AU614007B2 - Pipe handling apparatus - Google Patents

Description

AUSTRALIA

PatentIs Act I nol COMPLETE SPECIFICATION

(ORIGINAL)

Class Int. Class Application Number: Lodged: Complete Specification Lodged: Accepted: Published: .1 Priority Related Art: APPLICANT'S REF.: IIA680662-004 Name(s) of Applicant(s): 0 0 0 00 Address(es) of Applicant(E NEW ZEALAND STEEL LIMITED Wolf Fisher Works, Glenbrook, South Auckland, NEW ZEALAND Actual Inventor(s): John Ful Ming Liew once 00 on 0 OQO'~0~ o 0 Address for Service is: PHILLIPS, ORMONDE AND FITZPAIRICK Patent and Trrade Mark Attorneys 367 Coffins Street Melbourne, Australia, 3000 Complete Specification for the invention cntitt!.d: PIPE HANDLING APPARATUS The following statement is a full description of this invention, including thc best method of performing it known to applicant(s): P'19/3/94 -2- Background of the Invention This invention relates to improvements in and relating to pipe handling equipment and more particularly but not exclusively to such equipmricnt which is able to bundle a plurality of pipes together for subsequent transportation.

*oo In the past, pipes have commonly been bundled 0 together into a cylindrical or a hexagonal bundle before 00 being strapped together by the use of suitable strapping Smaterial. Hexagonal bundles have become generally accepted as being preferable in that they are easier to store and transport due to a reduced tendency to roll.

Bundling machines have however generally been inefficient and expensive.

0 0 0 It is therefore an object of one embodiment of the invention to provide a pipe handling apparatus which 000 facilitate the speedy and efficient handling of pipes.

0 000oo0 Further objects of this invention will become apparent from tha following description.

According to one aspect of the present invention there is provided a pipe handling apparatus for forming hexagonal bundles of pipes, said apparatus having a pipe handling means which sequentially feeds pipes from a pipe input end to a pipe output end, a pipe bundling means being f 1 ilff o 0 o'fl00 S0o o 2 (Followed by 3a) provided at said pipe output end to receive and bundle together a plurality of said pipes, said pipe bundling means comprising a framework defining a substantially hexagonal space therewithin and having a substantially open upper end, said framework having base and side frame portions, at least one of said side frame portions being movable so as to adjust its transverse spacing from an opposite side frame portion, the internal surfaces of said base and side frame portions defining said hexagonal space of a desired size for said hexagonal bundle of said pipes, securement means to secure said pipes together after they have substantially filled said hexagonal space, and wherein said pipe handling means comprises a screw feed conveying means having at least one rotal-able screw member, an external screw profile of said screw member having, at an input end thereof, a substantially flat portion to sequentially receive and align thereon a single pipe which, with' the rotation of said screw member, is then transferred along said external screw profile of said screw member to said pipe output end, said screw member separating, aligning one pipe with a single revolution of the screw member, said pipes being conveyed along the screw member as it revolves.

Further aspects of this invention which should be considered in all its novel aspects will become apparent from the following description given by way of example of possible embodiments thereof and in which reference is made to the accompanying drawings wherein:- -3a- DESCRIPTION OF THE DRAWINGS Figure 1: Figure 2: o 0 shows diagrammatically a side view of a pipe handling apparatus according to one possible embodiment of the invention; shows diagrammatically a screw conveying means for use in the handling apparatus of Figure 1; shows diagrammatically a side view of a pipe bundling apparatus forming a part of the apparatus of Figure 1.

Figure 3: 0 00 Qo -1 'i 0 o 000 o o e oe o 0 g/680662/pg 4-6 -4- DESCRIPTION OF THE PREFERRED EMBODIMENT The present invention in one embodiment thereof seeks to providea pipe handling apparatus which overcomes or at least obviates disadvantages in such equipment proposed or available to the present time.

Referring firstly to Figure 1 of the accompanying drawings, a diagrammatic side view of one embodiment of the present invention shows an input end I for the pipes. The pipes 5 are received individually from a source of supply along transversely disposed rollers 2 before being fed to a pipe take-off 3 for dropping onto a preferably inclined bed 4 and then to conveyor belt 6. Alternatively, a plurality of pipes 5 may be dropped onto an inclined bed 4 and by the action of their rolling downwardly along the bed 4 can be separated out so as to form a single layer of pipes which can then be transferred from the bed 4 onto the moving conveyor belt 6. The conveyor belt 6 can be an endless conveyor formed from a plurality of discrete conveyor pads which frictionally engage with an individual one of the pipes 5 to carry it along as the conveyor 6 moves generally in the direction indicated by arrow A thus tending to move the pipes 5 in the direction indicated by arrow B. An S area referenced generally by arrow 7 at the end of the conveyor 6 is an inspection area where the size or quality of the pipes can be assessed so that by operation of dumping arms 8 and 9 a sub-standard pipe 5a can be dumped for subseauent scrapping while a poor quality or perhaps wrong sized pipe Sb j can be sebsequently dumped for use as required. A subsequent conveyor then conveys pipes 5 which are not dumped to a screw conveying means I I described in greater detail with respect to Figure 2. As seen in Figure 2 the conveying means II comprises a plurality of axially aligned screw members 1 3 one of which is shown in figure 2 and across which the pipes are received. At its input end each screw member 13 has a flat portion 12 which can sequentially receive a sing] pipe 5. As the screw conveyor II rotates the pipe will then be transferred dlong the screw member 13 for exit at the output end 14. The flat portion 12 provided at the input end of the screw member 13 is thus seen to act to single the pipes 5 for subsequent transference singly along the external surface of the screw member 1 3 so as to ensure that a multiplicity of pipes 5 are not transferred altogether along the apparatus. The outer ends of the pipes 5 can be engaged with a guide member 19 so as to ensure that all the ends of the pipes 5 are correctly aligned one with another.

