JP2021109522A - Dump truck - Google Patents

Abstract

To provide a dump truck capable of properly supporting external force acting on each of a plurality of units stacked in the vertical direction.SOLUTION: A plurality of fan units 20w, 20x, 20z stacked in a vertical direction respectively include: fan motors 21w, 21y, 21z which rotate with driving force of an engine; cooling fans 22w, 22x, 22y, 22z which rotate by being connected to rotary shafts of the fan motors extending in a longitudinal direction of the dump truck; and fan shrouds 23w, 23x, 23y, 23z for covering outer peripheries of the cooling fans. The fan units 20w, 20y of an uppermost stage further have regulation members 33w, 33y for regulating vertical displacement of the fan motors, and the fan units 20x, 20z of a lowest stage further have support members 31x, 32x for supporting the fan units of the upper stage.SELECTED DRAWING: Figure 3

Description

The present invention relates to a dump truck in which a cooling fan is driven by a motor.

A general dump truck has a heat exchanger that exchanges heat between the coolant that cooled the engine and the cooling air, and a cooling device that supplies the cooling air to the heat exchanger. For example, Patent Document 1 discloses a cooling device in which a plurality of fan units are combined for the purpose of improving the cooling capacity and cooling with a small amount of power.

Chinese Patent Application Publication No. 105119005

Some large dump trucks for mines have a height of 7 to 8 m, and often run on rough terrain. Therefore, when a plurality of fan units are stacked in the vertical direction, the vibration (pitching) in the vertical direction becomes larger as the fan unit in the upper stage increases.

In addition, since the amount of heat generated by a large dump truck reaches 10 to 20 times that of a passenger car, the fan and the fan motor also become large. Therefore, when a plurality of fan units are stacked in the vertical direction, a larger load is applied to the lower fan unit.

The present invention has been made in view of the above-mentioned actual conditions, and an object of the present invention is a technique for appropriately supporting an external force acting on each fan unit in a dump truck equipped with a plurality of fan units stacked in the vertical direction. Is to provide.

In order to achieve the above object, the present invention relates to a dump truck including a vehicle body frame and a loading platform undulating on the vehicle body frame, wherein the vehicle body frame cools an engine and the engine. A heat exchanger for exchanging heat between liquid and cooling air and a plurality of fan units stacked in the vertical direction to supply cooling air to the heat exchanger are provided, and each of the plurality of fan units is the engine. A fan motor that rotates by the driving force of the dump truck, a cooling fan that generates cooling air by being connected to the rotation shaft of the fan motor extending in the front-rear direction of the dump truck, and a fan that covers the outer periphery of the cooling fan. The fan unit at the uppermost stage of the plurality of fan units having a shroud further has a regulating member for regulating the vertical displacement of the fan motor, and is the most of the plurality of fan units. The lower fan unit is further characterized by having a support member that supports the upper fan unit.

According to the present invention, in a dump truck equipped with a plurality of fan units stacked in the vertical direction, an external force acting on each fan unit can be appropriately supported. Issues, configurations, and effects other than those described above will be clarified by the following description of the embodiments.

It is a side view of the dump truck which concerns on this embodiment. It is a schematic block diagram of a power unit. It is a perspective view of a plurality of fan units which concerns on embodiment. It is a front view of a plurality of fan units which concerns on modification 1. FIG. It is a front view of a plurality of fan units which concerns on modification 2. FIG. It is a perspective view of a plurality of fan units which concerns on modification 3. FIG. It is a perspective view which shows the fan unit which concerns on modification 4.

An embodiment of a dump truck according to the present invention will be described with reference to the drawings. FIG. 1 is a side view of the dump truck 1 according to the present embodiment. Unless otherwise specified, the front, rear, left, and right directions in this specification are based on the viewpoint of the operator who operates the dump truck 1.

As shown in FIG. 1, the dump truck 1 according to the present embodiment includes a vehicle body frame 2, a pair of front wheels 3 rotatably supported at both left and right ends of the front portion of the vehicle body frame 2, and a rear portion of the vehicle body frame 2. It mainly includes a pair of rear wheels 4 rotatably supported on both left and right ends, a loading platform 5 undulatingly supported on a vehicle body frame 2, and a cab 6 on which an operator who operates a dump truck 1 rides.

