GB2028261A - Automatic bale wagon - Google Patents

Automatic bale wagon Download PDF

Info

Publication number
GB2028261A
GB2028261A GB7928122A GB7928122A GB2028261A GB 2028261 A GB2028261 A GB 2028261A GB 7928122 A GB7928122 A GB 7928122A GB 7928122 A GB7928122 A GB 7928122A GB 2028261 A GB2028261 A GB 2028261A
Authority
GB
United Kingdom
Prior art keywords
bales
bale
wagon according
bale wagon
load bed
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
GB7928122A
Other versions
GB2028261B (en
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sperry Rand France SA
Original Assignee
Sperry Rand France SA
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sperry Rand France SA filed Critical Sperry Rand France SA
Priority to GB7928122A priority Critical patent/GB2028261B/en
Publication of GB2028261A publication Critical patent/GB2028261A/en
Application granted granted Critical
Publication of GB2028261B publication Critical patent/GB2028261B/en
Expired legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01DHARVESTING; MOWING
    • A01D90/00Vehicles for carrying harvested crops with means for selfloading or unloading
    • A01D90/02Loading means
    • A01D90/08Loading means with bale-forming means additionally used for loading; with means for picking-up bales and transporting them into the vehicle

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Loading Or Unloading Of Vehicles (AREA)

Abstract

A bale wagon comprising a load bed (23) for accommodating a stack of bales comprising a plurality of tiers of bales, and a bale transfer table (16) for accumulating bales thereon to form tiers of bales and operable to deposit successively formed tiers of bales on the load bed (23). The transfer table (16) has a convex load surface (24) to improve the stability of the bale stack formed on the load bed. Also, leafsprings (52) on the load bed (23) are operable to retain the front tier of bales during the unloading of the bale wagon one bale at a time. <IMAGE>

