AU670812B2 - An inflatable bag and tipping apparatus including same - Google Patents

Description

OPI DATE 12/04/94 APPLN. ID 48106/93 iS i il|111 l I AOJP DATE 07/07/94 PCT NUMBER PCT/AU93/00475 I 1II I I II 1111 AU9348106

IN

(51) International Patent Classification (11) International Publication Number: WO 94/06649 1/16, B66F 3/35 Al (43) International Publication Date: 31 March 1994 (31.03.94) (21) International Application Number: PCT/AU93/00475 (81) Designated States: AT, AU. BB, BG, BR, BY, CA, CH, CZ, DE, DK, ES, Fl, GB, HU, JP, KP, KR, KZ, LK, (22) International Filing Date: 16 September 1993 (16.09.93) LU, LV, MG, MN, MW, NL, NO, NZ, PL, PT, RO, RU, SD, SE, SK, UA, US, UZ, VN, European patent (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU.

Priority data: MC, NL, PT, SE), OAPI patent (BF, BJ, CF, CG, Cl, PL4726 16 September 1992 (16.09.92) AU CM, GA, GN, ML, MR, NE, SN, TD, TG).

(71) Applicant (for all designated States except US): XPT POW- Published ER INDUSTRIES PTY. LTD. [AU/AU];-L-eel- 3-IT- With international search report.

C soaro'K O ,c-xt_ Towtm +S T, (72) Inventor; and k Ue Q- ta3 ~a~l S-Hz B cWa t c Inventor/Applicant (for US only) ILMORE, Duncan, Bartlett [AU/AU]; 16 Corbella Avenue, Samford, QLD 4520 (74) Agent: CULLEN CO.; Level 12, 240 Queen Street, Bris- bane, QLD 4000 (54)Title: AN INFLATABLE BAG AND TIPPING APPARATUS INCLUDING SAME (57) Abstract An inflatable bag (14) which can be inflated by vehicle exhaust gases and which is positioned between a vehicle chassis (12) and a tipping tray (11) such that upon inflation, the tipping tray (11) can be caused to rise and fall. The bag (14) therefore takes the place of hydraulic or pneumatic jacks. The bag (14) is characterised by having two distinctly different shapes being a lower cylindrical or oval shape and an upper tapered or truncated right cone shaped. This particular configuration allows the inflatable bag (14) to be of smaller size and therefore volume while still achieving high tipping angles.

WO 94/06649 PCi'AU193/00475

TITLE

"AN INFLATABLE BAG AND TIPPING APPARATUS INCLUDING SAME" FIELD OF THE INVENTION THIS INVENTION relates to an inflatable bag which can be positioned between a chassis and a tipping tray (such as on a vehicle or dump bin) and which upon inflation and deflation causes the tipping tray to tip relative to the chassis.

The inflatable bag is considered to be useful as a substitute for known hydraulic or pneumatic cylinders which are currently used to raise or lower a tipping tray.

BACKGROUND ART Currently, tipping vehicles such as utilities, trucks, trailers, pick-ups, dump bins, style sides and the like are provided with a hydraulic or pneumatic cylinder which is located generally between the chassis and the tipping platform or tray. Operation of the cylinder causes the tipping tray to pivot between an inclined tipping position and a horizontal rest position.

A disadvantage with such cylinders is the relative high cost of installation and the need to provide a separate hydraulic or pneumatic system including pumps, high pressure hoses, tubes and tha like.

More recently, inflatable bags have been used to substitute the above known cylinders. The bag is inflatable (usually by air or exhaust gasses) and has a lower end secured relative to the chassis and an upper end which is secured relative to the tipping tray. It is also known to inflate these bags using the exhaust system of the vehicle through a diverter valve in the exhaust system which diverts exhaust air through a suitable hose line into the gas bag.

Such earlier gas bags are disclosed in our earlier Australian patents 579830 and 619811 filed in 1984 and a second type is illustrated in US patent 5067774 to Trowland.

Earlier proposals for gas bags suffer from many WO 94/06649 PCT/AL193/00475 2 disadvantages which to date has made them commercially unattractive, and in practice unsuitable for installation in pick-ups and style sides light trucks.

For instance, for use in commercial utilities, trucks and trailers, it is found that the area available for air bag installation is relatively small. This is because the chassis includes many obstructions which are difficult or uneconomic to re-position including petrol tanks, chassis rails and the like. Furthermore, design rules for vehicle impact constrain the layout of the chassis components. It is found that in practice, the only readily available position is relatively close to the rear hinge point where the tipping tray is hingedly connected to the vehicle chassis.

