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Publication numberUS2629484 A
Publication typeGrant
Publication dateFeb 24, 1953
Filing dateMay 14, 1949
Priority dateFeb 18, 1948
Publication numberUS 2629484 A, US 2629484A, US-A-2629484, US2629484 A, US2629484A
InventorsJames Thomson
Original AssigneeMavor & Coulson Ltd
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
US 2629484 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

J. THOMSON Feb. 24, 1953 CONVEYER 5 Sheets-Sheet 1 Filed May 14. 1949 Inventor M5 77/0/v60/v wmm AM QM Attorneys Feb. '24, I953 J. THOMSON coNvEYEiR Filed May 14. "1949 Sheefs-Sheet 2 Inventor Attorneys QMSON VEYER Filed May 4. 1949 '5 ts-sheet 3 '1 nventor Jj/Ms. T/MNJON A ttorne Patented Feb. 24, 1953 CQNVEYEE James Thomson, Glasgow, Scotland, assignor to Mavor & Coulson, Limited, Glasgow, Scotland Application May 14, 1949, Serial No. 93,280 In Great Britain February 18, 1948 3 Claims.

This invention relates to conveyors of the type including a sectional frame structure which supports the working and travelling parts of the con veyor. 1

The invention. although applicable to com veyors in general of the type stated, is designed more especially to meet conditions that are met with in longwall coal-mining by methods which involve the use of a conveyor between which and the coal face works a machine for leading coal (cut from the face by the machine or by some other agency) upon the conveyor. Such a conveyor should be designed so that its frame structure comes close to the space provided for the coal-loading machine, and so that it has no projecting parts to obstruct the working of the machine. and so that its frame structure can be displaced sidewise from time to time as the coal face recedes without bringing adjoining sections out of alignment, and so that adjoining sections can rise and fall in accordance with undulations in the mine floor.

An object of the invention is to provide for a conveyor of the type stated, a sectional frame structure having the Side longitudinals of adjoining sections formed with interlocking projections which can be interconnected and disconnected by a manipulation involving tilting of the one section in relation to the other and which when inter-connected come flush and prevent endwise and sidewise motion of each longitudinal in relation to the other.

An example of a conveyor embodying the invention is shown in the accompanying drawings, in which:

Fig. 1 is a front elevation showing a'complete structural section with portions of two adjoining sections. Fig. 2 is a plan. drawn to a larger scale than Fig. 1 showing adjoining portions where they are inter-connected. Fig. 3 is an elevation of the inter-connected portions as viewed in the direction of the arrow 3 in Fig. 2. Figs. 4 and 5 show separated the same portions as Fig. 2. Figs. 6 and 7 are end elevations, partly in cross-section, of a structural section viewed as at the lines 6 and 1, respectively, in Fig. 1.

In the example shown, the invention is applied to a scraper conveyor designed for use in a coal mine in association with a mining machine which moves along a coal face, shears oif coal from the face and deflects and raises the broken down coal sidewise upon the conveyor.

As shown by Figs. 6 and 7, each section of the frame structure comprises an open-top upper trough Ill and a closed lower housing H. The

conveyor would include the usual endless series of cross members i2, namely the scrapers. The conveyor also would include one central or two side endless chains to which the scrapers it are attached; in the drawings a single chain it is shown. As the scrapers and their chain are not features of the present invention they are represented merely in dot dash outline (Figs. 2, 6 and 7). The working run of the conveyor extends along the continuous upper trough formed by the interconnected sections, and the return run extends along the continuous lower housmg.

At that side of the conveyor which in use will be the nearer to the coal face, each section includes an angle-section member, a horizontal flange M of which is secured to the base ill of the structure and a vertical flange it of which is secured to a vertical flange ll of the trough, forming a low wall. It is those two vertical flanges l5 and ll which together with the flanges it form the side longitudinal that is formed at each end with projections made to interlock with complemental projections of the corresponding side longitudinals of adjoining sections, as hereinafter described.

In the example shown, one end of the vertical flange E6 of each angle-section member has a mid-projection it, which may be termed a tongue, having an upturned end 9. The other end of the flange it has a top projection 25, which may be termed a nose, having a downward end 2!, and said end also has a bottom lip 22. The nose and lip form between them the recess 23 (Fig. 5). The dimensions of each tongue 18 in relation to the dimensions of each nose 2t and lip 22 are such that the tongue looks into the recess 23 leaving angular clearances 2d. 25, 25, 2? and 28 (Fig. 3) by virtue of which each anglesection member M, It jointed to another can freely tilt to a substantial extent without breaking joint. Moreover, one angleection memb r can be jointed to and detached from the other by a substantial tilting movement of the longitudinal Hi, 16, ll. In such a movement, the longitudinal being tilted will pivot upwards about the projections i8, 2? and 22 as the approximate axis.

In the example shown, the trough flanges ll of adjoining sections are formed to project at 29 and 3!] (Figs. 4 and 5) along the inner sides of portions of the tongue 18 and nose 29. The arrangement is such that the projections 29, 39 of the flanges ll prevent sidewise displacement or misalignment of each section in relation to an adjoining section.