Description

SPECIFICATION Automatic bale wagon The present invention relates generally to agricultural equipment and more specifically to automatic bale wagons.
With the trend in farming practices towards increased mechanization, the automatic bale wagon, such as the type illustrated in British Patent Specification No. 1,284,103, has been gaining acceptance as an essential farm implement. In these bale wagons, a pick-up mechanism lifts bales from the ground and loads them onto a first or receiving table, which sequentially moves two or more bales in end-to-end relationship onto a second or transfer table upon which a tier of bales is accumulated comprising a plurality of rows of bales (e.g. 4 rows).
When a full complement of bales for a tier has been loaded upon the second table, the latter is pivoted from an almost horizontal position, about a transverse pivot axis, to a substantially vertical position to dispose the tier of bales either against a rolling rack upon a load bed of the wagon or against the forward face of a previously deposited tier of bales on the load bed. The load bed is positioned rearwardly of the second ortransfertable, extends in a generally fore-and-aft direction and has its loading end facing in a forward direction. The transfer or second table with the tier of bales thereon pushes the rolling rack, together with any partially formed stack of bales, towards the rear of the wagon over the width of one bale so that a further tier can be transferred from the second table to the forward end of the load bed.
After accumulating successive bale tiers on the load bed to form a complete bale stack thereon, the stack may be transported to a desired location for discharge from the wagon in a composite stack.
However, bale wagons have been evolved which can unload a stack one bale at a time. In this latter development, when bales are unloaded one by one, the second transfer table is placed in an inclined (45 ) position and the load on the load bed is caused to move in a forward direction step by step in a manner so that the forwardmost tier falls back onto the inclined transfer table. Unloading means on the transfertable unload the bales one by one in a sideways direction.
All operations of the various receiving and transfer tables, rolling rack, and the final unloading of the load bed are accomplished by hydraulic means and associated fluid circuits and control valves which are operated by appropriate cams, trip members and other means such as described in detail in the aforementioned patent specification.
Bale wagons of the types hereinbefore described are satisfactory when operating in generally flat fields. However, when using these bale wagons in hilly conditions, certain problems are encountered.
One problem occurs when operating the bale wagon on a downward incline. It should be noted here that the front tier of bales on the load bed is held only by means engaging the uppermost bales, inter-bale friction being relied on to retain the intermediate bales and friction between the lowermost bales and the load bed being relied on to retain the lowermost bales. The upper bales may be contacted from above and on their upper surface by resiliently-loaded bale fingers tending to prevent the tier from falling back on the transfer table. It has been found in practice that the intermediate rows of bales occasionally slip in a forward direction, especially when the machine is operated on a downward incline, with the result that the front tier either adopts a curved profile or the tier actually falls from the load bed.
Should the front tier of bales fall fron the load bed, the automatic operation of the wagon is disrupted and any bales falling on the transfer table have to be removed, or rearranged if in fact they can be accommodated thereon and the remaining bales of the now partial front tier have to be removed manually. If the front tier does not integrate but adopts a curved profile, subsequent tiers are likely to adopt a similar profile with the result that an unstable stack is formed.
One solution that has been attempted involves leaving the transfer table in the upper position after completing the loading of bales and whilst the wagon is driven to the desired discharge location.
This, however, solves only part Fthe problem since it is necessary to keep the transfer table in its generally horizontal position during the appropriate part of the loading operation and the discussed problems can arise at this time. When unloading the wagon one bale at a time, the bale retainer fingers holding the top bales of a tier must be retracted so that the load can be moved in a forward direction.
This means that during unloading even the top bales are no longer positively held in position which increases the risk of the front tier falling (partially or completely) onto the transfer table prematurely, especially since the wagon undergoes considerable vibration when a tier is moved intentionally from the load bed to the transfer table and the vibration can disturb the new front tier. The foregoing problem is aggravated when bales are stacked on their edge on the load bed rather than flat. Usually bales are 14 inches (35 cms) or 16 inches (40 cms) high, 18 inches (45 cms) wide and about 40 inches (90 cms) long.
Twine is wrapped around each bale lengthwise and around the 18 inch edges.
Stacking bales flat means that the bales are stacked with the 18 inch edges parallel to the load floor, whilst stacking bales on edge means that the 18 inch edges extend perpendicular to the load floor. Bales tend better to resist deformation when stacked flat rather than when stacked on their edges. Nevertheless, it is preferred to stack bales on their edges on the load bed since more bales can be accomodated on a bale wagon of given length and width. For example, it is possible to load sixteen tiers of eight 14 inch by 18 inch bales on a load bed of given length and width provided the bales are arranged on their edge. if however, the bales are stacked flat the same load bed can only hold twelves tiers. When each tier comprises four rows of two bales, this means 128 bales in the first situation against only 96 bales in the second situation.This also means, of course, that the height of the stack when on the load bed varies accordingly. Also the fore-and-aft dimen sion of the second or transfer table has to be somewhat larger in the former situation than in the latter situation. Now, given the situation where bales are stacked on their edge on the load bed, the stability of the four bale high stack, and especially of the front tier of the stack, is inferior for several reasons, namely (a) increased