JP2014066217A - Working vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress an adverse effect on various instruments due to heat without making a configuration complicated, when arranging an exhaust gas treatment device inside an engine compartment.SOLUTION: A working vehicle is configured such that: in an engine compartment 9, an exhaust gas treatment device 23 is arranged above an engine 10 and a cooling fan 21 is arranged on the front side of the engine 10 and the exhaust gas treatment device 23; the exhaust gas treatment device 23 is supported at an upper part of a support body 28 arranged in a space provided vertically between the exhaust gas treatment device 23 and the engine 10; the support body is formed in a plate shape extending in a front and back direction and a width direction of the vehicle body; and there are provided treatment device side exhaust ports 38, 39 for exhausting air on the exhaust gas treatment device 23 side than the support body 28 to the outside of the engine compartment 9, and an engine side exhaust port 41 for exhausting air on the engine 10 side than the support body 28 to the outside of the engine compartment 9.

Description

  The present invention relates to a work vehicle equipped with a cooling fan, an engine, and an exhaust treatment device for treating exhaust of the engine.

  The work vehicle as described above is provided with a bonnet that can be opened and closed in an closed state and an open state that form an engine room, and a cooling fan, an engine, and an exhaust treatment device are arranged in the engine room. (For example, refer to Patent Document 1). In the work vehicle described in Patent Document 1, the cooling fan is disposed on the front side of the engine, the exhaust treatment device is disposed on the upper portion of the engine, and the exhaust gas of the engine is used as the exhaust treatment device, for example. An exhaust gas purification device (DPF) for purification is provided.

JP 2011-132924 A

  For example, when an exhaust gas purification device (DPF) is provided as an exhaust treatment device, regeneration processing is performed in which particulate matter collected by a heating means such as a heater is heated and removed by combustion. As a result, the exhaust treatment device becomes a heating element and heats the air around the exhaust treatment device. Therefore, if the air heated by the exhaust treatment device stays in the engine room, there arises a problem that the various devices provided near the exhaust treatment device or near the engine have an adverse effect due to heat.

  Therefore, the work vehicle described in Patent Document 1 includes a partition plate that partitions the exhaust treatment device and the engine in the vertical direction, and exhausts air that is ventilated rearward by the cooling fan using the partition plate. Branch ventilation is provided between the apparatus side (upper side) and the engine side (lower side). An exhaust port is provided at the top of the bonnet, and the air around the exhaust treatment device is exhausted to the outside from the exhaust port, so that the air heated by the exhaust treatment device is prevented from staying in the engine room. doing. However, in the work vehicle described in Patent Document 1, a partition plate must be provided only in order to allow the air ventilated by the cooling fan to be ventilated also to the exhaust treatment device side, resulting in a complicated configuration. It has become. In addition, if the air branched and ventilated on the engine side stays around the engine, there arises a problem that various devices provided near the engine have an adverse effect due to heat.

  The present invention has been made paying attention to such a point, and its object is to arrange the exhaust treatment device in the engine room without surrounding the exhaust treatment device and near the engine without complicating the configuration. The present invention provides a work vehicle that can suppress various adverse effects caused by heat on various devices and the like.

In order to achieve this object, the working vehicle according to the present invention includes a cooling fan, an engine, an exhaust treatment device that processes exhaust of the engine, and the cooling fan, the engine, and the interior thereof. A bonnet that can be opened and closed in a closed state and an open state to form an engine room that houses the exhaust treatment device;
In the engine room, the exhaust treatment device is arranged at the upper part of the engine, and the cooling fan is arranged in front of the engine and the exhaust treatment device,
The exhaust treatment device is supported on an upper portion of a support body disposed between the exhaust treatment apparatus and the engine in a vertical direction,
The support body is formed in a plate shape extending in the longitudinal direction of the body and in the lateral direction of the body,
A processing apparatus side exhaust port that exhausts air on the exhaust processing apparatus side from the support body to the outside of the engine room, and an engine side exhaust that exhausts air on the engine side from the support body to the outside of the engine room. The point is that it has a mouth.

