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Title:
CRAWLER VEHICLE DRIVE SYSTEM AND CRAWLER VEHICLE COMPRISING SUCH A DRIVE SYSTEM
Document Type and Number:
WIPO Patent Application WO/2015/132741
Kind Code:
A1
Abstract:
A crawler vehicle drive system, in particular for a crawler vehicle for grooming ski slopes, having: - a drive wheel (6) rotating about a first rotation axis (A1); - an idle wheel (7) rotating about a second rotation axis (A2) parallel to the first rotation axis (A1); and - a track (8) looped around the drive wheel (6) and the idle wheel (7), and comprising a plurality of belts (17, 18) made of an elastomeric material and a plurality of metal grousers (16) fixed to the belt (17, 18); wherein at least one belt (18) has at least one continuous toothed strip (19) extending along the inner face of the belt (18) and designed to mesh with the drive wheel (6).

Inventors:
KIRCHMAIR MARTIN (AT)
MAURER GREGOR (LU)
RUNGGALDIER MARTIN (IT)
Application Number:
PCT/IB2015/051584
Publication Date:
September 11, 2015
Filing Date:
March 04, 2015
Export Citation:
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Assignee:
SNOWGROLIC S A R L (LU)
International Classes:
B62D55/24; B62D55/27; B62D55/30
Domestic Patent References:
WO2014008370A12014-01-09
Foreign References:
US20130147262A12013-06-13
CA2430028A12004-11-28
US5899164A1999-05-04
JPH02286476A1990-11-26
US3754798A1973-08-28
GB2304395A1997-03-19
EP1279482A22003-01-29
IT1234428B1992-05-18
JPS6157474A1986-03-24
US20090195061A12009-08-06
US6264294B12001-07-24
US20070052292A12007-03-08
DE10320523A12004-11-18
EP2285651A12011-02-23
Attorney, Agent or Firm:
ECCETTO, Mauro et al. (Via Viotti 9, Torino, IT)
Download PDF:
Claims:
CLAIMS

1. A crawler vehicle drive system, in particular for a crawler vehicle for grooming ski slopes, the drive system (3) comprising:

- a drive wheel (6) rotating about a first rotation axis (Al);

- an idle wheel (7) rotating about a second rotation axis (A2) parallel to the first rotation axis (Al); and

- a track (8) looped around the drive wheel (6) and the idle wheel (7), and comprising a belt (18) made of an elastomeric material and a plurality of metal grousers (16) fixed to the belt (18); wherein the belt (18) has at least one continuous toothed strip (19) extending along the inner face of the belt (18) and designed to mesh with the drive wheel (6) .

2. A system as claimed in claim 1, wherein the belt (18) has a plurality of equally spaced teeth (22) along the continuous toothed strip (19); and the drive wheel (6) has openings (23), each designed to house a respective tooth (22) of the belt (18) .

3. A system as claimed in claim 2, wherein the drive wheel (6) comprises two tubular members (24) spaced apart along the first rotation axis (Al) and located on opposite sides of the continuous toothed strip (19); and bars (25) parallel to the first rotation axis (Al) to connect the tubular members (24) and thus define said openings (23) .

4. A system as claimed in any one of the foregoing claims, wherein said belt (18) has at least one continuous smooth strip (20) located along the inner face of the belt (18) .

5. A system as claimed in claim 4, wherein the drive wheel (6) is in contact with the belt (18) along the continuous smooth strip (20) .

6. A system as claimed in claim 4 or 5, wherein the idle wheel (7) is in contact with the belt (18) along the continuous smooth strip (20) . 7. A system as claimed in claim 6, wherein the idle wheel (7) comprises two further tubular members (26) spaced along the second rotation axis (A2) and designed to make contact with the belt (18) along two respective continuous smooth strips (20) located on opposite sides of the continuous toothed strip (19) .

8. A system as claimed in any one of claims 4 to 7, and comprising at least one supporting device (10) designed to discharge part of the mass of the crawler vehicle (1) to the ground via the track (8), and positioned in contact with the belt (18) along the continuous smooth strip (20) .