The pair of front wheels 3 are steering wheels whose steering angle changes depending on the steering operation by the operator. On the other hand, the pair of rear wheels 4 are driving wheels that rotate by transmitting the driving force of a traction motor (not shown). The dump truck 1 includes a pair of traction motors in order to independently transmit a driving force to each of the pair of rear wheels 4.

The loading platform 5 undulates in the vertical direction around the hinge pin 8 at the rear of the vehicle body frame 2 due to the expansion and contraction of the hoist cylinder 7. One end of the hoist cylinder 7 is connected to the vehicle body frame 2, the other end is connected to the loading platform 5, and the hoist cylinder 7 expands and contracts by receiving hydraulic oil from a hydraulic pump (not shown). Then, when the hoist cylinder 7 extends, the loading platform 5 stands up, and when the hoist cylinder 7 contracts, the loading platform 5 falls down.

The cab 6 is arranged at the left end on the deck 9 at the front end of the vehicle body frame 2. The cab 6 forms a driver's cab on which the operator who operates the dump truck 1 is boarded. An operating device (accelerator pedal, brake pedal, hoist pedal, steering, lever, switch, etc.) for operating the dump truck 1 is arranged inside the cab 6. When the operator on the cab 6 operates the operating device, the dump truck 1 travels (accelerates, brakes, turns), and the loading platform 5 undulates.

Further, a power unit 10 is arranged below the deck 9. The power unit 10 is a unit that generates a driving force for operating the dump truck 1. FIG. 2 is a schematic configuration diagram of the power unit 10. The power unit 10 includes an engine 11, heat exchangers 12a and 12b, pumps 13a and 13b, and a plurality of fan units 20w, 20x, 20y and 20z (see FIG. 3).

Hereinafter, when distinguishing the fan units 20w, 20x, 20y, and 20z, the alphabets "w", "x", "y", and "z" are added to the end of the reference number, and the alphabets are omitted when generically referred to. do. The same applies to the components commonly provided in the fan units 20w, 20x, 20y, and 20z.

The engine 11 burns fossil fuel to generate a driving force for operating the dump truck 1. Specifically, the driving force of the engine 11 is transmitted to a hydraulic pump (not shown), so that the hydraulic oil stored in the hydraulic oil tank is pumped to the hoist cylinder 7. Further, by transmitting the driving force of the engine 11 to a generator (not shown), electric power for rotating the traction motor and the fan motor 21 is generated.

The engine 11 generates heat when it is driven. Therefore, a coolant passage through which the coolant (for example, water or oil) passes is formed inside the engine 11. The coolant is supplied from the heat exchangers 12a and 12b to the engine 11 by the pumps 13a and 13b, passes through the coolant passage to cool the engine 11, and then returns to the heat exchangers 12a and 12b again.

The heat exchangers 12a and 12b exchange heat between the coolant that cooled the engine 11 and the cooling air. The heat exchanger 12a is, for example, an intercooler that cools the supercharged air from a turbocharger (not shown). The heat exchanger 12b is, for example, a radiator that cools the coolant supplied to the coolant passage in the engine block. The heat exchanger 12a can be omitted.

The heat exchangers 12a and 12b and the fan unit 20 are arranged side by side in the front-rear direction inside the vehicle body frame 2. In this embodiment, the heat exchangers 12a and 12b are located on the front side of the fan unit 20. When the fan unit 20 is driven, cooling air is generated from the front side to the rear side of the dump truck 1.

The cooling air generated by the fan unit 20 exchanges heat with the coolant in the heat exchangers 12a and 12b when passing in the vicinity of the heat exchangers 12a and 12b. That is, the fan unit 20 supplies cooling air to the heat exchangers 12a and 12b.

If the heat exchangers 12a and 12b and the fan unit 20 are arranged in the front-rear direction, the specific arrangement order is not limited to the above-mentioned example. As another example, heat exchangers 12a and 12b may be arranged behind the fan unit 20.

The fan units 20w, 20x, 20y, 20z include fan motors 21w, 21x, 21y, 21z, cooling fans 22w, 22x, 22y, 22z, and fan shrouds 23w, 23x, 23y, 23z.

The fan motor 21 is rotated by the driving force of the engine 11. The fan motor 21 according to the present embodiment is an electric motor that rotates by being supplied with electric power generated by a generator by the driving force of the engine 11. However, the fan motor 21 may be a hydraulic motor that is rotated by hydraulic oil pumped by the hydraulic pump by the driving force of the engine 11. The rotation shaft (output shaft) 24 of the fan motor 21 extends in the front-rear direction of the dump truck 1.

