CA2669261C - Plow wing blade - Google Patents
Plow wing blade Download PDFInfo
- Publication number
- CA2669261C CA2669261C CA 2669261 CA2669261A CA2669261C CA 2669261 C CA2669261 C CA 2669261C CA 2669261 CA2669261 CA 2669261 CA 2669261 A CA2669261 A CA 2669261A CA 2669261 C CA2669261 C CA 2669261C
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- blade
- wing
- plow
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- center blade
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Abstract
A plow, including a center blade and a wing blade coupled to each end of the center blade. Each wing blade is pivotally connected to the center blade about an axis. The plow includes a first pair of wear strips, with one wear strip coupled to the first end of the center blade and the other wear strip coupled to one wing blade. A second pair of wear strips is included, with one wear strip coupled to the second end of the center blade and the other wear strip coupled to the other wing blade. A wing pivot tube is coupled to the wing blades and center blade at each end of the center blade. The wing blade, wear strips, and wing pivot tube at each end of the center blade minimize a gap between the blades throughout the range of movement of each wing blade.
Description
. 'I CA 02669261 2014-03-18 , PLOW WING BLADE
BACKGROUND OF THE INVENTION
BACKGROUND OF THE INVENTION
[0002] Field of the Invention¨The present invention relates generally to material handling equipment, and more particularly to a plow with a hitch mechanism configured to be easily and quickly coupled to a vehicle and the plow including independently moveable wings, including an interface structure between a center plow blade and each wing blade.
[0003] It is known that plows, for example snow plows, are bolted to supports which are typically welded to the chassis of a vehicle, for example a = truck. It is also known that a plow support can be bolted to the chassis of a vehicle.
Since plows typically weigh hundreds of pounds, positioning the plow for attachment to the vehicle can be difficult.
It is particularly difficult to maneuver a snow plow in the cold and snow of winter.
Since plows typically weigh hundreds of pounds, positioning the plow for attachment to the vehicle can be difficult.
It is particularly difficult to maneuver a snow plow in the cold and snow of winter.
(0004] It is also known to provide a plow with wings.
Typically, the wings move in a horizontal direction to extend the width of the plow working width. It is also known to provide a plow wings that move in response to a pivoting movement of the central plow. In some cases the movement of the wing is facilitated by linkage 'such as cables, coupled to the wing and central plow such that that the wing moves in response to the central plow movement.
Typically, the wings move in a horizontal direction to extend the width of the plow working width. It is also known to provide a plow wings that move in response to a pivoting movement of the central plow. In some cases the movement of the wing is facilitated by linkage 'such as cables, coupled to the wing and central plow such that that the wing moves in response to the central plow movement.
(0005]
Accordingly, it is desirable to provide a plow hitch mounting mechanism which is easy to maintain and that the process of connecting and disconnecting the plow to or from the vehicle is simple and easy to use by one person without assistance. It is also desirable to provide a plow including wings that move independently of the main or central plow.
(00061 The apparatus of the present disclosure must also be of construction which is both durable and long lasting, and it should also require little or no maintenance to be provided by the user throughout its operating lifetime. In order to enhance the market appeal of the apparatus of the present disclosure, it should also be of inexpensive construction to thereby afford it the broadest possible market. Finally, all of the aforesaid advantages should be achieved without incurring any substantial relative disadvantage.
REINHA1T\2698037JAW:KAB 04/07/09 3 SUMMARY OF THE INVENTION
[0007] The disadvantages and limitations of the background art discussed above are overcome by the present invention.
[0008] There is provided a plow, including a center blade having a first end and a second end, and a wing blade coupled to each end of the center blade. Each wing blade is pivotally connected to the center blade about an axis and moveable through a range of movement. The plow includes a first pair of wear strips, with one wear strip coupled to the first end of the center blade and the other wear strip coupled to one wing blade. The plow also includes a second pair of wear strips, with one wear strip coupled to the second end of the center blade and the other wear strip coupled to the other wing blade. A wing pivot tube is coupled to one of the wing blades and center blade at each end of the center blade about the axis. The orientation of the wing blade, wear strips, and wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade. The plow may also include an angled portion defined in each wear strip of the first and second pair of wear strips, wherein the angled portion of the wear strips on the center blade and the angled portion of the wear strip on each of the wing blades, align with the respective axis at each end of the center blade.
The plow may also include a convex bulge defined at each end of the center blade in a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct material away from the wing pivot tubes.
[0008a] A
further aspect of the aforementioned invention of the plow is each wearstrip of the aforementioned first pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade.
Further, each wearstrip of the aforementioned second pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade.
[0008b] A
further aspect of the aforementioned invention of the plow is each angled portion of the aforementioned pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
[0009] There is further provided a snow plow including a hitch frame nose assembly configured to couple to a vehicle. A plow frame is coupled to the hitch frame.
A center blade, having a first end and a second end is configured to couple with a wing blade at each end of the center blade. Each wing blade is pivotally connected to the center blade about an axis and moveable through a range of movement. The snow plow also includes a first pair of wear strips, with one wear strip coupled to the first end of the center blade and the other wear strip coupled to one 4a wing blade. There is also provided a second pair of wear strips, with one wear strip coupled to the second end of the center blade and the other wear strip coupled to the other wing blade. A wing pivot tube is coupled to one of the wing blades and center blade at each end of the center blade about the axis. The orientation of the wing blade, wear strips, and wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade. The snow plow may also include an angled portion defined in each wear strip of the first and second pair of wear strips, wherein the angled portion of the wear strips on the center blade and the angled portion of the wear strip on each of the wing blades align with the respective axis at each end of the center blade. The snow plow may also include a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct snow away from the wing pivot tubes.
[0009a] A
further aspect of the aforementioned invention of the snow plow is each wearstrip of the aforementioned first pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade.
Further, each wearstrip of the aforementioned second pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade.
[0009b] Yet a further aspect of the aforementioned invention of the snow plow is each angled portion of the aforementioned pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
[0010] There is also provided a plow, including a center blade having a first end and a second end, and a wing blade coupled to each end of the center blade, with each wing blade pivotally connected to the center blade about an axis and moveable through a range of movement.
The plow includes a wear strip coupled proximate one end of the center blade, with the wear strip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis. Another wear strip is coupled proximate one end of the wing blade, the wear strip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis. The two angled portion edges are further aligned adjacent to each other through the range of movement of the wing blade relative to the center blade. When the center blade and the wing blade of the plow are aligned horizontally in a straight line, the angled portions of the two wear strips are configured to define a right angle with at least one corner of each angled portion edge at the axis.
[0011] There is also provided a plow including a quick connect/disconnect hitch coupled to a plow frame.
The plow includes a central plow blade which couples to the plow frame. The central plow blade has a first end and a 5a second end. A wing blade is coupled to each of the first and second ends of the central plow blade. Each wing blade is configured to independently pivot, from a first position to a second position more than 90 degrees relative to the central plow blade, about a vertical axis parallel with the end of the central plow blade. In one embodiment, the wing blade, in the first position, is longitudinally aligned with the central plow blade in a straight line. The plow may include an actuator mechanism coupled to the central plow blade and at least one of the wing blades. The actuator mechanism moves the wing blade to one of the first and second position independent of the position of the central plow blade.
[0011a] There is also provided a plow including a center blade having a first end and a second end. The center blade has a plow side and a vehicle side opposite the plow side. A wing blade is coupled to each end of the center blade. Each of the wing blades has a plow side and a vehicle side opposite the plow side. Each wing blade is pivotally connected to the center blade about an axis located substantially in front of the center blade and movable through a range of movement between a straight position and a folded position. The plow includes a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom and having an edge aligned perpendicularly with the axis at the first end and substantially in front of the center blade, the angled portion of the wearstrip coupled to the one wing blade extending in a direction away from the vehicle side
Accordingly, it is desirable to provide a plow hitch mounting mechanism which is easy to maintain and that the process of connecting and disconnecting the plow to or from the vehicle is simple and easy to use by one person without assistance. It is also desirable to provide a plow including wings that move independently of the main or central plow.
(00061 The apparatus of the present disclosure must also be of construction which is both durable and long lasting, and it should also require little or no maintenance to be provided by the user throughout its operating lifetime. In order to enhance the market appeal of the apparatus of the present disclosure, it should also be of inexpensive construction to thereby afford it the broadest possible market. Finally, all of the aforesaid advantages should be achieved without incurring any substantial relative disadvantage.
REINHA1T\2698037JAW:KAB 04/07/09 3 SUMMARY OF THE INVENTION
[0007] The disadvantages and limitations of the background art discussed above are overcome by the present invention.
[0008] There is provided a plow, including a center blade having a first end and a second end, and a wing blade coupled to each end of the center blade. Each wing blade is pivotally connected to the center blade about an axis and moveable through a range of movement. The plow includes a first pair of wear strips, with one wear strip coupled to the first end of the center blade and the other wear strip coupled to one wing blade. The plow also includes a second pair of wear strips, with one wear strip coupled to the second end of the center blade and the other wear strip coupled to the other wing blade. A wing pivot tube is coupled to one of the wing blades and center blade at each end of the center blade about the axis. The orientation of the wing blade, wear strips, and wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade. The plow may also include an angled portion defined in each wear strip of the first and second pair of wear strips, wherein the angled portion of the wear strips on the center blade and the angled portion of the wear strip on each of the wing blades, align with the respective axis at each end of the center blade.
The plow may also include a convex bulge defined at each end of the center blade in a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct material away from the wing pivot tubes.
[0008a] A
further aspect of the aforementioned invention of the plow is each wearstrip of the aforementioned first pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade.
Further, each wearstrip of the aforementioned second pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade.
[0008b] A
further aspect of the aforementioned invention of the plow is each angled portion of the aforementioned pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
[0009] There is further provided a snow plow including a hitch frame nose assembly configured to couple to a vehicle. A plow frame is coupled to the hitch frame.
A center blade, having a first end and a second end is configured to couple with a wing blade at each end of the center blade. Each wing blade is pivotally connected to the center blade about an axis and moveable through a range of movement. The snow plow also includes a first pair of wear strips, with one wear strip coupled to the first end of the center blade and the other wear strip coupled to one 4a wing blade. There is also provided a second pair of wear strips, with one wear strip coupled to the second end of the center blade and the other wear strip coupled to the other wing blade. A wing pivot tube is coupled to one of the wing blades and center blade at each end of the center blade about the axis. The orientation of the wing blade, wear strips, and wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade. The snow plow may also include an angled portion defined in each wear strip of the first and second pair of wear strips, wherein the angled portion of the wear strips on the center blade and the angled portion of the wear strip on each of the wing blades align with the respective axis at each end of the center blade. The snow plow may also include a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct snow away from the wing pivot tubes.
[0009a] A
further aspect of the aforementioned invention of the snow plow is each wearstrip of the aforementioned first pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade.
Further, each wearstrip of the aforementioned second pair of wearstrips includes an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade.
[0009b] Yet a further aspect of the aforementioned invention of the snow plow is each angled portion of the aforementioned pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
[0010] There is also provided a plow, including a center blade having a first end and a second end, and a wing blade coupled to each end of the center blade, with each wing blade pivotally connected to the center blade about an axis and moveable through a range of movement.
The plow includes a wear strip coupled proximate one end of the center blade, with the wear strip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis. Another wear strip is coupled proximate one end of the wing blade, the wear strip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis. The two angled portion edges are further aligned adjacent to each other through the range of movement of the wing blade relative to the center blade. When the center blade and the wing blade of the plow are aligned horizontally in a straight line, the angled portions of the two wear strips are configured to define a right angle with at least one corner of each angled portion edge at the axis.
[0011] There is also provided a plow including a quick connect/disconnect hitch coupled to a plow frame.
The plow includes a central plow blade which couples to the plow frame. The central plow blade has a first end and a 5a second end. A wing blade is coupled to each of the first and second ends of the central plow blade. Each wing blade is configured to independently pivot, from a first position to a second position more than 90 degrees relative to the central plow blade, about a vertical axis parallel with the end of the central plow blade. In one embodiment, the wing blade, in the first position, is longitudinally aligned with the central plow blade in a straight line. The plow may include an actuator mechanism coupled to the central plow blade and at least one of the wing blades. The actuator mechanism moves the wing blade to one of the first and second position independent of the position of the central plow blade.
