A work vehicle includes an engine mounted to a vehicle body frame. A cooling fan unit is arranged on one side of the engine. A coolant fluid radiator is arranged on an opposite side of the cooling fan unit. A cooling unit is arranged on an opposite side of the coolant fluid radiator. A link mechanis
A work vehicle includes an engine mounted to a vehicle body frame. A cooling fan unit is arranged on one side of the engine. A coolant fluid radiator is arranged on an opposite side of the cooling fan unit. A cooling unit is arranged on an opposite side of the coolant fluid radiator. A link mechanism connects the cooling unit such that a distance between the cooling unit and the coolant fluid radiator can be changed. The link mechanism can utilize a four-link mechanism having a pair of upper links and a pair of lower links.
대표청구항▼
1. A work vehicle comprising: a vehicle body frame;an engine mounted to the vehicle body frame;a cooling fan unit provided on one side of the engine;a coolant fluid radiator provided on an opposite side of the cooling fan unit;a cooling unit comprising at least a first cooler provided on a side of t
1. A work vehicle comprising: a vehicle body frame;an engine mounted to the vehicle body frame;a cooling fan unit provided on one side of the engine;a coolant fluid radiator provided on an opposite side of the cooling fan unit;a cooling unit comprising at least a first cooler provided on a side of the coolant fluid radiator opposite a side facing the cooling fan unit; anda link mechanism connected to the cooling unit and being structured and arranged to allow a distance between the cooling unit and the coolant fluid radiator to be changed;the link mechanism comprising a four-link mechanism that comprises a left upper link member, a right upper link member, a left lower link member, and a right lower link member;the left upper link member being pivotally connected at a first support point on an upper portion of the coolant fluid radiator and being pivotally connected at a second support point of the first cooler;the right upper link member being pivotally connected at a third support point on the upper portion of the cooling fluid radiator and being pivotally connected at a fourth support point of the first cooler;the left lower link member being pivotally connected at a fifth support point on the upper portion of the cooling fluid radiator and being pivotally connected at a sixth support point of the first cooler; andthe right lower link member being pivotally connected at a seventh support point on the upper portion of the coolant fluid radiator and being pivotally connected at an eighth support point of the first cooler. 2. The work vehicle according to claim 1, wherein the cooling unit is arranged in front of the coolant fluid radiator and the engine in a front of the vehicle body frame. 3. The work vehicle according to claim 1, wherein the link mechanism is connected to opposite lateral sides of the coolant fluid radiator and to opposite lateral sides of the cooling unit. 4. The work vehicle according to claim 1, wherein: the cooling unit further comprises a second cooler;the link mechanism connects the first cooler to the coolant fluid radiator; anda connecting unit connects a bottom end of the first cooler to an upper end of the second cooler. 5. The work vehicle according to claim 4, wherein the connecting unit swingably suspends the second cooler from the first cooler about a swing axis. 6. The work vehicle according to claim 5, wherein the swing axis is transverse to a front to back axis of the vehicle body frame. 7. The work vehicle according to claim 5, wherein the cooling unit further comprises a third cooler disposed on a side of the second cooler that is opposite a side facing the coolant fluid radiator, and said third cooler is connected to a bottom end of the first cooler. 8. The work vehicle according to claim 4, wherein the cooling unit further comprises a third cooler disposed on a side of the second cooler that is opposite a side facing the coolant fluid radiator, and said third cooler is connected to a bottom end of the first cooler. 9. The work vehicle according to claim 4, wherein: the left upper link member comprises a first end connected to a first portion of a left side of the first cooler and a second end connected to a first portion of a left side of the coolant fluid radiator;the right upper link member comprises a first end connected to a first portion of a right side of the first cooler and a second end connected to a first portion of a right side of the coolant fluid radiator;the left lower link member comprises a first end connected to a second portion of the left side of the first cooler and a second end connected to a second portion of the left side of the coolant fluid radiator;the right lower link member comprises a first end connected to a second portion of the right side of the first cooler and a second end connected to a second portion of the right side of the coolant fluid radiator. 10. The work vehicle according to claim 4, wherein a distance between the first support point and the fifth support point is less than a distance between the second support point and the sixth support point; and wherein a distance between the third support point and the seventh support point is less than a distance between the fourth support point and the eighth support point. 11. The work vehicle according to claim 4, wherein a distance between the first support point and the second support point is less than the distance between the fifth support point and the sixth support point; and wherein a distance between the third support point and the fourth support point is less than a distance between the seventh support point and the eighth support point. 