WO2015129008A1 - Camion-benne - Google Patents

Camion-benne Download PDF

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Publication number
WO2015129008A1
WO2015129008A1 PCT/JP2014/054976 JP2014054976W WO2015129008A1 WO 2015129008 A1 WO2015129008 A1 WO 2015129008A1 JP 2014054976 W JP2014054976 W JP 2014054976W WO 2015129008 A1 WO2015129008 A1 WO 2015129008A1
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WO
WIPO (PCT)
Prior art keywords
body frame
pair
dump truck
vehicle body
frame
Prior art date
Application number
PCT/JP2014/054976
Other languages
English (en)
Japanese (ja)
Inventor
浦中 恭司
健生 大塚
前田 達也
Original Assignee
株式会社小松製作所
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 株式会社小松製作所 filed Critical 株式会社小松製作所
Priority to PCT/JP2014/054976 priority Critical patent/WO2015129008A1/fr
Publication of WO2015129008A1 publication Critical patent/WO2015129008A1/fr

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K11/00Arrangement in connection with cooling of propulsion units
    • B60K11/02Arrangement in connection with cooling of propulsion units with liquid cooling
    • B60K11/04Arrangement or mounting of radiators, radiator shutters, or radiator blinds
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60PVEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
    • B60P1/00Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading
    • B60P1/04Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading with a tipping movement of load-transporting element
    • B60P1/28Tipping body constructions
    • B60P1/283Elements of tipping devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62DMOTOR VEHICLES; TRAILERS
    • B62D21/00Understructures, i.e. chassis frame on which a vehicle body may be mounted
    • B62D21/18Understructures, i.e. chassis frame on which a vehicle body may be mounted characterised by the vehicle type and not provided for in groups B62D21/02 - B62D21/17
    • B62D21/186Understructures, i.e. chassis frame on which a vehicle body may be mounted characterised by the vehicle type and not provided for in groups B62D21/02 - B62D21/17 for building site vehicles or multi-purpose tractors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60YINDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
    • B60Y2200/00Type of vehicle
    • B60Y2200/10Road Vehicles
    • B60Y2200/14Trucks; Load vehicles, Busses
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60YINDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
    • B60Y2200/00Type of vehicle
    • B60Y2200/40Special vehicles
    • B60Y2200/41Construction vehicles, e.g. graders, excavators