[0011a] There is also provided a plow including a center blade having a first end and a second end. The center blade has a plow side and a vehicle side opposite the plow side. A wing blade is coupled to each end of the center blade. Each of the wing blades has a plow side and a vehicle side opposite the plow side. Each wing blade is pivotally connected to the center blade about an axis located substantially in front of the center blade and movable through a range of movement between a straight position and a folded position. The plow includes a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom and having an edge aligned perpendicularly with the axis at the first end and substantially in front of the center blade, the angled portion of the wearstrip coupled to the one wing blade extending in a direction away from the vehicle side
6 of the one wing blade. The plow includes a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each of the second pair of wearstrips including an angled portion extending therefrom and having an edge aligned perpendicularly with the axis at the second end of and substantially in front of the center blade, the angled portion of the wearstrip coupled to the other wing blade extending in a direction away from the vehicle side of the other wing blade. The plow includes a wing pivot tube coupled to each of the wing blades and center blade at each of the first and second end of the center blade about the respective axis. The orientation of the wing blade, the wearstrips and the angled portions thereof, and the wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade.
[0011b] There is also provided a snow plow that includes a hitch frame nose assembly configured to couple to a vehicle, a plow frame coupled to the hitch frame, a center blade having a first end and a second end with the center blade being supported by the plow frame, wing blades each coupled to opposite ends of the center blade with each wing blade pivotally connected to the center blade about an axis located substantially in front of the center blade and movable through a range of movement between a straight position and a folded position. The snow plow includes a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip 6a coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the first end of the center blade and wherein the angled portion of the wearstrip coupled to the first end of the center blade extends in a direction away from the plow frame. The snow plow includes a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each of the second pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the second end of the center blade and wherein the angled portion of the wearstrip coupled to the second end of the center blade extends in a direction away from the plow frame. The snow plow includes a wing pivot tube coupled to each of the wing blades and center blade at each end of the center blade about the axis. The orientation of the wing blade, the wearstrips and the angled portions thereof, and the wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade.
[0011c] There is also provided a plow, with the plow including a center blade having a first end and a second end, and a wing blade coupled to each end of the center
[0011b] There is also provided a snow plow that includes a hitch frame nose assembly configured to couple to a vehicle, a plow frame coupled to the hitch frame, a center blade having a first end and a second end with the center blade being supported by the plow frame, wing blades each coupled to opposite ends of the center blade with each wing blade pivotally connected to the center blade about an axis located substantially in front of the center blade and movable through a range of movement between a straight position and a folded position. The snow plow includes a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip 6a coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the first end of the center blade and wherein the angled portion of the wearstrip coupled to the first end of the center blade extends in a direction away from the plow frame. The snow plow includes a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each of the second pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the second end of the center blade and wherein the angled portion of the wearstrip coupled to the second end of the center blade extends in a direction away from the plow frame. The snow plow includes a wing pivot tube coupled to each of the wing blades and center blade at each end of the center blade about the axis. The orientation of the wing blade, the wearstrips and the angled portions thereof, and the wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade.
[0011c] There is also provided a plow, with the plow including a center blade having a first end and a second end, and a wing blade coupled to each end of the center
7 blade, with each wing blade pivotally connected to the center blade about an axis and movable through a range of movement between a straight position and a folded position.
The plow includes a wearstrip coupled proximate one end of the center blade. The wearstrip includes an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade. The plow includes a wearstrip coupled proximate one end of the wing blade. The wearstrip includes an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade. The two angled portion edges are further aligned adjacent to each other and with the axis at the one end of the center blade through the range of movement of the wing blade relative to the center blade. When the center blade and the wing blade are aligned horizontally in a straight line, the angled portions of the two wearstrips are configured to define a right angle with at least one corner of each angled portion edge at the axis.
[0012] The apparatus of the present disclosure is of a construction which is both durable and long lasting, and which will require little or no maintenance to be provided by the user throughout its operating lifetime.
The apparatus of the present disclosure is also of inexpensive construction to enhance its market appeal and to thereby afford it the broadest possible market.
Finally, all of the aforesaid advantages and aspects are believed to be achieved without incurring any substantial relative expense.
7a -. -=
DESCRIPTION OF THE DRAWINGS
(0013] These and other advantages of the present invention are best understood with reference to the drawings, in which:
[0014] Fig. 1 is an exploded, isometric view of an exemplary embodiment of a hitch frame nose assembly.
[0015] Fig. 2 is a detail view of an exemplary embodiment of a chassis coupler of the hitch frame nose assembly illustrated in Fig. 1.
[0016] Fig. 3 is an isometric rear view of an exemplary embodiment of a hitch mechanism coupled to a vehicle.
[0017] Fig. 3A is a cross-sectional view of an exemplary embodiment of a spring biased retaining pin along the line 3A-3A of Fig. 3.
[0018] Fig. 4 is an isometric view of the hitch mechanism illustrated in Fig. 3 uncoupled from the hitch frame nose assembly.
[0019] Fig. 5. is a side elevation of the hitch mechanism illustrated on Fig. 4.
[0020] Fig. 6 is a side elevation of the hitch mechanism illustrated in Fig. 3 with the hitch mechanism configured to uncouple from the hitch frame nose assembly.
[0021] Fig. 7 is side elevation of the hitch mechanism illustrated in Fig. 3 with the hitch mechanism coupled to a chassis coupler of the hitch frame nose assembly and illustrating the hitch locking lever in a first lock position.
[0022] Fig. 8 is a side elevation of the hitch mechanism illustrated in Fig. 7 and illustrating the hitch locking lever in a second lock position.
[0023] Fig. 9 is a side elevation of another side of the hitch mechanism illustrated in Fig. 8.
[0024] Fig. 10 is a detail perspective view of a chassis coupler engaged with a notched member of the hitch frame mechanism illustrated in Fig. 3.
REINHA1T\2698037JAW:KAB 04/07/09 8 [0025] Fig. 11 is a top view of the chassis coupler illustrated in Fig. 10.
[0026] Fig. 12 is an isometric rear view of an exemplary embodiment of a lift bar assembly of the hitch mechanism illustrated in Fig. 3.
[0027] Fig. 12A is a partial view of the lift bar assembly illustrated in Fig. 12, illustrating the lift bar assembly coupled to the rear portion of a plow frame in one of a plurality height adjustment orifices.
[0028] Fig. 12B is a partial side elevation of the hitch mechanism illustrated in Fig. 3.
[0029] Fig. 12C is a partial side elevation of the hitch mechanism illustrated in Fig. 3 with the lift bar assembly coupled to the plow frame in an alternative height adjustment orifice.
[0030] Fig. 13 is an isometric, top, front view of an exemplary embodiment of an A-frame plow frame assembly of the hitch mechanism illustrated in Fig. 3.
[0031] Fig. 14 is a cross sectional view of the plow frame illustrated in Fig. 13 along the line 14-14.
[0032] Fig. 15. is an isometric, front view of an exemplary embodiment of a swing frame of the hitch mechanism illustrated in Fig. 3.
0033] Fig. 16 is a cross sectional view of the swing frame illustrated in Fig. 15 along the line 16-16.
[00343 Fig. 17 is bottom view of the swing frame illustrated in Fig. 15.
[0035] Fig. 17A is a partial cross-sectional top rear view of a cushion block assembly along the line 17A-17A of Fig. 17.
00363 Fig. 17B is an isometric, rear view of an exemplary embodiment of a cushion block coupled to the blade illustrated in Fig. 18, with a portion of the swing frame in phantom.
REINHART\2698037JAw:KAB 04/07/09 9 [0037] Fig. 18 is an isometric, back view of an exemplary embodiment of a blade coupled to the hitch mechanism illustrated in Fig. 3, the blade including a wing blade on each blade end.
[0038] Fig. 19 is an isometric, front view of the blade illustrated in Fig. 18, showing one wing blade in a straight position and another wing blade in a folded position, the wing blade in the straight position also includes a blade extension member.
[0039] Fig. 20 is an isometric, bottom rear view of the blade illustrated in Fig. 18.
[0040] Fig. 21 is an isometric, bottom detail view of the wing blade in the straight position of the blade illustrated in Fig. 20.
[0041] Fig. 21A is a partial cross-sectional view of the wing blade illustrated in Fig. 21 along the Line 21A-21A.
[0042] Fig. 22 is an isometric, bottom detail view of the wing blade in the folded position of the blade illustrated in Fig. 20.
[0043] Fig. 22A is a partial cross-sectional view of the wing blade illustrated in Fig. 22 along the line 22A-22A.
[0044] Fig. 23 is an exploded front view of blade illustrated in Fig. 20, showing one wing blade in the straight position relative to the plow blade and another wing blade in the folded position relative to the plow blade.
[0045] Fig. 24 is an exploded view of an exemplary embodiment of a wing blade including an actuation mechanism for the wing blade.
[0046] Fig. 25 is a top view of the blade illustrated in Fig. 18, showing the wing actuation mechanism in a straight position.
[0047] Fig. 26 a top view of the blade illustrated in Fig. 18, showing the wing actuation mechanism in a folded position.
REINHART\2698037JAW:KAB 04/07/09 10 --- -[0048] Fig. 27 is a partial cross sectional view of the bottom of the blade illustrated in Fig. 18 along the line 27-27, showing how a blade cutting edge, nut plate, moldboard and wear strip are coupled to a blade frame member.
[0049] Fig. 28A is a partial cross-sectional view along the line 23A-23A of Fig. 18 showing the plow blade in a normal position.
[0050] Fig. 28B is a partial cross-sectional view the plow blade illustrated in Fig. 28A showing the plow blade in a rotated position.
[0051] Fig. 29 is an isometric, assembly view of an exemplary embodiment of the blade illustrated in Fig.
18 and the hitch mechanism illustrated in Fig. 3 coupled together.
REINHART\2698037JAW:KAB 04/07/09 11 DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS
[0052] There is disclosed a snow plow 50 for mounting on a vehicle 60 with a quick connection/disconnect hitch 70 (more fully described below). The quick connect/disconnect hitch 70 facilitates the easy connection, i.e., without tools and disconnection of the snow plow 50 from the vehicle 60.
[0053] Referring to Figs. 1 and 2, a hitch frame nose assembly 100 includes a hitch frame tube having a first end 104 and a second end 106. Coupled to each end of the hitch nose tube 102 is a chassis coupler 108. Each chassis coupler 108 mounts to the vehicle chassis 60. In a typical set up, each of the chassis couplers 108 will be secured to a frame member of the vehicle chassis 70 (not shown) by bolting the chassis coupler 108 to the vehicle chassis 60. It is also contemplated that the chassis coupler 108 can be welded to the vehicle chassis 60 as determined by the user of the quick connect/disconnect hitch 70.
[0054] Each chassis coupler 108 is a formed U-shaped channel with outward extending flanges. The flanges 110 are configured to provide a mounting surface for the chassis coupler 108 to facilitate coupling of the chassis coupler 108 to the vehicle chassis 60. Each flange 110 defines a plurality of apertures 112 to facilitate bolting of the chassis coupler 108 to the vehicle chassis 60. The apertures 112 may be configured as circles or slots. Each side 114 of each chassis coupler 108 further defines a pair of slots 116 extending longitudinally along and through each side 114 of the chassis coupler 108. The slots 116 facilitate the coupling of the hitch frame tube 102 to each of the chassis couplers 108 comprising the hitch frame nose assembly 100. Each chassis coupler 108 may be provided with slots 116 on each side 114 of the chassis coupler 108 to facilitate REINHART\2698037JAW:KAB 04/07/09 12 -- -manufacturing and assembly by providing commonality of parts. Each chassis coupler 108 is also provided with an end-stop coupled to each of the flanges 110 proximate the front end 120 of the chassis coupler 108. The end-stop 118 assists in positioning the chassis coupler 108 on the vehicle chassis 60. Each chassis coupler 108 also defines a substantially V-shaped notch 122 to accommodate a lock hook pivot more fully described below. Each chassis coupler 108 also includes a traverse pin 124 which extends through both sides 114 of the chassis coupler 108. Traverse pin 124 is secured to the chassis coupler 108 by a nut threadingly fastened to the traverse pin 104. The nut may further be welded to the chassis coupler 108 to further secure the traverse pin 124. A portion 128 of the traverse pin extends beyond the side 114 of the chassis coupler 108 and is configured to engage a locking hook more fully described below.