  According to this characteristic configuration, the air ventilated by the cooling fan can be branched and ventilated to the exhaust treatment device side (upper side) and the engine side (lower side) by the support that supports the exhaust treatment device. The air branched and ventilated to the exhaust treatment device side (upper side) is exhausted to the outside from the exhaust port on the treatment device side, so that the temperature around the exhaust treatment device becomes high and heats the equipment disposed around it. It is possible to suppress adverse effects due to. In addition, the air that has been branched and ventilated to the engine side (downward side) is exhausted to the outside from the engine side exhaust port, so that the engine and its surroundings become hot and adversely affect the equipment disposed around it. Can be suppressed. In addition, the support body is originally provided to support the exhaust treatment device, and the support body is provided on the exhaust treatment device side (upper side) and the engine side (lower side) from the cooling fan. It can also be used for branching air and simplifies the configuration. Further, since the support is formed in a plate shape extending in the longitudinal direction of the body and in the lateral direction of the body, the air that is branched and ventilated to the exhaust treatment device side (upper side) flows into the engine side. Can be suppressed. Therefore, the air heated by the exhaust treatment device can be suppressed from flowing into the engine side, and the engine and various devices provided near the engine can be appropriately cooled.

  According to a further characteristic configuration of the work vehicle according to the present invention, the processing device side exhaust port includes a first exhaust port disposed at an upper portion of the bonnet, and a lateral side portion of the bonnet in the closed state in the body width direction. A second exhaust port disposed at a portion facing the end portion of the support plate, and the engine-side exhaust portion is located on the lateral side of the engine room that extends from the lateral side portion of the closed bonnet to the lower side. It is in the point provided with the 3rd exhaust port arrange | positioned at a part.

  According to this characteristic configuration, the air branched and ventilated to the exhaust treatment device side (upper side) is heated by the exhaust treatment device, and is therefore led to the first exhaust port at the top of the bonnet by the draft effect. Exhausted. The air branched and ventilated to the exhaust treatment device side (upper side) is not only ventilated toward the first exhaust port, but is also guided to the second exhaust port by the guide action of the support body extending in the lateral width direction of the machine body. Exhausted outside. The air branched and ventilated on the engine side (downward side) is guided to the third exhaust port by the guide action of the support body extending in the lateral direction of the fuselage and exhausted to the outside. Thus, the air in the engine room can be appropriately exhausted to the outside by the draft effect and the guide action by the support body, and it is possible to accurately prevent adverse effects due to heat from affecting various devices.

  A further characteristic configuration of the work vehicle according to the present invention is provided with a partition body that partitions the internal space of the bonnet in the closed state into the engine room and a partition space on the rear side of the engine room in the longitudinal direction of the body. The partition body is in a point that it is arranged behind the processing apparatus side exhaust port and the engine side exhaust port in the longitudinal direction of the machine body.

  According to this characteristic configuration, the provision of the partition body restricts the air heated by the exhaust treatment device and the engine from flowing rearward of the engine room. Since the partition body is arranged on the rear side in the front-rear direction of the airframe from the processing device side exhaust port and the engine side exhaust port, the flow of the air heated by the exhaust processing device and the engine is restricted to the rear side. By doing so, the air heated in the exhaust treatment device can be actively guided to the treatment device side exhaust port, and the air heated in the engine can be actively led to the engine side exhaust port, Exhaust of the air in the engine room to the outside can be performed appropriately.

  A further characteristic configuration of the work vehicle according to the present invention is that an air cleaner is provided between the cooling fan and the exhaust treatment device in the longitudinal direction of the machine body.

  According to this characteristic configuration, the air cleaner is arranged in front of the exhaust treatment device serving as a heating element, so that the air heated by the exhaust treatment device is not supplied to the air cleaner, and cold air is supplied to the engine by the air cleaner. Can be sent.

  According to a further characteristic configuration of the work vehicle according to the present invention, the exhaust treatment device includes a treatment device main body and a connection portion connected to an exhaust manifold of the engine, and the connection portion is arranged in the longitudinal direction of the machine body. It exists in the point arrange | positioned rather than the apparatus main body.