Definitions

  • the present invention relates to a dump truck, for example, a large off-road dump truck that travels unattended.
  • a dump truck has been proposed that has a body that covers the entire length in the running direction of the vehicle body and the entire width in the vehicle width direction, and has an overall shape that is substantially symmetrical with respect to the front and rear and the left and right.
  • a dump truck there is no distinction between forward and reverse as in the prior art, and normal traveling is possible in both directions.
  • Patent Documents 1 and 2 describe that some main devices such as an engine, a generator, and a transmission necessary for operating a dump truck are provided. There is no description, and it is not specifically described how these main devices are mounted and supported on the body frame. There is no description about other necessary equipment such as a radiator for cooling the engine.
  • An object of the present invention is to provide a dump truck that can favorably support equipment on a vehicle body frame and that can normally travel in both directions without distinction of forward and backward.
  • a dump truck includes a vehicle body frame extending along a traveling direction, tires installed on one and the other of the traveling direction of the vehicle body frame, and a plurality of components mounted on the vehicle body frame via a support frame.
  • the support frame is installed to the left and right along the vehicle width direction with respect to the vehicle body frame, and the left and right sides of the support frame run on both the left and right sides of the vehicle body frame. It is provided to protrude between a pair of front and rear tires installed in one and the other direction.
  • the equipment can be favorably supported on both sides of the vehicle body frame in the vehicle width direction. it can.
  • equipment can be mounted on the left and right sides of the body frame approximately equally, and the weight balance and appearance balance can be improved. You can drive in both directions without any discomfort.
  • the device according to the present invention include a radiator, a cooling fan, a hydraulic pump, a hydraulic oil tank, a brake resistor, and a control device that appear in embodiments described later.
  • the support frame is fixed to the vehicle body frame by fastening means.
  • the support frame can be detached by removing the fastening means. For example, when a rock block or the like collides with the support frame and deformed, only the support frame can be replaced, and maintenance can be performed. Easy to do.
  • the support frame has a pair of front and rear subframes arranged at intervals in the traveling direction, and the subframes are fixed to the vehicle body frame in both vehicle width directions.
  • a pair of left and right L-shaped frames formed by extending portions extending horizontally from the lower ends of the vertical portions in the vehicle width direction toward the outside of the vehicle body frame; and
  • An upper connecting portion that connects the upper ends of the vertical portions of the pair of left and right L-shaped frames on the upper side, and a lower end of the vertical portions of the pair of L-shaped frames on the lower side of the pair of left and right lower side members. It is preferable to have a lower connecting portion that connects the two.
  • the L-shaped frame having the vertical portion and the extending portion of the support frame, the upper connecting portion, and the lower connecting portion can be constructed as a so-called pipe frame. Accordingly, the weight of the support frame can be reduced, the ratio of the total vehicle weight to the empty vehicle weight (total vehicle weight / empty vehicle weight) can be increased, and the productivity per fuel consumption can be improved.
  • the connection between the lower ends of the vertical portions is preferably a pin joint. According to the present invention, even when a stress such as torsion occurs in the vehicle body frame, the stress can be released at the pin joint portion, and the influence of the torsion of the vehicle body on the support frame can be suppressed. Can be improved.
  • the vehicle body frame includes a pair of lower side members arranged in parallel to the traveling direction and spaced apart in the vehicle width direction, and an upper side member positioned above the lower side member.
  • the support frame is preferably constructed on the upper side member.
  • the vehicle body frame can be significantly reduced in weight by constructing the vehicle body frame with the lower side member and the upper side member without constructing the vehicle body frame with a thick metal plate. . Therefore, the ratio between the total vehicle weight and the empty vehicle weight can be further increased, and the productivity per fuel consumption can be further improved.
  • the device is a radiator that performs heat exchange between at least the cooling water that has cooled the object to be cooled and the cooling air.
  • the radiator can be arranged on the side of the vehicle body frame, for example, compared to other devices such as a radiator that cools the cooling water of the engine and a radiator that cools the cooling water of the water-cooled aftercooler, Even equipment that takes up space can be satisfactorily mounted at an appropriate position on the body frame.
  • Cooling air such as outside air can be satisfactorily applied to each radiator from the side, and the heat exchange function can be improved.
  • a dump truck includes a body frame extending along a traveling direction, tires installed on one and the other of the traveling direction of the body frame, an engine mounted on the body frame, and the engine.
  • a dump truck having a water-cooled aftercooler for cooling the supplied air and a plurality of devices mounted on the body frame via a support frame, the body frame being parallel to the traveling direction,
  • the support frame has a pair of left and right lower side members arranged at intervals in the vehicle width direction and a pair of left and right upper side members positioned above the lower side member, and the support frame has an interval in the traveling direction.
  • a plurality of sub-frames arranged on the left and right sides of the support frame.
  • the sub-frame extends from the lower end of the vertical portion fixed to the lower side member and the upper side member in both the vehicle width direction and the vertical portion in both the vehicle width direction.
  • a pair of left and right L-shaped frames formed by extending portions extending horizontally toward the outside of the vehicle body frame, and the vertical portions of the pair of left and right L-shaped frames above the upper side member.
  • the vertical portion of the shape frame is fixed to the body frame by fastening means, and the connection between both ends of the upper connection portion and the upper ends of the vertical portions of the pair of left and right L-frames, and the lower connection Part