[0055] Fig. 3 illustrates an exemplary embodiment of a quick connect/disconnect hitch 70 assembly. The hitch frame nose assembly 100 is coupled to a vehicle chassis 60. Coupled to the hitch frame nose assembly 100 is the lift bar assembly 130 which in turn is coupled to a plow frame 170.
[0056] The lift bar assembly 130 includes a pair of lift bar support members 132 maintained in a spaced apart relationship and coupled to a lift bar approximate the top of each lift bar support member 132. A light bar brace 136 approximate the lower end of each lift bar support member 132 facilitates maintenance of the spaced apart relationship of the lift bar support member 132. A pair of lift bar lugs 138 are coupled to each lift bar support member 132 approximate the light bar brace 136. (Also see Figs.
12 and 12a). Coupled to the lift bar 134 are a pair of upper lift cylinder mounts 140 configured to operably secure a power mechanism, for example a lift REINHART\2698037JAW:KAB 04/07/09 13 cylinder 142. Also coupled to the lift bar assembly 130 is a locking mechanism 144.
(0057] Referring to Fig. 4, there is illustrated a hitch frame nose assembly 100 coupled to a vehicle chassis 60 and positioned to receive a locking mechanism 144 of a quick connect/disconnect hitch 70.
The locking mechanism 144 includes a pair of notched members 146 coupled to the lift bar assembly 130 and positioned to correspond for engagement with each of the chassis couplers 108 of the hitch frame nose assembly 100.
[0058] Each notch member 146 includes a pair of tapered side members 148 with each tapered side member 148 defining a notch 150. Each notch 150 is configured to engage the traverse pin 124 positioned between the two sides 114 of each chassis coupler 108.
Each notch member 146 also includes a plate member 152 fastened to the top portion of each of the tapered side members 148, typically by welding a plate member 150 to each tapered side member 148. The plate member provides additional reinforcement for the notch member 146 and defines with the two tapered side members 148 an inverted U-shape assembly. With the notch member 146 engaged with the chassis coupler 108 the pivot for the quick connect/disconnect hitch 70 formed by the engagement of the notch 150 with the traverse pin 124 is enclosed within the two facing u-shaped assemblies.
[0059] Each notched member 146 further includes a locking hook 154 pivotally coupled to a hook pivot 156. The hook pivot 156 extends through each of the tapered side members 148 of each notch member 146.
The locking hook 154 moves about the hook pivot 156 in response to movement of the hitch locking lever 158 as the hitch locking lever 158 moves about a lever pivot 160. The hitch locking lever 158 is coupled to the REINHART\2698037JAW:KAB 04/07/09 14 locking hook 154 by a lock linkage 162. The operation of the locking mechanism 144 will be explained below.
[0060] The orientation of the locking hook 154 and the notch member 146 is such that when the notch member 146 is inserted into the chassis coupler 108 the locking hook is positioned outside of the u-shaped chassis coupler 108 and positioned to selectively engage the portion 128 of the traverse pin 124 that extends beyond the side 114 of the chassis coupler 108. It should be understood that there is a locking hook 154 on each of the notch members 146 which engages the traverse pin 124 extending beyond the side 114 of each of the chassis couplers 108 that are part of the hitch frame nose assembly 100. The locking hook 154 locks the lift bar assembly 130 to the hitch frame nose assembly 100.
[0061] Locking mechanism 144 also includes a lock support bracket 164 which is coupled to each of the lift bar support members 132. A preferred embodiment provides that a pair of lock support brackets 164 are coupled to each side of the corresponding lift bar support member 132. (Figs. 3 and 4). It should be understood that the locking mechanism 144 includes a locking hook 154, hook pivot 156, lock linkage 162 on each outward side of the lift bar assembly 130. On one side of the lift bar assembly 130, the hitch locking lever 158 is coupled to the linkage, and on the other side of the lift bar assembly 130 the lock linkage 162 is coupled to a lock linkage bracket 166.
(See Fig. 9). The lock linkage bracket 166 and the hitch locking lever 158 are coupled together by a hitch lock extension rod 168 extending through each of the lock support brackets 164 and each of the lift bar support members 132. The hitch lock lever 158 and the lock linkage bracket 166 are journaled to the hitch lock extension rod 168 by a flat face defined on each REINHART\2699037JAW:KAB 04/07/09 15 -end of the hitch lock extension rod 168. (See Figs. 8 and 9).
(0062] The operation of coupling the quick connect/disconnect hitch 70 to the vehicle chassis 60 will now be described with reference to Figs. 5 through 9. Fig. 5 illustrates an exemplary embodiment of a quick connect/disconnect hitch 70 positioned to engage the hitch frame nose assembly 100 coupled to a vehicle chassis 60. The hitch locking lever 158 is in an unlocked position 174. The movement of the hitch lock lever 158 to the unlocked position 174 rotated the locking hook as illustrated in Fig. 5. The vehicle having a hitch frame nose assembly 100 coupled to the vehicle chassis 60 is moved towards the quick connect/disconnect hitch 70 as indicated by the arrow in Fig. 5.
[0063] Fig. 6 illustrates the quick connect/disconnect hitch 70 engaged with the hitch frame nose assembly 100 with each notched member 146 of the lift bar assembly 130 coupled to the traverse pin 124 in each of the chassis couplers 108. Such engagement is illustrated at least in Figs. 10 and 11.
In this position, with the hitch locking lever 158 still in the unlocked position 174 the vehicle can be moved away from the hitch 70 if additional adjustment maneuvers are necessary.
[0064] Fig. 7 illustrates the locking mechanism 144 in a first locked position 176. In the first locked position 176, the locking hook has moved to engage the traverse pin 124 in each of the chassis couplers 108.
In this configuration, the lever pivot 160, the hitch locking lever linkage attachment 180 and the hook linkage attachment 182 are substantially in a straight line as illustrated in Fig. 7.
[0065] To complete the locking maneuver of the locking mechanism 144, the hitch locking lever 158 is moved to a second locked position 178 which forces the REINHART\2698037JAW:KAB 04/07/09 16 hitch locking lever 158 to move over center of the lever pivot 160 as illustrated in Fig. 8. The hitch locking lever 158 also is secured in a retaining bracket 184 coupled to a locked support bracket 164.
The retaining bracket 184 includes a retaining pin 186 which is biased by a spring 188. The retaining pin 186 engages an orifice defined in the hitch lever locking lever 158 as illustrated in Fig. 3A. It should be understood that other ways of securing the locking lever 158 can be used to prevent the locking lever 158 from inadvertently unlocking the hitch 70.
[0066] As described above, the locking mechanism 144 includes a lock hook 154 on each side of the lift bar assembly 130 and are coupled together to simultaneously operate with movement of the hitch locking lever 158. Fig. 9 illustrates the other side of the locking mechanism 144 illustrated in Fig. 8.
[0067] The lift bar assembly 130 is coupled to a plow frame 170. The lift bar assembly 130 is provided with a pair of lift bar lugs 138 coupled to the lift bar brace 136 and to each of the lock support brackets 164 on both sides of the lift bar assembly 130 (see Fig. 12).
[0068] A plow frame 170 is configured substantially in the form of a letter A with the plow frame 170 including a front portion 175 and a rear portion 177.
The plow frame 170 includes two side member 196, 198 which form the sides of the A-shape with a traverse brace tube 200 coupled to each of the side members 196, 198. The side members 196, 198 and the traverse brace tube 200 are conventional steel square tubing, however, it is contemplated that other cross-section configured tubes, for example circular or triangular, can be used. Coupled to the front portion 175 of the plow frame 170 is a swing frame pivot assembly 185.
The swing frame pivot assembly includes a top plate 187 and a bottom plate 189. Each of the plates 187, REINHART\2698037JAw:KAB 04/07/09 17 189 defines an orifice configured to receive a swing frame pivot pin 190. The swing frame pivot assembly 185 is further coupled to each of the side members 196, 198 of the plow frame 170 by a pair of side support brackets 192, 194 which are configured to couple to each of the top plate 187, the bottom plate 189 and one of the side members of the plow frame 170.
[0069] In one embodiment, a portion of the top plate 187 is bent downwardly at a 90 degree angle to extend the top plate 187 to the bottom plate 189 with that portion of the top plate configured to define an angled pocket to receive each of the side members 196, 198 of the plow frame 170. See Figs. 13 and 14.
[0070] Coupled to the traverse brace tube 200 are lift cylinder mounts 206 and a pair of swing cylinder mounts 202 and 204. Lift cylinder mounts 206 are aligned to couple the lower end of the lift cylinder 142 which is coupled to the upper lift cylinder mount 140 on the lift bar 134.
[0071] Each of the side members 196, 198 of the plow frame 170 include an adjustment lug 172 at the rear portion 177 of the plow frame 170. Each adjustment lug 172 includes a plurality of orifices 179 aligned vertically and configured to receive a bolt 232 which will couple the plow frame 170 to the lift bar lugs 138 on the lift bar assembly 130. As best seen in Figs. 12, 12A, 12B, and 12C, the adjustment lug 172 is received between each of the lift bar lugs 138 of the lift bar assembly 130 and secured with a bolt 232. In order to adjust the plow frame height relative to the vehicle, an operator will select one of the vertical adjustment orifices 179 to properly align the plow frame 170 with the lift bar assembly 130 which is in turn coupled with the chassis couplers 108 of the hitch frame nose assembly 100.
[0072] A swing frame 208 is pivotally coupled to the swing frame pivot assembly 184 of the plow frame REINHART\2698037JAW:KAB 04/07/09 18 ' --170 (see at least Figs. 15 and 18). The swing frame 208 includes a swing frame tube 209 which has two swing frame ends 210 and 212. Coupled to each swing frame end 210, 212 is a pair of trip spring brackets 220. (See Figs. 15 and 17.) Each trip spring bracket 220 includes a trip spring mount 224, a cushion trip plate 280 and a blade pivot mount 226. Each pair of trip spring brackets 220 are coupled to the swing frame tube 209, for example by welding.
[0073] The swing frame 208 includes a pivot 230 positioned in a center portion 214 of the swing frame tube 208. The pivot 230 couples to the swing frame pivot assembly 184 of the plow frame 170 with the swing frame pivot pin 190.
[0074] The swing frame tube 109 also supports a pair of swing cylinder mounts 236 mounted on the swing frame tube 209 with each swing cylinder mount 236 positioned between the center portion 214 of the swing frame tube 209 and one end 210, 212 of the swing frame tube 209. (See Fig. 15.) A swing cylinder 252 is coupled at one end to a swing cylinder mount 236 on the swing frame 208 and on another end on the swing cylinders mounts 202, 204 of the plow frame 170. The swing cylinder 252 as selectively operated by a user of the snow plow 50 can rotate the central plow blade 250 about the pivot 230. The degree of rotation of the plow blade relative to the plow frame 170 is established by the extension capabilities of the swing cylinders 252 as selected by an operator.
[0075] The central plow blade 250 is coupled to the swing frame 208 pinning the plow blade to each of the trip spring brackets 240 at the blade pivot mount 226 on each of the trip spring brackets 220. A pivot pin is received in a pivot aperture 234 and is typically secured in place by a cotter pin (not shown). It is contemplated that other means of fastening the pivot pin can be used such as a bolt and nut.
REINHART\2698037JAW:KAB 04/07/09 19 [0076] Also coupled to the trip spring bracket 220 is a cushion trip plate 280. The cushion trip plate 280 is configured with a pair of oversize bolt apertures 240 to accommodate a socket or other tool for manipulating a cushion bolt 238 to secure a cushion block 228 to the cushion mount 222. The cushion block 228 is substantially a rectangular shaped block of polyurethane or other high density resilient material. The cushion block 228 is used to absorb the impact of the plow blade 250 (see Figs. 28A
and 28B) as the plow blade moves between its limits.
Such movement of the plow blade 250 is caused by the central plow blade 250 striking an object as the plow blade 250 is moved by a vehicle. The cushion block 228 is configured to prevent damage to the snow plow by allowing the snow central plow blade 250 to "trip"
that is, for the bottom of the central plow blade 250 to move rearward and the top of the central plow blade 250 to simultaneously move forward about the blade pivot pin, resulting in a rotation of plow blade 250 around a horizontal axis. Such a rotation is inhibited by springs 284 which act as a shock absorber mechanism, and which return the central plow blade 250 to a normal or "trip return" position. The springs 284 are relatively strong, since they must prevent the plow blade from rotating when it is plowing snow and the metal-to-metal impacts of both a plow trip bracket and a blade trip return can be substantial. The cushion block 228 is configured to cushion the impacts on both the blade and the trip spring bracket 220.
