NZ579283A - A towing apparatus for transferring a portion of a load to the front of a towing vehicle - Google Patents

Abstract

Disclosed is an apparatus for transferring load between a towing vehicle and a towed device. The apparatus includes a shock absorber. The towing vehicle has front and rear wheels and a tow assembly including a tow bar. The towed device includes a drawbar which attaches to the tow bar of the towing vehicle. The apparatus includes a load transfer mechanism which attaches the towing vehicle and towed device. The load transfer mechanism is configured for adjustably transferring at least a portion of the load of the towed device to the front of the towing vehicle in a region leading the front wheel axle via the shock absorber. The load transfer mechanism transfers the remaining portion of the load of the towed device to the rear of the towing vehicle.

Description

Received at IPONZ 10/11/2011 PATENTS FORM NO. 5 Fee No. 4: $250.00 PATENTS ACT 1953 COMPLETE SPECIFICATION After Provisional No: 579283 Dated: 26 August 2009 No: 586062 Dated: 10 June 2010 APPARATUS FOR TRANSFERRING LOAD KALVIN JIT SINGH, A NEW ZEALAND CITIZEN OF 105 OLD TE KUITI ROAD, RD 6, OTOROHANGA, NEW ZEALAND, hereby declare the invention for which I pray that a patent may be granted to me/us, and the method by which it is to be performed to be particularly described in and by the following statement: 1 Received at IPONZ 10/11/2011 APPARATUS FOR TRANSFERRING LOAD TECHNICAL FIELD Apparatus for transferring load between a towing vehicle and a towed device. BACKGROUND ART For ease of reference only the present invention will now be discussed in relation to farm tractors. However, this should not be seen as limiting the scope of the resent invention which has applications to other vehicles and other towing operations.

At present problems are often typically encountered when vehicles such as farm tractors are used for towing device such as above ground working implements including seed drills, scoops, large trailers and cultivating discs. In general, these problems arise due to the tractor and/or towed implement encountering: Obstructions e.g. rocks • Muddy or wet ground Hills or hollows The above situations cause problems as they can adversely affect the traction of the tractor's driving wheels and render the towing of such implements a dead weight dragging operation.

The above difficulties are currently overcome by using tractors which have: Ballast added; or Increased horse power/weight; and/or 2 Received at IPONZ 10/11/2011 Four wheel drive; and/or Dual wheels However, as will be appreciated the above remedies suffer from either increasing the cost of the tractor required to perform the job, or add time and effort to the job in 5 relation to adding ballast to the tractor.

In relation to underground working implements such as ploughs and rotary hoes the above mentioned difficulties for towed implements have been overcome by the implementation of a hydraulic draft control system associated with the three point linkage of a tractor. The draft control system operates by either raising or lowering 10 the implement depending on whether its effective load has been increased or decreased. By this, means the draft control system is able to transfer load (weight) between the implement and tractor to maintain the desired degree of wheel slippage.

The inventor's previous apparatus for addressing these problems is described in US 6,533,307. Whilst this apparatus is very effective at overcoming these difficulties it 15 requires the tractor to have a draft control system which is not always present on many tractors particularly in North America. The present invention therefore allows for the effective transfer of the towed load to the tractor, to avoid or at least significantly reduce, wheel slippage, without the need to utilise a draft control system.

The present invention is also particularly concerned with dispensing with the need for 20 tractors to carry additional ballast sometimes in the order of 1.5 -10 tons in order to prevent wheel slippage.

It would therefore be an advantage if there could be provided some means by which the draft control system already present on many tractors could be utilised in the towing of above ground implements also.

It would also be useful if there could be provided a load transfer apparatus and/or 3 Received at IPONZ 10/11/2011 method of load transfer which could improve the towing and/or braking ability of road vehicles towing a load.

Further aspects and advantages of the present invention will become apparent from the ensuing description which is given by way of example only.

All references, including any patents or patent applications cited in this specification are hereby incorporated by reference. No admission is made that any reference constitutes prior art. The discussion of the references states what their authors assert, and the applicants reserve the right to challenge the accuracy and pertinency of the cited documents. It will be clearly understood that, although a number of prior 10 art publications are referred to herein, this reference does not constitute an admission that any of these documents form part of the common general knowledge in the art, in New Zealand or in any other country.

Throughout this specification, the word "comprise", or variations thereof such as "comprises" or "comprising", will be understood to imply the inclusion of a stated 15 element, integer or step, or group of elements integers or steps, but not the exclusion of any other element, integer or step, or group of elements, integers or steps.