  • the connection between both ends and the lower ends of the vertical portions of the pair of left and right L-shaped frames is a pin joint, and the device exchanges heat at least between cooling water and cooling air that has cooled the engine.
  • the second radiator is supported by the vehicle body frame via the other L-shaped frame in the vehicle width direction.
  • FIG. 1 is a partially exploded perspective view showing a dump truck according to an embodiment of the present invention.
  • the side view which shows the said dump truck. It is a figure which shows the said dump truck from a running direction, and is III arrow directional view of FIG.
  • the top view which shows the said dump truck. It is sectional drawing which shows a suspension apparatus, and is the VV arrow directional view of FIG.
  • It is sectional drawing which shows a steering mechanism, and is the VII-VII arrow directional view of FIG. Sectional drawing which shows the support structure and cooling structure of an electric motor.
  • the top view which shows arrangement
  • the whole perspective view which shows a support frame. It is a figure which shows the attachment position of a hoist cylinder from a running direction, and is the XI-XI arrow line view of FIG.
  • the side view which shows the attachment position of a hoist cylinder.
  • FIGS. 1 to 4 are a partially exploded perspective view, a side view, and a view from one side of the traveling direction, respectively, showing a dump truck 1 according to the present embodiment, as viewed in the direction of arrow III in FIG. 2, and a plan view.
  • one of the traveling directions of the dump truck 1 is the arrow direction of the X axis
  • the other of the traveling direction is the opposite direction
  • one of the vehicle width direction is the Y axis.
  • the other direction in the vehicle width direction is the opposite direction
  • one in the vertical direction is the arrow direction of the Z axis
  • the other in the vertical direction is the opposite direction.
  • one of the traveling directions may be referred to as “front”, the other as “rear”, one in the vehicle width direction as “right”, and the other as “left”.
  • a dump truck 1 is an off-road dump truck that travels unattended by remote operation, and is configured as a vehicle that operates at a mining site in mine development, for example.
  • the remote operation is performed by using information communication technology such as using communication means installed in the management center and the dump truck 1 or using a GPS (Global Positioning System).
  • Such a dump truck 1 has a pair of left and right tires 11, 11 installed on both sides in the vehicle width direction on one side in the traveling direction, and a pair of left and right tires 12 disposed on both sides in the vehicle width direction on the other side in the traveling direction.
  • 12 is provided with a vehicle body 10 provided so as to be able to travel.
  • the vehicle body 10 extends along the traveling direction and is provided with a vehicle body frame 20 on which tires 11 and 12 are installed, and a body 30 for loading that is supported by the vehicle body frame 20 (see a two-dot chain line in FIG. 2).
  • the apparatus 41 includes devices 41 to 49 mounted on the vehicle body frame 20, a suspension device 50 for suspending the tires 11 and 12 on the vehicle body frame 20, and a steering mechanism.
  • the dump truck 1 is a vehicle dedicated to remote operation, and there is no cab for driving operation provided in a conventional dump truck.
  • the vehicle body frame 20 includes a lower cross member 201 on the lower side provided along the vehicle width direction at the positions of the left and right tires 11 in one of the traveling directions, and both ends of the lower cross member 201.
  • the pair of vertical members 202 and the upper cross member 203 form a first vertical frame 21 that is vertically erected from the positions of the left and right tires 11 and has a gate shape when viewed from the traveling direction of the vehicle body 10. (See FIG. 3). That is, the vehicle body frame 20 includes a first vertical frame 21 that is erected vertically from the position of the tire 11 that is installed on one side in the traveling direction when viewed laterally.
  • the vehicle body frame 20 is also erected upward from the lower cross member 201 on the lower side provided along the vehicle width direction at the position of the left and right tires 12 on the other side in the traveling direction, and from both ends of the lower cross member 201.
  • a pair of left and right vertical members 202, 202 and an upper cross member 203 on the upper side provided along the vehicle width direction so as to be bridged between the upper ends of the vertical members 202 are provided.
  • the pair of vertical members 202 and the upper cross member 203 form a second vertical frame 22 that is vertically erected from the position of the left and right tires 12 and has a gate shape when viewed from the traveling direction of the vehicle body 10. ing. That is, the vehicle body frame 20 has a second vertical frame 22 that stands vertically from the position of the tire 12 that is installed on the other side in the traveling direction when viewed laterally.
  • the first vertical frame 21 and the second vertical frame 22 have substantially the same shape.
  • One end and the other end of the pair of front and rear lower cross members 201 in the traveling direction are connected to each other by a pair of left and right lower side members 23 and 23 arranged parallel to the traveling direction and spaced in the vehicle width direction. Yes.
  • the upper and lower intermediate positions of the first vertical frame 21 and the second vertical frame 22 are connected by a pair of left and right upper side members 24, 24 positioned above the lower side members 23, 23 (see FIG. 2).
  • short side members 25, 25 located on the extension line of the lower side members 23, 23 are extended toward one side in the traveling direction, and the ends of the side members 25, 25 are connected to each other. They are connected by a cross member 26 along the vehicle width direction.
  • short side members 27, 27 located on the extension line of the lower side members 23, 23 are extended toward the other side in the traveling direction, and the tips of the side members 27, 27 are connected to each other. They are connected by a cross member 28 along the vehicle width direction (see FIG. 4).
  • the lower cross member 201 on which the first vertical frame 21 is erected has a hollow cylindrical shape, and tires 11, 11 are attached to both sides of the lower cross member 201 via a drive shaft 18.
  • the individually driven electric motors 43 are accommodated.
  • a pair of electric motors 43 and 43 are similarly housed in the lower cross member 201 on which the second vertical frame 22 is erected.
  • a final reduction gear 14 using a planetary gear mechanism is disposed between the tip of the drive shaft 18 and the tire wheel.