[0077] It is also contemplated that a back cushion (not shown) similar to the cushion block 228 can be coupled, for example by bolting, to a blade stop 282 at a lower end of each of the trip spring brackets 220. The back cushion is configured to ameliorate vibration and damage to the central plow blade 250 if REINHART\2698037JAW:KAB 04/07/09 20 the plow blade contacts an obstruction during operation.
[0078] The cushion block 228 is rectangular in shape and provides a relatively large area to distribute the force exerted upon the cushion block 228 when the blade 250 moves back to its trip return position by action of the return springs 284. The relatively large cushion bolt aperture 240 allows a user to easily access the cushion bolts 238 when servicing the cushion block. Servicing of the cushion block 228 can be accomplished, for example, replacing the cushion block without having to remove the central plow blade 250 from the swing frame 208. However, a slight forward rotation of the central plow blade 250 must be provided to remove the cushion block from between the cushion mount 222 and the cushion trip plate 280.
0079] A wing wear strip 304 is coupled to a wing blade 300. A wear strip 306 is also coupled to the central plow blade 250. Each of the wear strip 304, 306 are configured with an angled facing portion 305, 307 that that meet in the front side when the wing blade 300 is in the second or folded position and meet in the back side when the wing blade 300 is in the first or straight position. (See Figs. 19-22A.) The wear strips 304, 306 are coupled to the wing blade 300 and the central plow blade 250 with bolts or other suitable fasteners.
[0080] Referring now to Figs. 18-28B, Fig. 18 illustrates a snow plow 50 with a plow blade assembly 260 coupled to a quick connect/disconnect hitch 70.
Fig. 18 is a bottom, rear isometric view of the snow plow 50.
[0081] Fig. 20 is an isometric rear view of the plow blade assembly 260. The central plow blade 250, is coupled, for example, by welding, to a plurality of plow ribs 268. Each of the plow ribs 268 are aligned REINHART\2698037JAW:KAB 04/07/09 21 vertically and coupled to a bottom plow frame member 262. The plow ribs 268 are positioned at evenly spaced intervals along the bottom plow frame member 262 and welded to the plow blade 250 and the bottom plow frame member 262. Each of the plow ribs 268 is configured in a concave curve to which the central plow blade 250 conforms and which also facilitates movement of material such as snow as the plow 50 is operated. A wear strip 270 is coupled to a substantial portion of the lower edge of the plow blade 250 by a plurality of bolts 272 which extend through the wear strip 270, the central plow blade 250, the bottom plow frame member 262 and a nut plate 274 which is positioned against one of the downward extending flanges of the bottom plow frame member 262.
(See at least Fig. 20.) Reinforcement members 264 are positioned between the down facing flanges of the bottom plow frame member to reinforce the plow blade assembly 260. The reinforcement members 264 are typically welded to the bottom plow frame member 262.
The top edge of the plow blade 250 is bent and configured to be coupled to the top edge of each of the plow ribs 268. The top edge of the plow blade 250 is typically welded to each of the plow ribs 268.
[0082] Referring to Fig. 20, a pair of plow trip spring brackets 276 are coupled, for example, by welding, each to two of a plow rib 268. The plow trip spring brackets 276 are aligned with the spring mounts 224 on each of the spring brackets 220 coupled to the swing frame 208. A cushion mount 222 is also coupled, typically by welding, to each of the plow ribs 268 that support the plow trip spring brackets 276 (see Fig. 24). A cushion block 228 is bolted to each of the cushion mounts 222 and are configured and aligned to contact a cushion trip plate 280 coupled to each of the trip spring brackets 220.
REINHART\2698037JAW:KAB 04/07/09 22 [0083] Fig. 19 illustrates a front perspective view of a plow blade assembly 260 which includes a central plow blade 250 and a pair of wing blades 300. A wing blade 300 is pivotally coupled to each end 290, 292 of the central plow blade 250. In Fig. 19, one of the wing blades 300 is aligned in a straight aspect with the central plow blade 250 and the other wing blade 300 is in a folded or second position towards the front of the central plow blade 250 in excess of 90 degrees from the straight or first position.
[0084] Fig. 20 is an isometric bottom rear view of the blade assembly 260. Each of the wing blades 300 is coupled to the central plow blade 250 about a vertical axis 314 which is parallel with each of the first 290 and second 292 ends of the central plow blade 250. Each of the wing blades 300 is coupled to an actuation mechanism 320 mounted at the rear of the central plow blade 250.
[0085] Referring now to Figs. 21 and 21A, a wing blade 300 is illustrated in a first position which is longitudinally aligned in line or straight with the central plow blade 250. A wing pivot 308 houses a wing pivot pin 312 in a wing pivot tube 310. The wing pivot tube 310 can be coupled to one of the central plow blade 250 and wing blade 300 or it can be a separate member (See Fig. 23). The wing pivot tube 310 can be welded to one of the central plow blade 250 or wing blade 300 or it can be fabricated in conjunction with the fabrication of either the central plow blade 250 and wing blade 300.
[0086] As shown in Fig. 21A, a portion of the central plow blade 250 and a portion of the wing blade 300 meet at approximately a vertical axis 314 of the wing pivot 308. Such configuration inhibits movement of material, such as snow, from moving between the central plow blade 250 and wing blade 300. As configured, there is very little gap 315 between the REINHART\2698037JAW:KAB 04/07/09 23 central plow blade 250 and the wing blade 300 throughout the vertical axis 314 between the central plow blade 250 and the wing blade 300.
[0087] The gap 315 is further inhibited from passing material between the central blade 250 and each wing blade 300 by structure including two pair of wear strips, a first pair of wear strips and a second pair of wear strips. The first pair of wear strips, includes one wear strip 306 coupled to the first end 290 of the center blade 250 and the other wear strip 304 coupled to one wing blade 300. A second pair of wear strips includes, one wear strip 306 coupled to the second end 292 of the center blade 250 and the other wear strip 304 coupled to the other wing blade 300. The orientation of a wing blade 300, the wear strips 304, 306, and the wing pivot tube 310 at each of the first and second ends 290, 292 of the center blade 250 minimize the gap 315 defined between each end of the center blade 250 and the associated wing blade 300 throughout the range of movement of each wing blade 300.
(0088] Each wear strip 304, 306 defines an angled portion 305, 307 in each of the first and second pair of wear strips. The angled portion 307 of the wear strips 306 on the center blade 250 and the angled portion 305 of the wear strip 304 on each of the wing blades 300 aligned with the respective axis 314 at each end 290, 292 of the center blade 250.
(0089) The plow 260 also includes a convex bulge 291 defined at each end 290, 292 of the center blade 250 and a convex bulge 301 defined at an end 299 of each wing blade 300. Each of the convex bulges 291, 301 are configured to direct material from the wing pivot tubes 310. It is anticipated that material to be moved by the plow 260 can be snow, gravel, and soil as determined by an operator of the plow 260.
REINHART\2698037JAW:KAB 04/07/09 24 ,4 o. = x xr+¨ ==a,*
[0090] The wear strip 306 coupled proximate one end of the center blade 250 includes the angled portion 307, with the angled portion 307 including an edge 309 aligned perpendicular with the axis 314. The wear strip 304 coupled proximate one end 299 of the wing blade 300 includes an angled portion 305 having an edge 311 aligned perpendicular to the axis 314. The two angled portion edges 309, 311 are further aligned adjacent to each other throughout the range of movement of the wing blade 300 relative to the center blade 250 (See Figs. 21A and 22A). As illustrated in Fig. 21A when the center blade 250 and the wing blade 300 are aligned horizontally in a straight line, the angled portions 305, 307 of the two wear strips 304, 306 are configured to define a right angle with at least one corner 313, 317 of each angled portion edge 309, 311 at the axis 314. When the wing blade 300 is moved to the second position, the folded position, the corners 313, 317 of each angled portion edge are still adjacent to each other at the axis 314. (See Fig.
22A). The corners 313, 317 maintain their position relative to the axis 314 throughout the range of movement of the wing blade 300 relative to the center blade 250.
[0091] The structures described above minimize or eliminate material movement through the gap 315 defined between the center blade 250 and a wing blade 300.
[0092] Figs. 22 and 22A illustrate a wing blade 300 moved into a second or folded position about the vertical axis 314 which is substantially parallel to the end 290, 292 of the central plow blade 250. As shown in Fig. 22A, a portion of the central plow blade 250 and a portion of the wing blade 300 maintain their approximate position on the vertical axis 314 of the wing pivot 308 throughout the movement of the wing blade 300 from the first position (straight) to the REINHART\2698037JAW:KAB 04/07/09 25 second position (folded) about the vertical axis 314 which is parallel with each of the first and second ends 290, 292 of the central plow blade 250.
[0093] Referring now to Figs. 23, 24 25, and 26, an actuation mechanism 320 will be described. A pair of actuation mechanisms 320 are coupled to the plow blade assembly 260 to facilitate movement of the wing blade 300 from the first position relative to the central plow blade 250.
[0094] Each actuation mechanism 320 includes an actuation bracket coupled to the central plow blade 250 (see Fig. 24). The preferred embodiment of the actuator bracket 320 is a steel, u-shaped channel which defines a guide slot 324 in a portion of actuator bracket 322 that is approximate an end 290, 292 of the central plow blade 250. Coupled to the actuator bracket 322 is a wing actuator cylinder 328.
The wing actuator cylinder 328 is coupled to the actuator bracket 322 at one end by a pivot pin 330 and at another end with a guide pin 326 slidingly engaged in the guide slot 324. A return spring 336 is coupled at one end to the actuator bracket 322 and to a wing actuator rod 332. The wing actuator rod 332 is also coupled to the actuator bracket 322 at one end by the guide pin 326 within the actuator bracket 322 and is also coupled to the return spring 336 and the wind actuator cylinder 328. Another end of the wing actuator rod 332 is pivotally coupled to the wing blade 300 by a pivot pin 334.
[0095] Fig. 25 illustrates exemplary embodiment of an actuator mechanism 320 configured with the wing blade 300 and the central plow blade 250 in a straight or first position configuration.
[0096] Fig. 26 illustrates an actuator mechanism 320 with a wing blade 300 and central plow blade 250 configured in a second or folded position. As shown in Fig. 26, the wing blade in the second position has REINHART\2698037JAW:KAB 04/07/09 26 moved more than 90 degrees about the vertical axis 314 relative to the central plow blade 250 thereby forming an angle = between the front edge of the wing blade 300 and the front edge of the central plow blade 250 of approximately 60 degrees. In other words, the wing blade 300 was moved approximately 120 degrees about the vertical axis 314 by the actuator mechanism 320.
It should be understood that the movement of the wing blade 300 is infinitely variable.
[0097] Each of the wing blades 300 can be moved, by a user of the plow 50 independent of each other and independent of the central plow blade 250. In other words, the position of the wing blade 300 is not dependent upon the position of the central plow blade 250 or the other wing blade on the opposite end of the plow blade 250. In operation, the user of the plow 50 can configure the plow assembly 260 in any position suitable for the type of material such as snow and terrain in which the plow is being operated. One convenient configuration of the plow blades is to have each of the wing blades 300 move to their second position during movement of the plow and hitch to the worksite. It should also be understood that the wing blade can be fitted with a blade extension which would further extend the reach of the wing plow in a typical horizontal aspect.
[0098] As illustrated in Fig. 29, a plurality of trip springs 284 are coupled to each of the plow trip spring brackets 276 and the trip spring brackets 220.
Fig. 29 also illustrates a light bar 286 coupled to the lift bar support brackets 132. The light bar 286 supports a plurality of light brackets 288 to which plow lights (not shown) are coupled. Plow lights are typically needed since the snow plow 50 typically obstructs the headlights of the vehicle to which the snow plow 50 is coupled.
REINHART\2698037JAw:KAB 04/07/09 27 [0099] For purposes of this disclosure, the term "coupled" means the joining of two components (electrical or mechanical) directly or indirectly to one another. Such joining may be stationary in nature or moveable in nature. Such joining may be achieved with the two components (electrical or mechanical) and any additional intermediate members being integrally formed as a single unitary body with one another or the two components and any additional member being attached to one another. Such adjoining may be permanent in nature or alternatively be removable or releasable in nature.