However, a difficulty in placing an inflatable gas bag close to the pivot point is the larger pressure required to inflate the gas bag and particularly to cause the tip tray to pivot when under load conditions. That it, a general rule of thumb is that the closer the gas bag is to the pivot point, the more pressure is required, the stronger the gas bag material has to be and the more expensive it is to manufacture. This has been a consideration which has deterred many known gas bags from commercialisation. However, as discussed above, this is the area of least obstruction and therefore the area where a gas bag can be most easily fitted to a range of vehicles.

Other considerations which hitherto have caused difficulties to existing gas or air bags is the relatively small amount of clearance space available between the tipping tray and the chassis due to the vehicle design. This meant that the gas bag was required to be of relatively small size such that in the collapsed state it could be fitted in this relatively -mall space, for instance, between the chassis rails.

However, gas bags fitted further away from the hinge point of the tipping tray, are required to be of larger size in order to allow the tray to be tipped to a WO 94/06649 W CII'/A 193/00475 useful angle which should be 450 or more. Furthermore, at such a tipping angle, the bag should be stable, especially under load conditions, and there should be no tendency to buckle or deform.

Another consideration is the tipping rate, that is the rate at which the tipping tray can be raised or lowered. This is determined by the volume of gases flowing into the bag and the volume of the bag itself.

It can be seen that for an acceptable tipping rate, the bag volume should be kept as small as possible and/or the volume of gas flowing into the bag should be increased.

The volume of gas can be increased by revving the vehicle engine (if exhaust gases are used), however, this is undesirable in terms of noise pollution. Most operators would like the gas bags to be inflated while the vehicle is idling or at an engine speed slightly above idle.

Therefore, the other consideration is to minimise bag volume which in turn teaches away from the use of the bag at a distance from the hinge point which requires larger bag volumes and sizes.

DISCLOSURE OF THE INVENTION We have now determined that as the tipping tray is lifted there are different forces acting on the bag and tray depending on the angle of tilt. That is, we have found that a gas bag of a single uniform shape when inflated does not optimise the tipping process and requires either increased pressures, increased gas volumes, or increased size and dimensions, all of which are undesirable.

We have now developed an inflatable gas bag having a particular configuration to allow it to optimise the tipping process.

We achieve this by having a bag shaped into two different configurations, being a first configuration optimised for lower tilt angles tilt trays being initially tilted) and a second different configuration optimised for larger tilting angles.

We find that our first shape may be optimal for WO 94/06649 PCT/A U93/00475 4 tilt angles between from 00 to about 20 and our second shape may be optimal for tilt angles of between about 200 to about 60' or above. The first configurat 4 on is suitably one with a side wall or walls which extend substantially at right angles (when inflated) from the chassis to which the bag can be supported. Such shapes include cylindrical shapes, rectangular shapes, elliptical shapes, polygonal shapes. The second configuration is suitably one having a side wall or side walls which converge relative to each other.

We find that a particularly preferred overall bag shape is one having as its first configuration a generally cylindrical configuration and as its second shape a generally truncated right cone. When inflated, the generally cylindrical shape is typically the lower shape and the generally truncated right cons shape is the upper shape. This configuration provides thrust generally at right angles to the tipping tray irrespective of the tipping angle.

By having a gas bag in at least two different configurations, we can locate the gas bag closer to the hinge point while still allowing it to be inflated with normal pressures and from a vehicle exhaust and we also minimise bag size while still allowing a good tipping angle.

The generally cylindrical shape of our bag suitably has a lower end face which can be secured relative to the vehicle chassis and is conveniently identified as points D C in figure 1. The cylindrical shape may have an upper end which is slightly elliptical and can conveniently be defined points E B.

Suitably, the truncated right cone has a lower end which is substantially the same as the upper end of the generally cylindrical shape (E B) and suitably has an upper end face which may be secured relative to the tipping tray and can conveniently be identified as points F A.

Suitably, points A, B and C, or the centre of WO 9/06649~ IC'/A U93/00475 the top or bottom of the bag, are substantially equally spaced from a hinge point when the tipping tray is hinged relative to the chassis.

Suitably length D, E and F is of a length to allow the bag to collapse in a stable manner upon deflation and to minimise buckling.

The bag may be secured to end plates. The end plates may function to support the bag to the tilt tray and chassis and may also function to act as thrust plates.

The bag is suitably inflated by exhaust gases of a vehicle. Alternatively, other sources of inflating media can be used such as compressed air and/or other gases. Suitably, the bag is provided with an inlet which can be connected to the source of inflating media through a suitable conduit. A pressure re].ief valve may be included to prevent over inflation of the bag.