  • the upper surface of the upper cross member 203 that forms the upper part of the first vertical frame 21 and the upper part of the second vertical frame 22 is a mounting part 204 curved in a concave shape with a predetermined curvature. Only the body 30 is placed. At both ends of the upper cross member 203, suspension support portions 205 that support the upper end of the suspension cylinder 53 that is a part of the suspension device 50 are provided. The lower end of the suspension cylinder 53 is connected to an upper arm 51 that is a part of the suspension device 50. Therefore, the mounting portion 204 is located on the axis 53A of the suspension cylinder 53 that transmits the load downward (see FIG. 3). The suspension device 50 will be described later.
  • the load transmitted to the road surface through the tires 11 and 12 includes a loaded load and a vehicle body load.
  • the loaded load is a load due to the weight of the body 30 including the loaded load.
  • the vehicle body load is a load due to the weight of the vehicle body 10 not including the weights of the tires 11 and 12 and the body 30.
  • the vehicle body load and the loaded load may be referred to as the total load.
  • the loaded load is transmitted from the mounting portion 204 to the road surface through the suspension device 50 immediately below including the suspension cylinder 53 and the tires 11 and 12, and is transmitted through a short and simple transmission path (FIG. 2, (See dotted arrow in FIG. 3). That is, the loaded load is transmitted without acting on the upper side member 24, the lower side member 23, and the like.
  • the overall shape of the vehicle body frame 20 is substantially plane-symmetric with respect to a vertical plane including the first center line 10A that passes through the center between the front and rear tires 11 and 12 and extends in the vehicle width direction. It is substantially plane-symmetric with respect to a vertical plane including a second center line 10B that is orthogonal to the first center line 10A and extends along the traveling direction through the center in the vehicle width direction (see FIGS. 1 and 4).
  • a support frame 81 is installed on the first center line 10A of the vehicle body frame 20 along the vehicle width direction.
  • the support frame 81 is provided to support the devices 44 to 48 on the vehicle body frame 20.
  • the support frame 81 has a pair of front and rear subframes 82 that are arranged at intervals along the traveling direction, and is entirely provided in a bowl shape. Both sides of the support frame 81 are provided on the left and right sides of the body frame 20 so as to protrude between the pair of front and rear tires 11 and 12, and the devices 44 to 48 supported by the support frame 81 are also connected to the front and rear tires 11, 12. Between the twelve. The specific arrangement of the devices 48 to 48 will be described later.
  • Each sub-frame 82 is fixed to the lower side member 23 and the upper side member 24 both in the vehicle width direction, and from the lower ends of both vertical portions 83 in the vehicle width direction to the outside of the vehicle body frame 20.
  • a pair of left and right L-shaped frames 85 formed by extending portions 84 that extend horizontally toward the upper side member 24 are connected to the upper ends of the vertical portions 83 of the pair of left and right L-shaped frames 85 on the upper side member 24.
  • the upper connection part 86 and the lower connection part 87 which connects between the lower ends of the vertical parts 83 of the pair of left and right L-shaped frames 85 below the lower side member 23 are provided.
  • the L-shaped frame 85 is detachably fixed to the lower side member 23 and the upper side member 24 by fastening means (not shown) such as bolts. Further, the upper end of the vertical portion 83 of the L-shaped frame 85 and the upper connection portion 86 are detachably connected by pin bonding. The connection between the lower end of the vertical portion 83 of the L-shaped frame 85 and the lower connection portion 87 is also by detachable pin bonding. Accordingly, the L-shaped frame 85 and the connecting portions 86 and 87 are connected to each other by pin connection so as to maintain the L-shaped frame 85 fixed to the vehicle body frame 20 more reliably. It is possible to cope with twisting well.
  • the body 30 has the deepest central portion in the traveling direction and is shallower toward both sides in the traveling direction and both sides in the vehicle width direction.
  • the body 30 includes a bottom surface portion 31 that is inclined so as to become deeper toward the center, and side surface portions 32 and 32 that guard the long side edge along the traveling direction of the bottom surface portion 31.
  • lateral slopes 33, 33 are provided on respective slope portions inclined in different directions so as to cross them in the vehicle width direction and whose both ends extend over the outer surface of the side surface portion 32.
  • These lateral ribs 33 are also portions that are placed on the placement portions 204 of the first vertical frame 21 and the second vertical frame 22, and are curved with the same curvature as the placement portion 204 so that the abutting portions are in close contact with each other. Yes.
  • a pair of vertical ribs 34, 34 parallel to each other are provided on the lower surface of the bottom surface portion 31 along the traveling direction.
  • the body 30 is placed on the placement portion 204 at a position where the vertical rib 34 and the horizontal rib 33 intersect (see FIGS. 2 and 3).
  • the other slope part of the lower surface of the bottom part 31 is provided with attachment parts 36 and 36 to which the upper ends of the pair of hoist cylinders 35 and 35 are attached (see FIGS. 1, 11, and 12).
  • the hoist cylinder 35 is a hydraulic actuator for raising and lowering the body 30.
  • the lower end of the hoist cylinder 35 is attached to the lower cross member 201 on which the second vertical frame 22 is erected.
  • a pair of pivot portions 37 and 37 (only one is shown in FIGS. 2 and 12) are provided in the middle of the slope portion so that the body 30 is rotatably connected to the vehicle body frame 20. ing.
  • the pivot portion 37 is supported by body support portions 206 and 206 provided from the upper portion of each vertical member 202 of the second vertical frame 22 to the upper cross member 203.
  • the body 30 Since the second vertical frame 22 is erected at the position of the left and right tires 12 when viewed from the side, the body 30 is connected to the left and right tires via the body support portion 206 in terms of the support position of the body 30 in the traveling direction. It is supported by the body frame 20 at the position 12.
  • the overall shape of the body 30 is also substantially plane symmetric with respect to the vertical plane including the first center line 10A and is substantially plane symmetric with respect to the vertical plane including the second center line 10B. (See FIG. 1).