[0100] Although the foregoing description of a quick connect/disconnect hitch and a plow with independently moveable wings has been shown and described with reference to particular embodiments and applications thereof, it has been presented for purposes of illustration and description and is not intended to be exhaustive or to limit the invention to the particular embodiments and applications disclosed.
It will be apparent to those having ordinary skill in the art that a number of changes, modifications, variations, or alterations to the hitch or plow as described herein may be made, none of which depart from the scope of the present invention.
The particular embodiments and applications were chosen and described to provide the best illustration of the principles of the invention and its practical application to thereby enable one of ordinary skill in the art to utilize the invention in various embodiments and with various modifications as are suited to the particular use contemplated. All such changes, modifications, variations, and alterations should therefore be seen as being within the scope of the present invention as determined by the appended claims when interpreted in accordance with the breadth to which they are fairly, legally, and equitably entitled.
REINHART\2698037JAW:KAB 04/07/09 29
The plow includes a wearstrip coupled proximate one end of the center blade. The wearstrip includes an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade. The plow includes a wearstrip coupled proximate one end of the wing blade. The wearstrip includes an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade. The two angled portion edges are further aligned adjacent to each other and with the axis at the one end of the center blade through the range of movement of the wing blade relative to the center blade. When the center blade and the wing blade are aligned horizontally in a straight line, the angled portions of the two wearstrips are configured to define a right angle with at least one corner of each angled portion edge at the axis.
[0012] The apparatus of the present disclosure is of a construction which is both durable and long lasting, and which will require little or no maintenance to be provided by the user throughout its operating lifetime.
The apparatus of the present disclosure is also of inexpensive construction to enhance its market appeal and to thereby afford it the broadest possible market.
Finally, all of the aforesaid advantages and aspects are believed to be achieved without incurring any substantial relative expense.
7a -. -=
DESCRIPTION OF THE DRAWINGS
(0013] These and other advantages of the present invention are best understood with reference to the drawings, in which:
[0014] Fig. 1 is an exploded, isometric view of an exemplary embodiment of a hitch frame nose assembly.
[0015] Fig. 2 is a detail view of an exemplary embodiment of a chassis coupler of the hitch frame nose assembly illustrated in Fig. 1.
[0016] Fig. 3 is an isometric rear view of an exemplary embodiment of a hitch mechanism coupled to a vehicle.
[0017] Fig. 3A is a cross-sectional view of an exemplary embodiment of a spring biased retaining pin along the line 3A-3A of Fig. 3.
[0018] Fig. 4 is an isometric view of the hitch mechanism illustrated in Fig. 3 uncoupled from the hitch frame nose assembly.
[0019] Fig. 5. is a side elevation of the hitch mechanism illustrated on Fig. 4.
[0020] Fig. 6 is a side elevation of the hitch mechanism illustrated in Fig. 3 with the hitch mechanism configured to uncouple from the hitch frame nose assembly.
[0021] Fig. 7 is side elevation of the hitch mechanism illustrated in Fig. 3 with the hitch mechanism coupled to a chassis coupler of the hitch frame nose assembly and illustrating the hitch locking lever in a first lock position.
[0022] Fig. 8 is a side elevation of the hitch mechanism illustrated in Fig. 7 and illustrating the hitch locking lever in a second lock position.
[0023] Fig. 9 is a side elevation of another side of the hitch mechanism illustrated in Fig. 8.
[0024] Fig. 10 is a detail perspective view of a chassis coupler engaged with a notched member of the hitch frame mechanism illustrated in Fig. 3.
REINHA1T\2698037JAW:KAB 04/07/09 8 [0025] Fig. 11 is a top view of the chassis coupler illustrated in Fig. 10.
[0026] Fig. 12 is an isometric rear view of an exemplary embodiment of a lift bar assembly of the hitch mechanism illustrated in Fig. 3.
[0027] Fig. 12A is a partial view of the lift bar assembly illustrated in Fig. 12, illustrating the lift bar assembly coupled to the rear portion of a plow frame in one of a plurality height adjustment orifices.
[0028] Fig. 12B is a partial side elevation of the hitch mechanism illustrated in Fig. 3.
[0029] Fig. 12C is a partial side elevation of the hitch mechanism illustrated in Fig. 3 with the lift bar assembly coupled to the plow frame in an alternative height adjustment orifice.
[0030] Fig. 13 is an isometric, top, front view of an exemplary embodiment of an A-frame plow frame assembly of the hitch mechanism illustrated in Fig. 3.
[0031] Fig. 14 is a cross sectional view of the plow frame illustrated in Fig. 13 along the line 14-14.
[0032] Fig. 15. is an isometric, front view of an exemplary embodiment of a swing frame of the hitch mechanism illustrated in Fig. 3.
0033] Fig. 16 is a cross sectional view of the swing frame illustrated in Fig. 15 along the line 16-16.
[00343 Fig. 17 is bottom view of the swing frame illustrated in Fig. 15.
[0035] Fig. 17A is a partial cross-sectional top rear view of a cushion block assembly along the line 17A-17A of Fig. 17.
00363 Fig. 17B is an isometric, rear view of an exemplary embodiment of a cushion block coupled to the blade illustrated in Fig. 18, with a portion of the swing frame in phantom.
REINHART\2698037JAw:KAB 04/07/09 9 [0037] Fig. 18 is an isometric, back view of an exemplary embodiment of a blade coupled to the hitch mechanism illustrated in Fig. 3, the blade including a wing blade on each blade end.
[0038] Fig. 19 is an isometric, front view of the blade illustrated in Fig. 18, showing one wing blade in a straight position and another wing blade in a folded position, the wing blade in the straight position also includes a blade extension member.
[0039] Fig. 20 is an isometric, bottom rear view of the blade illustrated in Fig. 18.
[0040] Fig. 21 is an isometric, bottom detail view of the wing blade in the straight position of the blade illustrated in Fig. 20.
[0041] Fig. 21A is a partial cross-sectional view of the wing blade illustrated in Fig. 21 along the Line 21A-21A.
[0042] Fig. 22 is an isometric, bottom detail view of the wing blade in the folded position of the blade illustrated in Fig. 20.
[0043] Fig. 22A is a partial cross-sectional view of the wing blade illustrated in Fig. 22 along the line 22A-22A.
[0044] Fig. 23 is an exploded front view of blade illustrated in Fig. 20, showing one wing blade in the straight position relative to the plow blade and another wing blade in the folded position relative to the plow blade.
[0045] Fig. 24 is an exploded view of an exemplary embodiment of a wing blade including an actuation mechanism for the wing blade.
[0046] Fig. 25 is a top view of the blade illustrated in Fig. 18, showing the wing actuation mechanism in a straight position.
[0047] Fig. 26 a top view of the blade illustrated in Fig. 18, showing the wing actuation mechanism in a folded position.
REINHART\2698037JAW:KAB 04/07/09 10 --- -[0048] Fig. 27 is a partial cross sectional view of the bottom of the blade illustrated in Fig. 18 along the line 27-27, showing how a blade cutting edge, nut plate, moldboard and wear strip are coupled to a blade frame member.
[0049] Fig. 28A is a partial cross-sectional view along the line 23A-23A of Fig. 18 showing the plow blade in a normal position.
[0050] Fig. 28B is a partial cross-sectional view the plow blade illustrated in Fig. 28A showing the plow blade in a rotated position.
[0051] Fig. 29 is an isometric, assembly view of an exemplary embodiment of the blade illustrated in Fig.
18 and the hitch mechanism illustrated in Fig. 3 coupled together.
REINHART\2698037JAW:KAB 04/07/09 11 DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS
[0052] There is disclosed a snow plow 50 for mounting on a vehicle 60 with a quick connection/disconnect hitch 70 (more fully described below). The quick connect/disconnect hitch 70 facilitates the easy connection, i.e., without tools and disconnection of the snow plow 50 from the vehicle 60.
[0053] Referring to Figs. 1 and 2, a hitch frame nose assembly 100 includes a hitch frame tube having a first end 104 and a second end 106. Coupled to each end of the hitch nose tube 102 is a chassis coupler 108. Each chassis coupler 108 mounts to the vehicle chassis 60. In a typical set up, each of the chassis couplers 108 will be secured to a frame member of the vehicle chassis 70 (not shown) by bolting the chassis coupler 108 to the vehicle chassis 60. It is also contemplated that the chassis coupler 108 can be welded to the vehicle chassis 60 as determined by the user of the quick connect/disconnect hitch 70.
[0054] Each chassis coupler 108 is a formed U-shaped channel with outward extending flanges. The flanges 110 are configured to provide a mounting surface for the chassis coupler 108 to facilitate coupling of the chassis coupler 108 to the vehicle chassis 60. Each flange 110 defines a plurality of apertures 112 to facilitate bolting of the chassis coupler 108 to the vehicle chassis 60. The apertures 112 may be configured as circles or slots. Each side 114 of each chassis coupler 108 further defines a pair of slots 116 extending longitudinally along and through each side 114 of the chassis coupler 108. The slots 116 facilitate the coupling of the hitch frame tube 102 to each of the chassis couplers 108 comprising the hitch frame nose assembly 100. Each chassis coupler 108 may be provided with slots 116 on each side 114 of the chassis coupler 108 to facilitate REINHART\2698037JAW:KAB 04/07/09 12 -- -manufacturing and assembly by providing commonality of parts. Each chassis coupler 108 is also provided with an end-stop coupled to each of the flanges 110 proximate the front end 120 of the chassis coupler 108. The end-stop 118 assists in positioning the chassis coupler 108 on the vehicle chassis 60. Each chassis coupler 108 also defines a substantially V-shaped notch 122 to accommodate a lock hook pivot more fully described below. Each chassis coupler 108 also includes a traverse pin 124 which extends through both sides 114 of the chassis coupler 108. Traverse pin 124 is secured to the chassis coupler 108 by a nut threadingly fastened to the traverse pin 104. The nut may further be welded to the chassis coupler 108 to further secure the traverse pin 124. A portion 128 of the traverse pin extends beyond the side 114 of the chassis coupler 108 and is configured to engage a locking hook more fully described below.
[0055] Fig. 3 illustrates an exemplary embodiment of a quick connect/disconnect hitch 70 assembly. The hitch frame nose assembly 100 is coupled to a vehicle chassis 60. Coupled to the hitch frame nose assembly 100 is the lift bar assembly 130 which in turn is coupled to a plow frame 170.
[0056] The lift bar assembly 130 includes a pair of lift bar support members 132 maintained in a spaced apart relationship and coupled to a lift bar approximate the top of each lift bar support member 132. A light bar brace 136 approximate the lower end of each lift bar support member 132 facilitates maintenance of the spaced apart relationship of the lift bar support member 132. A pair of lift bar lugs 138 are coupled to each lift bar support member 132 approximate the light bar brace 136. (Also see Figs.
12 and 12a). Coupled to the lift bar 134 are a pair of upper lift cylinder mounts 140 configured to operably secure a power mechanism, for example a lift REINHART\2698037JAW:KAB 04/07/09 13 cylinder 142. Also coupled to the lift bar assembly 130 is a locking mechanism 144.
(0057] Referring to Fig. 4, there is illustrated a hitch frame nose assembly 100 coupled to a vehicle chassis 60 and positioned to receive a locking mechanism 144 of a quick connect/disconnect hitch 70.
The locking mechanism 144 includes a pair of notched members 146 coupled to the lift bar assembly 130 and positioned to correspond for engagement with each of the chassis couplers 108 of the hitch frame nose assembly 100.
[0058] Each notch member 146 includes a pair of tapered side members 148 with each tapered side member 148 defining a notch 150. Each notch 150 is configured to engage the traverse pin 124 positioned between the two sides 114 of each chassis coupler 108.
Each notch member 146 also includes a plate member 152 fastened to the top portion of each of the tapered side members 148, typically by welding a plate member 150 to each tapered side member 148. The plate member provides additional reinforcement for the notch member 146 and defines with the two tapered side members 148 an inverted U-shape assembly. With the notch member 146 engaged with the chassis coupler 108 the pivot for the quick connect/disconnect hitch 70 formed by the engagement of the notch 150 with the traverse pin 124 is enclosed within the two facing u-shaped assemblies.