height of the tiers and correspondingly increased distance between the load bed and the bale retainer fingers, (b) decreased surface area upon which the bales rest, (c) reduced resistance of the bales against deformation - i.e. the bales are more flexible and subject to compression when stacked on their edges.Also with an increased capacity of the load bed, a higher force has to be exerted by the second ortransfertable on the bale stack already on the load bed to shift the latter further rearwardly so as to be able to deposit a further tier thereon. This is particularly true when the load bed is almost completely loaded and the result is that the bales, especially those of the last few tiers loaded on the load bed, are compressed substantially. When the transfer table is subsequently returned to its receiving position, these compressed bales, especially the mickile ones of the tier, tend to revert to their original size by expanding in a forward direction and hence giving the tier a curved profile with the attendant problems already discussed.
It is the object of the present invention to overcome orto attenuate one or more ofthe foregoing disadvantages. More precisely, it is the object to improve the bale stability on the load bed, especially when bales are stacked thereon on their edges, for operation on hillsides.
According to the present invention a bale wagon comprises a load bed for holding stacked bales thereon, and a transfer table operable to accumulate bales thereon and then deposit the accumulated bales onto the load bed, the transfer table comprising a curved load surface on which the bales are accumulated.
Preferably the curved load surface of the transfer table is generally convex. To facilitate manufacture of the transfer table, the generally convex surface thereof may be composed of three individually flat sections, a forward secion extending upwardly and rearwardly from a forward edge of the transfer table, and a rear section extending upwardly and forwardly from a rear edge of the table. The middle section extends generally parallel to the table preferably at a height of about 1.75 inches (4.5 cms) to 2 inches (5 cms) above the level defined by the front and rear edges of the table. The middle section preferably has a fore-and-aft dimension generally equal to the height of two bales. The forward and rearward sections of the table may each have a fore-and-aft dimension generally equal to the height of one bale.
The provision of a curved surface on the transfer table enables this table to push harder on the middle bales of a tier whilst depositing that tier on the load bed. Thus the middle bales will be positioned further rearwardly than the upper and lower bales whilst the transfer table is in the raised position. This is particularly true when the stack on the load bed already comprises a certain number of tiers. When subsequently the transfer table is lowered and the middle bales expand in a forward direction, the stack will have a relatively straight front face rather than a curved face. Thus a stack with a substantially improved stability is obtained.
A narrow transverse recess may be provided between the middle section and the rear section of the transfer table to house therein a transverse conveyor chain used for unloading the wagon one bale at a time. The transfer table may further comprise a pair of fore-and-aft extending side edges extending above the upper surface of the transfer table to prevent bales sliding off the table when the wagon is operating on transverse inclines.
The wagon may further include bale retainer means comprising rigid means operable to contact and retain the upper bales of the front tier on the load bed during the loading cycle and retractable to release said bales during the unloading cycle, and resilient means operable to retain the upper bales of the front tier on the load bed priorto it being moved tothetransfertableforunloading. Preferablythe resilient means are elongate leafsprings extending rearwardly from a mounting frame on the forward end of the load bed. The mounting frame bridges the loading opening of the load bed and also supports the retractable rigid bale retainer means. The leafsprings may have an upwardly curved rear end and are operable to contactthetop bales of at least the front tier on the load bed, intermediable its ends.
These leafsprings may be arranged also to contact the top bales of the second tier. The arrangement is such that on the one hand the bales can slide either in a forward direction or a rearward direction underneath the leafsprings when the appropriate force is applied to the bale stack whilst on the other hand the leafsprings are operable to retain the top bales prior to it being moved to the transfer table for unloading.
A bale wagon embodying the present invention will now be described in greater detail, by way of example, with reference to the accompanying drawings in which: Figure 1 is a slide elevational view of the bale wagon with the load bed fully loaded and with the bale pick-up means in a raised, transport position, Figure 2 is a front view of the bale wagon of Figure 1 but with an empty load bed, Figure 3 is a partial schematic view, on a larger scale, of Figure 1, and Figure 4 is a view similar two Figure 3 but illustrating one problem which the present invention solves.
In the following description right-hand, left-hand, forward, and rearward references are determined by standing at the rear of the bale wagon and facing in the direction of operative travel.
The basic features of the bale wagon to be described are set forth hereinafter to an extent sufficient for the present invention to be appreciated and understood. However, certain components, in particular the hydraulic system by which the various elements of the bale wagon are activated and controlled, are shown only diagrammatically. Operation of certain of these components, especially the control valves for the hydraulic cylinder units, is initiated by certain trip mechanisms, cams, etc., the details of which are not shown in the drawings of the present application but are illustrated and described in British Patent Specification No. 1,284,101 to which attention is directed for a more complete description and illustration of the same.
Referring to the accompanying drawings and particularly to Figure 1, the bale wagon comprises a chassis, indicated generally at 1, mounted on two pairs of wheels, only the right-hand ones 2 being seen in Figure 1. The chassis 1 is formed from leftand right-hand, longitudinally-extending rails 3 of which only one is seen. The forward ends of the longitudinally extending rails 3 converge in a hitch assembly 37 which adapts the wagon to be secured to a tractor (not shown), or other towing vehicle, located at the front thereof. Power for the wagon is obtained from the tractor power-take-off in a conventional manner, but not specifically shown.
