This application is a U.S. National stage application of International Application No. PCT/JP2013/066676, filed on Jun. 18, 2013.
1. Field of the Invention
The present invention relates to a motor grader equipped with work implement.
2. Background Information
Generally, a motor grader is provided with a frame, work implement disposed below the frame, a lifter guide fixed to the frame, a lifter bracket that surrounds the lifter guide, and a lift cylinder that couples the lifter bracket and the work implement (see for example WO 2007/015376). The lifter guide in WO 2007/015376 is formed as a ring and the inner diameter of the lifter guide is suitably larger than the outer diameter of the frame. The lifter guide is fixed to the frame by welding from the distal end of the frame through the lifter guide to the outer circumference of the frame at a certain position.
However, while the lifter guide needs to be inserted through the frame in WO 2007/015376, improving the positional accuracy of the lifter guide with respect to the frame is difficult since it is not easy to weld the lifter guide at the certain position of the frame at a certain angle.
Moreover, since a plate member needs to be inserted for filling in the gap between the lifter guide and the frame when welding the lifter guide to the frame, easily fixing the lifter guide to the frame is not possible.
In consideration of the above conditions, an object of the present invention is to provide a motor grader for which the lifter guide can be accurately and easily fixed to the frame.
A motor grader according to a first aspect of the present invention is provided with a frame and work implement. The frame is formed in a box-shaped. The work implement is configured to be supported by the frame. The frame includes a bracket, a first frame part and a second frame part. The bracket has left and right side surfaces with which a lifter guide formed in an integrated manner. The first frame part is configured to extend forward from a front end part of the bracket and support the work implement. The second frame part is configured to extend rearward from a rear end part of the bracket.
According to the motor grader of the first aspect of the present invention, a device for fixing the lifter guide to the frame is unnecessary since there is no need to insert the lifter guide through the frame. Moreover, since the lifter guide is positioned by coupling the bracket to the first and second frame parts, the positional accuracy of the lifter guide on the frame can be improved. Further, there is no need to provide a plate member for filling in the gap between the lifter guide and the frame since the lifter guide is fixed to the bracket. Due to the above configuration, the lifter guide can be fixed to the frame with good accuracy and with ease.
The motor grader according to a second aspect of the present invention is related to the first aspect, the lifter guide and the bracket are a cast metal.
Based on the motor grader according to the second aspect of the present invention, the strength of the attachment of the lifter guide to the frame can be improved in comparison to when the lifter guide is welded to the bracket.
The motor grader according to a third aspect of the present invention is related to the first or second aspect, and further includes a first bead part that is configured to connect the bracket and the first frame part. The first portion is configured to extend in a crosswise direction and connect a top surface of the bracket and a top surface of the first frame part. The second portion is configured to extend in the crosswise direction and connect a bottom surface of the bracket and a bottom surface of the first frame part. The third portion is configured to extend in a vertical direction and connect the side surface of the bracket and a side surface of the first frame part. The first portion and the second portion are separated from each other in a front-back direction of the frame.
Based on the motor grader according to the third aspect of the present invention, the concentration of an external force applied to the lifter guide on the first bead part is suppressed in comparison to when the first to third portions are formed in a linear manner when seen from the side. Specifically, when conducting slope face shaping work for shaping slopes and ditch digging work for digging V-shaped ditches by applying the blade angle to the ground and using that angle, the torsional force can be suppressed when the torsional force acts on the frame due to the force applied from the blade onto the frame being asymmetrical.
The motor grader according to a fourth aspect of the present invention is related to the third aspect, first portion is located further toward the front of the frame than the second portion.
Based on the motor grader according to the fourth aspect of the present invention, the concentration of the external force on the first bead part can be suppressed.
The motor grader according to a fifth aspect of the present invention is related to the fourth aspect, the lifter guide is connected to the bracket with a top part of the lifter guide bent forward. A distance of the first portion from an intersection between a projection plane of the lifter guide on to the bracket and a top surface of the bracket is equal to a distance of the second portion from an intersection between a projection plane of the lifter guide on to the bracket and a bottom surface of the bracket.
Based on the motor grader according to the fifth aspect of the present invention, the concentration of the external force on the first bead part can be suppressed.
The motor grader according to a sixth aspect of the present invention is related to any one of the third to fifth aspects, third portion is separated from the first portion and the second portion in the front-back direction.
