DE3838754A1 - GEARBOX DESIGN FOR A WORK VEHICLE WITHOUT A DRIVER SEAT - Google Patents

Abstract

A transmission construction for a pedestrian-operated type work vehicle having an engine (E) at a front of vehicle body and a transmission rearwardly of the engine. An engine output shaft (4) and a transmission input shaft (7) are projected laterally from the vehicle body and interconnected via a belt type stepless transmission. A change speed operational member (14) of the transmission is disposed within a vehicle front limit defined by an engine cover (21) and a vehicle side limit defined by a belt cover (20). Also, a belt support wheel (11) is interposed in the belt transmission. Consequently, the transmission construction is formed compact yet capable of providing a wide speed range. There is also preferably an automatic tensioning wheel (10). <IMAGE>

Description

For the present application, the priority is yes panicked utility model application 62-1 75 657 from 17th No vember 1987 and Japanese Patent Application 62-2 91 446 of November 18, 1987.

The invention relates to a gearbox construction for a Work vehicle without a driver's seat, in which the engine is arranged at the front end of the vehicle, one from Engine-removing output shaft is on the side of the vehicle body extends and an input shaft of the gearbox housing for the chassis on the side of the vehicle body and is located on the back of the engine.

A work vehicle without a driver's seat of the aforementioned type is for example from the Japanese utility model known 57-47 421. This vehicle has a Rie men travel gear with a variety of transmission belts men around the engine output shaft and a gearbox gear shaft are wound around or guided around, that each belt for a different gear ratio worries. In addition, a variety of idlers provided that are assigned to the respective belts and can optionally be brought into engagement with them, so that the desired gear ratio is established becomes. The gearbox also serves as a speed change Facility.

But since in the construction described above Speed change in stages is a fine thing regulation of the speed hardly possible. Come in addition, that for a desired expansion of the adjustable Ge speed range a larger number of transmissions  belt is necessary, which of course the axial Ab measurements of the engine output shaft or transmission input shaft unfavorably enlarge le.

The invention has for its object a transmission construction of the type mentioned at possible compact training while improving the Safety of the transmission for a wide speed range and beyond as finely adjustable To design the speed change device.

This task is performed on an item according to the Oberbe handle of claim 1 according to the invention by its characteristics drawing features solved.

For this purpose, a transmission construction according to the invention is for a work vehicle without a driver's seat designed with a Engine located at the front end of the vehicle body net and is provided with a cover; one on the side engine output shaft discharging from the vehicle body; a gearbox on the back of the engine, its input shaft in the same direction as the motor leads output shaft laterally from the vehicle body; a split belt drive attached to the motor shaft disc; one attached to the transmission input shaft non-split driven pulley; an over Carrying strap used to transfer power from the engine the transmission between the driving and driven Pulley arranged and with a belt cover is provided; and an actuator for adjustment noticeable change in the wrap diameter of the belt drive pulley relative to the transmission belt, wherein this actuator in front of the belt cover and on the back of the front end of the engine cover  arranged and starting from the lateral outer end the belt cover towards the vehicle body is offset to the rear on the side of the engine output shaft.

By manipulating the actuating element the wrap diameter of the belt relative to the Mo output shaft vary, causing the Transmission ratio between engine output shaft and Transmission input shaft is changed. That is called the Rie gearbox construction between engine and gearbox works at the same time as a speed change device.

If this setting of the wrap diameter in the number of steps the transmission belt while increasing the Speed levels or when performing a level loose speed change can be reduced.

Because the actuator for speed change both from the front end of the engine cover as well from the side outer end of the belt cover is offset at the back, the risk of un intended and dangerous contact between them Element and plants or stalks of wheat that are on Edge.

According to the invention, a gearbox construction is therefore used Provided at which while maintaining the known advantages of a speed as well Belt changing device serving for Compactness is taken care of, that is, the axial dimensions against the engine output shaft and transmission input shaft be enlarged, because the fine adjustment over a larger speed range only with a small NEN movement of the split pulley is achieved.  

The position of the actuator leads over it in addition to more safety during operation or during repairs safeguarding the work vehicle because there is just the danger of Contact with any objects that arise are on the edge, largely turned off.

According to a preferred embodiment of the invention, he follows the adjustment or change of the wrap diameter through the actuator via a automatic tensioning roller for pretensioning the transfer belt. Between the split pulley and the automatic tensioning roller or between the automati tensioner and the undivided pulley a belt support roller is provided, which the transfer belt in one of the pretension direction of the automatic tensioning roller in the opposite direction takes.