Mounted at the forward end of the chassis 1 and extending transversely thereof is a first or receiving table 4 which is mounted on a forwardly-extending, horizontal portion 7 of an L-shaped structure indicated generally at 8. The L-shaped structure 8 includes a rear, upwardly-extending leg portion 9 pivotally mounted at 10 on spaced brackets 11, only one of which is shown, mounted on the right- and left-hand side rails 3. A'hydraulic cylinder (not shown) is pivotally secured at one end by a pivot pin to the framework of the bale wagon and at the other end to the L-shaped member 8 of the receiving table 4. As the cylinder is extended, the receiving table 4 is swung upwardly about its pivot point 10, thereby transferring any bales which have been accumulated on the table onto a second, or transfer, table 16.
It will be understood by those skilled in the art that the bales are first introduced to the receiving table 4 by means of a pick-up mechanism 17 which lifts bales from the ground and directs them to the receiving table 4. The pick-up mechanism 17 is shown in its raised, transport position in Figures 1 and 2.
The transfer table 16 is also mounted on a pair of L-shaped structures 18 each having a forwardlyextending leg portion and an upwardly-extending rear leg portion 20 which is disposed at right angles to the lower leg portion. Each of the upwardlyextending leg portions 20 is secured by a pivot pin 21 to a depending lug 22 mounted on the forward end of a load bed 23.
A load surface 24 of the transfer table 16 is formed across the forwardly-extending leg portions and provides a surface upon which bale tiers are formed.
When the transfer table 16 is in its normal tierforming position, it is disposed in the position shown in the drawings. A hydraulic actuator 25 (Figure 1) is secured by a pivot pin to the load bed 23, with the rod end 26 of the actuator pivotally connected by a pivot pin to a rearwardly-extending member 27 fixed at its forward end to the rear portion of the adjacent L-shaped structure 18. The load bed 23 includes a platform assembly 29.
When the requisite number of bales has been accumulated on the transfer table 16 from the receiving table 4, to form a first tier of bales thereon, the hydraulic actuator 25 is operated by trip means (not shown) so that it extends and causes the table 16 to swing upwardly about its pivot pin 21 through approximately 90 . In this way the first bale tier formed on the transfer table 16 is transferred from a generally horizontal position on the table 16 to a generally vertical position on load bed 23 against a rolling rack 30 which is thus forced rearwardly.
Successive tiers of bales placed on the load bed 23 by the table 16 will effect further rearward movement of the rack 30 relative to the load bed 23. The bale tiers are laterally confined on the load bed 23 by right- and left-hand side bars 31, only the right-hand one being shown in Figure 1. Each of the side bars 31 is supported by upwardly-extending front and rear struts 32 and 33, respectively.
The rolling rack 30 is adapted to be advanced forwardly and rearwardly by means of a cable system (not shown). When the operator of the bale wagon desires to unload the wagon one bale at a time, the bale tier last deposited on the load bed 23 is transferred back to the now inclined transfer table 16 byforward movement of the rolling rack 23. A cross conveyor (not shown) engages the end bale of the lowermost layer of bales and discharges it from the bale wagon. Bale-engaging means (not shown) have previously engaged the layer of bales next to the lowermost layer on the transfer table 16 and shifted them upwardly on the bed surface 24 to permit ready discharge of the lowermost layer.When the lowermost layer has been discharged, the bale-engaging means are retracted to allow the previously retained layer to fall and become the lowermost layer for discharge, the bale engaging means then engaging and lifting the next layer. This operation is repeated until the whole tier has been discharged, whereupon the rolling rack is moved further forward to transfer the next tier onto the table 16.
With particular reference to Figure 4, the prior art structure and its disadvantages will now be described in more detail. The second or transfer table 16 of known automatic bale wagons usually ilas a flat upper surface 24 with two inclined sections 34 and 35 defining a recess 36 to accommodate the chain of the transverse unloading conveyor. The provision of the inclined sections 34 and 35 is intended to prevent the bales hitting the chain and the chain getting plugged or blocked with straw or hay. Therefore the sections 34 and 35 are only provided at the rearmost end of the transfer table, i.e. at the location corresponding to the position of the lowermost bales of each tier as deposited on the load bed.
Known bale wagons have been provided with rearwardly-projecting bale-retainer fingers 60 pivotally mounted on a transverse member 59 extending between the upper ends of struts 58. The struts 58, together with the transverse member 59, define the forward loading opening of the load bed. The fingers 60 rest merely under their own weight on the top bales of the front tier 57 of bales deposited on the load bed 23 and are intended to prevent the tier 57 from falling back onto the transfer table 16.
Figure 4 illustrates what can happen with ihe front tier when the wagon is operating on a downward incline. The intermediate layer or layers of bales of the front tier may slide forwardly and form an irregular tier. If the loading operation is continued with tier 57 in the condition illustrated in Figure 4, a loose, irregular and unsatisfactory stack of bales is likely to result. The problem is even worse when the front tier falls back on to the transfer table 16 because the operation of the wagon is then interrupted and the operator has manually to unload and then reload the tier. Thus the automatic operation of the wagon is totally disrupted.
The risk of this problem arising is increased when the bales are stacked on their edge on the load bed 23 as is shown in Figure 4, the twine binding the bales being indicated at 49. The reasons for this increased risk have been explained above and therefore will not be repeated. However, it should be noted that the front tier 57 may take the curved profile of Figure 4 even when the bale wagon is operated on horizontal ground.