It is an object of the present invention to address the foregoing problems or at least to provide the public with a useful choice.

Further aspects and advantages of the present invention will become apparent from 20 the ensuing description which is given by way of example only.

DISCLOSURE OF THE INVENTION An apparatus for transferring load between: a) a towing vehicle having front and rear wheels which comprises a tow assembly which includes a tow bar; and 4 Received at IPONZ 10/11/2011 b) a towed device which includes a drawbar; wherein the tow bar and drawbar attach to one another and wherein the apparatus includes a shock absorber; characterised in that the apparatus also includes a load transfer mechanism 5 configured for adjustably transferring at least a portion of the load of the towed implement to the front of the vehicle in a region leading the front wheel axle via the shock absorber.

A method of towing an implement which is characterised by the step of: a) attaching a towed implement to the front of a vehicle in a manner which: - allows the towed vehicle to be towed behind the vehicle when the vehicle is moving in a forward direction; and adjustably transfers at least a portion of the towed load to the front end of the vehicle whilst being towed and only a portion of the towed load to the rear of the vehicle.

The towing vehicle may be any vehicle capable of towing a device.

In one preferred embodiments the vehicle may be a four wheel drive tractor.

In another preferred embodiment the vehicle may be a tractor such as a truck or lorry.

In a further preferred embodiment the vehicle may be a car.

The towed implement may be any device which is designed to be pulled by a vehicle.

The towed implement may be dragged or may include wheels or other form of carriage assembly to enable the implement to be conveyed through the towing action of a vehicle.

Received at IPONZ 10/11/2011 For ease of reference only the present invention will now generally be described in relation to a farm tractor and a towed agricultural implement.

The load transfer mechanism may preferably be in the form of at least one linkage between the drawbar and a connection point at the front end of the tractor.

In preferred embodiments there may be a primary linkage connecting the drawbar to the front of the tractor and a secondary linkage connecting the drawbar to the rear of the tractor at a point which is higher that that of the rear axle.

The amount of towed load to be transferred will be dependent on what is being towed and what the geography/conditions are where the towing is to occur. For example, on a flat field, where a farm tractor is towing an ground working implement this will produce a 50:50 bias on the tow bar, it is desirable to have a larger percentage of load transferred to the back of the tractor rather than to the front of the tractor. As the rear wheels are doing the lions share of the work during a towing operation so less load needs to be transferred to the front wheels.

In other words, as would be understood by a person skilled in the art, the purpose of front ballast weight in prior art towing operations, is to act as a counterweight. Therefore, it is important to understand the operation of the present invention to produce a similar net result to adding ballast (i.e. transferring a load to the front wheels) does not take weight from the front of the tractor, to give the back, should the back of the tractor require additional load for the rear wheels. Instead, the object is transfer towed load to the front of the tractor, to maintain the necessary downward load on the front wheels, as required. The amount to be transferred to the front of the tractor can be assessed in the same manner as one currently assesses how much ballast needs to be added to the front of the tractor.

The present invention is more efficient in transferring the towed load to the rear wheels of the tractor due to the drawbar of the towed implement being coupled to the Received at IPONZ 10/11/2011 rear of the tractor at point above the rear axle of the tractor and as result above the centre of gravity of the tractor in this region. The transfer of the towed load to a point of the tractor above the centre of gravity creates downwardly vectored load onto the rear wheels.

: The inventor has found that if you have the present invention utilised on a tractor having a draft force of 12 ton pulling 12 ton load the drawbar pin during a normal towing operation is neutral. As the towed load forces are above the centre of gravity at both ends of the tractor such that the harder the tractor pulls the more it pulls weight onto driving wheels of the tractor. Thus, as the present invention uses static 10 force and not hydraulic pressure to transfer the towed load to the wheels of the tractor, it is not having to use fuel to transfer load, so there is no consequential reduction in the performance of the tractor's engine.

The amount of the towed load that is transferred to the front of the tractor may be adjusted a variety of different ways. In general it may be achieved by adjusting the 15 tensioning force that is applied to the load transfer mechanism by the shock absorber prior to commencing a towing operation.

The towed implement can include but should not be limited to: • Trailers; • Ground scrapers; 2Q • Ploughs; • Seed hoppers; • Irrigation systems; • Bailing equipment. 7 Received at IPONZ 10/11/2011 The tow bar may have a number of different configurations with departing from the scope of the present invention.

In one preferred embodiment the tow bar may be a standard tow bar as factory fitted or commonly retrofitted to tractors for towing vehicles.