In the prior art, the setting or change Change the belt length for the speed change solely by the tension pulley in the belt section between caused the pulleys. In the present Er In contrast, the length adjustment or Ver takes place Change for this purpose in the section between each that of the pulleys and the belt support roller. The is called the length of the belt section through the auto the mechanical tensioning roller must be adjusted by swiveling becomes shorter by the length of that between the straps support roller and each pulley without lying in between de automatic tensioner corresponds. The result is the possibility of controlling a longer belt section despite the relatively short actuation distance of the Idler pulley.  

The belt support roller makes it possible to adjust bare length of the belt relative to the actuation path the automatic tensioner. If now Tensioning roller to pretension the belt loop inwards, so the adjustable speed range, that is the actuation path of the actuating element be enlarged with more certainty because of the contact between the driving belt section and the returning belt section is avoided. If the The tensioner, however, pretensions the belt loop to the outside the adjustable speed limit rich also be enlarged during the supernatant the belt to the outside is minimized. The above be written training thus contributes to compactness and a wide speed range of the gear construction tion at.

Other features and advantageous embodiments of the Invention are characterized in the subclaims.

A preferred embodiment follows form of the invention with reference to the drawings.

It shows:

Figure 1 is a side view of a work vehicle without a driver's seat for agricultural purposes.

Fig. 2 is a partial sectional view of a speed changing device;

Fig. 3 is a side view of the speed change device.

The tillage vehicle shown in FIG. 1 without a driver's seat has a vehicle body with a mobile pair of wheels 1 , a motor E arranged in the front region of the vehicle body, a steering handle 2 arranged in the rear region of the vehicle body, for switching its orientation forwards or backwards a vertical axis P is pivotable, and an attachment 3 , which is used for connecting various tools, for example a rotary plow.

In FIGS. 2 and 3, a split pulley 5 is provided as a drive pulley at a laterally connected to the motor and discharging from the vehicle body output shaft 4 is fixed and rotatably together with the motor. An undivided pulley 9 is fastened as a driven pulley to a transmission input shaft 7 , which extends from a transmission housing arranged on the rear of the motor and leads away from the vehicle body in the lateral direction, and is rotatable together with the shaft 7 . The non-split pulley 9 also serves as a clutch body which has a multi-plate clutch as the main clutch 8 . A transmission belt 12 is around the pulleys 5 and 9 , an automatic tensioning pulley 10 and a belt support pulley 11 or looped around. In operation, the wrap diameter of the belt is set relative to the pulley 5 for the purpose of performing a speed change or changed by manipulating a speed change actuator 14 which is attached via a bracket 13 to the engine E. This overall construction forms a stepless belt speed change device as a travel speed auxiliary change device.

The actuating element 14 for changing the speed is fastened to the holder 13 in such a way that it can be rotated relative to the latter. For this purpose, the element 14 is functionally connected to a pulley actuating arm 17 , namely via a connecting element 15 , which is screwed to one end of a threaded shaft section 14 a , and a pivot member 16 . In operation is caused by a rotary actuation of the element 14 that the connecting element 15 screws along the axis of rotation of the element 14 and thereby rotates a rotatable support shaft 18 of the pulley actuating arm 17 . The arm 17 then moves by means of a spring 19 a bewegli chen pulley portion 5 a at its axis of rotation along closer to a fixed pulley portion 5 a zoom but further from or away from it.

As for the location arrangement of the above-mentioned actuating element 14 for the speed change, this is arranged for safety reasons before the cover of the transmission belt 12 and the pulleys 5 and 9 . In addition, the actuator 14 is as well from the front end of the engine cover 21 in Rich direction to the rear of the vehicle body and from the outer side end of the belt cover 20 to the rear, thereby avoiding that the element 14 in any way over the Vehicle body protrudes and accidentally comes into dangerous contact with any surrounding objects.

As shown in FIGS. 2 and 3, is a Befestigungsele element 22 for a pointer mark on the Verbindungsele element 15 is fixed, in such a way that it is movable together with the SEM. The fastening element 22 has a window through which a pointer attached to the element 22 can be viewed. The bracket 13 is provided with a speed display panel 24 , which has the letters a , b and c for the identification of the speed. The aforementioned elements together form a speed display device for the continuously variable belt speed change device. In operation, the pointer 22 a moves with a rotary actuation of the element 14 for the speed change within the window and points to the letters a , b and c corresponding to the set speed.

