A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground

A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground

The Long Tracked Bogie with contact area dependent on bearing capacity was compared to a conventional bogie. Two unloaded Vimek 608 forwarders with different bogies and with the traction from the front wheel removed were compared. Two high obstacles, 0.1 and 0.2 m high, respectively and 0.15 m in wi...

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Bibliographic Details
Main Authors: Jeanette Edlund, Urban Bergsten, Hans Arvidsson
Format: Article
Language:English
Published: Finnish Society of Forest Science 2013-10-01
Series:Silva Fennica
Subjects:
ground damages
soft ground
traction force
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spelling doaj-0f24d834505a45ba9958660cdb4085972020-11-25T02:38:11ZengFinnish Society of Forest ScienceSilva Fennica2242-40752242-40752013-10-0147310.14214/sf.1017A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm groundJeanette Edlund0Urban Bergsten1Hans Arvidsson2Sveaskog AB, SE-941 86 Piteå, SwedenSwedish University of Agricultural Sciences, Department of Silviculture, SE-901 83 Umeå, SwedenSMP Umeå, SE-904 03 Umeå, SwedenThe Long Tracked Bogie with contact area dependent on bearing capacity was compared to a conventional bogie. Two unloaded Vimek 608 forwarders with different bogies and with the traction from the front wheel removed were compared. Two high obstacles, 0.1 and 0.2 m high, respectively and 0.15 m in width, and two deep obstacles/ditches with a depth of 0.2 m and a width 1 and 1.5 m were used for tests. Towing tests on flat ground were done by connecting the machines to each other with a load cell in between. There were no or small differences in acceleration when passing obstacles between the two types of bogie. LTB passed wider ditches/cavities with lower pitch angles (one bogie/side passing) and 0.2 m obstacles with higher roll angles than a conventional bogie. On firm ground, free rolling resistance of the LTB was about 60% of the resistance of the conventional bogie. The drawbar pull force for the LTB was indicated to be a few percentage units higher than for the conventional bogie when it was driving with a towed machine acting as a braking force. The LTB principle might yield opportunities to improve the way we construct bogies for forest machines. Even if the contact area is low on firm ground when the machine is running with low load, it increases when higher traction force is needed and on softer soil. Further field tests are needed to evaluate the LTB when used on soft ground and with higher load as well.ground damagessoft groundtraction force
collection DOAJ
language English
format Article
sources DOAJ
author Jeanette Edlund
Urban Bergsten
Hans Arvidsson
spellingShingle Jeanette Edlund
Urban Bergsten
Hans Arvidsson
A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground
Silva Fennica
ground damages
soft ground
traction force
author_facet Jeanette Edlund
Urban Bergsten
Hans Arvidsson
author_sort Jeanette Edlund
title A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground
title_short A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground
title_full A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground
title_fullStr A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground
title_full_unstemmed A forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground
title_sort forest machine bogie with a bearing capacity dependent contact area: acceleration and angular orientation when passing obstacles and drawbar pull force and free rolling resistance on firm ground
publisher Finnish Society of Forest Science
series Silva Fennica
issn 2242-4075
2242-4075
publishDate 2013-10-01
description The Long Tracked Bogie with contact area dependent on bearing capacity was compared to a conventional bogie. Two unloaded Vimek 608 forwarders with different bogies and with the traction from the front wheel removed were compared. Two high obstacles, 0.1 and 0.2 m high, respectively and 0.15 m in width, and two deep obstacles/ditches with a depth of 0.2 m and a width 1 and 1.5 m were used for tests. Towing tests on flat ground were done by connecting the machines to each other with a load cell in between. There were no or small differences in acceleration when passing obstacles between the two types of bogie. LTB passed wider ditches/cavities with lower pitch angles (one bogie/side passing) and 0.2 m obstacles with higher roll angles than a conventional bogie. On firm ground, free rolling resistance of the LTB was about 60% of the resistance of the conventional bogie. The drawbar pull force for the LTB was indicated to be a few percentage units higher than for the conventional bogie when it was driving with a towed machine acting as a braking force. The LTB principle might yield opportunities to improve the way we construct bogies for forest machines. Even if the contact area is low on firm ground when the machine is running with low load, it increases when higher traction force is needed and on softer soil. Further field tests are needed to evaluate the LTB when used on soft ground and with higher load as well.
topic ground damages
soft ground
traction force
work_keys_str_mv AT jeanetteedlund aforestmachinebogiewithabearingcapacitydependentcontactareaaccelerationandangularorientationwhenpassingobstaclesanddrawbarpullforceandfreerollingresistanceonfirmground
AT urbanbergsten aforestmachinebogiewithabearingcapacitydependentcontactareaaccelerationandangularorientationwhenpassingobstaclesanddrawbarpullforceandfreerollingresistanceonfirmground
AT hansarvidsson aforestmachinebogiewithabearingcapacitydependentcontactareaaccelerationandangularorientationwhenpassingobstaclesanddrawbarpullforceandfreerollingresistanceonfirmground
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AT urbanbergsten forestmachinebogiewithabearingcapacitydependentcontactareaaccelerationandangularorientationwhenpassingobstaclesanddrawbarpullforceandfreerollingresistanceonfirmground
AT hansarvidsson forestmachinebogiewithabearingcapacitydependentcontactareaaccelerationandangularorientationwhenpassingobstaclesanddrawbarpullforceandfreerollingresistanceonfirmground
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