In another preferred embodiment of the tow assembly the tow bar may include a shock absorber and may be configured to allow for limited travel in a forward and backward direction with respect to the longitudinal axis of the vehicle. This limited travel of the tow bar being capable, in use, of transferring at least a portion of the load of the towed implement, to the front of the tractor in a region leading the front wheel 10 axle.

In some such embodiments the tow bar may be housed within a sleeve or such like and may include a set of wheels/rollers either on the tow bar or within the sleeve on which the tow bar may ride. Most preferably the sleeve may include a boss which acts as a stop to prevent the tow bar from being pulled from the sleeve.

In some preferred embodiments the tow bar may include a connecting portion to which one end of a primary linkage is directly or indirectly attached. In such embodiments the other end of the primary linkage may be attached to the shock absorber.

In another preferred embodiment the tow bar may include a pulley arrangement and 20 this interacts with the primary linkage.

In some preferred embodiments, the drawbar may be a standard drawbar which is modified s described herein.

Alternatively the drawbar may be custom made so as to be capable of being used with the present invention. 8 Received at IPONZ 10/11/2011 In preferred embodiments the drawbar may be a standard draw bar which has not been modified.

In general the tow bar and the drawbar may be attached to one another by a hitch pin which passes through aligned apertures present in the tow bar and drawbar.

The shock absorber may be any device which is capable of absorbing energy of sudden impulses caused by kinetic energy.

In some preferred embodiments the shock absorber may be in the form of a spring. In a preferred embodiment the shock absorber may be in the form of a leaf spring.

In other embodiments the shock absorber may be in the form of a gas ram. In some 10 preferred embodiments the shock absorber may be a dual liquid/gas ram.

The load transfer mechanism may be configured to transfer load via a shock absorber to the front of the tractor in a number of different ways.

In general the shock absorber may be indirectly connected to the drawbar of implement in any manner which enables the shock absorber to absorb energy caused 15 by alterations in the normal load experienced by the tractor or towed implement towing relationship, such as for example would be caused by changes in terrain, during towing.

In some embodiments the shock absorber may be connected at one end thereof to the rear of the tractor and connected to the second linkage via a conveyor linkage at 20 the other end thereof. The conveyor linkage also being connected to the primary linkage. The conveyor linkage effectively connects the drawbar to the rear of the tractor at a point above that of the rear axle. The conveyor linkage also acts to convey shock forces to the shock absorber.

In preferred embodiments the shock absorber may be connected at one end thereof g Received at IPONZ 10/11/2011 to the front of the tractor and to the primary linkage at the other end thereof.

The primary and secondary linkages may come in a variety of different forms with out departing from the scope of the present invention.

In some embodiments the primary and secondary linkage may be in the form of a rods or such like.

In some other embodiments the primary, secondary and conveyor linkage may be in the form of a length of material. For example only the length of material may be a cable or such like.

In preferred embodiments the primary, secondary and conveyor linkages may be in the form of chains. An advantage of chains is that they can be certified to be capable of withstanding various loadings.

It will be appreciated that the form of the primary, secondary, and conveyor linkages may be the same or may be different without departing from the scope of the present invention.

According to a further aspect there is provided a towing vehicle which includes an apparatus for transferring load substantially as described above.

According to a further aspect there is provided a towing vehicle which transfers load from a towed device to the towing vehicle via a method substantially as described above.

According to a further aspect of the present invention, there is provided a tow assembly substantially as described above wherein the tow bar is adapted, in use, to be connected to three point linkage arms of a tractor and wherein a hydraulic ram associated with said three point linkage arms in fluidly connected to a nitrogen accumulator.

Received at IPONZ 10/11/2011 The term 'fluidly connected' refers to the hydraulic fluid of the ram being connected to a nitrogen accumulator. This allows the hydraulic ram to lower the three point linkage arms should a pre-set pressure in the accumulator be exceeded, by the oil pressure of the hydraulic rams as in this situation oil from the ram can enter the accumulator.

In a preferred embodiment the tow bar may be adapted to connect to the three point linkage by the inclusion of at least one bell crank configured to be connected to the three point linkages arms via a cable.

Thus, preferred embodiments of the present invention may include one or more of the following advantages: • allowing the tractor with or without a draft control system to have the load of the towed implement be spread across all four wheels to eliminate or significantly reduce the need for additional weight to be carried by the tractor.

• Significantly improving the fuel efficiency of the tractor as the need to carry excessive additional weight in the form of ballast.