9. A system as claimed in claim 8, wherein the supporting device (10) comprises a plurality of rollers (11); and a structure (12) designed to support the rollers (11) and to push the rollers (11) against said belt (18) .

10. A system as claimed in claim 9, wherein the rollers (11) are arranged in two parallel rows, and each have a third rotation axis (A3) parallel to the first rotation axis (Al); each row of rollers (11) being designed to make contact with the belt (18) along a respective continuous smooth strip (20) .

11. A system as claimed in claim 9 or 10, wherein the structure (12) comprises an articulated mechanism (14) for adjusting the position of the rollers (11) with respect to the drive wheel ( 6 ) .

12. A system as claimed in claim 11, wherein the articulated mechanism (14) comprises at least one actuator for adjusting the position of the rollers (11) with respect to the drive wheel (6); the actuator preferably being hydraulic.

13. A crawler vehicle, in particular for grooming ski slopes, the crawler vehicle (1) comprising at least two drive systems (3), each as claimed in any one of the foregoing claims.

Description:
"CRAWLER VEHICLE DRIVE SYSTEM AND CRAWLER VEHICLE COMPRISING

SUCH A DRIVE SYSTEM" TECHNICAL FIELD

The present invention relates to a drive system for a crawler vehicle, in particular for a crawler vehicle for grooming ski slopes . BACKGROUND ART

In general, a drive system for a crawler vehicle of the above- indicated type comprises a drive wheel rotating about a first rotation axis; an idle wheel rotating about a second rotation axis parallel to the rotation axis; and a track, which is looped around the drive wheel and the idle wheel. The track comprises a plurality of belts made of an elastomeric material, and a plurality of transverse metal elements, fastened to the belts and uniformly distributed along the track. The drive wheel has sprockets and is designed to mesh with the transverse elements. A drive system of the above- indicated type is described in patent application DE 103 20 523 Al.

According to an alternative form described in patent application EP 2,285,651, the drive system comprises a chain connected to the transverse elements and the drive wheel is designed to mesh with the chain.

Drive systems for crawler vehicles of the above- indicated type provide secure, slip-free grip between drive wheel and track, but, especially at high speeds, generate vibrations that impair comfort and accelerate wear on the drive system.

DISCLOSURE OF INVENTION

The object of the present invention is to provide a drive system of the above-indicated type that does not have the drawbacks of the known art.

According to the present invention a drive system is provided for a crawler vehicle, in particular for a crawler vehicle for grooming ski slopes, the drive system comprising:

- a drive wheel rotating about a first rotation axis;

- an idle wheel rotating about a second rotation axis parallel to the first rotation axis;

- a track, which is looped around the drive wheel and the idle wheel, and comprises a belt made of an elastomeric material and a plurality of metal grousers fastened to the belt; wherein the belt has at least one continuous toothed strip that extends along the inner face of the belt and is designed to mesh with the drive wheel.

In this way, direct contact between rigid parts, such as the drive wheel and the grousers for example, does not take place. Instead, the mechanical contact for transmitting tractive force to the track takes place between the belt made of an elastomeric material and the drive wheel. In consequence, the continuous toothed strip absorbs and cushions possible shocks generated in transmitting drive from the drive wheel to the grousers and possible shocks transmitted from the grousers to the wheel.

In particular, the belt has a plurality of uniformly distributed teeth along the continuous toothed strip and the drive wheel has openings, each of which is designed to accommodate a respective tooth.

In this way, the drive wheel meshes with the belt. Preferably, the tooth is arranged in contact with the drive wheel along its sides.

In particular, the drive wheel comprises two tubular members spaced apart from each other along the first rotation axis and located on opposite sides of the continuous toothed strip; and bars parallel to the first rotation axis to connect the tubular members and so define said openings.

Transmission of drive effectively takes place between the sides of the teeth and the bars.

In particular, said belt has at least one continuous smooth strip positioned along the inner face of the belt.

The continuous smooth strip defines the guide area of the belt and the track. In particular, the drive wheel is positioned in contact with the belt along the continuous smooth strip.

