前苏联专利SU1131466A3 Conveyer system

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专利摘要:
1451464 Helical conveyers J R E WAHREN 17 Oct 1973 [25 Oct 1972] 48449/73 Heading B8A Vertical, endless, guided helical loops form means for collecting, accumulating and disstributing objects between continuously movable conveyer tracks leading to and from treatment stations. In Fig. 1, machine parts requiring a series of operations are conveyed between work stations by conveyer tracks interspersed with helical loops 1, 2, 3, 4, 5, 6 and 6<SP>1</SP>. The loops are provided with selectively actuatable means to transfer parts between respective conveyer tracks.
公开号:SU1131466A3
申请号:SU731970504
申请日:1973-10-24
公开日:1984-12-23
发明作者:Рангвальд Эйвин Варен Жан
申请人:Wahren Janne Ragnvald Ejvin；
IPC主号:

专利说明:

with
Odd
2. The system according to claim 1, wherein the supply conveyor is connected to the lower part of the screw loop of the conveyor belt, and the discharge conveyor is connected to the upper part.
3. System pop. 1, distinguishing from the fact that the screw loop has ascending and descending portions.
4. The system according to claim 3, wherein the ascending and descending portions interact with rollers arranged
with respect to two vertical parallel axes, while the guide rollers for the upstream section are coaxial with the guide rollers for the downstream section.
5. The system of claim 1, wherein the screw loop is provided with a straight part located along the feed or discharge conveyor adjacent to the loop, and has means for connecting and disconnecting with the feed or retracting using conveyors.
one
The invention relates to the field of transportation of products, in particular to conveyor systems for the collection, accumulation, vertical supply and distribution of various objects in production lines.
There are known conveyor systems containing inlet and outlet transporters, between which the storage device G1 is located.
A disadvantage of the known conveyor systems is the limited operational capabilities that do not allow carrying out various time-consuming technological operations on objects conveyed at a constant speed by the conveyor system.
The aim of the invention is to expand the operational capabilities of the conveyor system.
This goal is achieved by the fact that in a conveyor system containing supply and discharge conveyors between which a storage device is placed, the latter is configured to be connected to the conveyor paths and disconnected at any place, equipped with an actuator I and is a vertical endless conveyor belt the form of a screw loop.
In addition, the feed conveyor of the conveyor system is connected to the lower part of the screw loop, the conveyor belt, and the discharge conveyor is connected to its upper part.
At the same time, the screw loop has inlet and descending portions.
The ascending and descending areas interact with the guide rollers arranged relative to two vertical parallel axes, the guide rollers for the ascending section being coaxially with the guide rollers for the sies; a; Conscious: plot.
i The screw loop is provided with a straight-line part located along the supply or discharge conveyor adjacent to the loop, and has means for connecting and disconnecting with the supply or discharge conveyors.
FIG. 1 shows the conveyor system, general view; in fig. 2 - accumulative device in the form of a screw loop, side view; in fig. 3 is the same general view in FIG. 4 - the same plan view; in fig. 5 is a view A of FIG. 2, in FIG. 6 - the same plan view; in fig. 7 is a section BB in FIG. 3
The conveyor system contains a cumulative device in the form of screw loops 1-6, located along the conveyor system and serving technological positions 7-15 for processing transported items.
Screw loops 1-6 and technological positions 7-15 are interconnected by means of conveyor paths 16-27, while the conveyor system is equipped with feed 28 and discharge conveyor 29. five
Screw loops 1-6 contain transorter tape 30 and, depending on the technological needs, can be made in two versions.
In one embodiment (Fig. 24), screw loop 1-6 includes two straight side portions interconnected by guide rollers 31. The outgoing upper portion of the conveyor belt 30 of the loop passes above the forward pusher roller 32 provided with a movement actuator 33 adjustable speed of rotation, and then through the guide roller 34 the conveyor belt 30 passes into a vertical 20 section 35, which is directed downwards, which, in turn, after the section 36 of the reverse forms through the guide roller 37 an upward section 38 of the lower loop 39.25