• The present invention can also be used to increase the traction of road vehicles towing a load, particularly on hills or in wet or slippery conditions. This also allows the front brakes of a vehicle to better assist with braking a vehicle towing a load.

BRIEF DESCRIPTION OF DRAWINGS Further aspects of the present invention will become apparent from the following description which is given by way of example only and with reference to the accompanying drawings in which: Figure 1 is a diagrammatic side view of one preferred embodiment of the present invention; and 11 Received at IPONZ 10/11/2011 Figure 2 is a diagrammatic side view of another preferred embodiment of the present invention.

Figure 3 shows a diagrammatic side view of an alternate preferred embodiment of the present invention; and Figure 4 shows a diagrammatic side view of a still further preferred embodiment of the present invention; Figure 5 shows a modified tow assembly of the embodiment shown in Figure 3; Figure 6 shows a modified tow assembly in accordance with a further preferred embodiment; Figure 7 shows a diagrammatic view of the tow assembly in Figure 6 attached to a tractor; Figure 8 shows a diagrammatic side view of a preferred form of additional shock absorber which can be utilised with the embodiment shown in Figure 7.

BEST MODES FOR CARRYING OUT THE INVENTION With respect to Figure 1 there is provided a tractor (1) which has a load transfer apparatus generally indicated by arrow (1000) and a towed implement in the form of a ripper or seed drills (not shown) which has a drawbar (2) at the front thereof. The tractor has a tow bar (3) connected to the drawbar (2) via a hitch pin (4). At the front of the tractor (1) there is a weight frame (5).

Attached to the three point linkage arms (6) of the tractor is a mounting-framework (7) which has a shock absorber in the form of two (10) ton leaf springs (8) (of which only one is shown) connected thereto.

The drawbar (2) has a pivot arm (9) pivotally connected thereto at a pivot point (10). 12 Received at IPONZ 10/11/2011 The bottom end of the pivot arm (9) is bolted at (11) to one end of a primary linkage in the form of a chain (12) certified to loading depending on the weight of the tractor/towed load the other end of the primary linkage is bolted at (13) to the weight frame (5) at the front of the tractor (1). The chain (12) is partially encased by a length 5 of steel pipe (14) which acts as a brace which supports the front of the tractor by the rear tow bar (3). The top end of the pivot arm (9) is bolted at (15) to a pulley (18) through which the secondary linkage in the form of a length of cable/chain (16) passes. The ends of cable/chain (16) are attached via bolts (not shown) to the distal ends of the two leaf springs (8) (of which only one can been seen). The distal ends of 10 the leaf spring (8) are located above the height of the tractor's rear axle (21).

In use the pivot arm (9) is able to pivot about the axis (10) in direction Z to transfer load to the front of the tractor. Should the tractor go up a hill the pivot arm (9) pivots in the opposite direction Y to transfer more load to the leaf springs (8) and rear of the tractor. As will be understood the load transfer mechanism of the present invention 15 allows for the vectoring of force from the front of the vehicle to the rear of the vehicle when an implement is being towed. Ideally the force (load) of the towed implement is vectored through or near the centre of gravity of the tractor (1).

In Figure 2 like reference numerals have been used to indicate like elements and thus the discussion of the embodiment in Figure 2 will be limited to the differences over the 20 embodiment depicted in Figure 1. The key differences in this embodiment is that the tractor (1) does not have a three-point linkage and thus the chain/cable (16) is attached directly to the rear of the tractor (1) at a point (99) which is above the height of the rear axle (21) of the tractor. Instead in this embodiment the shock absorber is in the form of a dual liquid/gas cylinder (nitrogen accumulator) (100), in this case 25 hydraulic oil is on one side (101) of the piston (not shown) and nitrogen is on the other (102). The shock absorber (100) is also located at the front of the tractor and has the piston's rod attached to the chain (12). The oil side of the piston is upstream of the 13 Received at IPONZ 10/11/2011 towed implement and the nitrogen is downstream, such that in use, the load of the towed vehicle, is transferred along chain (12) to pull against and compress the gas in the cylinder (100).

In both the embodiments in Figure 1 and 2 tension is applied to the load transfer 5 mechanism by the biasing force of the shock absorber, which is adjusted to transfer the desired amount of load from the towed implement to the front of the tractor. For example this can be achieved by having more or less nitrogen in the cylinder, or by adjusting the three point linkage. To unhitch the towed implement after towing where there is a shock absorber (100) hydraulic oil is used to move the piston so as force 10 gas out of the cylinder to relieve the tension applied to the load transfer mechanism to allow for detachment.