  According to this characteristic configuration, the connection portion of the exhaust treatment device and the exhaust manifold are located on the rear side of the treatment device body, so that the air ventilated by the cooling fan is heated by the exhaust treatment device. And supplied to the connection location. Therefore, it is possible to prevent the exhaust supplied from the exhaust manifold to the exhaust treatment device from being cooled.

Overall side view of tractor Longitudinal side view of engine room Top view of engine room Longitudinal rear view of engine room Perspective view of equipment in engine room Exploded perspective view showing support structure of exhaust treatment device Front view showing support structure of exhaust treatment device An exploded perspective view showing the main part in the engine room

An embodiment of a work vehicle according to the present invention will be described based on the drawings.
FIG. 1 shows an entire side surface of a tractor with a cabin, which is an example of a work vehicle according to the present invention. As shown in FIG. 1, the tractor 100 includes a driving unit 1 located at the front of the aircraft and an operation cabin 2 located at the rear of the aircraft. The tractor 100 includes a traveling machine body 4 supported by a pair of left and right front wheels 6 and a rear wheel 7, and the traveling machine body 4 integrally includes an engine frame 5, a clutch housing (not shown), and a transmission case 8. Concatenated.

  At the rear of the transmission case 8, a pair of left and right lift arms 11 that are driven to swing in the vertical direction by the operation of a hydraulic lifting cylinder (not shown) installed in the upper part of the transmission case 8 and the engine power can be taken out to the outside. A power take-off shaft 12 and the like are provided. The power take-off shaft 12 is connected to the engine 10 via a work transmission system including a work transmission system (not shown), a work clutch (not shown), etc., which are separate from the traveling transmission system built in the transmission case 8. The power of is transmitted. The left and right lift arms 11 are connected to a link mechanism (not shown) connected to the rear part of the transmission case 8 so as to be swingable up and down. The power take-off shaft 12 is connected to a rotary mechanism connected to the link mechanism. A transmission shaft for transmitting power to a working device (not shown) such as a tillage device is connected.

  The driving cabin 2 has a roof frame 14 supported on a cabin frame 13 erected at the four corners of the front, rear, left and right, has a front glass 15 made of transparent curved glass on the front side, and is made of transparent glass on the left and right side portions. A pair of left and right door panels 16 of an outward opening type are provided and formed in a rectangular box shape. A steering wheel 17, a driver seat 18, and the like are provided inside the driver cabin 2.

  The tractor 100 includes a bonnet 3 that can be opened and closed in a closed state (solid line in FIG. 1) and an open state (dotted line in FIG. 1), and by closing the bonnet 3, FIGS. As shown in FIG. 2, an engine room 9 that covers the front part, both lateral parts, and the upper part of the driving part 1 and accommodates the engine 10 is formed inside the bonnet 3.

The driving unit 1 will be described with reference to FIGS. 2 to 5, the front-rear direction of the body is shown as the X direction, and the lateral direction of the body is shown as the Y direction.
In the engine unit 9, the prime mover 1 is provided with an engine 10 that employs a diesel engine supported on a vibration isolating material or the like on an engine frame 5. The motive power from the engine 10 is configured to be transmitted to the front wheels 6 and the rear wheels 7 via a traveling transmission system including a traveling transmission (not shown) and the like built in the transmission case 8 also serving as a frame, A four-wheel drive tractor is constructed.

  As shown in FIG. 2, the driving unit 1 includes a battery 19, a radiator 20 for cooling the engine, a cooling fan 21, and an engine 10 in the engine room 9 in order from the front side in the longitudinal direction of the machine body (X direction). Yes. Further, an engine air cleaner 22 and an exhaust treatment device 23 with a muffler function that accommodates a DOC (diesel oxidation catalyst), a DPF (diesel particulate filter), and the like are provided in the engine room 9. The air cleaner 22 is attached such that its cover is directed downward in the lateral width direction of the body. As a result, when the bonnet 3 is opened, the air cleaner 22 is exposed, so that the air cleaner 22 can be easily maintained. A fuel tank 24 is provided on the rear side of the engine room 9.