Based on the motor grader according to the sixth aspect of the present invention, the concentration of the external force on the first bead part can be suppressed in comparison to when the first portion and the second portion are coupled in a linear manner when seen from the side.
The motor grader according to a seventh aspect of the present invention is related to any one of the third to sixth aspects, an outer surface of the first bead part is coupled in a flat manner with an outer surface of the bracket and an outer surface of the first frame part.
Based on the motor grader according to the seventh aspect of the present invention, the concentration on the first bead part of the external force applied to the lifter guide can be suppressed in comparison to when the outer surface of the first bead part projects from the outer surfaces of the bracket and the first frame part.
The motor grader according to an eighth aspect of the present invention is related to the first or second aspect, and further includes a second bead part that is configured to connect the bracket and the second frame part. The second bead part includes a fourth portion, a fifth portion and a sixth portion. The fourth portion is configured to extend in a crosswise direction and connect a top surface of the bracket and a top surface of the second frame part. The fifth portion is configured to extend in the crosswise direction and connect a bottom surface of the bracket and a bottom surface of the second frame part. The sixth portion is configured to extend in a vertical direction and connect the side surface of the bracket and a side surface of the second frame part. The fourth portion and the fifth portion are separated from each other in a front-back direction of the frame.
Based on the motor grader according to the eighth aspect of the present invention, the concentration of an external force applied to the lifter guide on the second bead part is suppressed in comparison to when the fourth to sixth portions are formed in a linear manner when seen from the side. Specifically, when conducting slope face shaping work for shaping slopes and ditch digging work for digging V-shaped ditches by applying the blade angle to the ground and using that angle, a torsional force can be suppressed while the torsional force acts on the frame due to the force applied from the blade onto the frame being asymmetrical.
The motor grader according to a ninth aspect of the present invention is related to the eighth aspect, the fourth portion is located further toward the front of the frame than the fifth portion.
Based on the motor grader according to the ninth aspect of the present invention, the concentration of the external force on the second bead part can be suppressed.
The motor grader according to a tenth aspect of the present invention is related to the ninth aspect, the lifter guide is connected to the bracket with a top part of the lifter guide bent forward. A distance of the fourth portion from an intersection between a projection plane of the lifter guide on to the bracket and a top surface of the bracket is equal to a distance of the fifth portion from an intersection between a projection plane of the lifter guide on to the bracket and a bottom surface of the bracket.
Based on the motor grader according to the tenth aspect of the present invention, the concentration of the external force on the second bead part can be suppressed.
The motor grader according to an eleventh aspect of the present invention is related to any one of the eighth to tenth aspects, the sixth portion is separated from the fourth portion and the fifth portion in the front-back direction.
Based on the motor grader according to the eleventh aspect of the present invention, the concentration of the external force on the second bead part can be suppressed in comparison to when the sixth portion is coupled to the fourth portion and the fifth portion in a linear manner when seen from the side.
The motor grader according to a twelfth aspect of the present invention is related to any of the eighth to eleventh aspects, an outer surface of the second bead part is coupled in a flat manner with an outer surface of the bracket and an outer surface of the second frame part.
Based on the motor grader according to the twelfth aspect of the present invention, the concentration on the second bead part of the external force applied to the lifter guide can be suppressed in comparison to when the outer surface of the second bead part projects from the outer surfaces of the bracket and the first frame part.
The motor grader according to a thirteenth aspect of the present invention is related to any one of the first to twelfth aspects, the lifter guide is formed in an annular shape.
Based on the motor grader according to the thirteenth aspect, the strength of the lifter guide can be improved.
The motor grader according to a fourteenth aspect of the present invention is related to any one of the first to thirteenth aspects, the lifter guide is formed on a bottom surface and the right and left surfaces of the bracket.
The motor grader according to a fifteenth aspect of the present invention is related to any one of the first to fourteenth aspects, and further includes a lifter bracket configured to encircle the lifter guide, and a cylinder configured to coupled to the lifter bracket and the work implement.
According to the present invention, a motor grader in which a lifter guide can be accurately and easily fixed to a frame can be provided.
(Full Configuration of Motor Grader 1)
The motor grader 1 is provided with a frame 10, front wheels 20, rear wheels 30, a cab 40, a draw bar 50, a blade 60, a blade turning device 65, a lifter guide 70, a lifter bracket 75, a pair of lift cylinders 80, and a shift cylinder 90.