In this way, the drive wheel is able to guide the belt and the track at the drive wheel without causing shock.

In particular, the idle wheel is positioned in contact with the belt along the continuous smooth strip.

Advantageously, the belt and the track are also guided at the idle wheel without causing shock.

In accordance with one embodiment of the present invention, the idle wheel comprises two further tubular members spaced along the second rotation axis and designed to be positioned in contact with the belt along two respective continuous smooth strips located on opposite sides of the continuous toothed strip.

This symmetrical configuration allows a precise and secure guide to be defined for the belt and the track. In particular, the drive system comprises at least one support device designed to discharge part of the mass of the crawler vehicle to the ground through the track and positioned in contact with the belt along the continuous smooth strip.

The mass of the vehicle is discharged onto the belt, which cushions possible shocks caused by the grousers passing under the support device. In accordance with one embodiment of the invention, the support device comprises a plurality of rollers and a structure designed to support the rollers and push them against said belt. In accordance with one embodiment of the present invention, the rollers are arranged in two parallel rows and each have a third rotation axis parallel to the first rotation axis, each row of rollers being designed to make contact with the belt along a respective continuous strip.

This configuration enables good distribution of the vehicle's mass on the track, or rather along a portion thereof.

A further object of the present invention is to provide a crawler vehicle that does not have the drawbacks of the known art .

In accordance with the present invention, a crawler vehicle is provided, in particular for grooming ski slopes, the crawler vehicle comprising at least two drive systems, each one as claimed in any one of claims 1 to 12.

BRIEF DESCRIPTION OF THE DRAWINGS

Other characteristic and advantages of the present invention will become clear from the description that follows and its non-limitative examples of embodiment, with reference to the accompanying figures, where:

- Figure 1 is a side elevation view, with parts removed for clarity, of a crawler vehicle equipped with a drive system made according to the present invention;

- Figure 2 is a side elevation view, on an enlarged scale with parts removed for clarity and parts in section, of a detail of Figure 1; and

- Figure 3 is a plan view, on an enlarged scale with parts removed for clarity, of the drive system in Figure 1.

BEST MODE FOR CARRYING OUT THE INVENTION

With reference to Figure 1, reference numeral 1 indicates, as a whole, a crawler vehicle for grooming ski slopes and designed to move in a forwards direction Dl . The crawler vehicle 1 comprises a frame 2; two drive systems 3 (only one shown in Figure 1 ) ; a cabin 4; and an engine 5. Each drive system 3 comprises a drive wheel 6; an idle wheel 7; and a track 8 looped around the drive wheel 6 and the idle wheel 7. Each drive wheel 6 corresponds to the rear wheel of the crawler vehicle 1, rotates about a rotation axis Al and is driven by a preferably hydraulic or electric actuator, not shown in the accompanying figures. Each idle wheel 7 corresponds to the front wheel of the crawler vehicle 1, rotates about a rotation axis A2 parallel to rotation axis Al, and is supported by the frame 2 in a selectively movable manner in both directions parallel to the forward direction Dl to provide opportune tensioning of the track 8 under all operating conditions.

The track 8 comprises an upper section and a lower section along which a traction portion 9 extends. In use, the traction portion is in contact with the ground to discharge the mass of the crawler vehicle 1 and the tractive force, transmitted by the engine 5 through a kinematic chain to the drive wheels 6. 2015/051584

6

Each drive system 3 comprises at least one support device 10, which has the function of discharging part of the mass of the crawler vehicle 1 on the respective track 8 and compressing the traction portion 9 against the ground. In the case shown, each drive system 3 comprises two support devices 10 aligned with each other in direction Dl and located between the drive wheel 6 and the idle wheel 7. Each support device 10 comprises a plurality of rollers 11 with a diameter significantly smaller than the diameter of the drive wheel 6; and a structure 12 designed to support the rollers 11 and to push the rollers 11 against the inner part of the track 8 and along the traction portion 9 of the track 8.

The rollers 11 each have a rotation axis A3 parallel to the rotation axis Al of the drive wheel 6. Rach roller 11 is mounted on the structure 12.