In another embodiment, the loop comprises a series of guide rollers 40, rotated on two vertical parallel axes and mounted on these 0 axes coaxially. The screw loop has an ascending 41 and a descending 42 plots. The ascending portion 41 reaches the upper guide roller 40 and passes into the upper horizontal 35 portion 43, after which, through another guide roller 40 located on the vertical axis, passes into the downward portion 42 and further, the passage successively guide rollers 40 , in the straight line section 44. Through the pulley 45, equipped with a displacement drive 46, the straight line section 44 changes the direction of movement and passes into the section 47, which goes 45 to the pulley 48, while the straight line section 44 is equipped with means 49 and 50 connected to the conveyor path and disconnected.
The conveyor system works in the following way.
The items received for processing are delivered to the conveyor path 16, from which they arrive at the technological position 7. After they are processed at the jS position 7, the items are transferred to the conveyor path 17, which can also receive items from other similar working positions, the corresponding positions 7.
The conveyor path 17 delivers objects to the lower part of the screw loop 1, on which the objects to be processed are assembled and transported along the screw of your own trajectory in the upward direction
Due to the presence of the drive 33 (or 46) of the movement of the screw loop 1, the feed rate of the objects can be adjusted in accordance with the required processing time. From the upper part of the screw loop 1, the items are transferred to the conveyor path 1 which is set at a higher level.
Through the conveyor path 18, items are fed to the next technological station 8 and from there via the conveyor path 19 they are distributed to a lower level. To the conveyor path 19 is connected to the next screw loop 2 in its lower part.
Further, the items come from the upper portion of the conveyor path 20 of the screw loop 2 to the parallel supply paths connecting the conveyor path 20 to the technological positions 9, or to other technological positions. The processing pass at technological positions 9, the objects along parallel discharge tracks are fed to the conveyor path. 21 and then proceed to the screw loop 3, where the intermediate stage of accumulation and storage of objects is carried out. From the screw loop 3, the objects to be processed are transported via conveyor path 22 to technological position 10, from which the conveyor path 23 is fed to the screw loop 4. , technological positions 12-14, after which the objects to be processed can enter the double screw loop 6, after which they arrive at the Final technological position 15 through conductive conveyor 29.
Depending on the technological process of processing items, the duration and nature of individual technological operations, screw loops can be installed in various
places of the conveyor system at different levels of height. The screw loops are connected to conveyor paths or disconnected by means of limestone, such as closures or valves. In addition, the blog availability of individual drives for the movement of screw loops, adjustable: in speed, can be varied by the time spent by objects on the screw loops.
Screw loops can also be changed over a wide range
both in the form of a single and in the form of double loops, they change their dimensions in the horizontal plane, as well as the number of turns on one another.
Thus, the proposed conveyor system allows individual operations to be performed on various items of different time and nature, ensuring the continuity of the entire technological process.
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权利要求:
Claims (5)
[1]
1. CONVEYOR SYSTEM, containing the feed and discharge conveyors, between which a storage device is located, characterized in that, in order to expand its operational capabilities, the storage device is configured to connect to conveyor tracks and disconnect anywhere, equipped with a movement drive and represents a vertically directed endless conveyor belt in the form of a screw loop.
SU w, 1131466
9νι1
[2]
2. The system by π. 1, characterized in that the feed conveyor is connected to the lower part of the screw loop of the conveyor belt, and the discharge conveyor is connected to its upper part.
[3]
3. A system according to claim 1, characterized in that the screw loop has ascending and descending sections.
[4]
4. The system of claim 3, wherein the ascending and descending sections interact with guide rollers located relative to two vertical parallel axes, while the guide rollers for the ascending section are aligned with the guide rollers for the descending section.
[5]
5. The system according to claim 1, characterized in that the helical loop is provided with a rectilinear part located along the feed or discharge conveyor adjacent to the loop, and has means for connecting and disconnecting with the feed or discharge conveyors.