The frame 10 is constituted by a front frame 11 and a rear frame 12. The front frame 11 supports the draw bar 50 and the blade 60. A detailed configuration of the front frame 11 is provided below. The rear frame 12 supports an engine and a hydraulic pump and the like which are not shown.
The front wheels 20 are attached to the bottom of the front end of the front frame 11. The rear wheels 30 are attached to the rear frame 12. The cab 40 is disposed on the front frame 11, or may be disposed on the rear frame 12.
The draw bar 50 is disposed below the front frame 11. The draw bar 50 is supported at the front end of the front frame 11 in a manner that allows for vertical swinging. The blade 60 is supported on the rear end part of the draw bar 50 via the blade turning device 65. The blade turning device 65 has a circle 65a and a circle turning apparatus 65b. The circle 65a is supported at the rear end part of the draw bar 50 in a turnable manner. The blade 60 is fixed to the circle 65a. The circle turning apparatus 65b is disposed on the inside of the circle 65a. The blade 60 is able to be turned due to the circle 65a being driven with the circle turning apparatus 65b. In the present embodiment, the draw bar 50, the blade 60, and the blade turning device 65 are configured as work implement for grading the ground surface.
The lifter guide 70 is fixed to the frame 10. The lifter guide 70 is formed in an annular shape. As described below, the lifter guide 70 is formed in an integrated manner with the frame 10. The lifter bracket 75 is a frame that encompasses the lifter guide 70. The pair of lift cylinders 80 and the shift cylinder 90 are attached to the lifter bracket 75.
The pair of lift cylinders 80 are coupled to the draw bar 50 and the lifter bracket 75. The blade 60 is able to be moved up and down due to the shrinking and expanding of the pair of lift cylinders 80. The shift cylinder 90 is coupled to the draw bar 50 and the lifter bracket 75. The draw bar 50 is able to be moved to the left and right due to the shrinking and expanding of the shift cylinder 90.
(Configuration of Front Frame 11)
The front frame 11 is formed in a box shape. The front frame 11 includes a bracket 11a, a first frame part 11b, a second frame part 11c, a first bead part 11d, and a second bead part 11e.
The bracket 11a is interposed between the first frame part 11b and the second frame part 11c. The right and left side surfaces and the bottom surface of the bracket 11a are connected to the lifter guide 70. In the present embodiment, the bracket 11a and the lifter guide 70 are an integrally formed cast metal. Specifically, the bracket 11a and the lifter guide 70 are formed in an integrated manner by a casting method. The bracket 11a includes a pair of forward projecting parts 100 and a pair of rearward projecting parts 110 as illustrated in
The first frame part 11b is coupled to the front end part of the bracket 11a. The first frame part 11b extends from the front end part of the bracket 11a toward the front. The first frame part 11b supports the abovementioned work implement. The first frame part 11b includes a pair of recessed parts 100S formed at the rear ends of both side plates. The pair of forward projecting parts 100 of the bracket 11a are inserted into the pair of recessed parts 100S.
The second frame part 11c is coupled to the rear end part of the bracket 11a. The second frame part 11c extends from the rear end part of the bracket 11a toward the rear. A cab supporting part 40a for supporting the cab 40 is attached to the rear end part of the second frame part 11c. The second frame part 11c includes a pair of recessed parts 110S formed at the front ends of both side plates. The pair of pair of rearward projecting parts 110 of the bracket 11a are inserted into the pair of recessed parts 110S.
The first bead part 11d connects the bracket 11a and the first frame part 11b. The second bead part 11e connects the bracket 11a and the second frame part 11c. The first bead part 11d and the second bead part 11e are formed by arc welding.
As illustrated in
Similarly, when the bracket 11a and the second frame part 11c are coupled, a second gap D2 is formed between the bracket 11a and the second frame part 11c. Since the pair of rearward projecting parts 110 is formed on the bracket 11a, the second gap D2 is formed at the longitudinal direction front side with respect to the rear projecting part 110 as seen from the side.
As illustrated in
The first portion 101 is formed in the crosswise direction. The first portion 101 connects the top surface of the bracket 11a and the top surface of the first frame part 11b. The outer surface of the first portion 101 extends in a flat manner from the top surfaces of the bracket 11a and the first frame part 11b.
The second portion 102 is formed in the crosswise direction. The second portion 102 connects the bottom surface of the bracket 11a and the bottom surface of the first frame part 11b. The outer surface of the second portion 102 extends in a flat manner from the bottom surfaces of the bracket 11a and the first frame part 11b.