  • the body 30 is placed in the center of the body frame 20 whose overall shape is plane-symmetric with respect to a vertical plane including the first and second centerlines 10A and 10B.
  • the load distribution transmitted from the mounting portion 204 of the vehicle body frame 20 to the tire 11 and the tire 12 is evenly distributed. That is, the overall load including the vehicle body load and the loaded load is transmitted to each of the tires 11 and 12 with a uniform load distribution.
  • FIG. 1 As main equipment, an engine 41, a generator 42 driven by the output of the engine 41, a hydraulic pump (not shown), and an electric motor 43 driven by electric energy generated by the generator 42 (FIG. 2, 3), a first radiator 44 that releases heat of the cooling water of the engine 41, a first cooling fan 45 that supplies cooling air to the first radiator 44, and an air supply that is sent from the air cleaner to the engine 41 through a supercharger.
  • the specific arrangement of these devices 41 to 49 will be described later.
  • FIG. 5 is a cross-sectional view showing the suspension device 50, and is a view taken along the arrow VV in FIG.
  • a double wishbone type independent suspension system is adopted as the suspension device 50.
  • the suspension device 50 is connected to a substantially horizontal upper arm 51 and a lower arm 52 whose base ends are supported by the vehicle body frame 20 so as to be swingable up and down, and an upper portion is rotatably connected to the tip of the upper arm 51.
  • a cylindrical case 56 whose lower part is rotatably connected to the tip of the lower arm 52, and a suspension cylinder 53 whose upper end is rotatably connected to the vehicle body frame 20 and whose lower end is rotatably connected to the upper arm 51. And.
  • the suspension cylinder 53 transmits the vehicle body load and the loaded load to the tires 11 and 12 and absorbs and attenuates the impact on the tires 11 and 12.
  • the case 56 rotatably supports the tires 11 and 12 via the final reduction gear 14.
  • a pair of base ends of the upper arm 51 which is bifurcated in a plan view is formed on an upper support portion 207 provided on the lower side of the vertical member 202 of the first vertical frame 21 and the second vertical frame 22. It is supported so as to be rotatable.
  • a pair of base ends of the bifurcated lower arm 52 in a plan view is a lower support portion 208 provided below the end portion of each lower cross member 201 on which the first vertical frame 21 and the second vertical frame 22 are erected. It is supported so that it can rotate.
  • the tip of the upper arm 51 is connected to an upper ball joint 57 provided at the upper portion of the case 56, and the tip of the lower arm 52 is connected to a lower ball joint 58 provided at the lower portion of the case 56.
  • the upper part of the upper ball joint 57 is covered with a connection bracket 54 fixed to the upper surface of the upper arm 51, and the connection bracket 54 and the suspension support portions 205 of the first vertical frame 21 and the second vertical frame 22 are suspension cylinders. 53.
  • the lower end of the suspension cylinder 53 is connected to the connection bracket 54 at a position in the vicinity of the upper ball joint 57.
  • a kingpin shaft 56A that connects the rotation center 57A of the upper ball joint 57 and the rotation center 58A of the lower ball joint 58 has an upper ball joint 57 and an upper arm 51 of the case 56 with respect to the axis 53A of the suspension cylinder 53.
  • the upper ball joint 57 and more specifically at the center of rotation 57A of the upper ball joint 57 and the upper arm 51. Accordingly, the vehicle body load and the loaded load transmitted through the suspension cylinder 53 hardly transmit to the upper arm 51 and are transmitted to the tires 11 and 12 through the case 56 provided with the upper ball joint 57. For this reason, since the load is not transmitted to the upper arm 51 and the lower arm 52, the structures of the upper arm 51 and the lower arm 52 can be simplified.
  • the drive shaft 18 is connected to the output shaft 43A of the electric motor 43 and the input shaft 14A of the final reduction gear 14 via a universal joint to absorb the deviation of the tires 11 and 12 with respect to the electric motor 43.
  • the slide type is configured to be expandable and contractable in the axial direction.
  • the drive shaft 18 is drawn horizontally for convenience. Actually, however, the tip of the drive shaft 18 on the tire 11 side of the drive shaft 18 is not loaded as shown in FIG. 6. It is inclined at a crossing angle ⁇ 1 with respect to the horizontal so as to face downward. On the other hand, in the state where the body 30 is loaded to the maximum within the allowable load weight, the drive shaft 18 is inclined at the crossing angle ⁇ 2 with respect to the horizontal so that the tip of the drive shaft 18 on the tire 11 side faces upward.
  • the crossing angles ⁇ 1 and ⁇ 2 are preferably 2.5 to 3.5 °, and in this embodiment, both are approximately 3 °.
  • Such crossover angles ⁇ 1 and ⁇ 2 are set by adjusting the strength of the suspension cylinder 53 or by adjusting the distance between the connection bracket 54 to which the suspension cylinder 53 is connected and the suspension support portion 205.
  • the inclination variation of the drive shaft 18 with respect to the horizontal can be reduced when there is no load and when there is a load, and torsional vibration of the drive shaft 18 during traveling can be suppressed.
  • the crossing angle ⁇ 1 0 ° when there is no load and the drive shaft 18 is leveled
  • the crossing angle ⁇ 2 approximately 6 ° with respect to the horizontal when the drive shaft 18 is fully loaded will be greatly inclined.
  • the torsional vibration at the time increases and the durability decreases.
  • the drive shaft 18 when the drive shaft 18 is largely inclined, the drive is driven according to the magnitudes of the crossing angles ⁇ 1 and ⁇ 2 even during constant speed traveling where the angular velocity ⁇ 1 of the output shaft 43A and the angular velocity ⁇ 3 of the input shaft 14A are maintained constant.
  • a change occurs in the angular velocity ⁇ 2 of the shaft 18, and torsional vibration is generated.
  • the occurrence of such torsional vibration is suppressed, durability can be improved, and an expensive constant velocity joint that can absorb a large inclination angle need not be used. Can be used without any problem.
  • the cross angles ⁇ 1 and ⁇ 2 are exaggerated larger than the actual size in order to facilitate understanding of the cross angles ⁇ 1 and ⁇ 2.
  • [Description of steering mechanism] 7 is a cross-sectional view showing the steering mechanism, and is a view taken along arrows VII-VII in FIG. 4 and 7, the steering mechanism has a configuration in which all the tires 11 and 12 are operated by the individual steering cylinders 61, and the steering cylinder 61 in which the proximal end is attached to the upper arm 51 and the distal end is attached to the case 56. It has.