[0059] Each notched member 146 further includes a locking hook 154 pivotally coupled to a hook pivot 156. The hook pivot 156 extends through each of the tapered side members 148 of each notch member 146.
The locking hook 154 moves about the hook pivot 156 in response to movement of the hitch locking lever 158 as the hitch locking lever 158 moves about a lever pivot 160. The hitch locking lever 158 is coupled to the REINHART\2698037JAW:KAB 04/07/09 14 locking hook 154 by a lock linkage 162. The operation of the locking mechanism 144 will be explained below.
[0060] The orientation of the locking hook 154 and the notch member 146 is such that when the notch member 146 is inserted into the chassis coupler 108 the locking hook is positioned outside of the u-shaped chassis coupler 108 and positioned to selectively engage the portion 128 of the traverse pin 124 that extends beyond the side 114 of the chassis coupler 108. It should be understood that there is a locking hook 154 on each of the notch members 146 which engages the traverse pin 124 extending beyond the side 114 of each of the chassis couplers 108 that are part of the hitch frame nose assembly 100. The locking hook 154 locks the lift bar assembly 130 to the hitch frame nose assembly 100.
[0061] Locking mechanism 144 also includes a lock support bracket 164 which is coupled to each of the lift bar support members 132. A preferred embodiment provides that a pair of lock support brackets 164 are coupled to each side of the corresponding lift bar support member 132. (Figs. 3 and 4). It should be understood that the locking mechanism 144 includes a locking hook 154, hook pivot 156, lock linkage 162 on each outward side of the lift bar assembly 130. On one side of the lift bar assembly 130, the hitch locking lever 158 is coupled to the linkage, and on the other side of the lift bar assembly 130 the lock linkage 162 is coupled to a lock linkage bracket 166.
(See Fig. 9). The lock linkage bracket 166 and the hitch locking lever 158 are coupled together by a hitch lock extension rod 168 extending through each of the lock support brackets 164 and each of the lift bar support members 132. The hitch lock lever 158 and the lock linkage bracket 166 are journaled to the hitch lock extension rod 168 by a flat face defined on each REINHART\2699037JAW:KAB 04/07/09 15 -end of the hitch lock extension rod 168. (See Figs. 8 and 9).
(0062] The operation of coupling the quick connect/disconnect hitch 70 to the vehicle chassis 60 will now be described with reference to Figs. 5 through 9. Fig. 5 illustrates an exemplary embodiment of a quick connect/disconnect hitch 70 positioned to engage the hitch frame nose assembly 100 coupled to a vehicle chassis 60. The hitch locking lever 158 is in an unlocked position 174. The movement of the hitch lock lever 158 to the unlocked position 174 rotated the locking hook as illustrated in Fig. 5. The vehicle having a hitch frame nose assembly 100 coupled to the vehicle chassis 60 is moved towards the quick connect/disconnect hitch 70 as indicated by the arrow in Fig. 5.
[0063] Fig. 6 illustrates the quick connect/disconnect hitch 70 engaged with the hitch frame nose assembly 100 with each notched member 146 of the lift bar assembly 130 coupled to the traverse pin 124 in each of the chassis couplers 108. Such engagement is illustrated at least in Figs. 10 and 11.
In this position, with the hitch locking lever 158 still in the unlocked position 174 the vehicle can be moved away from the hitch 70 if additional adjustment maneuvers are necessary.
[0064] Fig. 7 illustrates the locking mechanism 144 in a first locked position 176. In the first locked position 176, the locking hook has moved to engage the traverse pin 124 in each of the chassis couplers 108.
In this configuration, the lever pivot 160, the hitch locking lever linkage attachment 180 and the hook linkage attachment 182 are substantially in a straight line as illustrated in Fig. 7.
[0065] To complete the locking maneuver of the locking mechanism 144, the hitch locking lever 158 is moved to a second locked position 178 which forces the REINHART\2698037JAW:KAB 04/07/09 16 hitch locking lever 158 to move over center of the lever pivot 160 as illustrated in Fig. 8. The hitch locking lever 158 also is secured in a retaining bracket 184 coupled to a locked support bracket 164.
The retaining bracket 184 includes a retaining pin 186 which is biased by a spring 188. The retaining pin 186 engages an orifice defined in the hitch lever locking lever 158 as illustrated in Fig. 3A. It should be understood that other ways of securing the locking lever 158 can be used to prevent the locking lever 158 from inadvertently unlocking the hitch 70.
[0066] As described above, the locking mechanism 144 includes a lock hook 154 on each side of the lift bar assembly 130 and are coupled together to simultaneously operate with movement of the hitch locking lever 158. Fig. 9 illustrates the other side of the locking mechanism 144 illustrated in Fig. 8.
[0067] The lift bar assembly 130 is coupled to a plow frame 170. The lift bar assembly 130 is provided with a pair of lift bar lugs 138 coupled to the lift bar brace 136 and to each of the lock support brackets 164 on both sides of the lift bar assembly 130 (see Fig. 12).
[0068] A plow frame 170 is configured substantially in the form of a letter A with the plow frame 170 including a front portion 175 and a rear portion 177.
The plow frame 170 includes two side member 196, 198 which form the sides of the A-shape with a traverse brace tube 200 coupled to each of the side members 196, 198. The side members 196, 198 and the traverse brace tube 200 are conventional steel square tubing, however, it is contemplated that other cross-section configured tubes, for example circular or triangular, can be used. Coupled to the front portion 175 of the plow frame 170 is a swing frame pivot assembly 185.
The swing frame pivot assembly includes a top plate 187 and a bottom plate 189. Each of the plates 187, REINHART\2698037JAw:KAB 04/07/09 17 189 defines an orifice configured to receive a swing frame pivot pin 190. The swing frame pivot assembly 185 is further coupled to each of the side members 196, 198 of the plow frame 170 by a pair of side support brackets 192, 194 which are configured to couple to each of the top plate 187, the bottom plate 189 and one of the side members of the plow frame 170.
[0069] In one embodiment, a portion of the top plate 187 is bent downwardly at a 90 degree angle to extend the top plate 187 to the bottom plate 189 with that portion of the top plate configured to define an angled pocket to receive each of the side members 196, 198 of the plow frame 170. See Figs. 13 and 14.
[0070] Coupled to the traverse brace tube 200 are lift cylinder mounts 206 and a pair of swing cylinder mounts 202 and 204. Lift cylinder mounts 206 are aligned to couple the lower end of the lift cylinder 142 which is coupled to the upper lift cylinder mount 140 on the lift bar 134.
[0071] Each of the side members 196, 198 of the plow frame 170 include an adjustment lug 172 at the rear portion 177 of the plow frame 170. Each adjustment lug 172 includes a plurality of orifices 179 aligned vertically and configured to receive a bolt 232 which will couple the plow frame 170 to the lift bar lugs 138 on the lift bar assembly 130. As best seen in Figs. 12, 12A, 12B, and 12C, the adjustment lug 172 is received between each of the lift bar lugs 138 of the lift bar assembly 130 and secured with a bolt 232. In order to adjust the plow frame height relative to the vehicle, an operator will select one of the vertical adjustment orifices 179 to properly align the plow frame 170 with the lift bar assembly 130 which is in turn coupled with the chassis couplers 108 of the hitch frame nose assembly 100.
[0072] A swing frame 208 is pivotally coupled to the swing frame pivot assembly 184 of the plow frame REINHART\2698037JAW:KAB 04/07/09 18 ' --170 (see at least Figs. 15 and 18). The swing frame 208 includes a swing frame tube 209 which has two swing frame ends 210 and 212. Coupled to each swing frame end 210, 212 is a pair of trip spring brackets 220. (See Figs. 15 and 17.) Each trip spring bracket 220 includes a trip spring mount 224, a cushion trip plate 280 and a blade pivot mount 226. Each pair of trip spring brackets 220 are coupled to the swing frame tube 209, for example by welding.
[0073] The swing frame 208 includes a pivot 230 positioned in a center portion 214 of the swing frame tube 208. The pivot 230 couples to the swing frame pivot assembly 184 of the plow frame 170 with the swing frame pivot pin 190.
[0074] The swing frame tube 109 also supports a pair of swing cylinder mounts 236 mounted on the swing frame tube 209 with each swing cylinder mount 236 positioned between the center portion 214 of the swing frame tube 209 and one end 210, 212 of the swing frame tube 209. (See Fig. 15.) A swing cylinder 252 is coupled at one end to a swing cylinder mount 236 on the swing frame 208 and on another end on the swing cylinders mounts 202, 204 of the plow frame 170. The swing cylinder 252 as selectively operated by a user of the snow plow 50 can rotate the central plow blade 250 about the pivot 230. The degree of rotation of the plow blade relative to the plow frame 170 is established by the extension capabilities of the swing cylinders 252 as selected by an operator.
[0075] The central plow blade 250 is coupled to the swing frame 208 pinning the plow blade to each of the trip spring brackets 240 at the blade pivot mount 226 on each of the trip spring brackets 220. A pivot pin is received in a pivot aperture 234 and is typically secured in place by a cotter pin (not shown). It is contemplated that other means of fastening the pivot pin can be used such as a bolt and nut.
REINHART\2698037JAW:KAB 04/07/09 19 [0076] Also coupled to the trip spring bracket 220 is a cushion trip plate 280. The cushion trip plate 280 is configured with a pair of oversize bolt apertures 240 to accommodate a socket or other tool for manipulating a cushion bolt 238 to secure a cushion block 228 to the cushion mount 222. The cushion block 228 is substantially a rectangular shaped block of polyurethane or other high density resilient material. The cushion block 228 is used to absorb the impact of the plow blade 250 (see Figs. 28A
and 28B) as the plow blade moves between its limits.
Such movement of the plow blade 250 is caused by the central plow blade 250 striking an object as the plow blade 250 is moved by a vehicle. The cushion block 228 is configured to prevent damage to the snow plow by allowing the snow central plow blade 250 to "trip"
that is, for the bottom of the central plow blade 250 to move rearward and the top of the central plow blade 250 to simultaneously move forward about the blade pivot pin, resulting in a rotation of plow blade 250 around a horizontal axis. Such a rotation is inhibited by springs 284 which act as a shock absorber mechanism, and which return the central plow blade 250 to a normal or "trip return" position. The springs 284 are relatively strong, since they must prevent the plow blade from rotating when it is plowing snow and the metal-to-metal impacts of both a plow trip bracket and a blade trip return can be substantial. The cushion block 228 is configured to cushion the impacts on both the blade and the trip spring bracket 220.
[0077] It is also contemplated that a back cushion (not shown) similar to the cushion block 228 can be coupled, for example by bolting, to a blade stop 282 at a lower end of each of the trip spring brackets 220. The back cushion is configured to ameliorate vibration and damage to the central plow blade 250 if REINHART\2698037JAW:KAB 04/07/09 20 the plow blade contacts an obstruction during operation.
[0078] The cushion block 228 is rectangular in shape and provides a relatively large area to distribute the force exerted upon the cushion block 228 when the blade 250 moves back to its trip return position by action of the return springs 284. The relatively large cushion bolt aperture 240 allows a user to easily access the cushion bolts 238 when servicing the cushion block. Servicing of the cushion block 228 can be accomplished, for example, replacing the cushion block without having to remove the central plow blade 250 from the swing frame 208. However, a slight forward rotation of the central plow blade 250 must be provided to remove the cushion block from between the cushion mount 222 and the cushion trip plate 280.
0079] A wing wear strip 304 is coupled to a wing blade 300. A wear strip 306 is also coupled to the central plow blade 250. Each of the wear strip 304, 306 are configured with an angled facing portion 305, 307 that that meet in the front side when the wing blade 300 is in the second or folded position and meet in the back side when the wing blade 300 is in the first or straight position. (See Figs. 19-22A.) The wear strips 304, 306 are coupled to the wing blade 300 and the central plow blade 250 with bolts or other suitable fasteners.
[0080] Referring now to Figs. 18-28B, Fig. 18 illustrates a snow plow 50 with a plow blade assembly 260 coupled to a quick connect/disconnect hitch 70.
Fig. 18 is a bottom, rear isometric view of the snow plow 50.