In accordance with one variant, each roller 11 is mounted on the structure 12 in an elastically yielding manner to allow the roller 11 to move in directions perpendicular to its rotation axis A3.

The structure 12 comprises at least one beam 13 for supporting the rollers 11 and an articulated mechanism 14 for connecting the beam 13 to the frame 2 of the crawler vehicle 1. The articulated mechanism 14 comprises an articulated quadrilateral formed by the beam 13, the frame 2 and by at least two arms 15, hinged to the beam 13 and the frame 2.

The structure 12 comprises at least one actuator to adjust the position of the rollers 11 with respect to the frame 2. In particular, in the case shown, the arms 15 are defined by linear hydraulic actuators.

With reference to Figure 3, each track 8 comprises a plurality of grousers 16 and belts 17 and 18, which are made of an elastomeric material, form a closed loop and support the grousers 16.

Belt 18 is designed to cooperate with the drive wheel 6, the idle wheel 7 and the support devices 10. In the case in point, belt 18 is located in a central position and has an inner face with a continuous toothed strip 19 and two continuous smooth strips 20 located on opposite sides of the continuous toothed strip 19. Belts 17 located on opposite sides of belt 18 only have the function of connecting the grousers 16 between them. The number of belts 17 depends on the length of the grousers 16.

Each grouser 16 is connected to belts 17 and 18 by plates 21 bolted onto the grousers 16. In practice, the plates 21 are fixed to the grousers 16 to sandwich part of belts 17 and belt 18 between the plates 21 and the grousers 16.

Belt 18 has a series of teeth 22 uniformly distributed along the continuous toothed strip 19 in the forward direction Dl . In the case in point, the teeth 22 are parallelepipedal.

Each drive wheel 6 has openings 23, each of which is designed to accommodate a respective tooth 22. In the case shown, each drive wheel 6 comprises two tubular members 24 spaced along rotation axis Al and bars 25, parallel to rotation axis Al and joined by the tubular members 24 at their opposite ends. In this way, the tubular members 24 and the bars 25 define the openings 23, which are shaped like windows, while the bars 25 transmit the tractive force to the sides of the teeth 22 (Figure 2) . The support device 10 has two parallel rows of rollers 11 positioned on the continuous smooth strips 20 such that the rollers 11 are placed in contact with belt 18 along the continuous smooth strips 20.

With reference to Figure 2, the idle wheel 7 is placed in contact with belt 18 along the continuous smooth strips 20. With reference to Figure 3, the idle wheel 7 comprises two tubular members 26 axially spaced apart from each other and designed to be placed in contact with the continuous smooth strips 20. In particular, the two tubular members 26 are connected to each other by a further tubular member 27 having a diameter smaller than the diameter of tubular members 26 and, in any case, such that the connection does not interfere with the teeth 22.

In use, and with reference to Figure 1, the support devices 10 distribute the mass of the crawler vehicle 1 along the traction portions 9 of the tracks 8 and cushion shocks by means of the articulated mechanisms 14.

With reference to Figure 3, the rollers 11 of the support devices 10 are placed in contact with belt 18 along the continuous smooth strips 20 of the belt 18.

Motion of the crawler vehicle 1 is caused by the meshing between the drive wheels 6 and belt 18. In particular, the drive wheel 6 meshes with belt 18 along the continuous toothed strip 19. The teeth 22, like belt 18, are made of an elastomeric material and are therefore ideal for minimizing shocks . The drive wheel 6 and the idle wheel 7 are placed in contact with the continuous smooth strips 20 along respective tubular portions 24 and 26.

The scope of the present invention is defined by the claims, which cover variants that are not explicitly described and equivalent embodiments.

For example, the rollers could also be large ones because they act on a belt made of an elastomeric material and are not directly in contact with the grousers.

In the example described, two continuous smooth strips located on opposite sides of a toothed strip are provided, although the present invention may naturally include different variants such as, for example, the use of a belt with only one continuous smooth strip and only one toothed strip or a belt with only one continuous smooth strip and two continuous toothed strips designed to mesh with the drive wheel.