Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
  • B65B27/00—Bundling particular articles presenting special problems using string, wire, or narrow tape or band; Baling fibrous material, e.g. peat, not otherwise provided for
  • B65B27/10—Bundling rods, sticks, or like elongated objects
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
  • B65G57/00—Stacking of articles
  • B65G57/02—Stacking of articles by adding to the top of the stack
  • B65G57/03—Stacking of articles by adding to the top of the stack from above
  • B65G57/06—Gates for releasing articles

Definitions

• the present application relates to machines for bundling together predetermined numbers of tubes to enable them to be handled with the minimum risk of damage and transported more readily than when loose.
• the machine is also able to receive tubes at a high speed, either directly from a tube mill or from a tube treatment machine, such as a deburringmachine.
• the machine operates at a reduced noise level compared with tube collection systems.
• the present invention provides an apparatus for bundling tubes comprising: a first station including means for repeatedly loading and counting predetermined numbers of tubes onto a preferably horizontal support member in a side-by-side arrangement to provide a single layer of tubes,
• a second station including means for receiving the tubes in a predetermined pattern of horizontal layers, and
• the first said station may be an upper station and the second station a lower station positioned below the first station.
• the support member preferably comprises two elements supporting the tubes at each end.
• Two support members may be provided spaced vertically apart, the predetermined number of tubes counted onto the upper member being transferred to the lower member for transfer to the receiving means during which operation a further predetermined number of tubes is counted onto the upper member, the lower member then returning to its initial position to receive the next layer of tubes.
• Means may be located above the support member to frictionally engage the surface of the tubes as they are loaded whereby the tubes are maintained in a close, preferably touching side-by-side relationship.
• the support members are carried on spaced apart machine frame members positioned on a common base; preferably one of the frame members is adjustably carried on the base for movement towards or away from the other member to accommodate tubes of different lengths.
• the receiving means may be carried on a support frame movable away from the loading station to a location for strapping the tubes for removal and storage.
• the support frame may be carried on a track, for example a roller conveyor for ease of movement.
• Two receiving means and support frames may be employed spaced apart on the track whereby one receiving means is loaded whilst the other is unloaded.
• the receiving means may be arranged to receive the tubes to form a round, square, oblong or hexagonal pattern and preferably includes means to urge the transfer tubes into a side-by-side touching arrangement within the receiving means and to ensure that the layers of tubes take up the required configuration.
• the receiving means will generally comprise at least two spaced apart formations located at points towards the ends of the layers of the tubes and carried on a common sub-frame, the formations including side /14247 _--,, stencil_
• One of the said formations may be carried on the sub-frame for movement towards and away from the other formation to accommodate tubes of different lengths.
• the control is programmed to count equal numbers of tubes onto the loading means for each layer of tubes to be transferred to the receiving means and further to count the number of layers in order to form the square or oblong configuration.
• the receiving means formation ha_ vertical side walls spaced apart to retain the tubes in a touching side-by-side relationship.
• control is programmed to count an initial predetermined number of tubes for the first layer to be received by the receiving means and then one tube more in each additional layer for a predetermined number of layers followed by one tube less for a next equal number of layers plus one.
• the receiving means formation has lower side walls sloped outwardly from the base to accommodate the tubes in the required pattern for the lower half of the bundle and upper side wall including pivoted elements for movement between a position in which they slope inwardly to accommodate the tubes in the required pattern for the upper half of the bundle and a substantially vertical position to receive a layer of tubes from the loading support member, the upper side walls being actuated in response to signals from the control means.
• a cam operated mechanism ensures that each layer of tubes is correctly orientated in relation to the centre position.
• the invention provides a method of bundling tubes into a predetermined configuration comprising:
• Figure la-le are diagrammatic illustrations of side elevations of one embodiment of a machine of the invention in a sequence of loading tubes into a receiving means in a hexagonal configuration
• Figure 2 is a side elevation of a second embodiment of a machine receiving tubes from a tube deburring machine forming into a hexagonal configuration.
• a bundling machine comprises a fixed base member 2, a machine frame 3 having vertical support members 4 carrying fixed upper and movable lower loading means 5 and 6 respectively.
• the frame member 4 and associated loading means is positioned at one side of base 2 and a second identical frame member and associated parts is positioned at the opposite side of base 2, the frames being spaced apart to allow the loading means 8 to support the tubes 9 to be bundled at each end.
• the second frame is adjustably mounted on the base for movement towards and away from frame 4 to permit the machine to handle tubes of different fixed lengths one side only of the machine being described in respect of the operation thereof.
• the upper and lower loading means 5 and 6 include arms 7 and 8 extending horizontally across the base member 2 to support respective ends of a row of tubes 9, arms 7 and 8 being spaced apart in the same vertical plane.
• Upper loading arms 7 is movable normally to the axes of the row of tubes 9 to transfer the tubes onto the lower loading arm 8 of the lower support means 6.