  • the bifurcated upper arm 51 is integrally provided with an L-shaped cylinder mounting arm 55 in plan view.
  • the cylinder mounting arm 55 extends horizontally inward from one base end of the upper arm 51 beyond the upper support portion 207 for the vertical member 202.
  • the case 56 is integrally provided with a knuckle arm 56B extending in the same direction as the tip of the cylinder mounting arm 55 in plan view.
  • the base end of the steering cylinder 61 is attached to the cylinder attachment arm 55, and the distal end of the steering cylinder 61 is attached to the knuckle arm 56B.
  • a steering arm 56C extending along the traveling direction in plan view is integrally provided at the lower portion of the case 56.
  • One and the other steering arm 56 ⁇ / b> C in the vehicle width direction are connected by a pair of tie rods 62, 62 on both sides and a central bell crank 63.
  • the tires 11 and 12 together with the case 56 are steered around the kingpin shaft 56A via the knuckle arm 56B, and this movement is transmitted to the respective cases 56 via the tie rod 62 and the bell crank 63. Then, both tires 11 and 12 are steered in conjunction with each other.
  • the tip side of the knuckle arm 56B is bent upward, and the height position of the connecting portion between the knuckle arm 56B and the steering cylinder 61 is the center of rotation of the upper arm 51 and the case 56, that is, the upper. It is set to be substantially the same as the height position of the rotation center 57A of the ball joint 57. Therefore, the axis 61A of the steering cylinder 61 overlaps the line 51A passing through the rotation center 57A and crossing the swing center 207A of the upper arm 51 at the upper support portion 207 when viewed from the traveling direction.
  • the movements of the upper arm 51 and the steering cylinder 61 at the time of swinging are exactly the same, and therefore the swing region required when they swing up and down is the same when viewed from the traveling direction (FIG. 5, (See FIG. 7).
  • the steering cylinder 61 is disposed adjacent to the lower cross member 201 along the vehicle width direction.
  • the steering cylinder 61 is attached to the hoist cylinder 35 in order to avoid interference with the hoist cylinder 35.
  • the lower cross member 201 is disposed on the opposite side of the traveling direction.
  • the base end of the steering cylinder 61 is attached to the cylinder mounting arm 55 integral with the upper arm 51 instead of the vehicle body frame 20, so that even if the suspension device 50 including the upper arm 51 operates, the knuckle The distance between the arm 56B and the cylinder mounting arm 55 of the upper arm 51 hardly changes. Therefore, the relationship between the steering amount of the tires 11 and 12 and the advance / retreat amount of the steering cylinder 61 becomes unambiguous, and the advance / retreat control of the steering cylinder 61 for obtaining a desired steering amount can be facilitated.
  • FIG. 8 is a cross-sectional view showing the support structure and cooling structure of the electric motor 43.
  • electric motors 43 are housed on both sides of the hollow portion of each lower cross member 201 on which the first vertical frame 21 and the second vertical frame 22 are erected. Openings 209 are provided on both sides of the lower cross member 201, and the end of the electric motor 43 main body on the output shaft 43A side is fixed around the opening 209 by appropriate fastening means.
  • a protruding portion 210 that protrudes from the inner surface of the hollow portion toward the electric motor 43, and the end of the electric motor 43 opposite to the output shaft 43 ⁇ / b> A is the protruding portion 210. It is supported by the inner surface of the hollow part via. A plurality of protruding portions 210 are provided at intervals along the circumferential direction. Since the electric motor 43 is accommodated in the lower cross member 201 and fixed to the lower cross member 201, the lower cross member 201 itself is reinforced by the electric motor 43, and the rigidity of the lower cross member 201 is improved. It is illustrated.
  • an inlet 211 for taking in cooling air is provided, and a cooling blower 71 is attached at a position corresponding to the inlet 211.
  • a predetermined gap through which cooling air flows out is formed in the fastening portion with the electric motor 43, although illustration is omitted.
  • the cooling air supplied from the cooling blower 71 flows between the pair of electric motors 43 inside the lower cross member 201 from the inlet 211 and then branches to the respective electric motor 43 side.
  • the branched cooling air passes between the projecting portions 210 and enters the space between the electric motor 43 and the inner surface of the lower cross member 201 and flows to the end while cooling the electric motor 43 from the outer peripheral side. It flows out from the gap.
  • the hollow portion of the lower cross member 201 forms the duct portion 72 for circulating the cooling air.
  • the cooling air is not limited to a configuration in which the cooling air flows out from the gap between the fastening portions of the lower cross member 201 and the electric motor 43, and a plurality of outlets are provided on both sides of the lower cross member 201, and the cooling air passes through these circulation ports. May be spilled.
  • FIG. 9 is a plan view showing the arrangement of the devices 41-49.
  • devices 41 to 49 are arranged on the vehicle body frame 20 as follows. That is, in order from one side of the traveling direction of the body frame 20 (in order from the left side to the right side in FIG. 9), the control device 49, the pair of electric motors 43 and 43 for driving the tire 11, the engine 41, and the generator 42. A pair of electric motors 43 and 43 for driving the tire 12 and another control device 49 are arranged in substantially one row.
  • the heaviest device is the engine 41, and the engine 41 is arranged closer to the center of the body frame 20 than the first vertical frame 21.
  • a first radiator 44 for the engine 41 as a body to be cooled is disposed at a position away from the body frame 20 on one side in the vehicle width direction at the center position in the traveling direction of the body frame 20.
  • the 1st cooling fan 45 is arrange
  • a second radiator 46 for a water-cooled aftercooler 41A as a body to be cooled is disposed at a position away from the body frame 20 on the other side in the vehicle width direction.
  • a second cooling fan 47 is disposed.
  • the first and second radiators 44 and 46 and the first and second cooling fans 45 and 47 have substantially the same size and are arranged at symmetrical positions with the second center line 10B as the center. (See FIG. 4).
  • the first and second cooling fans 45 and 47 are suction fans. Heat was exchanged between the cooling air taken in from the outside and heat exchanged with the cooling water of the engine 41 by the first and second radiators 44 and 46 and the cooling water of the aftercooler 41A. The cooling air is sent to the central engine 41 and generator 42 side, and cools them from the outside.