  As shown in FIG. 4, the exhaust treatment device 23 is arranged on the upper portion of the engine 10 by a gate-type support frame 25 extending upward from the engine frame 5. The exhaust treatment device 23 captures the particulate matter contained in the exhaust from the engine 10 with the DPF, oxidizes and burns unburned fuel in the exhaust with the DOC, and raises the exhaust temperature, thereby capturing the particulates captured by the DPF. The material is incinerated to regenerate the DPF. Exhaust gas from the engine 10 is processed by the exhaust gas processing device 23, and the exhaust gas after the processing is exhausted to the outside through the exhaust pipe 26. The exhaust pipe 26 is configured to cool the exhaust gas processed by the exhaust processing device 23 by mixing outside air and exhaust the cooled exhaust gas to the outside.

  The support frame 25 is composed of a pair of left and right columns 27 erected so as to extend upward from the engine frame 5 on both lateral sides of the engine 10 in the lateral width direction (Y direction), and upper ends of the pair of left and right columns 27. It includes a plate-like support plate 28 (corresponding to a support) that connects the two.

  As shown in FIGS. 6 and 7, each of the pair of left and right support columns 27 is connected at its lower end portion to a connection portion 29 extending outward from the engine frame 5, and at an intermediate portion 27a in the vertical direction. It is formed in a bent shape. Here, the column 27 is attached to the connecting portion 29 by bolts by fastening bolts and nuts. The connecting hole 27b formed on the column 27 side is formed in a long hole shape that is long in the vertical direction, and the installation position of the exhaust treatment device 23 in the vertical direction is adjusted by the interchange of the connecting hole 27b with the screw hole. Can be done.

  Each of the pair of left and right support columns 27 is inclined so as to spread outward in the lateral width direction (Y direction) from the lower end portion to the intermediate portion 27a in the longitudinal direction of the airframe, and in the vertical direction from the intermediate portion 27a to the upper end portion. It is provided in a posture extending along. The intermediate portion 27a of each of the pair of left and right support columns 27 is provided with a reinforcing body 30 on the outside thereof, and the reinforcing body 30 is formed in a shape bent according to the shape of the intermediate portion 27a of the support column 27. Has been. As described above, the support frame 25 has a sufficient space between the upper ends of the pair of left and right support columns 27 in the width direction of the airframe to be larger than the distance between the lower ends, so that the exhaust treatment device 23 is sufficiently installed in the width direction of the airframe. Space is reserved.

  The support plate 28 is formed in a plate shape extending in the longitudinal direction (X direction) and the lateral width direction (Y direction) of the body, and both end portions in the lateral direction of the body are supported by the upper ends of the pair of left and right columns 27. Both end portions of the support plate 28 in the width direction of the machine body are provided so as to extend to positions close to the side panel 302. The support plate 28 is configured to have a width larger than that of the exhaust treatment device 23 in both the front-rear direction of the body and the lateral direction of the body in plan view (see FIG. 3). The support plate 28 is configured in a two-divided structure that can be divided into a fixed plate 28 a that fixes and supports the exhaust treatment device 23 and a connection plate 28 b that connects the right end of the fixed plate 28 a to the upper end of the right column 27. ing. The fixing plate 28a and the connecting plate 28b are bolt-connected by fastening the bolts and nuts. The exhaust treatment device 23 is mounted and supported on the upper portion of the fixed plate 28a by fastening bolts and nuts, with the longitudinal direction of the exhaust treatment device 23 being in the lateral orientation along the horizontal direction of the fuselage.

  Each of the pair of left and right support columns 27 is provided with plate-like pedestals 31a and 31b at the upper ends thereof, and a support plate 28 is provided above the pair of left and right pedestals 31a and 31b. Regarding the attachment of the support plate 28 to the pedestals 31a and 31b, the first holes 32a and 32b formed in each of the pair of left and right pedestals 31a and 31b, and both ends of the support plate 28 in the lateral width direction of the machine body. The formed second holes 33a and 33b are aligned and fastened by bolts and nuts. The first hole 32a formed in the left pedestal 31a and the second hole 33b formed in the right connection plate 28b of the support plate 28 are formed in a long hole shape that is long in the lateral direction of the machine body. . The second hole 33b formed in the connection plate 28b has a larger diameter than the first hole 32b formed in the right pedestal 31b. As a result, when attaching the support plate 28 to the pedestals 31a and 31b, the exhaust processing device 23 in the lateral direction of the body and in the longitudinal direction of the body is obtained by the interchange of the first hole 32a and the second hole 33b with the screw holes. The installation position can be adjusted.