Asolution to the problem is shown in Figures 1 and 3 in which the transfer table 16 has a generally convex load surface 24 comprising, for ease of manufacture, three flat sections 54, 55 and 56. The front and rear sections 54 and 56 extend from the respective edges of the transfer table 16 towards the middle and are inclined slightly upwardly. The fore-and-aft dimension of the inclined sections 54 and 56 is approximately equal to the height of one bale, i.e. 18 inches (45 cms). The middle or intermediate section 55 extends generally parallel to the plane defined by the front and rear edges of the transfer table 16 and at a height of about 1.75 inches (4.5 cms) to 2 inches (5 cms) above said plane. The fore-and-aft dimension of the intermediate section 55 is generally equal to twice the height of an average bale, i.e. about 36 inches (90 cms).A transverse recess 36 for housing the transverse unloading conveyor may be provided in the rear inclined floor section 56. In order further to facilitate manufacture, this recess may be provided between the floor sections 55 and 56, in which case the middie floor section 55 is extended somewhat to the rear and the rear section 56 is shortened somewhat.
In practice this design has proved satisfactory.
The second or transfer table 16 also comprises a pair of opposed, fore-and-aft extending side edges 53 which extend above the level of the load surface 24 and which serve to prevent bales sliding off the table during side hill operation.
Also, in addition to the bale retainer fingers 60, a pair of special shaped leaf-springs 52 is provided which extend in a rearward and downward direction from the transverse member 59 and which have sections 51 intermediate their ends arranged continually (even during the unloading process) resiliently to press on the top edge of the top bales of the front tier 57. The leaf springs 52 have rear ends 50 which are bent upwardly and away from the bale stack so that when the latter is moved forwardly the leafsprings will not penetrate the bales passing thereunder. The leafsprings 52 may be arranged to contact the top bales in the second tier on the load bed in addition to the top bales of the first or front tier.
In operation, the bale wagon is pulled over a field with bales spread there across. The pick-up mechanism 17 is positioned in the operative position and the necessary components energised or driven. The pick-up mechanism 17 lifts the bales which lie flat on the ground and positions two or more (usually only two) in an end-to-end relationship in a transverse direction onto the receiving table 4. When a layer is fully completed on the receiving table 4, a trip mechanism (not shown) is actuated, whereupon the table 4 is pivoted over substantially 90 about pivot 10 to place the layer of bales onto the forward portion of the transfer table 16. This is repeated several times (usuallyfourtimes) until a tier is completed on the transfer table 16.Each time a further layer is deposited on the transfer table 16, that further layer pushes the layer of bales previosuly deposited on the transfer table further rearwardly thereon. When a complete tier is accumulated on the transfertable 16, the bales of the tier take up a convex profile, due to the convex nature of the load surface 24. Each time a tier is completed, a further trip mechanism (also not shown) is actuated, causing the transfer table to pivot over substantially 90 about the pivot 21 to deposit the tier on the load bed 23 either against the rolling rack 30 or against the tier previously placed on the load bed.During these cycles, the rolling rack, together with the partial stack already formed thereagainst, is pushed further rearwardly over the load bed by the action of the transfer table 16 depositing a new tier on the load bed 23.
During this loading cycle the tiers of bales move beneath and past the bale retainer fingers 60 and the leafsprings 52, with the fingers and springs remaining in contact with the top bales of the front tier. The fingers 60, and to a lesserextentthe leasfsprings 52, prevent the front tier from falling back on the transfer table 16 even when the wagon is operating downhill.
When a new tier of bales is deposited on the load bed, especially when the latter already supports a number of tiers, the new tier and the previously loaded tiers are compressed. The middle bales of each tier are compressed more than the others due to the convex profile of the load surface 24 of the transfer table 16. As a result, the front tier takes a concave front profile as long as the transfer table 16 remains in the raised position. When the transfer table 16 is lowered, the stack of bales, and more especially the middles bales of the front tier, tend to revert to their previous size by expanding towards the front so that in the resultthestacktakes up a generally straight front face. The lower and upper bales will indeed expand less or not at all as they are held in position by the frictional contact with the load bed surface and the bale retainer fingers 60, respectively.
It is thus seen that the present invention provides a stack of bales having a substantially improved stability.
To unload the bale wagon, the transfer stable 16 is placed in a 45 position as is known in the art. The bale retainer fingers 60 are retracted and the stack on the load bed is pushed step by step in a forward direction so as to let one tier at a time fall onto the inclined transfer table. The unloading conveyor means on the transfer table then unloads the bales one at a time. During this unloading cycle the specially shaped leafsprings 52 remain in contact with the upper surfaces of the top bales of the front tier and prevent that tier from falling prematurely which could otherwise happen due to the vibration caused by the previous front tier falling onto the transfer table 16.
It will be appreciated that a bale wagon is provided in which bales can be accumulated and stacked on the load bed in a very stable manner, even though the bales may be stacked on their edges rather than flat as is conventional in certain known automatic bale wagons. The bale wagon according to the present invention also forms more stable stacks even when operating on downward inclines. Thus the invention results in better stacks in the case of a bale wagon of the stacking type, and fewer or no disturbances of the automatic operation during both the loading and unloading cycles. Therefore, the machine has an increased daily output. Aiso, as the bales now can be stacked on their edges on the load bed, more bales can be loaded than before on a loadbed of predetermined length and width.