The cooling fan 22 is connected to the rotation shaft 24 of the fan motor 21 and rotates in a plane orthogonal to the front-rear direction of the dump truck 1. That is, the cooling fan 22 is cantilevered and supported by the rotating shaft 24 of the fan motor 21. Then, the cooling fan 22 causes a flow of air (cooling air) from the front side to the rear side of the dump truck 1. The cooling fan 22 is composed of a hub 25 and a plurality of blades 26.

The hub 25 has a circular outer shape when viewed from the front-rear direction of the dump truck 1. The hub 25 is located in the center of the cooling fan 22 and has a recess for receiving the rotating shaft 24. The blades 26 extend radially outward from the outer peripheral surface of the hub 25. The plurality of blades 26 are arranged apart from each other in the circumferential direction of the hub 25. That is, the blades 26 extend radially from the hub 25.

The fan shroud 23 is an outer wall that covers the outer periphery of the cooling fan 22. The fan shroud 23 according to the present embodiment covers the upper wall covering the upper part of the cooling fan 22, the lower wall covering the lower part of the cooling fan 22, the left wall covering the left side of the cooling fan 22, and the right side of the cooling fan 22. It is a frame shape with a right wall. On the other hand, the fan shroud 23 opens the front and the rear of the cooling fan 22.

FIG. 3 is a perspective view of a plurality of fan units 20w, 20x, 20y, and 20z according to the present embodiment. In the present embodiment, the fan units 20w and 20x stacked in the vertical direction and the fan units 20y and 20z stacked in the vertical direction are arranged adjacent to each other in the horizontal direction. However, the arrangement of the plurality of fan units 20 is not limited to the example of FIG. As another example, three or more fan units 20 may be stacked in the vertical direction. As yet another example, the number of fan units 20 in the left-right direction may be one or three or more.

Here, the fan motor 21 has vertical vibration (pitching) when the dump truck 1 travels on rough terrain, left-right moments (roll and yaw) when the dump truck 1 turns, and acceleration / deceleration of the cooling fan 22. A force or the like in the extending direction of the rotating shaft 24 at the time acts. Therefore, when an external force such as pitching acts on the fan motor 21 that cantilevers and supports the cooling fan 22 by the rotating shaft 24 extending in the front-rear direction, the flow of the cooling air in the internal space of the fan shroud 23 becomes unstable. Become.

The total weight of the fan motor 21 mounted on the dump truck 1 is about 200 kg, the total weight of the cooling fans 22 is about 20 kg, and the diameter of each cooling fan 22 is about 1 m. It can be seen that this is very heavy and large compared to the total weight of the fan motor and the cooling fan of a general passenger car being about 3 kg and the diameter of the cooling fan being about 0.3 m. Therefore, the fan motor 21 needs to be firmly fixed to the fan shroud 23.

Of the plurality of fan units 20w, 20x, 20y, and 20z, the fan units 20w and 20y located at the uppermost stage are particularly affected by pitching. On the other hand, among the plurality of fan units 20w, 20x, 20y, 20z, the fan units 20x, 20z located at the lowermost stage need to support not only their own weight but also the weight of the upper fan units 20w, 20y.

Therefore, the fan unit 20 includes a plurality of beams 31, 32, 33. The beams 31, 32, 33 extend in a direction intersecting (orthogonal) with the rotation axis 24 of the fan motor 21, and both ends are connected to the walls of the fan shroud 23 facing each other. The cross-sectional shapes of the beams 31, 32, and 33 are, for example, a groove shape (channel shape), a flat plate shape, a round bar shape, a chevron shape (angle shape), and the like. The beams 31 and 32 are examples of the first beam, and the beams 33 are examples of the second beam.

The beams 31w and 32w of the fan unit 20w located at the uppermost stage extend in the left-right direction (an example in the horizontal direction) in the internal space of the fan shroud 23w. Further, the beams 31w and 32w are arranged apart from each other in the vertical direction. The right ends of the beams 31w and 32w are fixed to the right wall of the fan shroud 23w via the angle 34w. Further, the left ends of the beams 31w and 32w are fixed to the left wall of the fan shroud 23w via an angle (not shown).