  The exhaust treatment device 23 includes a cylindrical treatment device main body 23a with both ends closed and a connection portion 23b connected to the engine 10 side. The connecting portion 23b is formed in a tubular shape extending rearward and downward from the rear portion at the left end portion of the processing apparatus main body 23a. The connecting portion 23 b is connected to an exhaust portion 35 of an exhaust manifold 34 disposed at the upper left portion of the engine 10. The connection portion 23b and the exhaust portion 35 are connected by bolt connection between the flange provided in the connection portion 23b and the flange provided in the exhaust portion 35. Moreover, as for the connection part 23b, the lower side part is comprised in the bellows part. Accordingly, the displacement of the connecting portion 23b and the exhaust portion 35 can be absorbed by the bellows portion, and the vibration of the engine 10 can be absorbed by the bellows portion so that the vibration is not easily transmitted to the exhaust treatment device 23. Yes.

  Further, as shown in FIGS. 4 and 8, there is provided a connecting body 36 that connects the intermediate portion of the exhaust treatment device 23 and the engine 10 in the lateral width direction (Y direction). The connecting body 36 is provided so as to connect the rear halfway portion of the fixed plate 28 a of the support plate 28 and the rear side portion of the engine 10 in the lateral width direction (Y direction) of the airframe. The coupling body 36 includes an L-shaped first coupling body 36a formed by bending a plate-shaped body, a plate-shaped second coupling body 36b coupled to the lower end portion of the first coupling body 36a, and a first coupling body 36b. A plate-like third connecting body 36c that is connected to the rear end of the two connecting body 36b and is erected from the rear end of the engine 10. And the connection body 36 is arrange | positioned in the position which remove | deviated to the right side from the center part in the body width direction.

  As shown in FIGS. 1 to 4, the bonnet 3 includes an upper panel 301, left and right side panels 302 (corresponding to the lateral side of the bonnet) and a front panel 303 in the lateral width direction (Y direction). The lower side and the rear side provided are formed in a box shape that is open. The upper panel 301, the left and right side panels 302, and the front panel 303 are formed as an integral panel body, and the bonnet 3 is configured by the panel body.

  The upper panel 301 is formed in an elongated shape in the longitudinal direction of the machine body (X direction) so as to cover the upper part of the driving unit 1. The upper panel 301 is provided with a first exhaust port 38 (corresponding to a processing device side exhaust port) capable of discharging the air in the engine room 9 to the outside at a portion corresponding to the upper portion of the exhaust processing device 23. . Each of the side panels 302 extends downward from the lateral side portion of the upper panel 301 in the body width direction, and is configured so as to cover both lateral sides of the prime mover 1 by the side panels 302 on both the left and right sides. Yes. The front panel 303 is configured to extend downward from the front end portion of the upper panel 301 and cover the front portion of the prime mover 1.

  As shown in FIG. 1, each of the side panels 302 in the closed state (solid line in the drawing) has a front side portion extending in the front-rear direction of the fuselage extending from the upper panel 301 to the vicinity of the engine frame 5. The rear portion is formed so as to extend from the upper panel 301 to an intermediate portion between the upper frame 301 and the engine frame 5. As described above, each of the side panels 302 is formed in a shape in which the rear side portion is recessed above the front side portion. As shown in FIGS. 1 and 4, each of the side panels 302 is provided with a second exhaust port 39 (corresponding to a processing device side exhaust port) that can exhaust the air in the engine room 9 to the outside. Yes.

  The second exhaust port 39 is configured by a porous portion formed in a rear side portion of the side panel 302. As for the arrangement position of the second exhaust port 39, the positional relationship with the support plate 28 that supports the exhaust treatment device 23 is opposed to the end portion of the support plate 28 in the lateral width direction of the machine body as shown in FIGS. 2 and 4. A second exhaust port 39 is provided at the site to be operated. In FIG. 2, the second exhaust port 39 is shown as a region surrounded by oblique lines. The second exhaust port 39 is disposed so as to be substantially in the same position as the support plate 28 in the longitudinal direction of the body, and the width of the second exhaust port 39 in the longitudinal direction of the body is larger than that of the support plate 28. Has been. In addition, the lower end portion of the second exhaust port 39 is arranged at substantially the same position as the support plate 28 in the vertical direction.