To deflate the bag, the bag may be provided with an outlet. Suitably, the inlet and outlet are the same, thereby allowing outlet gases to pass through the conduit and through the vehicle exhaust or through a relief valve.

A support assembly may also be provided to prevent falling of the tipping tray or body should the inflatable bag suddenly lose pressure (for instance, by bursting). The support assembly may comprise a member in between the tipping tray and the vehicle chassis and which can move as the tray is lifted but which can support the tray should the bag rupture. The support assembly may also be able to support the tray in the case that the bag exhibits a slow pressure release. Suitably, the support assembly comprises a strut which ca'l be hingedly connected relative to the chassis or tray to move between raised and lowered positions. The strut may have a free end provided with a roller or slide to contact with the tray or chassis. A locking mechanism may be provided to prevent unintentional lowering of the strut.

WO 94/06649 i-,cr/A13/00475 6 DESCRIPTION OF THE DRAWINGS The invention will be described with reference to the following embodiment as illustrated in the accompanying drawings in which Figure 1 illustrates diagrammatically a bag according to the invention located in a tipping vehicle; Figure 2 illustrates a perspective view of the bag of Figure 1; Figure 3 illustrates a section view of the bag drawn at 550 as an exemplary angle; Figure 4 is an illustration of how the bag can be secured to end plates; Figure 5 is an illustration of a vehicle exhaust diverter system to divert exhaust gases to the bag; Figures 6 and 7 illustrate embodiments of a support assembly; Figure 8 illustrates a fabric pattern of the inflatable bag; Figure 9 illustrates a method of attachment of a bag tO a support plate; and Figure 10 illustrates a valve for attachment to an inflatable bag.

BEST MODE Referring to the embodiments, and especially to Figure i, there is shown a tipping vehicle 10 having a tipping tray 11 and a vehicle chassis 12 which is supported by a vehicle wheel 13. Between tipping tray 11 and vehicle chassis 12 is provided an gas bag 14 according to the invention. Tipping tray 11 is secured to vehicle chassis 12 by a hinge pin Gas bag 14 has two distinctly different shapes, being a lower generally truncated cylindrical or elliptic shape 16 conveniently defined by points D, C, B, and E and upper truncated right cone 17 conveniently defined by points E, B, A and F.

Lower generally cylindrical shape 16 has a lower end face 18 which is attached to an end plate 19 WO 94/06649 PCT/A U93/00475 7 better illustrated in Figure 4.

Truncated right cone shape 17 has an upper end which is attached to an upper end plate 21 also shown in Figure 4.

Points A, B and C, or the centre of the top or bottom of the bag, are caused to be equidistant from hinge point 15. Inner length D, E and F is also made slightly longer than required to ensure that the initial gas pressure will always extend the bag outwards in this region thereby achieving a stable collapse of the bag as the tilt angle is reduced. Other arrangements can cause the bag to buckle undesirably.

Corner B, which is a theoretical discontinuity is rounded out when cutting the bag pattern to reduced stress concentration of the inflated bag. This will ensure a longer cycle bag life.

The bag fabric is made from a tough, flexible and airtight material such as a woven polyester fibrecoated with PVC, a reinforced butyl rubber or vinyl and various commercial materials are available.

Once the bag is sized and cut according to the shape illustrated in Figure 3, the longitudinal ends can be joined along a seam 25 (see Figure It can be seen that another advantage of the particular bag shape is its ability to develop a three-dimensional shape of the bag onto a planar fabric which greatly facilitates its manufacture.

Referring now to Figure 4, there is shown how the gas bag 14 is secured to its respective end plates 19, 21. The end plates also function as thrust plates to cause the resulting tipping action upon inflation or deflation of the bag.

Upper end plate 21 is secured to the underside of tipping tray 11 while lower end plate 19 is secured to a chassis cross-member or a pair of chassis cross-members (not shown). Each end of the bag 18, 20 is connected to a corresponding end plate 19, 21 by a strip 26 of the same material as bag 14. Strip 26 is secured across a WO 94/06649 PCI/AL93/00475 8 majcr portion of the end of the bag and is folded into a shape of substantially rectangular cross-section with the ends 27 of strip 26 being fastened to the respective end plate. The side 28 of strip 26 opposite the overlapped ends is welded to the adjacent end of the bag and bracing strips 29, 30 are welded at one end to the bag and at the other end to the side of strip 26, at each side of the bag. A similar arrangement is provided on the other end plate. Each of the end plates 19, 21 is slotted to allow the strip to pass through the slot and to be secured to the respective end plate. When bag 14 is inflated, it naturally attempts to assume a rounded end wall shape and if it is allowed to do so, it will tear away from the end plates 19, 21. This tendency is overcome by the various strips which are secured over a relatively large area of each end of the bag and so holds the end square when the bag is inflated, and distribute over the relatively large area the stress of the bag caused by restraining the bag when it is inflated.