At the side of each section opposite to the coal face. the housing l is closed by an angle iron 3!, and the trough in has a high side wall 32 which serves as a coal retainer. At both ends of each section, laterally projecting flanged members 33 are secured to the angle iron 3|; and these members have bolt holes 34 through which loose fitting bolts 35 (Fig. 2) are inserted so as to connect adjoining interlocked sections securely together, while permitting slight tilting of either or both of the sections. Also in order to permit such tilting the adjacent ends of the high side walls 32 are angularly cut away at 36.

To seal the space between the adjoining troughs l and their high side walls 32, a strap 31 is provided at one end of each section on the outer side of the trough and its high side wall, and this strap projects sufliciently to overlap the adjacent end of the adjoining parts 10, 36. In Fig. 2 the strap 31 is shown in dotted lines below the bottom I 0 of each trough but for clearness is omitted where it rises behind the high walls 32.

Strengthening webs 38 are provided at each end of the high walls 32 in combination with the flanged members 33 and laterally projecting bases 39. Moreover, strengthening ribs 40 (Figs. 6 and '7) may be provided on each high wall 32 at appropriate intervals throughout the length of the section.

The entire arrangement is such that the two sections can be interconnected by a single tilting manipulation and by use of a single bolt 35. The interconnected sections can be displaced sidewise without possibility of misalignment or separation between the sections. Either section can be tilted to suit undulations in the mine floor. The coalface side of the frame structure (that is, the left hand side in Figs. 2 and 6) is flush where the sections adjoin, so that there is an absence of projections at that side of the conveyor.

I claim:

1. A sectional frame structure for a conveyor of the type having a travelling part which works along a continuous upper portion of the structure and returns along a continuous lower portion thereof, said structure consisting of sec tions each having a side longitudinal detachably connected by joints to corresponding side longitudinals of adjacent sections and all of said longitudinals coming flush with one another where they adjoin at their ends to avoid lateral projections there and maintain the continuity of said portions, and each joint comprising complemental projections on the respective longitudinal ends, one of said projections being an upturned tongue and the other being a downturned nose which inter-locks to prevent relative endwise displacement between said projections, and an outstanding lip forming in conjunction with the downturned nose a recess in which the upturned tongue engages to prevent relative vertical displacement between said projections, said downturned nose extending longitudinally a substantial amount beyond said lip so that engagement and disengagement between said tongue and recess can be effected only by a relative vertical tilting movement between the associated sections.

2. A conveyor as claimed by claim 1 in which the tongue, nose and lip are formed to leave angular clearances giving the adjoining sections freedom to tilt without disengaging the upturned tongue from the recess.

3. A conveyor as claimed by claim 1 in which the inter-locking projections are associated with inner pro-jections each arranged to engage an interlocking projection of an adjoining section and prevent sidewise displacement of each sec tion in relation to the other.


REFERENCES CITED The following references are of record in the file of this patent:

FOREIGN PATENTS Number Country Date 533,440 Germany Sept. 14, 1931 645,724 Germany June 3, 1937 649,810 Germany Sept. 3, 1937 674,797 Germany Apr. 22, 1939

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
DE533400C *Sep 14, 1931Philipp SchwarzSeilendbefestiger, bestehend aus Nippel und Klemmutter
DE645724C *Oct 31, 1934Jun 3, 1937Friedrich Mueller MurerUntertagekratzerfoerderer mit geschlossener Untermulde
DE649810C *Jul 4, 1935Sep 3, 1937Eickhoff GebKratzerrinnenverbindung
DE674797C *Mar 25, 1937Apr 22, 1939Eickhoff GebVerbindung fuer die Schuesse von Kratzerfoerderrinnen
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2992722 *Apr 19, 1957Jul 18, 1961Jeffrey Mfg CoMine conveyor
US3039596 *Jan 6, 1959Jun 19, 1962Consolidation Coal CoBelt conveyor
US4111296 *Jul 5, 1977Sep 5, 1978Glossop Mark BRock conveyors
US4566587 *Jun 24, 1982Jan 28, 1986Donetsky Nauchno-Issledovatelsky Ugolny InstitutAngle scraper chain face conveyor
US4765607 *Mar 8, 1985Aug 23, 1988Mars, IncorporatedStacker apparatus
US5405131 *Jan 10, 1994Apr 11, 1995Mars IncorporatedCurrency validator and secure lockable removable currency cassette
US5411249 *Jan 10, 1994May 2, 1995Mars IncorporatedCurrency validator and cassette transport alignment apparatus
US5616915 *Jan 23, 1995Apr 1, 1997Mars IncorporatedOptical sensor for monitoring the status of a bill magazine in a bill validator
US5632367 *Jan 23, 1995May 27, 1997Mars, IncorporatedValidation housing for a bill validator made by a two shot molding process
US5988345 *Aug 12, 1998Nov 23, 1999Mars IncorporatedBill validation using light transmitted across bill pathway
DE3101218A1 *Jan 16, 1981Sep 2, 1982Hese Gmbh Maschf ErnstTrough arrangement for receiving a continuous conveyor, such as a belt or chain conveyor
DE4103590A1 *Feb 7, 1991Aug 13, 1992Langerbein Scharf Gmbh & Co KgConveyor trough for chain conveyor - has side brackets supporting part of two-part connection each with protuberance and recess
U.S. Classification198/735.6, 198/861.2
International ClassificationB65G19/28, B65G19/00
Cooperative ClassificationB65G19/287
European ClassificationB65G19/28F