  As a member that covers both lateral sides of the driving unit 1, as shown in FIGS. 1 and 4, a cover body 40 is provided in addition to the left and right side panels 302. The cover body 40 is configured so as to cover both lateral sides of the prime mover 1 on the lower side of the side panel 302 of the bonnet 3 in the closed state in a state of being continuous from the side panel 302 to the lower side. Yes. The cover body 40 is configured separately from the hood 3 and is fixedly supported by the engine frame 5. Therefore, the bonnet 3 can be separated from the cover body 40 to be in an open state, and the cover body 40 is fixed at a position continuous from the side panel 302 of the closed bonnet 3 to the lower side.

  The cover body 40 is disposed at the lower portion of the rear side portion of the side panel 302 so as to be positioned below the second exhaust port 39 in the side panel 302. The cover body 40 is made of a resin and is formed in a porous shape, and is configured to cover both lateral sides of the location where the electrical components and the like of the prime mover 1 are disposed. The cover body 40 is configured by a porous portion 41 formed in a porous shape except for the rear end side portion, and the porous portion 41 is a lower portion of the second exhaust port 39 of the side panel 302. And is configured as a third exhaust port (corresponding to an engine-side exhaust port).

  As shown in FIG. 2, the bonnet 3 is provided with a swing shaft portion 37 inside the rear end portion of the upper panel 301 in the front-rear direction (X direction), and the swing shaft portion 37 supports the fuel tank. It is pivotally connected to the body 44. Accordingly, the bonnet 3 is provided so as to be swingable in the vertical direction with the swing shaft portion 37 as the swing axis, and is opened and closed in a closed state and an open state by swinging the bonnet 3 in the vertical direction. I am doing so.

  In the engine room 9, not only the engine 10 but also other devices such as the exhaust treatment device 23 are accommodated. A compartment body that divides the internal space of the closed bonnet 3 into an engine room 9 in which the engine 10 and the exhaust treatment device 23 and the like are housed and a compartment space 42 on the rear side thereof in the longitudinal direction (X direction). 43 is provided.

  A fuel tank 24 is housed in a partition space 42 partitioned by the partition body 43, and the fuel tank 24 is supported by a portal fuel tank support body 44 extending upward from the engine frame 5. Has been. The fuel tank support body 44 is formed in a rod shape, and is configured to support not only the fuel tank 24 but also the partition body 43. The partition body 43 is disposed on the rear side of the engine 10 in the longitudinal direction of the body, and includes a first exhaust port 38 in the upper panel 301, a second exhaust port 39 in the left and right side panels 302, and the cover body 40. It is arrange | positioned so that it may become the back side in the front-back direction of the body with respect to any of the porous parts 41 in FIG.

  The partition body 43 is configured by a plate-like body extending in the vertical direction, and is formed by being bent at an intermediate portion in the vertical direction so that the upper portion of the plate-like body protrudes more forward than the lower portion. Has been. When the bonnet 3 is in a closed state, the partition body 43 has both end portions in the width direction of the airframe close to the inside of the both side panels 302 of the bonnet 3, and an upper end portion of the partition body 43 inside the upper panel 301 of the bonnet 3. , The internal space of the closed hood 3 is partitioned into an engine room 9 and a partition space 42.

  As described above, the tractor 100 includes the support plate 28 that supports the exhaust treatment device 23, the first exhaust port 38 of the upper panel 301, the second exhaust ports 39 of the left and right side panels 302, and the porous shape of the cover body 40. A part 41 and a partition 43 are provided. As a result, as shown in FIGS. 2 and 4, the air A ventilated by the cooling fan 21 is sent to the exhaust processing device 23 side (upper side) air A1 and the engine 10 side (lower side) air by the support plate 28. A branch is ventilated with A2. The air A1 branched and ventilated to the exhaust treatment device 23 side can be discharged to the outside from the first exhaust port 38 and the second exhaust port 39, and the surroundings of the exhaust treatment device 23 are prevented from becoming high temperature. Thus, adverse effects due to heat on the devices disposed around the exhaust treatment device 23 are prevented. Further, the air A2 branched and ventilated to the engine 10 side can also be discharged to the outside from the porous portion 41, and the various devices and the like provided near the engine 10 are adversely affected by heat. It is preventing.