The third portion 103 is formed in the vertical direction. The third portion 103 connects the left side surface of the bracket 11a and the left side surface of the first frame part 11b. The outer surface of the third portion 103 extends in a flat manner from the left side surfaces of the bracket 11a and the first frame part 11b.
As illustrated in
The lifter guide 70 is connected to the bracket 11a in a state in which the top part of the lifter guide 70 is bent forward (that is, in a forward slanting orientation). The front surface of the lifter guide 70 intersects the top surface and the bottom surface of the bracket 11a as seen from the side. Specifically, in a projection plane of the lifter guide 70 on to the bracket 11a, the front surface of the lifter guide 70 crosses the top surface of the bracket 11a at a first intersection CP1, and crosses the bottom surface of the bracket 11a at a second intersection CP2. In the present embodiment, a distance W1 between the first intersection CP1 and the first portion 101 is equal to a distance W2 from the second intersection CP2 to the second portion 102 in the front-back direction.
Although not shown, the first bead part 11d includes a bead part that connects the right side surface of the bracket 11a and the right side surface of the first frame part 11b.
Further, the second bead part 11e is formed by welding along the second gap D2. The second bead part 11e is formed along the second gap D2. Specifically, the second bead part 11e includes fourth to sixth portions 104 to 106, and a pair of rearward extension portions 113, 114. The fourth to sixth portions 104 to 106 are joined in order.
The fourth portion 104 is formed in the crosswise direction. The fourth portion 104 connects the top surface of the bracket 11a and the top surface of the second frame part 11c. The outer surface of the fourth portion 104 extends in a flat manner from the top surfaces of the bracket 11a and the second frame part 11c.
The fifth portion 105 is formed in the crosswise direction. The fifth portion 105 connects the bottom surface of the bracket 11a and the bottom surface of the second frame part 11c. The outer surface of the fifth portion 105 extends in a flat manner from the top surfaces of the bracket 11a and the second frame part 11c.
The sixth portion 106 is formed in the vertical direction. The sixth portion 106 connects the left side surface of the bracket 11a and the left side surface of the second frame part 11c. The outer surface of the sixth portion 106 extends in a flat manner from the left side surfaces of the bracket 11a and the second frame part 11c.
As illustrated in
The rear surface of the lifter guide 70 intersects the top surface and the bottom surface of the bracket 11a as seen from the side. Specifically, in a projection plane of the lifter guide 70 on to the bracket 11a, the rear surface of the lifter guide 70 crosses the top surface of the bracket 11a at a third intersection CP3, and crosses the bottom surface of the bracket 11a at a fourth intersection CP4. In the present embodiment, a distance W3 between the third intersection CP3 and the fourth portion 104 is equal to a distance W4 from the fourth intersection CP4 to the fifth portion 105 in the front-back direction. The distance W3 between the third intersection CP3 and the fourth portion 104 may also be equal to the distance W1 between the first intersection CP1 and the first portion 101.
Although not shown, the second bead part 11e includes a bead part that connects the right side surface of the bracket 11a and the right side surface of the second frame part 11c.
(Characteristics)
The frame 10 of the motor grader 1 includes the bracket 11a fixed to the lifter guide 70, the first frame part 11b that extends forward from the front end part of the bracket 11a, and the second frame part 11c that extends rearward from the rear end part of the bracket 11a.
Therefore, there is no need to provide a large device for fixing the lifter guide 70 to the frame 10 since there is no need to insert the lifter guide 70 through the frame 10. Moreover, since the lifter guide 70 is positioned by coupling the bracket 11a with the first and second frame parts 11b, 11c, the positional accuracy of the lifter guide 70 on the frame 10 can be improved. Further, there is no need to provide a plate member for filling in the gap between the lifter guide 70 and the frame 10 since the lifter guide 70 is fixed to the bracket 11a. Due to the above configuration, the lifter guide 70 can be fixed to the frame 10 with good accuracy and with ease.
(2) The lifter guide 70 and the bracket 11a are cast metals formed in an integrated manner.
Therefore, the strength of the attachment of the lifter guide 70 to the frame 10 can be improved in comparison to when the lifter guide 70 is welded to the bracket 11a. Specifically, since the first and second bead parts 11d, 11e can be separated from the lifter guide 70, the concentration of an external force applied to the lifter guide 70 on the first and second bead parts 11d, 11e can be suppressed.
(3) The first to third portions 101 to 103 of the first bead part 11d are separated in the front-back direction.