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US3373860A|1968-03-19|Conveyor system

US5450941A|1995-09-19|Apparatus for separating, conveying and grouping flat items

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US3279580A|1966-10-18|Apparatus for transporting cylindrical articles

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US5115902A|1992-05-26|Lane divider

US5385226A|1995-01-31|Apparatus for forming a plurality of rows of articles from a single row of articles during conveying of the articles

US2156105A|1939-04-25|Container conveyer and distributor

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US3137398A|1964-06-16|Apparatus for feeding pellets

US3315782A|1967-04-25|Article conveying apparatus

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US1474619A|1923-11-20|Bread-cooling apparatus

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US20200115168A1|2020-04-16|Conveying system with high speed lane divider

US5390780A|1995-02-21|Conveying apparatus

US3845853A|1974-11-05|System for interconnecting continuously operating conveyor paths

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同族专利:

公开号 | 公开日

DE2351688C2|1987-03-19|

CS198128B2|1980-05-30|

DE2351688A1|1974-05-09|

FR2204551B1|1977-08-05|

GB1451464A|1976-10-06|

YU276173A|1981-04-30|

SE376747B|1975-06-09|

JPS5052782A|1975-05-10|

FR2204551A1|1974-05-24|

IT997263B|1975-12-30|

YU36129B|1982-02-25|

JPS55181B2|1980-01-07|

US3983989A|1976-10-05|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3360097A|1967-12-26|Bread cooling apparatus |

GB1072606A|1900-01-01|

US2306101A|1941-12-20|1942-12-22|Loomis Van Zandt|Stop for conveyer|

DK96593C|1960-07-23|1963-07-29|Svend Nordby Knudsen|Transporter.|

DE1267605B|1963-03-11|1968-05-02|Foerdertechnik G M B H|Link belt as a spiral conveyor of a treatment system, e.g. B. for cooling, drying, baking or sterilizing goods|

US3260350A|1964-01-08|1966-07-12|Ajem Lab Inc|Parts storage and handling device|

US3363744A|1965-09-21|1968-01-16|Stewart Engineering & Equipmen|Conveyor apparatus|

US3315492A|1966-02-21|1967-04-25|Frick Co|Continuous once through material treatment apparatus|

DE1456739B2|1966-12-24|1970-12-17|

US3348659A|1967-04-19|1967-10-24|Ashworth Bros Inc|Conveyor system|

BE741441A|1968-11-14|1970-04-16|

US3666083A|1970-02-13|1972-05-30|Frick Co|Carrier and drive means for two-axes type refrigerating conveyor|

US3682295A|1970-05-11|1972-08-08|Ashworth Bros Inc|Edge driven conveyor system|US4184588A|1977-08-02|1980-01-22|The Laitram Corporation|Product transport conveyor system|

JPS5810332B2|1979-06-25|1983-02-25|Shibuya Kogyo Co Ltd|

DE3516709C2|1985-05-09|1989-11-16|Kurt 2081 Hemdingen De Stadelmann|

DK156532C|1986-04-07|1990-01-29|Broennums Maskinfab|PLANT FOR PREPARING A TRANSPORT CURVE WITH PLANTS DURING THE PLANTS 'GROWING PERIOD|

FR2637273B1|1988-10-04|1993-06-18|Merlin Gerin|DYNAMIC BUFFER STOCK PRODUCTION LINE|

DE3913534A1|1989-04-25|1989-11-16|Roland Prof Dipl Ing Guenther|Material handling system for production-integrated material handling with storage functions|

DE3918559A1|1989-06-07|1990-12-13|Hoechst Ag|METHOD AND DEVICE FOR ELECTROSTATICALLY SPRAYING A LIQUID LAYER ONTO A SUBSTRATE AND DRYING THE LIQUID LAYER ON THE SUBSTRATE|

GB2251588B|1991-01-12|1994-07-13|John Shelton Fenty|Conveyor assembly|

US5247810A|1992-07-14|1993-09-28|Liquid Carbonic Corporation|Freezer conveyor|

AT252505T|1999-08-23|2003-11-15|Rexnord Marbett Spa|SIDE SWIVELING CONVEYOR CHAIN|

DE102005032713B4|2005-07-07|2010-01-14|Beyss Gmbh|Method and device for treating a machined workpiece and conveying means|

NL1030617C2|2005-12-08|2007-06-11|Specialty Conveyor Bv|Device for buffering products.|

NL2000404C2|2006-12-22|2008-06-25|Ambaflex Internat B V|Transport device.|

NL2000635C1|2007-05-07|2008-11-10|Specialty Conveyor Bv|Device and method for buffering products.|

NL2002100C|2008-10-15|2010-04-16|Specialty Conveyor Bv|A buffer conveyor having parallel tracks.|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

SE1380172A|SE376747B|1972-10-25|1972-10-25|

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