulk material (Fig. 6).
The intermediate transmitter device includes a tubular telescopic structure 57, which by its deepest inside tubular section 58 is connected to a discharge port 56. The outer tubular section 59 of the telescopic structure is suspended on cable 60 and is located above the annular funnel 61, which is fixedly mounted on a support frame 39 .
The cable 60 is fixed with one end to the outer tubular section 59 and guided by two blocks 62 mounted on one side of the vertical frame 17 so as to be able to move down the frame and guided by another guide block 63 mounted at the bottom of the frame in order to be able to move upwards from there, with the other end attached to the lower flange 49 of the tubular guide device 47. Thus, the tubular section 59 of the telescopic structure 57 is all the time over the hole of the funnel 61.
Thus, the annular funnel 61 has a tubular body in which the vertical frame 17 of the device is free and has such a design that all the flowing material entering it is all collected in the discharge window at the bottom of the annular funnel for it. 71 to be fed to the intermediate conveyor belt, which is located on the beam 33, the device for the vertical movement of loose materials can be used to unload containers, such as holds. For this, the support frame 39 is mounted on the end of the boom 64 (Fig. 9) of the crane installation, the outreach of which can vary. The crane assembly comprises a undercarriage 65 mounted on a track laid along pier 66. The cart 65 carries the frame 67, the boom 64 with links 68 allowing the boom 64 to be held in the desired position. On the boom 64, a .69 conveyor is installed, the KQTO feed drum is placed under the funnel 61, and the discharge drum is placed above the receiving conveyor 70-, transferring the load further to the stationary conveyor 71. To ensure full hold of the hold, the vane feeder 18 must be rotated in a vertical plane. For this, the tubular body 17 of the device is made up of two sections interconnected by a hinge 72. The lower section is rotated by means of a mechanism 73 in the form of a hydraulic cylinder. Such an execution of the body 17 allows the vane feeder to pick up material at the very side walls of the hold that makes it possible perform unloading. A possible embodiment of the device for vertical movement 2. There is no extruded material in which the drum 6, circumscribed by the tape 2, is placed below the loading drum 10 of the scooper with the possibility of forming an inclined section 74 receiving material. This option is an implementation of the device .dl. the vertical movement of the concave material provides a more directional, accurate material feed from the pick-up drum between belts 1 and 2. For the case when one of the tapes of the proposed device has an inclined section 74, it is possible to feed the material between belts 1 and 2 not with a thrower, but with inclined chute 75 (Fig. 11), having a trough-shaped form in the transverse section (Fig. 12). The material enters the chute 75 from the conveyor 76, slides down it and along the section 77 located above the section 75 of the belt 2, under the action of centrifugal force, flows between the belts 1 and 2, which are transported upwards. The proposed device for the vertical movement of bulk material is effective in operation. It provides a more accurate flow of material between the tapes, allowing you to simultaneously more fully fill the volume between them. Due to its design, the device can be installed both stationary and mobile, and can also be suspended both on the bridge and on the jib cranes.
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权利要求:
Claims (4)
[1]
1. DEVICE FOR VERTICAL MOVEMENT OF BULK MATERIAL, 'comprising two conveyor belts facing one another and vertically located in a tubular body, enveloping the upper drums and lower end drums, which have a loading drum of the thrower, characterized in that, in order to increase the efficiency of moving the thrower bulk material by ensuring full filling of the volume between the belts, the lower end drum of one of the conveyor belts is located below the loading drum of the thrower, which has a feed conductive tape, envelope discharge drum and the deflecting wheels, arranged so as to form between them and the loading drum feed belt portion disposed at an angle to the conveyor belt, the feed belt thrower has a higher speed than the conveyor belts.
SU "" 1186082
Fggg. 1
[2]
2. The device according to π. 1, characterized in that the lower end drum of one of the conveyor belts is located below the loading drum of the thrower with the possibility of forming an inclined section of the conveyor belt facing it.
[3]
3. The device according to p. 1, characterized in that the tubular body is equipped with a blade-type feeder fixed on its lower · ¹ end, inside of which a thrower is placed.
[4]
4. The device according to claim 1, characterized in that the tubular body is made of upper and lower sections, while the lower section is connected to the upper section pivotally with the possibility of turning it in a vertical plane by means of a drive mechanism.
Priority on points:
07.26.77 PP 1, 3 and 4;
01/24/78 under paragraph 2,