• Lower support means 6 is movable vertically on frame 4 between an upper first position ( Figure lb) and a lower second position ( Figure lc) where arm 8 is movable normally of the tubes axes to release the tubes as a layer into a tube receiving cradle 25.
• Arm 10 extends horizontally across base 2 and carries a brush element 11 positioned to make frictional contact with the surface of tubes 9 to maintain the tubes in the side-by-side relationship during loading onto the upper loading arm 7.
• Vertical frame member 20 extends from base 2 opposite to frame 5 and carries a programme control and counter 21, the counter registering each time a pneumatically operated pusher device 22 contacts a trigger as it urges a tube received by the machine onto the upper loading means 7.
• Tube receiving cradle 25 is supported on a sub-frame member 26 carried on a roller track 27 for movement in a direction at right angles to the loader arms 7 and 8 away from the loading station to a banding and unloading station.
• Cradle 25 as illustrated is designed to receive tubes for bundling in a hexagon configuration and includes vertical side supports 28, 28a which, with the cradle in the loading position are positioned between the two sets of arms 7 and 8 of upper and lower loaders 5 and 6.
• Lower fixed arms 29, 29a of cradle 25 extend outwardly from the base 26 of the cradle to supports 28, 28a to determine the configuration of the lower half of the bundle of tubes.
• Upper arms 30, 30a extend from support 28, 28a at the top of arms 29, 29a to define the configuration of the upper half of the hexagon.
• Upper arms 30, 30a are pivoted to support 6/14247 -. ⁇ -, phenomenon- _
• a mechanically operated pusher device (not shown) is positioned adjacent side walls 28, 28a and includes members which move inwardly from each side of the cradle to urge the tubes in each layer forming the lower half of a hexagon configuration into a side-by-side touching arrangement.
• the pusher device does not operate when tubes are transferred to fill the upper half of a hexagon configuration or when the cradle is formed to accept tubes for a square or oblong configured bundle.
• Figure la shows cradle 25 holding three layers of tubes 12, 13 and 14 forming the lower half of a hexagon configuration.
• the next layer of tubes 9 (1 tube less than upper layer 14 in the cradle) is shown supported on arms 7 of upper loader 5 with push device 22 constraining movement toward the frame 20.
• Arms 30, 30a of cradle 25 are shown in the closed position.
• the controller actuates a piston and cylinder arrangement in upper loader 5 to cause arm 7 to be retracted in the direction normal to the tube axes to allow the tubes 9 to fall onto the lower loader 6 support arms 8 as shown in Figure lb.
• Arms 30, 30a of cradle 25 then take up the retract position and the lower loader and arm 8 supporting tubes 9 is caused to descend down frame 5 to lower the tubes into the cradle 25. Simultaneously, arm 9 returns to its start position and as the lower loader 6 descends the next layer of tubes 15 (two tubes less than layer 14) are counted onto the arms 7 of the upper loader 5 (figure lc) .
• arms 8 of the lower loader reach the level of the surface of the tubes in layer 14 contained in the cradle
• upper arms 30, 30a of the cradle are actuated to move into the closed position causing the tubes 9 to take the required configuration for the next layer in the cradle (figure Id) .
• Arms 8 of the lower loader 6 then retract in the direction normal to the axes of the tubes to allow the tubes to fall onto the upper layer 14 (figure le) . Simultaneously further tubes 15 are counted onto the upper loader arms 7. Lower loader 4 then returns to the position shown in Figure la and the sequence is repeated until the desired number of tubes is contained within the cradle 25.
• support means 26 is moved along roller 27 away form the loading station to a first unloading station where the tubes are banded and removed from the cradle.
• a second cradle is moved to the loading station along roller 27 and the sequence of counting tubes onto arm 7 and transferring to the cradle is repeated.
• the second cradle has been loaded it is moved along track 27 in the opposite direction to the first cradle to a second unloading station and the first cradle then takes up its position at the loading station.
• the cradle be contained on a track; provision can be made for the tubes to be banded at the loading station and removed from the cradle at that point. However, this results in an interruption in the loading procedure and therefore the use of two cradles is desirable.
• the track 27 be a roller track; any suitable form of track along which movement can be attained may be employed.
• a second embodiment of a tube bundling machine generally indicated at 110 is shown in diagrammatic form in Figure 2.
• Tubes to be bundled are received from a tube deburring machine 101 and loaded at 102 onto a lift conveyor 103 and carried to bundling machine 110.
• the counter and controller for machine 110 are contained in a separate unit 101, upper and lower loaders 5 and 6 have tube supporting arms 111 11 and 112 respectively. Frame members supporting the loaders are spaced apart such that the tubes are supported initially on arm 111 at their extreme ends only.
• the loading and subsequent sequence of movements of the operating parts is identical with that described above except that when a layer of tubes 113 has been counted onto arm 111 the arm is moved in a direction axially of the tubes to release the tubes onto the arm 112 of lower loader 6 which also supports the tubes at their extreme end portions. Similarly, when lower loader 6 releases the layer of tubes into the cradle 25, arm 112 also moves in a direction axially of the tubes.
• This mode of release of the tubes from the loader arms permits an increase in bundling speed compared with arm movements normal to the tube axes because of the relatively short movement required.
• this machine is generally only suitable for use with tube lengths in the range of about 1-3 meters.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Basic Packing Technique (AREA)

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Cited By (1)

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• 1994
  • 1994-11-03 GB GB9422197A patent/GB9422197D0/en active Pending
• 1995
  • 1995-11-03 WO PCT/GB1995/002589 patent/WO1996014247A2/en not_active Ceased
  • 1995-11-03 EP EP95936029A patent/EP0735972A1/de not_active Withdrawn

Non-Patent Citations (1)

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