An additional advantage of this screw conveying means 11 is that whenever the conveyor means II is stopped from rotating the movement of the pipes i therealong is correspondingly terminated. An individual pipe 5, as shown, will S. then rest against the nearest part of the profile of the respective screw i members 13.

It is pointed out here that there may be three or more of the screw members 13 provided across the width of the apparatus and a corresponding number of conveyors and other items of equipment 6, 10, etc. In the side views of the apparatus shown in the accompanying drawings only a single item of equipment has been shown in each case.

A common drive to the plurality of screw members 13 is provided, as ,o shown, by a motor 15 driving gears or pulleys 16 through a common chain or o:0 belt drive 17.

Referring now to Figures 1, 2 and 3, the pipes 5 leaving the screw conveyor i are shown passing downwardly along a downwardly facing platform 18. At or near this point the ends of the pipes 5 (at one or both sides of the apparatus, and if required also at intermediate parts of the apparatus)

,JI

-6can pass over a marking station, suitably a paint impregnated pad or the like, which will identify each pipe of a bundle as being of a particular size, quality or type.

The pipes 5 are then shown passing into a pipe bundling frame referenced generally by arrow 21. The frame 21 is shown comprising a movable frame member 22 which can be moved inwardly towards an outer frame member 23 until a required separation of members 22 and 23 will have been achieved. The control of this movement can be by means of suitable micro-switches or the like which may suitably be associated directly with the member 22 or could alternatively be part of a computerised or other control of the drive means for the member 22 itself. The member 22 is shown associated with a pointer 24 movable over a scale 25 so as to indicate its position relative to the frame member 23. The scale 25 could indicate the dimensional size for example of 00" the resulting bundle of pipes resulting from a particular setting.

The movable member 22 is shown having an internal face 26 defining two sides of a hexagon as well as a base portion 27 forming the base side of the hexagon. The generally fixed member 23 is shown providing a further two side portions 28 of the hexagon while an open upper end 29 defines the remaining side of the hexagon.

in use therefore the movable member 22 will be moved relative to the member 23 to the required setting and the plurality of pipes 5 will be received sequentially so as to form the substantially hexagonal shape defined between Sthe members 22 and 23. The positioning of the pipes 5 relative to each other can be facilitated by an operator manually vibrating the pipes within the framework or alternatively it is envisaged that a vibrating mechanism could be used for a similar purpose. Once the framework is full, and the hexagonal -7 i bundle of pipes has been formed, the conveyors, including the screw conveyor SI I, can then be stopped and strapping or the like can be engaged about the *bundle of pipes 5. This strapping can be applied manually or automatically and will generally involve the wrapping around the bundle of pipes, at least at each 5 end, of a steel or other strong strapping material. At a far end of the apparatus, substantially in line with the framework means 21, may be a set of rollers which on rotation can cause the withdrawal of the bundle of pipes tranversely of the apparatus for subsequent transportation or storage. It is mentioned here that after securement of the bundle of pipes the movable member 22 may also conveniently be withdrawn transversely so as to facilitate the discharge of the bundle from the apparatus. The member 23 can be moved back by operating meanris 30 as indicated by arrows C. The opening movement of both the members 22 and 23 may facilitate the lifting of the I S completed bundle by means of a crane or gantry or the like.

While a hexagonal shaped bundle has been shown in the accompanying drawings as being formed, it is of course appreciated that other cross-sectional shapes of bundles could be achieved if required by the 0 appropriate formation of the inner surfaces of the frame members 22 and 23 and the like.

Where in the foregoing description reference has been made to specific components or integers of the invention having known equivalents then such equivalents are herein incorporated as if individually set forth.

Although this invention has been described by way of example and with reference to possible embodiments thereof it is to be understood that modifications or improvements may be made thereto without departing from the scope of the invention as defined in the appended claims.

Claims (4)

1. 2. A pipe handling apparatus as claimed in claim 1 wherein the movement of said at least one side frame portion of said bundling means away from said opposite side frame work portion enables the pipes once they have been secured to be removed from said bundling apparatus.
2. 3. A pipe handling means as claimed in claim 1 or claim 2 wherein pipe handling means comprises an inclined pipe receiving bed onto which a plurality of said pipes are dropped together and which are then separated out so as to form a single layer of pipes by the action of their rolling downwardly along the said bed.
3. 4. A pipe handling means as claimed in any one of the preceding claims wherein said pipe handling means further comprises a conveyor belt formed from a plurality of discrete pipe engaging conveyor pads which frictionally engage with an individual one of the said pipes. A pipe handling apparatus as claimed in any one of the preceding claims wherein said pipe handling means further comprises dumping means for dumping sub-standard or wrongly sized pipes before they reach said output end.
4. 6. A pipe handling apparatus as claimed in any of the preceding claims comprising a plurality of said rotatable screw members having their respective flat TnP 10 portions substantially aligned transversely across said apparatus so that said single pipes can be received across said flat portions for transfer to said output end with the common rotation of said screw members. S 7. A pipe handling apparatus substantially as herein described with reference to the accompanying drawings. DATED: 14 MAY 1991 PUILLIPS ORMONDE FITZPATRICI Attorneys for: NEW ZEALAND STEEL LIMITED '4 C 4960 LS. g/ 6 80662004/pg 1-3