[0081] Fig. 20 is an isometric rear view of the plow blade assembly 260. The central plow blade 250, is coupled, for example, by welding, to a plurality of plow ribs 268. Each of the plow ribs 268 are aligned REINHART\2698037JAW:KAB 04/07/09 21 vertically and coupled to a bottom plow frame member 262. The plow ribs 268 are positioned at evenly spaced intervals along the bottom plow frame member 262 and welded to the plow blade 250 and the bottom plow frame member 262. Each of the plow ribs 268 is configured in a concave curve to which the central plow blade 250 conforms and which also facilitates movement of material such as snow as the plow 50 is operated. A wear strip 270 is coupled to a substantial portion of the lower edge of the plow blade 250 by a plurality of bolts 272 which extend through the wear strip 270, the central plow blade 250, the bottom plow frame member 262 and a nut plate 274 which is positioned against one of the downward extending flanges of the bottom plow frame member 262.
(See at least Fig. 20.) Reinforcement members 264 are positioned between the down facing flanges of the bottom plow frame member to reinforce the plow blade assembly 260. The reinforcement members 264 are typically welded to the bottom plow frame member 262.
The top edge of the plow blade 250 is bent and configured to be coupled to the top edge of each of the plow ribs 268. The top edge of the plow blade 250 is typically welded to each of the plow ribs 268.
[0082] Referring to Fig. 20, a pair of plow trip spring brackets 276 are coupled, for example, by welding, each to two of a plow rib 268. The plow trip spring brackets 276 are aligned with the spring mounts 224 on each of the spring brackets 220 coupled to the swing frame 208. A cushion mount 222 is also coupled, typically by welding, to each of the plow ribs 268 that support the plow trip spring brackets 276 (see Fig. 24). A cushion block 228 is bolted to each of the cushion mounts 222 and are configured and aligned to contact a cushion trip plate 280 coupled to each of the trip spring brackets 220.
REINHART\2698037JAW:KAB 04/07/09 22 [0083] Fig. 19 illustrates a front perspective view of a plow blade assembly 260 which includes a central plow blade 250 and a pair of wing blades 300. A wing blade 300 is pivotally coupled to each end 290, 292 of the central plow blade 250. In Fig. 19, one of the wing blades 300 is aligned in a straight aspect with the central plow blade 250 and the other wing blade 300 is in a folded or second position towards the front of the central plow blade 250 in excess of 90 degrees from the straight or first position.
[0084] Fig. 20 is an isometric bottom rear view of the blade assembly 260. Each of the wing blades 300 is coupled to the central plow blade 250 about a vertical axis 314 which is parallel with each of the first 290 and second 292 ends of the central plow blade 250. Each of the wing blades 300 is coupled to an actuation mechanism 320 mounted at the rear of the central plow blade 250.
[0085] Referring now to Figs. 21 and 21A, a wing blade 300 is illustrated in a first position which is longitudinally aligned in line or straight with the central plow blade 250. A wing pivot 308 houses a wing pivot pin 312 in a wing pivot tube 310. The wing pivot tube 310 can be coupled to one of the central plow blade 250 and wing blade 300 or it can be a separate member (See Fig. 23). The wing pivot tube 310 can be welded to one of the central plow blade 250 or wing blade 300 or it can be fabricated in conjunction with the fabrication of either the central plow blade 250 and wing blade 300.
[0086] As shown in Fig. 21A, a portion of the central plow blade 250 and a portion of the wing blade 300 meet at approximately a vertical axis 314 of the wing pivot 308. Such configuration inhibits movement of material, such as snow, from moving between the central plow blade 250 and wing blade 300. As configured, there is very little gap 315 between the REINHART\2698037JAW:KAB 04/07/09 23 central plow blade 250 and the wing blade 300 throughout the vertical axis 314 between the central plow blade 250 and the wing blade 300.
[0087] The gap 315 is further inhibited from passing material between the central blade 250 and each wing blade 300 by structure including two pair of wear strips, a first pair of wear strips and a second pair of wear strips. The first pair of wear strips, includes one wear strip 306 coupled to the first end 290 of the center blade 250 and the other wear strip 304 coupled to one wing blade 300. A second pair of wear strips includes, one wear strip 306 coupled to the second end 292 of the center blade 250 and the other wear strip 304 coupled to the other wing blade 300. The orientation of a wing blade 300, the wear strips 304, 306, and the wing pivot tube 310 at each of the first and second ends 290, 292 of the center blade 250 minimize the gap 315 defined between each end of the center blade 250 and the associated wing blade 300 throughout the range of movement of each wing blade 300.
(0088] Each wear strip 304, 306 defines an angled portion 305, 307 in each of the first and second pair of wear strips. The angled portion 307 of the wear strips 306 on the center blade 250 and the angled portion 305 of the wear strip 304 on each of the wing blades 300 aligned with the respective axis 314 at each end 290, 292 of the center blade 250.
(0089) The plow 260 also includes a convex bulge 291 defined at each end 290, 292 of the center blade 250 and a convex bulge 301 defined at an end 299 of each wing blade 300. Each of the convex bulges 291, 301 are configured to direct material from the wing pivot tubes 310. It is anticipated that material to be moved by the plow 260 can be snow, gravel, and soil as determined by an operator of the plow 260.
REINHART\2698037JAW:KAB 04/07/09 24 ,4 o. = x xr+¨ ==a,*
[0090] The wear strip 306 coupled proximate one end of the center blade 250 includes the angled portion 307, with the angled portion 307 including an edge 309 aligned perpendicular with the axis 314. The wear strip 304 coupled proximate one end 299 of the wing blade 300 includes an angled portion 305 having an edge 311 aligned perpendicular to the axis 314. The two angled portion edges 309, 311 are further aligned adjacent to each other throughout the range of movement of the wing blade 300 relative to the center blade 250 (See Figs. 21A and 22A). As illustrated in Fig. 21A when the center blade 250 and the wing blade 300 are aligned horizontally in a straight line, the angled portions 305, 307 of the two wear strips 304, 306 are configured to define a right angle with at least one corner 313, 317 of each angled portion edge 309, 311 at the axis 314. When the wing blade 300 is moved to the second position, the folded position, the corners 313, 317 of each angled portion edge are still adjacent to each other at the axis 314. (See Fig.
22A). The corners 313, 317 maintain their position relative to the axis 314 throughout the range of movement of the wing blade 300 relative to the center blade 250.
[0091] The structures described above minimize or eliminate material movement through the gap 315 defined between the center blade 250 and a wing blade 300.
[0092] Figs. 22 and 22A illustrate a wing blade 300 moved into a second or folded position about the vertical axis 314 which is substantially parallel to the end 290, 292 of the central plow blade 250. As shown in Fig. 22A, a portion of the central plow blade 250 and a portion of the wing blade 300 maintain their approximate position on the vertical axis 314 of the wing pivot 308 throughout the movement of the wing blade 300 from the first position (straight) to the REINHART\2698037JAW:KAB 04/07/09 25 second position (folded) about the vertical axis 314 which is parallel with each of the first and second ends 290, 292 of the central plow blade 250.
[0093] Referring now to Figs. 23, 24 25, and 26, an actuation mechanism 320 will be described. A pair of actuation mechanisms 320 are coupled to the plow blade assembly 260 to facilitate movement of the wing blade 300 from the first position relative to the central plow blade 250.
[0094] Each actuation mechanism 320 includes an actuation bracket coupled to the central plow blade 250 (see Fig. 24). The preferred embodiment of the actuator bracket 320 is a steel, u-shaped channel which defines a guide slot 324 in a portion of actuator bracket 322 that is approximate an end 290, 292 of the central plow blade 250. Coupled to the actuator bracket 322 is a wing actuator cylinder 328.
The wing actuator cylinder 328 is coupled to the actuator bracket 322 at one end by a pivot pin 330 and at another end with a guide pin 326 slidingly engaged in the guide slot 324. A return spring 336 is coupled at one end to the actuator bracket 322 and to a wing actuator rod 332. The wing actuator rod 332 is also coupled to the actuator bracket 322 at one end by the guide pin 326 within the actuator bracket 322 and is also coupled to the return spring 336 and the wind actuator cylinder 328. Another end of the wing actuator rod 332 is pivotally coupled to the wing blade 300 by a pivot pin 334.
[0095] Fig. 25 illustrates exemplary embodiment of an actuator mechanism 320 configured with the wing blade 300 and the central plow blade 250 in a straight or first position configuration.
[0096] Fig. 26 illustrates an actuator mechanism 320 with a wing blade 300 and central plow blade 250 configured in a second or folded position. As shown in Fig. 26, the wing blade in the second position has REINHART\2698037JAW:KAB 04/07/09 26 moved more than 90 degrees about the vertical axis 314 relative to the central plow blade 250 thereby forming an angle = between the front edge of the wing blade 300 and the front edge of the central plow blade 250 of approximately 60 degrees. In other words, the wing blade 300 was moved approximately 120 degrees about the vertical axis 314 by the actuator mechanism 320.
It should be understood that the movement of the wing blade 300 is infinitely variable.
[0097] Each of the wing blades 300 can be moved, by a user of the plow 50 independent of each other and independent of the central plow blade 250. In other words, the position of the wing blade 300 is not dependent upon the position of the central plow blade 250 or the other wing blade on the opposite end of the plow blade 250. In operation, the user of the plow 50 can configure the plow assembly 260 in any position suitable for the type of material such as snow and terrain in which the plow is being operated. One convenient configuration of the plow blades is to have each of the wing blades 300 move to their second position during movement of the plow and hitch to the worksite. It should also be understood that the wing blade can be fitted with a blade extension which would further extend the reach of the wing plow in a typical horizontal aspect.
[0098] As illustrated in Fig. 29, a plurality of trip springs 284 are coupled to each of the plow trip spring brackets 276 and the trip spring brackets 220.
Fig. 29 also illustrates a light bar 286 coupled to the lift bar support brackets 132. The light bar 286 supports a plurality of light brackets 288 to which plow lights (not shown) are coupled. Plow lights are typically needed since the snow plow 50 typically obstructs the headlights of the vehicle to which the snow plow 50 is coupled.
REINHART\2698037JAw:KAB 04/07/09 27 [0099] For purposes of this disclosure, the term "coupled" means the joining of two components (electrical or mechanical) directly or indirectly to one another. Such joining may be stationary in nature or moveable in nature. Such joining may be achieved with the two components (electrical or mechanical) and any additional intermediate members being integrally formed as a single unitary body with one another or the two components and any additional member being attached to one another. Such adjoining may be permanent in nature or alternatively be removable or releasable in nature.
[0100] Although the foregoing description of a quick connect/disconnect hitch and a plow with independently moveable wings has been shown and described with reference to particular embodiments and applications thereof, it has been presented for purposes of illustration and description and is not intended to be exhaustive or to limit the invention to the particular embodiments and applications disclosed.
It will be apparent to those having ordinary skill in the art that a number of changes, modifications, variations, or alterations to the hitch or plow as described herein may be made, none of which depart from the scope of the present invention.
The particular embodiments and applications were chosen and described to provide the best illustration of the principles of the invention and its practical application to thereby enable one of ordinary skill in the art to utilize the invention in various embodiments and with various modifications as are suited to the particular use contemplated. All such changes, modifications, variations, and alterations should therefore be seen as being within the scope of the present invention as determined by the appended claims when interpreted in accordance with the breadth to which they are fairly, legally, and equitably entitled.
REINHART\2698037JAW:KAB 04/07/09 29
Claims (37)
1. A plow, including a center blade having a first end and a second end, the center blade having a plow side and a vehicle side opposite the plow side, and a wing blade coupled to each end of the center blade, each of the wing blades having a plow side and a vehicle side opposite the plow side, with each wing blade pivotally connected to the center blade about an axis located substantially in front of the center blade and movable through a range of movement between a straight position and a folded position, the plow comprising:
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom and having an edge aligned perpendicularly with the axis at the first end and substantially in front of the center blade, the angled portion of the wearstrip coupled to the one wing blade extending in a direction away from the vehicle side of the one wing blade;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each of the second pair of wearstrips including an angled portion extending therefrom and having an edge aligned perpendicularly with the axis at the second end of and substantially in front of the center blade, the angled portion of the wearstrip coupled to the other wing blade extending in a direction away from the vehicle side of the other wing blade; and a wing pivot tube coupled to each of the wing blades and center blade at each of the first and second end of the center blade about the respective axis;
wherein the orientation of the wing blade, the wearstrips and the angled portions thereof, and the wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade.