Further, the beams 31w and 32w are fixed to the fan motor 21w behind the center of gravity position Gw of the fan motor 21w. Further, the beams 31w and 32w are fixed to the fan motor 21w so as to sandwich the fan motor 21w from the vertical direction. That is, the pair of beams 31w and 32w function as fixing members for fixing the fan motor 21w to the fan shroud 23w at a position closer to the cooling fan 22w than the center of gravity position Gw of the fan motor 21w.

The beam 33w of the fan unit 20w located at the uppermost stage extends in the left-right direction (an example in the horizontal direction) in the internal space of the fan shroud 23w. The right end of the beam 33w is fixed to the right wall of the fan shroud 23w via the angle 36w. Further, the left end of the beam 33w is fixed to the left wall of the fan shroud 23w via an angle 37w. Further, the beam 33w is arranged at a position overlapping the beam 32w when viewed from the front-rear direction of the dump truck 1 (that is, the extension direction of the rotation shaft 25w).

Further, the beam 33w supports the fan motor 21w from below in front of the center of gravity position Gw of the fan motor 21w. As a result, the displacement of the fan motor 21w in the vertical direction (more specifically, downward) is regulated. That is, the single beam 33w functions as a regulating member that regulates the vertical displacement of the fan motor 21w at a position farther from the cooling fan 22w than the center of gravity position Gw of the fan motor 21w.

Further, a V-shaped holding member (fixing tool) 38w is fixed to the upper surface of the beam 33w. The fan motor 21w is placed inside the V-shape of the holding member 38w. As a result, the displacement of the fan motor 21w in the left-right direction due to the roll and yaw of the dump truck 1 is regulated. However, the holding member 38w can be omitted.

Further, the cable 27w extending from the fan motor 21w extends in the left-right direction (more specifically, the left direction) along the beam 33w. Further, the cable 27w is arranged so as to overlap the beam 33w when viewed from the front-rear direction of the dump truck 1. The cable 27w is pulled out of the fan shroud 23w through a through hole (not shown) provided on the left wall of the fan shroud 23w.

The cable 27w supplies the electric power generated by the generator (an example of power) to the fan motor 21w. However, when the fan motor 21w is a hydraulic motor, the hydraulic piping (another example of the line) that supplies hydraulic oil (another example of power) to the fan motor 21w is arranged as described above instead of the cable 27w. Measure. The same applies to the cables 27x, 27y, and 27z described later.

The configurations of the beams 31y, 32y, and 33y of the fan unit 20y are the same as those of the fan unit 20w. Further, in the fan units 20w and 20y adjacent to each other in the left-right direction, the beams 33w and 33y are arranged on the same straight line extending in the left-right direction.

Further, the cable 27w drawn out from the fan shroud 23w enters the fan shroud 23y and is bundled in the cable 27y. Then, the bundled cables 27w and 27y are arranged so as to overlap the beam 33y when viewed from the front-rear direction of the dump truck 1, and through the through hole 28y provided in the left wall of the fan shroud 23y, the fan shroud 23y It is pulled out to the outside.

The beams 31x and 32x of the fan unit 20x located at the lowermost stage extend in the vertical direction in the internal space of the fan shroud 23x. Further, the beams 31x and 32x are arranged apart from each other in the left-right direction. The upper ends of the beams 31x and 32x are fixed to the upper wall of the fan shroud 23x via the angle 34x. Further, the lower ends of the beams 31x and 32x are fixed to the lower wall of the fan shroud 23x via an angle 35x.

Further, the beams 31x and 32x are fixed to the fan motor 21x behind the center of gravity position Gx of the fan motor 21x. Further, the beams 31x and 32x are fixed to the fan motor 21x so as to sandwich the fan motor 21x from the left and right directions. That is, the pair of beams 31x and 32x function as fixing members for fixing the fan motor 21x to the fan shroud 23x at a position closer to the cooling fan 22x than the center of gravity position Gx of the fan motor 21x, and the fan located in the upper stage. It functions as a support member that supports the weight of the unit 20w.

The beam 33x of the fan unit 20x located at the lowermost stage extends in the left-right direction (an example in the horizontal direction) in the internal space of the fan shroud 23x. The right end of the beam 33x is fixed to the right wall of the fan shroud 23x via the angle 36x. The left end of the beam 33x is fixed to the left wall of the fan shroud 23x via an angle 37x.