The lower end of bag 14 is provided with an inlet 31 in the form of a hose extending through a hole in end plate 19 and is sealed into the end of the bag.

The hose extends along the underside of the vehicle chassis and towards the vehicle exhaust system.

If the tipping assembly is a trailer, the hose extends to the exhaust system of the towing vehicle.

The exhaust system of the vehicle 35 (see Figure 5) is provided with a valve member 36 typically in a form of a 'butterfly' valve which can pivot between open and closed positions through a remote control wire 37 which extends into the vehicle cabin. Thus, when the bag is desired to be inflated, remote control 37 is operated to pivot 'butterfly' valve 36 to the closed position, whereafter exhaust passes through secondary outlet 38 and through a suitable conduit (not shown) into inlet 31 of bag 14. In this manner, the bag may be inflated.

When desired to defla e the bag, 'butterfly' WO 94/06649 PCT/A L93/00475 9 valve 36 can be pivoted to its open position and the weight of the empty tipping tray 11 is sufficient to slowly force air from the air bag 14 through inlet 31 and through secondary outlet 38 and out through the exhaust tail pipe 39. In this manner, gases pass only out through the tail pipe upon deflation of the bag.

Figure 1 shows a tipping trailer which can be towed by a car. In this arrangement the bag 14 is connected to hose 40. Hose 40 includes a relief valve 41 to vent excess pressure to prevent bursting of the bag.

The end of hose 40 includes a cone-like coupling 42 which can be fitted over the tail pipe of the car. The coupling 42 can include a clamp or other coupling (not shown) to prevent it from being blown off the tail pipe.

This type of coupling device is known.

To prevent over-inflation of the bag, a pressure relief valve 41 may be added thereto with the pressure set to below that of the theoretical tear pressure of the bag. Alternatively, internal connectors 40 (see Figure 4) may be fitted to prevent over-inflation of the bag.

Figures 6 and 7 illustrate an embodiment showing a vehicle 45 having a tipping tray 46 attached to the vehicle chassis 48 through pivot pins 47. Chassis 48 supports a gas bag 49 of a design as described above. As well, a support assembly 50 is provided. The support assembly functions to prevent tipping tray 46 from falling down should there by a sudden pressure loss in gas bag 49 (for instance, should the gas bag rupture).

As shown in Figures 6 and 7, support assembly comprises a frame assembly having a base frame 51 formed from a pair of longitudinal frame members interconnected by transverse struts, and a pivotal support arm 52 formed from a pair of parallel arm members 52A, 52B. A transverse bar 52C extends across arm members 52A, 52B and has e3nds pivotally coupled to rails 61 on the bottom of tipping tray 46. A second lower transverse bar 62 extends between the lower ends of arm WVO 94/06649 64PCF/AU93/00475 members 52A, 52B and can slide along base frame 51. An inertia reel seat belt lock assembly 63 is attached to one of the transverse struts of frame 51 and the belt is attached to bar 62. If the inflated bag 49 should fail, tipping tray 46 would suddenly fall down causing bar 62 to suddenly slide along base frame 51 towards the vehicle cabin. The belt lock assembly would lock, causing belt 64 to lock which in turn prevents bar 62 from further movement which in turn causes arm members 52A, 52B to stay upright to support the tray. Ai advantage of using a seat belt lock is that it will not lock belt 64 i 4 the tray is slowly raised or lowered, but only if the:ce is a sudden movement. Other mechanisms such as a ratchet mechanism can also be used.

Figure 8 illustrates in plan one half of the pattern for the inflatable bag. The pattern is mirrored about the left hand vertical edge to provide a complete shape.

Figure 9 shows the air bag 70 according to an embodiment of the invention which is attached to a collar 71 on a lower thrust plate 72. Collar 71 and thrust plate 72 can be integrally formed from plastic. The fabric of air bag 70 is wrapped around the collar 71 and is then welded to it. The welding is performed in a one dimensional plane which will yield additional strength.

By selecting the correct plastic, a heat weld can be provided.

Figure 10 illustrates the pressure relief valve which can be integrated into the flange 76 which is heat welded into the base of inflatable bag 77.

Inflating exhaust gas enters through the valve and flange through inlet 78 over which a hose (not shown) can be attached to funnel exhaust gas from the e:xhaust pipe to inlet 78. A valve 79 is provided to allow the pressure to be set, after which excess pressure will pass through valve 79 and be vented to the atmosphere.