  • a pair of brake resistors 48, 48 covered with an exterior cover are disposed on the upper part of the second radiator 46 and the second cooling fan 47 (see FIG. 1).
  • a cooling fan for cooling the brake resistor 48 is housed inside each exterior cover, but the illustration thereof is omitted here. Such a cooling fan is a discharge fan.
  • the brake resistor 48 is arranged on one side of the body frame 20 in order to give priority to maintainability. Since the brake resistor 48 is lighter than other devices, even when it is arranged only on one side of the vehicle body frame 20, there is little influence on the weight balance of the vehicle body 10.
  • the first and second radiators 44 and 46, the first and second cooling fans 45 and 47, and the brake resistor 48 are mounted on a support frame 81, and the support frame 81 is a lower side member of the vehicle body frame 20. 23 and the upper side member 24 are fixed with fasteners such as bolts.
  • the first radiator 44 and the first cooling fan 45 are supported across a pair of front and rear L-shaped frames 85 arranged in parallel in the traveling direction, and these are the tires. 11 and 12 are arranged in an area between. And the 1st radiator 44 and the 1st cooling fan 45 are mounted via the support frame 81 in the center of the running direction of the vehicle body frame 20 (refer 1st centerline 10A of FIG. 1).
  • the second radiator 46 and the second cooling fan 47 are supported across a pair of L-shaped frames 85 arranged in parallel in the traveling direction, and these are the tires. 11 and 12 are arranged in an area between.
  • the second radiator 46 and the second cooling fan 47 are also mounted through the support frame 81 at the center in the traveling direction of the body frame 20 (see the first centerline 10A in FIG. 1).
  • FIG. 11 is a diagram illustrating the attachment position of the hoist cylinder 35 from the traveling direction, and is a view taken along the line XI-XI in FIG. 4.
  • FIG. 12 is a side view showing the mounting position of the hoist cylinder 35. However, the steering mechanism is not shown in FIG.
  • the upper ends of the pair of hoist cylinders 35 are rotatably attached to an attachment portion 36 provided in the middle of the lower surface of the body 30.
  • a pair of hoist support portions 212 are juxtaposed along the vehicle width direction on the lower cross member 201 on which the second vertical frame 22 is erected.
  • the lower ends of the pair of hoist cylinders 35 are rotatably supported by the hoist support portions 212 and are supported in the vicinity of the rotation axis 12A of the tire 12 in the traveling direction.
  • the hoist cylinder 35 in such a position is supported far away from the engine 41 and the generator 42 connected to the hoist cylinder 35 side.
  • the hoist support portion 212 is provided at a position where the electric motor 43 is accommodated in the lower cross member 201, that is, a position reinforced by the electric motor 43 in the lower cross member 201.
  • the lower cross member 201 is also a member on which the second vertical frame 22 provided with the body support portion 206 is erected. Therefore, the portion receiving the load of the body 30 in the raised state is concentrated on the second vertical frame 22 and the lower cross member 201 located between the left and right tires 12, and the load is applied to the body support portion 206 and the hoist. It is transmitted from the hoist support portion 212 of the cylinder 35 to the road surface directly below through the suspension device 50 and the tire 12, and does not act on the lower side member 23 or the upper side member 24 (see FIG. 12).
  • the hoist cylinder 35 is extended to raise the body 30 toward the other side in the traveling direction and perform a discharging operation.
  • the hoist cylinder 35 stands up in a substantially vertical state.
  • from the first vertical frame 21 side to the center of the vehicle body frame 20, that is, above the portion where the engine 41 is mounted is a large space that extends upward. Since the body 30 and the hoist cylinder 35 do not exist in this space, the engine 41 disposed near the center of the vehicle body frame 20 using this space is hung by a wire or the like, and the engine 41 is attached and detached during maintenance. Sometimes it can be lifted and hung.
  • the engine 41 is disposed in an area defined by the first vertical frame 21, the second vertical frame 22, the pair of left and right lower side members 23, and the pair of left and right upper side members 24.
  • the lower side member 23 and the upper side member 24 are opened to be accessible from the outside of the vehicle body frame 20 toward the engine 41.
  • the dump truck 1 described above travels back and forth between a loading site where the mined mined material is loaded as a load and a discharge site where the load is discharged. At this time, on the outward path to the discharge field, the vehicle 30 travels with the support side of the body 30, that is, the second vertical frame 22 side as the rear and the first vertical frame 21 side as the front. On the return path that returns after the discharge, the dump truck 1 is not turned back and travels with the second vertical frame 22 side as the front and the first vertical frame 21 side as the rear (shuttle travel). However, turning may be performed as necessary, and the vehicle may always travel with the first vertical frame 21 side or the second vertical frame 22 side in front.
  • the present invention is not limited to the above-described embodiments, and modifications, improvements, and the like within the scope that can achieve the object of the present invention are included in the present invention.
  • the engine radiator 44 and the aftercooler radiator 46 have been described as the devices of the present invention, but the present invention is not limited to this.
  • cooling fans 45 and 47, a brake resistor 48, a control device 49, a hydraulic oil tank for storing hydraulic oil used in the hoist cylinder 35 and other hydraulic equipment, and the engine 41 are supplied.
  • Arbitrary devices such as a fuel tank for fuel and a battery for starting the engine 41 may be used.
  • both the upper connecting portion 86 and the lower connecting portion 87 are connected to the L-shaped frame 85 by pin bonding.
  • the upper connecting portion 86 and the L-shaped frames on both sides are integrally formed in a bowl shape. You may make it as a thing.
  • the support frame 81 of the above embodiment is composed of a pair of saddle-shaped frames 82 arranged side by side along the traveling direction, but the support frame is configured by using three or more such saddle-shaped frames 82.
  • the number of saddle-shaped frames 82 used can be appropriately changed in consideration of the size and weight of the device.
  • the present invention can be applied to an off-road dump truck that includes a cab and travels by manpower.