Claims (24)

1. A bale wagon comprising a load bed for holding stacked bales thereon, and a transfer table operable to accumulate bales thereon and then deposit the accumulated bales onto the load bed, the transfer table comprising a curved load surface on which the bales are accumulated.
2. A bale wagon according to claim 1, wherein the curved load surface is generally convex.
3. A bale wagon according to claim 2, wherein the point of maximum curvature of the curved load surface is spaced in the range of 1 inch (2.5 cms) to 3 inches (7.5 cms) from the plane defined by the front and rear edges of the transfer table.
4. A bale wagon according to claim 2, wherein said spacing is in the range of 1.75 inches (4.5 cms) to 2 inches (5 cms).
5. A bale wagon according to any of the preceding claims, wherein the curved load surface is composed of three individually flat sections mounted at an angle relative to each other.
6. A bale wagon according to claim 5, wherein a first section extends upwardly and rearwardly from a front edge of the transfer table.
7. A bale wagon according to claim 6, wherein a second section extends upwardly and forwardly from a rear edge of the transfer table.
8. A bale wagon according to claim 6 and 7, wherein a third section extends between the first and second sections and generally parallel to said plane.
9. A bale wagon according to claim 8, wherein the third section is spaced in the range of 1.75 inches (4.5 cms) to 2 inches (5 cms) from said plane.
10. A bale wagon according to claim 8 or 9, wherein the third section has a fore-and-aft dimension generally equal to twice the height of an average bale.
11. A bale wagon according to claim 10, wherein the fore-and-aft dimension of the third section is approximately 36 inches (90 cms).
12. A bale wagon according to any of claims 6 to 11, wherein the first inclined section has a fore-andaft dimension generally equal to the height of an average bale.
13. A bale wagon according to claim 12, wherein the first inclined section has a fore-and-aft dimension of 18 inches (45 cms).
14. A bale wagon according to any of claims 7 to 13, wherein the second inclined section has a fore-and-aft dimension generally equal to the height of an average bale.
15. A bale wagon according to claim 14, wherein the second inclined section has a fore-and-aft dimension of 18 inches (45 cms).
16. A bale wagon according to any of claims 7 to 15 wherein a transverse recess is provided in the second inclined section to house therein transverse conveyor means.
17. A bale wagon according to any of claims 7 to 15, wherein a transverse recess is provided between the second inclined section and the third section to house therein transverse conveyor means.
18. A bale wagon according to claim 17, wherein the second inclined section has a fore-and-aft dimension less than the height of an average bale, and wherein the third section has a fore-and-aft dimension larger than twice the height of an average bale.
19. A bale wagon according to any of the preceding claims, wherein the transfer table comprises side edges extending above the load surface thereof.
20. A bale wagon according to any of the preceding claims, comprising a load bed for accommodating thereon a stack of bales comprising a plurality of upright tiers, rigid bale retainer means operable to contact and retain the upper bales of the front tier of bales on the load bed during the loading cycle and retractable for releasing said bales during the unloading cycle, and resilient means operable to retain the upper bales of the front tier on the load bed prior to it being moved to the transfer table for unloading.
21. A bale wagon according to claim 20, wherein the resilient means are in the form of elongate leafsprings extending rearwardly from a mounting frame on the forward end of the load bed in a manner so as continuously to engage the upper surface of the upper bales of the fronttier of bales on the load bed.
22. A bale wagon according to claim 21, wherein the resilient means also contact the top bales of the tier immediately behind the front tier.
23. A bale wagon according to claim 21 or 22 wherein the resilient means comprise an upwardly extending rear end which is out of engagement with the bales on the load bed.
24. A bale wagon substantially as herein particularly described with reference to Figures 1 to 3 of the accompanying drawings.
GB7928122A 1978-08-16 1979-08-13 Automatic bale wagon Expired GB2028261B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
GB7928122A GB2028261B (en) 1978-08-16 1979-08-13 Automatic bale wagon