12. The work vehicle according to claim 1, wherein: the left upper link member comprises a first end connected to a first portion of a left side of the first cooler and a second end connected to a first portion of a left side of the coolant fluid radiator;the right upper link member comprises a first end connected to a first portion of a right side of the first cooler and a second end connected to a first portion of a right side of the coolant fluid radiator;the left lower link member comprises a first end connected to a second portion of the left side of the first cooler and a second end connected to a second portion of the left side of the coolant fluid radiator;the right lower link member comprises a first end connected to a second portion of the right side of the first cooler and a second end connected to a second portion of the right side of the coolant fluid radiator. 13. The work vehicle according to claim 1, wherein a distance between the first support point and the fifth support point is less than a distance between the second support point and the sixth support point; and wherein a distance between the third support point and the seventh support point is less than a distance between the fourth support point and the eighth support point. 14. The work vehicle according to claim 1, wherein a distance between the first support point and the second support point is less than the distance between the fifth support point and the sixth support point; and wherein a distance between the third support point and the fourth support point is less than a distance between the seventh support point and the eighth support point. 15. The work vehicle according to claim 1, wherein the distance between the cooling unit and the coolant fluid radiator is a distance in an anteroposterior direction. 16. The work vehicle according to claim 15, further comprising a vertical gap beneath a lower end of the cooling unit and an upwardly facing surface of the work vehicle. 17. The work vehicle according to claim 16, wherein the upwardly facing surface of the work vehicle is an upwardly facing surface of a fixed base plate of the vehicle body frame. 18. The work vehicle according to claim 17, wherein the coolant fluid radiator is supported on the fixed base plate. 19. The work vehicle according to claim 16, wherein: the cooling unit is configured to be changed between an upright posture and a swing posture by means of the link mechanism; andin the swing posture, the vertical gap is increased in relation to the vertical gap in the upright posture. 20. The work vehicle according to claim 1, wherein: each of the link members has a length between a respective pair of the support points; andnone of the link members is articulated along its length between a respective pair of the support points. 21. A work vehicle comprising: a vehicle body frame;an engine mounted to the vehicle body frame;a cooling fan unit;a coolant fluid radiator;a cooling unit arranged on a side of the coolant fluid radiator opposite a side facing the cooling fan unit;the cooling unit comprising upper cooling unit and a lower cooling unit pivotally connected to, and suspended from for gravity controlled free movement in relation to, the upper cooling unit; anda link mechanism having ends connected to the upper cooling unit to allow the upper cooling unit to move, in relation to the coolant fluid radiator, between a first position and a second position,wherein, in the first position, both the upper and lower cooling units are oriented in an upright posture; andwherein, in the second position, the upper cooling unit is oriented in a posture angled away from the coolant fluid radiator and the lower cooling unit is oriented in an upright posture, thereby increasing a distance of the lower cooling unit from the coolant fluid radiator in the second position in relation to a distance in the first position. 22. A work vehicle comprising: a vehicle body frame;an engine mounted to the vehicle body frame;a cooling fan unit provided on one side of the engine;a coolant fluid radiator provided on an opposite side of the cooling fan unit;a cooling unit provided on a side of the coolant fluid radiator opposite a side facing the cooling fan unit; anda link mechanism connected to the cooling unit and being structured and arranged to allow a distance between the cooling unit and the coolant fluid radiator to be changed;the link mechanism comprising a four-link mechanism that comprises a left upper link member, a right upper link member, a left lower link member, and a right lower link member;the left upper link member being pivotally connected at a first support point at an upper portion of the coolant fluid radiator and being pivotally connected at a second support point at the cooling unit;the right upper link member being pivotally connected at a third support point at the upper portion of the coolant fluid radiator and being pivotally connected at a fourth support point at the cooling unit;the left lower link member being pivotally connected at a fifth support point at the upper portion of the cooling fluid radiator and being pivotally connected at a sixth support point at the cooling unit; andthe right lower link member being pivotally connected at a seventh support point at the upper portion of the coolant fluid radiator and being pivotally connected at an eighth support point at the cooling unit; andeach of the link members having a length between a respective pair of the support points; andnone of the link members is articulated along its length between a respective pair of the support points.
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이 특허에 인용된 특허 (31)
Bagnall, Ralph S.; Helm, William N., Agricultural harvester heat exchanger.
Burris Andrew ; Gaines H. Patrick ; Graham Timothy P. ; Griffith Jeffrey J. ; Naugle Richard A. ; Waitt Reid W., Cooling system for a skid steer loader.
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