类似技术:

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同族专利:

公开号 | 公开日

IT7825603D0|1978-07-12|

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EP0000550B1|1981-09-02|

US4230220A|1980-10-28|

BR7804767A|1979-04-17|

AU3742378A|1980-01-03|

DE2861002D1|1981-11-26|

IT1097204B|1985-08-26|

EP0000550A1|1979-02-07|

CA1098069A|1981-03-24|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE4208655A1|1992-03-18|1993-10-07|Gutehoffnungshuette Man|Continuously conveying device for handling bulk goods in storage areas|US1597393A|1925-07-06|1926-08-24|Alfred D Sinden|Conveyer|

CH273836A|1947-03-07|1951-02-28|Crawshaw Smith Peter Ellis|Transport device.|

US2939570A|1956-07-24|1960-06-07|Dravo Corp|Ship unloading apparatus|

DE1120361B|1960-03-12|1961-12-21|Gerhard Grimm|Shroud conveyor for loose bulk material|

FR1451414A|1965-07-15|1966-01-07|Bulk product handling device|

US3982626A|1975-06-05|1976-09-28|Allis-Chalmers Corporation|Belt elevator for bulk material|

DD133214A5|1976-06-17|1978-12-20|Moledeth Dev Co Ltd|ELEVATOR-FOURDERER FOR SCHUETTMATERIAL|DE2928162C2|1979-07-12|1986-11-27|Bühler-Miag GmbH, 3300 Braunschweig|Material feeding device for a mechanical or pneumatic steep conveyor|

US4336877A|1979-09-12|1982-06-29|Fruehauf Corporation|Foldable unloading machine|

FI62997C|1980-08-21|1983-04-11|Kone Oy|KONTINUERLIG AVLASTNINGSANORDNING FOER MASSAMATERIAL|

NO151404C|1982-12-01|1985-04-10|Kaare Haahjem|LIFTING AND TRIMMING DEVICE FOR SHIPPING GOODS|

FR2539399B1|1983-01-17|1987-05-22|Fives Cail Babcock|DEVICE FOR UNLOADING BOATS, ESPECIALLY BARGES|

DE3315078C2|1983-04-26|1986-10-02|MAN Gutehoffnungshütte GmbH, 4200 Oberhausen|Belt conveyor for vertical or steep conveyance of bulk material|

CA1196881A|1985-01-29|1985-11-19|William H. Johnston|Bulk material reclaiming apparatus|

US4765461A|1985-05-23|1988-08-23|Minenco Pty. Limited|Mobile elevator conveyor|

US4755094A|1986-07-16|1988-07-05|Express Marine, Inc.|Self-unloading barge and unloading apparatus therefor|

FR2645842A1|1989-04-13|1990-10-19|Egretier Jean Michel|Combined conveyor/elevator assembly|

EP0417363B1|1989-09-15|1992-10-14|Kabushiki Kaisha Iseki Kaihatsu Koki|Vertical type conveyor|

DE4409152C2|1994-03-17|1996-01-25|Man Takraf Foerdertechnik Gmbh|Swivel transfer to belt conveyors|

WO2009006348A2|2007-06-29|2009-01-08|Ashross, Llc|Aggregate reclaimer device and method|

US8182190B2|2008-03-27|2012-05-22|Ashross, Llc|Unloading system and method for continuously moving rapid discharge railcars|

US10968058B2|2017-07-31|2021-04-06|Luis Sucre|U reclaimer utility device apparatus|

EP3771667A1|2019-07-29|2021-02-03|Bühler AG|Loading device and pylon for a loading device|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

JP52088811A|JPS613725B2|1977-07-26|1977-07-26|

JP53005797A|JPS6251849B2|1978-01-24|1978-01-24|

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