In Figures 3 and 4 like reference numerals will be used to describe like elements from Figures 1 and 2 and the following description relates to the differences of these preferred embodiments over those in Figures 1 and 2.

Figure 3 which is a variant of the embodiment in Figure 1 has a tow assembly generally indicated by arrow (3000) the tow bar (3) has been modified (customised) to have a set of wheels (500) and a connecting portion in the form a projection (501) and aperture (502)- (see also Figure 5). The tow bar (3,) of the tow assembly (5000), fits within a sleeve (503) (shown in Figure 5) which has a boss pin (504). The sleeve 20 (503) is welded to the chassis of the tractor (not shown). The tow bar has a forward nose portion (505) which has a groove (506) into which the boss pin (504) locates. The forward end of the groove (506) has a wall against which the boss pin abuts to prevent the tow bar being pulled from the sleeve. It will be appreciated that the boss pin is shaped/dimensioned, and made from high tensile steel as is the sleeve, so as 25 to be capable of supporting if need be the draft load from the towed implement. In most cases the majority of the load will be taken by the shock absorber. 14 Received at IPONZ 10/11/2011 The aperture (502) of projection (501) is connected via a D-shackle(not shown) to one end of chain (12). The forward nose end of the tow bar (3) is connected via a shock absorber in the form of a compression spring (508) fixed to the end wall (509) of sleeve (503).

In Figure 4 which is a variant of the embodiment shown in Figure 2 the tow bar (3) "floats" via wheels within a sleeve (both not shown) in a similar manner to that described for Figure 3 with the exception that no compression spring is required to connect the tow bar to the end wall of the sleeve. This is because this embodiment already has a shock absorber (100). In this embodiment one end of the chain (12) is 10 connected to the rear of the tractor at point (99). The chain passes through a pulley (600) on tow bar (3) as it is redirected to point (99).

As can be seen the "floating tow bar" arrangements of Figures 3 and 4 enable the towed load to be transferred to the front of the vehicle via chain (12).

In Figures 6 and 7 there is shown a tow assembly generally indicated by arrow 15 (6000). The tow assembly has a base plate (6001) which is bolted to the tractor chassis (6002) (shown in Figure 7) at a front end thereof (6003). The tow bar assembly (6000) also has top and bottom plates (6004) and (6005) which are connected via side plates (6005) which form a tow bar (6006). The top plate (6004) has two slots (6007) which receive boss pins (6008) which prevent the top and bottom 20 plates (6004) and (6005) from being pulled off the base plate (6001). The top and bottom plates (6004) and (6005) have a draw bar pin (6009) which hitches to the draw bar of a towed implement (not shown).

The tow bar assembly (6000) also has two shock absorbers in the form of spring loaded oil filled shock absorber cylinders (6010) which have a piston arm (6011) 25 extending from one thereof and which is pivotally attached to a bell crank (6012). The bell crank (6012) is itself pivotally attached at one end to the side plates (6005). The Received at IPONZ 10/11/2011 opposite end of shock absorber cylinders (6009) is attached to a T-frame member (6013) which connects the two shock absorbers to one another. The T-frame member has an aperture (6014) which in use is connected to one end of a primary linkage in the form of a chain (6015). The opposite end of chain (6015) is connected 5 to a chassis connector member (6016) on the tractor. As can be seen the tractor connector member connects to the chassis at a point above the front axle of the tractor (6017).

The opposite end of the bell crank (6012) is attached via a cable (6018) to the ends of the tractors hydraulic linkage arms (6019).

In use, lifting the linkage arms (6019) allows a user to adjust what proportion of the towed load is transferred to the front of the tractor. Additionally lifting the linkage arms also allows some of the downwards force created by the weight of the towed implement to be taken off the draw bar hitch pin (6009). That is the hydraulic linkage arms bear some of the load (i.e. a portion of the downward force is transferred 15 thereto).

The shock absorbers (6010) have a spring (6020) against which the piston (6021) compresses when a towed load is applied to the tow bar. The piston (6021) has a plurality of small apertures there (not shown) through which oil must pass in order for the piston to travel within the cylinder (6022) of the shock absorber.

With respect to Figure 8 there is shown the linkage arms (6019) which are moved (i.e. lifted or lowered) via the three point hitch hydraulic ram (6030). The three point hitch ram (6030) is connected to the hydraulic oil of the tractor via a supply line (6032) which has been modified to include therein a diverter valve (6033) which has a diverter line (6034) which is connected to a nitrogen accumulator (6035). This set up 25 allows for any jolts or other shocks experienced by the three point hitch ram (6030), such as may occur as a result of undulating ground to be absorbed by the 16 Received at IPONZ 10/11/2011 compressible nitrogen gas in the nitrogen accumulator (6035). Thus this set up converts the rigid hydraulic system of a tractor to a flexible hydraulic system.