Further, the beam 33x supports the fan motor 21x from below in front of the center of gravity position Gx of the fan motor 21x. As a result, the displacement of the fan motor 21x in the vertical direction (more specifically, downward) is regulated. That is, the single beam 33x functions as a regulating member that regulates the vertical displacement of the fan motor 21x at a position farther from the cooling fan 22x than the center of gravity position Gx of the fan motor 21x.

A V-shaped holding member (fixing tool) 38x is fixed to the upper surface of the beam 33x. The fan motor 21x is placed inside the V-shape of the holding member 38x. As a result, the displacement of the fan motor 21x in the left-right direction due to the roll and yaw of the dump truck 1 is regulated. However, the holding member 38x can be omitted.

Further, the cable 27x extending from the fan motor 21x extends in the left-right direction (more specifically, the left direction) along the beam 33x. Further, the cable 27x is arranged so as to overlap the beam 33x when viewed from the front-rear direction of the dump truck 1. The cable 27x is pulled out of the fan shroud 23x through a through hole (not shown) provided in the left wall of the fan shroud 23x.

The configurations of the beams 31z, 32z, and 33z of the fan unit 20z are the same as those of the fan unit 20z. Further, in the fan units 20x and 20z adjacent to each other in the left-right direction, the beams 33x and 33z are arranged on the same straight line extending in the left-right direction.

Further, the cable 27x drawn from the fan shroud 23x enters the fan shroud 23z and is bundled in the cable 27z. Then, the bundled cables 27x and 27z are arranged so as to overlap the beam 33z when viewed from the front-rear direction of the dump truck 1, and through the through hole 28z provided in the left wall of the fan shroud 23z, the fan shroud 23z It is pulled out to the outside.

According to the above embodiment, for example, the following effects are exhibited.

According to the above embodiment, in the uppermost fan units 20w and 20y, the beams 33w and 33y regulate the pitching of the fan motors 21w and 21y. Further, in the lowermost fan units 20x and 20z, the beams 31x, 31z, 32x and 32z support the weights of the upper fan units 20w and 20y.

As a result, in the dump truck 1 equipped with a plurality of fan units 20w, 20x, 20y, 20z stacked in the vertical direction, the external force acting on each fan unit 20w, 20x, 20y, 20z can be appropriately supported. ..

As shown in FIG. 3, the beams 33w and 33y that regulate the pitching of the fan motors 21w and 21y, and the beams 31w, 31y, 32w and 32y that fix the fan motors 21w and 21y to the fan shrouds 23w and 23y. Is preferably located on the opposite side of the fan motors 21w and 21y at the center of gravity Gw and Gy.

Further, the weight of the fan unit 20 is heavier on the rear side (the side closer to the cooling fan 22) than the center of gravity position G of the fan motor 21 than on the front side (the side farther from the cooling fan 22). Therefore, as shown in FIG. 3, it is desirable to extend the beams 31x, 31z, 32x, 32z of the fan units 20x, 20z in the vertical direction to support the fan units 20w, 20y.

Further, according to the above embodiment, since the beams 32w, 33w and the beams 32y, 33y are arranged at positions where they overlap each other when viewed from the front-rear direction of the dump truck 1, the resistance to the flow of the cooling air can be reduced. can. Similarly, the resistance to the flow of the cooling air is further reduced by arranging the cables 27w, 27x, 27y, 27z so as to overlap the beams 33w, 33x, 33y, 33z when viewed from the front-rear direction of the dump truck 1. be able to.

Further, according to the above embodiment, the cables 27w and 27y are bundled and pulled out from the through hole 28y, and the cables 27x and 27z are bundled and pulled out from the through hole 28z to arrange the cables 27 to the generator (not shown). The plan can be simplified.

The combination of the beams 31, 32, and 33 in the fan unit 20 in the extending directions is not limited to the above-mentioned example. Hereinafter, modifications of the fan units 20w, 20x, 20y, and 20z will be described with reference to FIGS. 4 to 7. The detailed description of the common points with the above-described embodiment will be omitted, and the differences will be mainly described.

(Modification example 1)
FIG. 4 is a front view of a plurality of fan units 20w, 20x, 20y, and 20z according to the first modification. The first modification is different from the above embodiment in that all the beams 31, 32, and 33 are extended in the vertical direction.