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom and having an edge aligned perpendicularly with the axis at the first end and substantially in front of the center blade, the angled portion of the wearstrip coupled to the one wing blade extending in a direction away from the vehicle side of the one wing blade;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each of the second pair of wearstrips including an angled portion extending therefrom and having an edge aligned perpendicularly with the axis at the second end of and substantially in front of the center blade, the angled portion of the wearstrip coupled to the other wing blade extending in a direction away from the vehicle side of the other wing blade; and a wing pivot tube coupled to each of the wing blades and center blade at each of the first and second end of the center blade about the respective axis;
wherein the orientation of the wing blade, the wearstrips and the angled portions thereof, and the wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade.
2. The plow of claim 1, wherein the angled portions of the wearstrips on the center blade and the angled portion of the wearstrip on each of the wing blades align substantially adjacent each other and with the respective axis at each end of the center blade.
3. The plow of claim 1, including a first wing pivot pin configured to couple one of the wing blades to the first end of the center blade and a second wing pivot pin configured to couple the other of the wing blades to the second end of the center blade, with each wing pivot pin extending through each one of the wing pivot tubes.
4. The plow of claim 1, including a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct material away from the wing pivot tubes.
5. The plow of claim 4, wherein the material is one of snow, gravel and soil.
6. The plow of claim 1, including an actuator coupled to the center blade and at least one of the wing blades, the actuator configured to move the wing blade about the associated axis.
7. The plow of claim 6, including another actuator coupled to the center blade and to the other wing blade, with such actuator configured to move such other wing blade about the associated axis.
8. A snow plow comprising:
a hitch frame nose assembly configured to couple to a vehicle;
a plow frame coupled to the hitch frame;
a center blade having a first end and a second end, the center blade being supported by the plow frame;
wing blades each coupled to opposite ends of the center blade, with each wing blade pivotally connected to the center blade about an axis located substantially in front of the center blade and movable through a range of movement between a straight position and a folded position;
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the first end of the center blade and wherein the angled portion of the wearstrip coupled to the first end of the center blade extends in a direction away from the plow frame;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each of the second pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the second end of the center blade and wherein the angled portion of the wearstrip coupled to the second end of the center blade extends in a direction away from the plow frame; and a wing pivot tube coupled to each of the wing blades and center blade at each end of the center blade about the axis;
wherein the orientation of the wing blade, the wearstrips and the angled portions thereof, and the wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade.
a hitch frame nose assembly configured to couple to a vehicle;
a plow frame coupled to the hitch frame;
a center blade having a first end and a second end, the center blade being supported by the plow frame;
wing blades each coupled to opposite ends of the center blade, with each wing blade pivotally connected to the center blade about an axis located substantially in front of the center blade and movable through a range of movement between a straight position and a folded position;
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each of the first pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the first end of the center blade and wherein the angled portion of the wearstrip coupled to the first end of the center blade extends in a direction away from the plow frame;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each of the second pair of wearstrips including an angled portion extending therefrom having an edge, wherein the edge of the angled portion of the wearstrip on the center blade and the edge of the angled portion of the wearstrip on the wing blade are aligned with the axis at the second end of the center blade and wherein the angled portion of the wearstrip coupled to the second end of the center blade extends in a direction away from the plow frame; and a wing pivot tube coupled to each of the wing blades and center blade at each end of the center blade about the axis;
wherein the orientation of the wing blade, the wearstrips and the angled portions thereof, and the wing pivot tube at each of the first and second ends of the center blade minimize a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade.
9. The snow plow of claim 8, wherein the angled portions of the wearstrips on the center blade and the angled portion of the wearstrip on each of the wing blades align substantially adjacent each other and with the respective axis at each end of the center blade.
10. The snow plow of claim 8, including a first wing pivot pin configured to couple one of the wing blades to the first end of the center blade and a second wing pivot pin configured to couple the other of the wing blades to the second end of the center blade, with each pivot pin extending through each one of the wing pivot tubes.
11. The snow plow of claim 8, including a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct snow away from the wing pivot tubes.
12. The snow plow of claim 8, including an actuator coupled to the center blade and at least one of the wing blades, the actuator configured to move the wing blade about the associated axis.
13. The snow plow of claim 12, including another actuator coupled to the center blade and to the other wing blade, with such actuator configured to move such other wing blade about the associated axis.
14. A plow, including a center blade having a first end and a second end, and a wing blade coupled to each end of the center blade, with each wing blade pivotally connected to the center blade about an axis and movable through a range of movement between a straight position and a folded position, the plow comprising:
a wearstrip coupled proximate one end of the center blade, the wearstrip including an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade; and a wearstrip coupled proximate one end of the wing blade, the wearstrip including an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade;
wherein the two angled portion edges are further aligned adjacent to each other and with the axis at the one end of the center blade through the range of movement of the wing blade relative to the center blade;
wherein when the center blade and the wing blade are aligned horizontally in a straight line, the angled portions of the two wearstrips are configured to define a right angle with at least one corner of each angled portion edge at the axis.
a wearstrip coupled proximate one end of the center blade, the wearstrip including an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade; and a wearstrip coupled proximate one end of the wing blade, the wearstrip including an angled portion extending therefrom, with an edge of the angled portion aligned perpendicularly with the axis at the one end of the center blade;
wherein the two angled portion edges are further aligned adjacent to each other and with the axis at the one end of the center blade through the range of movement of the wing blade relative to the center blade;
wherein when the center blade and the wing blade are aligned horizontally in a straight line, the angled portions of the two wearstrips are configured to define a right angle with at least one corner of each angled portion edge at the axis.
15. The plow of claim 14, including a wing pivot tube coupled to one of the wing blades and center blade at each end of the center blade about the axis.
16. The plow of claim 14, including a first wing pivot pin configured to couple one of the wing blades to the first end of the center blade and a second wing pivot pin configured to couple the other of the wing blades to the second end of the center blade, with each wing pivot pin extending through each one of the wing pivot tubes.
17. The plow of claim 14, including a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct material away from the wing pivot tubes.
18. The plow of claim 17, wherein the material is one of snow, gravel and soil.
19. The plow of claim 14, including an actuator coupled to the center blade and at least one of the wing blades, the actuator configured to move the wing blade about the associated axis.
20. A plow, including a center blade having a first end and a second end, and a wing blade coupled to each end of the center blade, with each wing blade pivotally connected to the center blade about an axis and movable through a range of movement, the plow comprising:
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade; and a wing pivot tube coupled to each of the wing blades and center blade at each of the first and second end of the center blade about the respective axis;
wherein the orientation of the wing blade, wearstrips and wing pivot tube at each of the first and second ends of the center blade minimizes a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade, wherein each angled portion of the pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade; and a wing pivot tube coupled to each of the wing blades and center blade at each of the first and second end of the center blade about the respective axis;
wherein the orientation of the wing blade, wearstrips and wing pivot tube at each of the first and second ends of the center blade minimizes a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade, wherein each angled portion of the pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
21. The plow of claim 20, including a first wing pivot pin configured to couple one of the wing blades to the first end of the center blade and a second wing pivot pin configured to couple the other of the wing blades to the second end of the center blade, with each wing pivot pin extending through each one of the wing pivot tubes.
22. The plow of claim 20, including a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct material away from the wing pivot tubes.
23. The plow of claim 22, wherein the material is one of snow, gravel and soil.
24. The plow of claim 20, including an actuator coupled to the center blade and at least one of the wing blades, the actuator configured to move the wing blade about the associated axis.
25. The plow of claim 24, including another actuator coupled to the center blade and to the other wing blade, with such actuator configured to move such other wing blade about the associated axis.
26. A snow plow comprising:
a hitch frame nose assembly configured to couple to a vehicle;
a plow frame coupled to the hitch frame;
a center blade having a first end and a second end;
a wing blade coupled to each end of the center blade, with each wing blade pivotally connected to the center blade about an axis and movable through a range of movement;
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade; and a wing pivot tube coupled to each of the wing blades and center blade at each of the first and second end of the center blade about the respective axis;
wherein the orientation of the wing blade, wearstrips and wing pivot tube at each of the first and second ends of the center blade minimizes a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade, wherein each angled portion of the pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
a hitch frame nose assembly configured to couple to a vehicle;
a plow frame coupled to the hitch frame;
a center blade having a first end and a second end;
a wing blade coupled to each end of the center blade, with each wing blade pivotally connected to the center blade about an axis and movable through a range of movement;
a first pair of wearstrips, with one wearstrip coupled to the first end of the center blade and the other wearstrip coupled to one wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the first end of the center blade;
a second pair of wearstrips, with one wearstrip coupled to the second end of the center blade and the other wearstrip coupled to the other wing blade, with each wearstrip including an angled portion wherein the angled portion of the wearstrip on the center blade and the angled portion of the wearstrip on the wing blade align with the axis at the second end of the center blade; and a wing pivot tube coupled to each of the wing blades and center blade at each of the first and second end of the center blade about the respective axis;
wherein the orientation of the wing blade, wearstrips and wing pivot tube at each of the first and second ends of the center blade minimizes a gap defined between each end of the center blade and the associated wing blade, throughout the range of movement of each wing blade, wherein each angled portion of the pairs of wearstrips meet in the back side of the plow when the wing blade is in a folded position and meet in the front side of the plow when the wing blade is in a straight position, while maintaining alignment with the respective axis.
27. The snow plow of claim 26, including a first wing pivot pin configured to couple one of the wing blades to the first end of the center blade and a second wing pivot pin configured to couple the other of the wing blades to the second end of the center blade, with each pivot pin extending through each one of the wing pivot tubes.
28. The snow plow of claim 26, including a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct snow away from the wing pivot tubes.
29. The snow plow of claim 26, including an actuator coupled to the center blade and at least one of the wing blades, the actuator configured to move the wing blade about the associated axis.
30. The snow plow of claim 29, including another actuator coupled to the center blade and to the other wing blade, with such actuator configured to move such other wing blade about the associated axis.
31. A plow, including a center blade having a first end and a second end, and a wing blade coupled to each end of the center blade, with each wing blade pivotally connected to the center blade about an axis and movable through a range of movement, the plow comprising:
a wearstrip coupled proximate one end of the center blade, the wearstrip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis; and a wearstrip coupled proximate one end of the wing blade, the wearstrip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis, wherein the two angled portion edges are further aligned adjacent to each other through the range of movement of the wing blade relative to the center blade.
a wearstrip coupled proximate one end of the center blade, the wearstrip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis; and a wearstrip coupled proximate one end of the wing blade, the wearstrip including an angled portion, with an edge of the angled portion aligned perpendicular with the axis, wherein the two angled portion edges are further aligned adjacent to each other through the range of movement of the wing blade relative to the center blade.
32. The plow of claim 31, wherein when the center blade and the wing blade are aligned horizontally in a straight line, the angled portions of the two wearstrips are configured to define a right angle with at least one corner of each angled portion edge at the axis.
33. The plow of claim 31, including a wing pivot tube coupled to one of the wing blades and center blade at each end of the center blade about the axis.
34. The plow of claim 31, including a first wing pivot pin configured to couple one of the wing blades to the first end of the center blade and a second wing pivot pin configured to couple the other of the wing blades to the second end of the center blade, with each wing pivot pin extending through each one of the wing pivot tubes.
35. The plow of claim 31, including a convex bulge defined at each end of the center blade and a convex bulge defined at an end of each wing blade, with each convex bulge configured to direct material away from the wing pivot tubes.
36. The plow of claim 35, wherein the material is one of snow, gravel and soil.
37. The plow of claim 31, including an actuator coupled to the center blade and at least one of the wing blades, the actuator configured to move the wing blade about the associated axis.
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US7322708P | 2008-06-17 | 2008-06-17 | |
| US61/073,227 | 2008-06-17 | ||
| US12/485,572 | 2009-06-16 | ||
| US12/485,572 US8061063B2 (en) | 2008-06-17 | 2009-06-16 | Plow wing blade |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CA2669261A1 CA2669261A1 (en) | 2009-12-17 |
| CA2669261C true CA2669261C (en) | 2015-04-28 |
Family
ID=41449581
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA 2669261 Active CA2669261C (en) | 2008-06-17 | 2009-06-17 | Plow wing blade |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA2669261C (en) |
-
2009
- 2009-06-17 CA CA 2669261 patent/CA2669261C/en active Active
Also Published As
| Publication number | Publication date |
|---|---|
| CA2669261A1 (en) | 2009-12-17 |
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