The following is an adjustment mechanism for the straps length described.

The belt support roller 11 is fixedly mounted on a holder 30 , on a support shaft 31 and a fastening bolt 32 , so that their position cannot change. The roller 11 serves to receive and support the inner loop of the transmission belt 12 between the automatic tensioning roller 10 and the undivided driven pulley 9 . The automatic tensioning roller 10 is fastened via a swivel arm 33 and the support shaft 31 to the gear housing 6 in such a way that it can be swiveled on an axis of the shaft 31 . Furthermore, the tension roll 10 is pivotally biased by a tension spring 34 which acts on the support swivel arm 33 such that the loop of the transmission belt 12 is pressed inward and tensioned. That is, the auto matic caster 10 can be pivoted so that it tightens the belt section between the supports, that is, between the split pulley 5 and the belt support roll 11 than the entire drive belt section, which he stretches between the pulleys 5 and 9 , which means that a longer belt length is set for the relatively short distance. The tension roller 10 also causes the automatic adjustment of the tension by tensile stress on the belt 12 towards the inside of the loop with a reduction in the wrap diameter of the split pulley 5th

According to an alternative embodiment, it is also possible to design the belt support roller 11 so that it is effective between the divided pulley 5 and the automatic tensioning roller 10 .

The belt supporting roll 11 may be found in a constructive Getriebekon tion application in which the automatic tensioning roller 10 to transfer belt 12 outwardly biases tung in Rich on its loop outside. Here the roller 11 must then be arranged so that it receives the outer loop side of the belt 12 .

Although the present invention is based on a work vehicle for agricultural purposes has been described de, it is in its reproduced in the claims Frame also on other work vehicles such as planters nen, Kobinier-, binding and transport machines applicable.

Claims (5)

1. gearbox construction for a work vehicle without a driver's seat, with a arranged in the front region of the vehicle body and with a motor cover ( 21 ) provided motor ( E ), the output shaft ( 4 ) of which leads away from the vehicle body; with a rear of the motor ( E ) arranged transmission, the input shaft ( 7 ) in the same direction as the motor output shaft leads laterally from the vehicle body; with a drive belt pulley ( 5 ) which is attached to the motor output shaft ( 4 ) and is designed as a split pulley; with a driven pulley ( 9 ) which is attached to the gearbox input shaft ( 7 ) and is designed as a non-split belt pulley; between the drive pulley (5) and the driven pulley (9) wound and is set for the power transmission between engine and gearbox and provided with a belt cover (20) with a transmission belt (12); and with an actuating element ( 14 ) for variably adjusting the wrap diameter of the drive pulley ( 5 ) relative to the transmission belt ( 12 ), characterized in that the actuating element ( 14 ) in front of the belt cover ( 20 ) and at the rear of a front end the engine cover ( 21 ) is arranged and also from a side outer end of the belt cover toward the vehicle body by on the side of the engine output shaft is set to the rear. 2. Gear construction according to claim 1, characterized in that the actuating element ( 14 ) is rotatable, but is stationary with respect to its position in the axial direction and is designed such that it moves a connecting element ( 15 ). 3. Gearbox construction according to claim 1, characterized by an automatic tensioning roller ( 10 ) for pretensioning and applying tension to the transmission belt ( 12 ) and by a belt support roller ( 11 ) between the drive pulley ( 5 ) and the automatic tensioning roller ( 10 ) is attached and for receiving the transmission belt ( 12 ) in one of the before tension direction of the automatic tensioning roller ( 10 ) ent serves the opposite direction. 4. Gearbox construction according to claim 1, characterized by an automatic tensioning roller ( 10 ) for pretensioning to apply tension to the transmission belt ( 12 ) and by a belt support roller ( 11 ) which is fixed between the automatic tensioning roller ( 10 ) and the driven pulley ( 9 ) is and for receiving the transmission belt ( 12 ) in one of the belt pre-tension direction of the automatic tensioning roller ( 10 ) serves ent opposite direction. 5. Gear construction according to one of claims 3 or 4, characterized in that the automatic tensioning roller ( 10 ) for the pretensioning of the transmission belt ( 12 ) is designed in the direction of the inside of the belt loop.