More specifically, the beams 31 and 32 are arranged so as to sandwich the fan motor 21 from the left-right direction, and each of the beams 31 and 32 extends in the vertical direction. The upper ends of the beams 31 and 32 are fixed to the upper wall of the fan shroud 23 via the angle 34. Further, the lower ends of the beams 31 and 32 are fixed to the lower wall of the fan shroud 23 via the angle 35.

Further, the beams 32 and 33 are arranged at positions where they overlap each other when viewed from the front-rear direction of the dump truck 1. Further, the cable 27 is arranged so as to overlap the beam 33 when viewed from the front-rear direction of the dump truck 1.

Further, the beams 33w and 33x are extended in the vertical direction on the right side of the fan motors 21w and 21x. The beams 33w and 33x regulate the vertical displacement of the fan motors 21w and 21x by the V-shaped holding members 38w and 38x. Further, the bundled cables 27w and 27x are pulled out through a through hole penetrating the upper wall of the fan shroud 23w.

On the other hand, the beams 33y and 33z are extended in the vertical direction on the left side of the fan motors 21y and 21z. The beams 33y and 33z regulate the vertical displacement of the fan motors 21y and 21z by the V-shaped holding members 38y and 38z. Further, the bundled cables 27y and 27z are pulled out through a through hole penetrating the upper wall of the fan shroud 23y.

By extending all the beams 31, 32, 33 in the vertical direction as in the above-mentioned modification 1, the effect of supporting the weight of the fan unit 20 becomes more remarkable. Further, by aligning the extending directions of the beams 31, 32, and 33 in all the fan units 20, the fan units 20 having the same configuration can be laminated, so that the manufacturing cost can be expected to be reduced.

In the first modification, the fan units 20w and 20x and the fan units 20y and 20z are assembled in a state of being inverted by 180 °. As a result, the beams 33w and 33x and the beams 33y and 33z can be arranged symmetrically with respect to the center of the assembled fan units 20w, 20x, 20y and 20z. As a result, the weight of the fan unit 20 can be supported more appropriately.

(Modification 2)
FIG. 5 is a front view of a plurality of fan units 20w, 20x, 20y, and 20z according to the second modification. The second modification is different from the first modification in that the beams 33w and 33y are arranged to the left of the fan motors 21w and 21y.

According to the above-mentioned modification 2, the same action and effect as the above-mentioned modification 1 can be expected. Further, since all the fan units 20w, 20x, 20y, and 20z are assembled in the same direction, the assembly work can be simplified.

(Modification example 3)
FIG. 6 is a perspective view of a plurality of fan units 20w, 20x, 20y, and 20z according to the third modification. The third modification is different from the above embodiment in that all the beams 31, 32, and 33 are extended in the left-right direction.

More specifically, the beams 31 and 32 are arranged so as to sandwich the fan motor 21 from the vertical direction, and each of the beams 31 and 32 extends in the horizontal direction. The right ends of the beams 31 and 32 are fixed to the right wall of the fan shroud 23 via the angle 34. Further, the left ends of the beams 31 and 32 are fixed to the left wall of the fan shroud 23 via an angle (not shown).

Further, the beam 33 extends in the left-right direction below the fan motor 21. Then, the beam 33 regulates the vertical displacement of the fan motor 21 by supporting the fan motor 21 from below via the V-shaped holding member 38. Further, the beams 32 and 33 are arranged at positions where they overlap each other when viewed from the front-rear direction of the dump truck 1.

The cable 27 is arranged so as to overlap the beam 33 when viewed from the front-rear direction of the dump truck 1. Further, the bundled cables 27w and 27y are pulled out through a through hole 28y penetrating the left wall of the fan shroud 23y. Similarly, the bundled cables 27x, 27z are pulled out through a through hole 28z penetrating the left wall of the fan shroud 23z.

By extending all the beams 31, 32, 33 in the left-right direction as in the above-described third modification, the effect of regulating the pitching of the fan motor 21 becomes more remarkable. Further, by preventing the fan shroud 23 from being deformed, the weight of the fan motor 21 can be appropriately supported. Further, by aligning the extending directions of the beams 31, 32, and 33 in all the fan units 20, the fan units 20 having the same configuration can be laminated, so that the manufacturing cost can be expected to be reduced.

(Modification example 4)
FIG. 7 is a perspective view showing the fan unit 20 according to the modified example 4. Modification 4 is different from the above embodiment in that the beams 31 and 32 are arranged in an X shape. Further, in the modified example 4, the fan units 20 shown in FIG. 7 are stacked in the vertical direction.