Aspects of the present invention have been described by way of example only and it should be appreciated that modifications and additions may be made thereto without 5 departing from the scope of the appended claims. 17

Claims (17)

Received at IPONZ on 29 February 2012 WHAT I CLAIM IS:

1. An apparatus for transferring load between: a) a towing vehicle having front and rear wheels which comprises a tow assembly including a tow bar; and b) a towed device which includes a drawbar; wherein the tow bar and drawbar attach to one another and wherein the apparatus includes a shock absorber; characterised in that the apparatus includes a load transfer mechanism which attaches the towing vehicle and towed device and wherein the load transfer mechanism is configured for adjustably transferring; at least a portion of the load of the towed device to the front of the vehicle in a region leading the front wheel axle via the shock absorber, and transfers only a portion of the towed load to the rear of the towing vehicle.

2. An apparatus for transferring load as claimed in claim 1 wherein the load transfer mechanism is in the form of at least one linkage between the drawbar and a connection point at the front end of the vehicle.

3. An apparatus for transferring load as claimed in claim 1 wherein the load transfer mechanism is a primary linkage connecting the drawbar to the front of the vehicle and a secondary linkage connecting the drawbar to the rear of the vehicle at a point which is higher that that of the rear axle.

4. An apparatus for transferring load as claimed in any one of claims 1 -3 wherein the tow bar includes a pulley arrangement and this interacts with the primary 18 Received at IPONZ on 29 February 2012 linkage.

A method of transferring the load of a towed device to a towing vehicle which is characterised by the step of: a) attaching a towed device to the front of a towing vehicle via a load transfer mechanism configured in a manner which: allows the towed device to be towed behind the towing vehicle when the towing vehicle is moving in a forward direction; and adjustably transfers at least a portion of the towed load to the front end of the towing vehicle at a point the front axle and transfers only a portion of the towed load to the rear of the towing vehicle.

A tow bar assembly which includes a tow bar and wherein the tow bar is configured to allow for limited travel in a forward and backward direction with respect to the longitudinal axis of a vehicle, wherein the tow bar includes a connecting portion to which one end of a primary linkage is directly or indirectly attached, wherein the primary linkage connects the drawbar to the front of the vehicle - at a point leading the front axle.

A tow bar assembly as claimed in claim 6 wherein the tow bar is housed within a sleeve and includes a set of wheels/rollers either on the tow bar or within the sleeve on which the tow bar rides.

A tow bar assembly as claimed in claim 7 wherein the sleeve may include a boss which acts as a stop to prevent the tow bar from being pulled from the sleeve.

A tow bar assembly as claimed in any one of claims 6-8 wherein the tow bar 19 Received at IPONZ on 29 February 2012 may include a pulley arrangement and this interacts with the primary linkage.

10. A tow bar assembly as claimed in any one of claims 6-8 wherein the tow bar is adapted, in use, to be connected to three point linkage arms on a tractor, and wherein a hydraulic ram associated with the said three point linkage arms is 5 fluidly connected to a nitrogen accumulator.

11. A tow bar assembly as claimed in any one of claims 6 - 9 or 10 wherein the tow bar is adapted to connect to the three point linkage by the inclusion of at least one bell crank configured to be connected to the three point linkage arms via a cable. 10

12. A towing vehicle which includes an apparatus for transferring load including a load transfer mechanism configured for adjustably transferring at least a portion of the load of a towed device to the front of the towing vehicle in a region leading the front wheel axle via a shock absorber.

13. A towing vehicle which has been adapted to transfer load from a towed device 15 to the towing vehicle via the method of claim 5.

14. A towing vehicle which includes a tow bar assembly as claimed in any one of claims 6-11.

15. An apparatus for transferring a load substantially as described herein with reference to any example and/or drawing thereof. 20

16. A method of transferring a load substantially as described herein with reference to any example and/or drawing thereof.

17. A tow assembly substantially as described herein with reference to any example and/or drawing thereof. 20 Received at IPONZ on 29 February 2012 A towing vehicle substantially as described herein with reference to any example and/or drawing thereof. Kalvin Jit SINGH By his attorneys ( = i ^ i James & Wells Intellectual Property 21