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  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Architecture (AREA)
  • Structural Engineering (AREA)
  • Body Structure For Vehicles (AREA)

Abstract

L'invention concerne un camion-benne (1) qui comprend : un châssis de carrosserie de véhicule (20) qui s'étend le long de la direction de déplacement; des pneus (11, 12) installés dans une direction de déplacement et une autre direction de déplacement sur le châssis de carrosserie de véhicule (20); et une pluralité d'appareils (44 à 48) montés sur le châssis de carrosserie de véhicule (20) par l'intermédiaire d'un cadre de support (81). Le cadre de support (81) est positionné de manière à être suspendu à travers le châssis de carrosserie de véhicule (20) dans la direction gauche-droite le long de la direction de largeur du véhicule. A la fois sur le côté gauche et le côté droit du châssis de corps de véhicule (20), les côtés gauche et droit du cadre de support (81) sont tous les deux disposés de façon à ressortir entre la paire de pneus avant et arrière (11, 12) disposés dans ladite une direction de déplacement et ladite autre direction de déplacement.
PCT/JP2014/054976 2014-02-27 2014-02-27 Camion-benne WO2015129008A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/JP2014/054976 WO2015129008A1 (fr) 2014-02-27 2014-02-27 Camion-benne

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2014/054976 WO2015129008A1 (fr) 2014-02-27 2014-02-27 Camion-benne

Publications (1)

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WO2015129008A1 true WO2015129008A1 (fr) 2015-09-03

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PCT/JP2014/054976 WO2015129008A1 (fr) 2014-02-27 2014-02-27 Camion-benne

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH04503786A (ja) * 1989-03-03 1992-07-09 ビーエイチピー コール プロプライアタリー リミティド 大型ダンプトラック
JPH08324453A (ja) * 1995-05-31 1996-12-10 Isuzu Motors Ltd 車両の重量物搭載構造
JP2002046485A (ja) * 2000-07-31 2002-02-12 Nissan Diesel Motor Co Ltd ガスエンジン車両の燃料容器保護装置
WO2003022665A1 (fr) * 1999-10-14 2003-03-20 Gulf Transp Co Pty Ltd Vehicule multicombinaisons incorporant une semi-remorque motorisee
JP2004231040A (ja) * 2003-01-30 2004-08-19 Hino Motors Ltd 荷台締結構造
US20080007096A1 (en) * 2006-06-08 2008-01-10 Fleming Sean M Multi-Function Cross Members for Truck Frames

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH04503786A (ja) * 1989-03-03 1992-07-09 ビーエイチピー コール プロプライアタリー リミティド 大型ダンプトラック
JPH08324453A (ja) * 1995-05-31 1996-12-10 Isuzu Motors Ltd 車両の重量物搭載構造
WO2003022665A1 (fr) * 1999-10-14 2003-03-20 Gulf Transp Co Pty Ltd Vehicule multicombinaisons incorporant une semi-remorque motorisee
JP2002046485A (ja) * 2000-07-31 2002-02-12 Nissan Diesel Motor Co Ltd ガスエンジン車両の燃料容器保護装置
JP2004231040A (ja) * 2003-01-30 2004-08-19 Hino Motors Ltd 荷台締結構造
US20080007096A1 (en) * 2006-06-08 2008-01-10 Fleming Sean M Multi-Function Cross Members for Truck Frames

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