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB7833512 1978-08-16
GB7928122A GB2028261B (en) 1978-08-16 1979-08-13 Automatic bale wagon

Publications (2)

Publication Number Publication Date
GB2028261A true GB2028261A (en) 1980-03-05
GB2028261B GB2028261B (en) 1982-09-22

Family

ID=26268553

Family Applications (1)

Application Number Title Priority Date Filing Date
GB7928122A Expired GB2028261B (en) 1978-08-16 1979-08-13 Automatic bale wagon

Country Status (1)

Country Link
GB (1) GB2028261B (en)

Also Published As

Publication number Publication date
GB2028261B (en) 1982-09-22

Similar Documents

Publication Publication Date Title
GB1284101A (en) Bale wagon
US3510013A (en) Automatic bale loading and unloading wagon
US4259035A (en) Agricultural bale accumulator
US4119218A (en) Hillside bale wagon
US4289435A (en) Automatic bale wagon
US3401810A (en) Bale wagon
US3724684A (en) Bale relocator mechanism for a bale wagon
US5192177A (en) Mobile harvester for hay bales
US4227845A (en) Rolling rack control for automatic bale wagon
US3430783A (en) Bale wagon
US4088231A (en) Apparatus for repositioning bales on a bale wagon
CA1091193A (en) Bale wagon
GB2028261A (en) Automatic bale wagon
CA1073218A (en) Bale pick-up
US3406840A (en) Agricultural bale handling machine
US3572521A (en) Retriever attachment for a bale wagon
US4190392A (en) Stack side evener
US2965251A (en) Hay bale stacking sled
US4212578A (en) Apparatus for retaining bales in position on a bale wagon
US3502229A (en) Bale wagon
US3620384A (en) Tine arch mechanism for a bale wagon
DE2620305A1 (en) SELF-LOADING WAGON FOR THE AUTOMATIC COLLECTION, STACKING AND UNLOADING OF AGRICULTURAL BALES
GB2027668A (en) Bale Loader
US3610442A (en) Cable control for a bale wagon rolling rack
US4326828A (en) Bale wagons

Legal Events

Date Code Title Description
PCNP Patent ceased through non-payment of renewal fee