Therefore, the concentration of an external force applied to the lifter guide 70 can be suppressed in comparison to when the first to third portions 101 to 103 are formed in a linear manner as seen from the side. In particular, the effect of reducing a torsional force is achieved.
The effect can be achieved in the same way due to the separation in the front-back direction of the fourth to sixth portions 104 to 106 of the second bead part 11e.
(4) The first portion 101 is located in front of the second portion 102. Therefore, the concentration of an external force on the first bead part 11d can be suppressed. Similarly, the fourth portion 104 is located in front of the fifth portion 105. Therefore, the concentration of an external force on the second bead part 11e can be suppressed.
(5) The distance W1 between the first intersection CP1 and the first portion 101 is equal to the distance W2 from the second intersection CP2 to the second portion 102 in the front-back direction. Therefore, the concentration of an external force on the first bead part 11d can be suppressed.
Similarly, the distance W3 between the third intersection CP3 and the fourth portion 104 is equal to the distance W4 from the fourth intersection CP4 to the fifth portion 105 in the front-back direction. Therefore, the concentration of an external force on the first bead part 11d can be suppressed.
(6) The third portion 103 is separated from both the first portion 101 and the second portion 102 in the front-back direction. Therefore, the concentration of an external force on the first bead part 11d can be suppressed in comparison to when the third portion 103 is joined in a linear manner with the first portion 101 and the second portion 102 as seen from the side.
Similarly, the sixth portion 106 is separated from both the fourth portion 104 and the fifth portion 105 in the front-back direction. Therefore, the concentration of an external force on the second bead part 11e can be suppressed in comparison to when the sixth portion 106 is joined in a linear manner with the fourth portion 104 and the fifth portion 105 as seen from the side.
(7) The outer surface of the first bead part 11d is coupled in a flat manner with the outer surfaces of the bracket 11a and the first frame part 11b.
Therefore, the concentration of an external force applied to the lifter guide 70 on the first bead part 11d can be further suppressed in comparison to when the outer surface of the first bead part 11d projects outward from the outer surfaces of the bracket 11a and the first frame part 11b.
The effect is achieved in the same way due to the outer surface of the second bead part 11e being coupled in a flat manner with the outer surfaces of the bracket 11a and the second frame part 11c.
Although an embodiment of the present invention has been described so far, the present invention is not limited to the above embodiments and various modifications may be made within the scope of the invention.
While the lifter guide 70 is described as an annular member in the above embodiment, the present invention is not limited as such. The lifter guide 70 may be an L-shaped member or a U-shaped member.
(B) While the lifter guide 70 and the bracket 11a are described as a cast metal formed in an integrated manner in the above embodiment, the present invention is not limited as such. The lifter guide 70 and the bracket 11a may be formed separately and may be connected by welding. Even in such as case, the positional accuracy of the lifter guide 70 is easily improved. Moreover, since the bracket 11a can be inserted through the lifter guide 70 even if the gap between the lifter guide 70 and the bracket 11a is narrow, plate members for filling in the gap can be reduced.
(C) While the pair of forward projecting parts 100 and the pair of rearward projecting parts 110 are formed by extending both side plates of the bracket 11a forward and rearward in the above embodiment, the present invention is not limited as such. The pair of forward projecting parts 100 and the pair of rearward projecting parts 110 may be formed by extending the top and bottom plates of the bracket 11a forward and rearward. The bracket 11a may not include the pair of forward projecting parts 100 or the pair of rearward projecting parts 110, and may only include one each of the forward projecting part 100 and the rearward projecting part 110.
(D) While the first portion 101 of the first bead part 11d is formed in a linear manner in the crosswise direction in the above embodiment, at least a portion of the first portion 101 may be formed in a curved manner. For example, as illustrated in
Similarly, as illustrated in
(E) while the lifter guide 70 is connected to the bottom surface and the left and right side surfaces of the bracket 11a in the above embodiment, the lifter guide 70 may not be connected to the left and right side surfaces of the bracket 11a. The lifter guide 70 may also be connected to the top surface of the bracket 11a.
The present invention is useful in the field of motor graders since the lifter guide can be fixed easily and accurately to the frame.
Filing Document | Filing Date | Country | Kind |
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PCT/JP2013/066676 | 6/18/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2014/203323 | 12/24/2014 | WO | A |
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Number | Date | Country | |
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20140367129 A1 | Dec 2014 | US |