The beam 31 extends diagonally from the upper right corner to the lower left corner of the internal space of the fan shroud 23. Further, the beam 31 is divided into two partial beams 31a and 31b at a position where it interferes with the fan motor 21. That is, one end of the partial beam 31a is fixed to the upper right corner of the fan shroud 23 via the angle 40, and the other end is fixed to the fan motor 21. Further, one end of the partial beam 31b is fixed to the lower left corner of the fan shroud 23 via an angle (not shown), and the other end is fixed to the fan motor 21.

Further, the beam 32 extends diagonally from the upper left corner to the lower right corner of the internal space of the fan shroud 23. Further, the beam 32 is divided into two partial beams 32a and 32b at a position where it interferes with the fan motor 21. That is, one end of the partial beam 32a is fixed to the upper left corner of the fan shroud 23 via an angle (not shown), and the other end is fixed to the fan motor 21. Further, one end of the partial beam 32b is fixed to the lower right corner of the fan shroud 23 via the angle 41, and the other end is fixed to the fan motor 21.

According to the modified example 4, since the beams 31 and 32 are extended in the direction intersecting the outer wall of the fan shroud 23, in addition to the effect of stabilizing the posture of the fan motor 21 against an external force such as pitching, the fan shroud 23 The rigidity of the can be increased. As described above, the beams 31 and 32 do not have to be parallel.

The above-described embodiments are examples for the purpose of explaining the present invention, and the scope of the present invention is not limited to those embodiments. One of ordinary skill in the art can practice the present invention in various other aspects without departing from the gist of the present invention.

1 Dump truck 2 Body frame 3 Front wheel 4 Rear wheel 5 Loading platform 6 Cab 7 Hoist cylinder 8 Hinging pin 9 Deck 10 Power unit 11 Engine 12a, 12b Heat exchanger 13a, 13b Pump 20 Fan unit 21 Fan motor 22 Cooling fan 23 Fan shroud 24 rotations Shaft 25 Hub 26 Blade 27 Cable 28 Through hole 31, 32, 33 Beam 34, 35, 36, 37 Angle 38 Holding member

Claims (7)

In a dump truck provided with a vehicle body frame and a loading platform provided on the vehicle body frame so as to be undulating.
The body frame
With the engine
A heat exchanger that exchanges heat between the coolant that cooled the engine and the cooling air.
A plurality of fan units stacked in the vertical direction, each of which supplies cooling air to the heat exchanger, are provided.
Each of the plurality of fan units
A fan motor that rotates by the driving force of the engine,
A cooling fan that generates cooling air by being connected to the rotating shaft of the fan motor extending in the front-rear direction of the dump truck and rotating.
It has a fan shroud that covers the outer circumference of the cooling fan.
The fan unit at the uppermost stage of the plurality of fan units further has a regulating member that regulates the vertical displacement of the fan motor.
A dump truck characterized in that the lowermost fan unit among the plurality of fan units further has a support member for supporting the upper fan unit. In the dump truck according to claim 1,
Each of the plurality of fan units
A first beam extending in a direction orthogonal to the rotation axis of the fan motor at a position closer to the cooling fan than the position of the center of gravity of the fan motor.
A second beam extending in a direction orthogonal to the rotation axis of the fan motor is provided at a position far from the cooling fan from the position of the center of gravity of the fan motor.
The first beam or the second beam of the uppermost fan unit is the regulation member.
A dump truck characterized in that the first beam or the second beam of the lowermost fan unit is the support member. In the dump truck according to claim 2,
The dump truck is characterized in that the first beam and the second beam are arranged at positions where they overlap each other when viewed from the direction of the rotation axis of the fan motor. In the dump truck according to claim 2,
A dump truck characterized by being provided with a line that is arranged so as to overlap the second beam when viewed from the direction of the rotation axis of the fan motor and supplies power to the fan motor. In the dump truck according to claim 4,
The plurality of fan units adjacent to each other in the extending direction of the second beam are characterized in that the second beams are arranged on the same straight line and the lines are bundled and arranged. Dump truck to do. In the dump truck according to claim 2,
The second beam of the uppermost fan unit is a dump truck that is a regulating member that extends in the horizontal direction and supports the fan motor from below. In the dump truck according to claim 2,
A dump truck characterized in that the first beam of the lowermost fan unit is the support member extending in the vertical direction.

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