The advantages of the bag are many. For instance, the bag has a shape and configuration which WO 94/06649 PC/AU93/0047,5 11 will suit commercial vehicles available from original equipment manfacturers. Such vehicles are readily equipped with a rear tilting tray which is hingedly connected to the chassis. Minimal space is available to fit an air bag between the tray and the rails and our air bag being of compact design can be so fitted.

The device is smaller in volume than current devices to enable faster lift times than previous models given a particular exhaust gas flow rate from the engine.

Our shape of the bag is able to lift a rated load of the vehicle with the lowest possible exhaust gas pressure and minimal fabric material and still allows lift angles of 50' or more and typically 51 550 to be achieved.

The maximum pressure in the bag is limited by safety requirements, the strength of the fabric from which the bag is to be manufactured and is also related to the pressure able to be withstood by vehicle exhaust systems and connecting components and the back pressure applied to the engine during the lifting operation.

The size of the lower and upper portion of the bag are chosen such that the generally cylindrical configuration only is used for tilt angles from 0 to 200 or for tilt angles above 20 inclination occurs primarily thrcugh the truncated right cone. Thus, at angles of above about 20', the lower generally cylindrical configuration should be substantially inflated. By placing points A, B and C equidistant from the hinge ensures that the bag material extends further from the hinge as the tilt angle decreases from approximately 200.

This enables a larger lifting moment than hitherto possible because the bag area is actually larger and placed further away from the hinge at this particular point. This maximises the load for a given amount of bag material and a given amount of gas pressure.

By having the upper shape truncated and reducing in volume, we find that the gas pressure is constant and, if anything, may decrease as the tilt tray WO 94/06"49 A L13/0047-5 12 is caused to incline. In previous air bags, there is a requirement to increase the gas pressure upon increased inflation of the bag. This is particularly so in the bag described in US patent 5067774.

The bag identified in the above patent, when in the collapsed state, offers a relative small area when initially inflated (at low tipping angles) which is contrary to our bag shape.

We find that the bag design has a high lifting capacity for a given exhaust pressure and therefore the bag can be placed closer to the hinge point which allows us to reduce the volume of the bag and reduce the amount of bag material used. Less material means a smaller packing volume when the bag is fully collapsed which also means they can fit into small clearance spaces.

We also find that during deflation of the bag, deflation initially occurs in the top tapering portion which improves the rate of lowering of the tipping tray.

Thereafter, we find that the lower generally cylindrical portion begins to deflate which results in a slowing down of the movement of the tipping tray. This in turn prevents ihe tipping tray from slamming against the vehicle chassis which is an advantageous effect while still allowing an initial fast movemcnt of the tipping tray.

It should be appreciated that various other changes and modifications may be made to the embodiment described without departing from the spirit and scope of the invention.

Claims (12)

1. An inflatable gas bag adapted to be positioned between a chassis and a tipping tray, characterised in that the gas bag is of two different configurations being a lower first bag configuration having parallel side walls and an upper second bag configuration having side walls which converge.

2. The bag as claimed in claim 1 wherein the first bag configuration, when inflated, adopts a generally cylindrical or oval shape.

3. The bag as claimed in claim 2, wherein the first bag configuration is located adjacent the chassis.

4. The bag as claimed in claim 3, wherein the second bag configuration is joined directly to an upper portion of the first bag configuration.

The bag as claimed in claim 4, wherein the second bag configuration, when inflated, adopts a generally truncated right cone shape.

6. The bag as claimed in claim 5, wherein a lower part of the bag is connected to a lower end plate, and an upper part of the bag is connected to an upper end plate, the lower end plate joining the chassis and the upper end plate joining the tipping tray.

7. The bag as claimed in claim 5 including a pressure relief valve to prevent over-inflation of the bag.

8. The bag as claimed in claim 7 wherein the inflatable bag is inflated by vehicle exhaust gases.

9. A tipping tray assembly comprising a lower chassis and an upper tipping tray pivotally connected to the chassis to be moveable between an upper inclined tipping position and a lowuer substantially horizontal position, and an inflatable gas bag located between the chassis and tipping tray, the gas bag being of two different configurations being a lower first bag configuration having parallel side walls and an upper second bag configuration having side walls which converge.

WO 94/06649 PCT/AL 93/00475 14 The assembly as claimed in claim 9 including a support assembly to prevent the tipping tray from falling should the bag fail.

11. The tipping tray assembly as claimed in claim 10 wherein the support assembly comprises an arm hingedly connected to the tray to move between raised and lowered positions, the arm having a lower end provided with a slide which can contact the chassis.

12. The assembly as claimed in claim 11 further including a locking mechanism to lock the arm against movement should the bag fail.