  Since the partition body 43 is arranged on the rear side with respect to any of the first exhaust port 38, the second exhaust port 39, and the porous portion 41, it is branched and ventilated to the exhaust treatment device 23 side. As for the air A1 as well, the air A2 branched and ventilated to the engine 10 side is restricted from being vented to the rear side by the partition body 43. Therefore, the air A1 branched and ventilated to the exhaust treatment device 23 side can be actively guided toward the first exhaust port 38 and the second exhaust port 39 and discharged to the outside, and branched to the engine 10 side. The ventilated air A2 can be actively guided toward the porous portion 41 and discharged to the outside.

  In the engine room 9, a cooling fan 21, an air cleaner 22, and an exhaust treatment device 23 are arranged in this order from the front side in the longitudinal direction of the machine body (X direction), and the air cleaner 22 and the exhaust treatment device 23 are arranged on the upper part of the engine 10. They are arranged side by side. Thus, by arranging the air cleaner 22 on the front side of the exhaust treatment device 23 that becomes a heating element, the air heated by the exhaust treatment device 23 is not supplied to the air cleaner 22, and the engine 10 is cooled by the air cleaner 22. Air can be sent in. Further, since the connection portion between the connection portion 23b of the exhaust treatment device 23 and the exhaust portion 35 of the exhaust manifold 34 is located behind the treatment device main body 23a, the air ventilated by the cooling fan 21 is exhausted. It is heated by the device 23 and supplied to the connection location. Therefore, it is possible to prevent the exhaust gas supplied from the exhaust unit 35 to the exhaust treatment device 23 from being cooled.

  The exhaust treatment device 23 is firmly and stably supported in a state separated from the engine 10 by a portal-type support frame 25. By supporting the exhaust treatment device 23 in this way, vibration of the engine 10 is hardly transmitted to the exhaust treatment device 23. However, for example, the pair of left and right columns 27 in the support frame 25 may resonate with the engine 10 and the columns 27 may shake significantly. Therefore, a connecting body 36 for connecting the support plate 28 and the engine 10 is provided. By connecting the intermediate portion of the support plate 28 and the engine 10 in the lateral width direction of the vehicle body with the connecting body 36, a pair of left and right support columns is provided. 27 prevents resonance with the engine 10. Thus, by providing the coupling body 36, the exhaust treatment device 23 is not greatly shaken with respect to the engine 10, and it is possible to prevent stress from being concentrated on the connection portion between the exhaust treatment device 23 and the engine 10.

  Here, as for the connection body 36, the intermediate part on the rear side of the support plate 28 and the rear side part of the engine 10 are connected in the lateral width direction of the body, but the connection part is not limited to this. For example, as shown by a dotted line in FIG. 8, a midway portion on the front side of the support plate 28 and a front side portion (for example, a water flange) of the engine 10 in the lateral width direction of the engine can be coupled by a coupling body 36. When both the rear side and the front side of the support plate 28 are connected to the engine 10, the connection body 36 on the rear side of the support plate 28 is disposed at a position deviated to the right side from the central part in the lateral direction of the body, The connecting body 36 on the front side of the support plate 28 can be arranged at a position deviated to the left side from the center portion in the lateral direction of the airframe. As described above, when the connecting bodies 36 are provided on both the front side and the rear side of the exhaust treatment device 23 in the longitudinal direction of the airframe, they should be arranged so as to be symmetrical with respect to the central portion in the lateral direction of the airframe. Can do. As for the arrangement position of the coupling body 36, an optimum arrangement position that can prevent the pair of left and right support columns 27 from resonating with the engine 10 is selected from a plurality of arrangement positions by an experiment or the like, and the selected arrangement position is set. The coupling body 36 can be arranged.

  As described above, the exhaust treatment device 23 is supported by the portal-type support frame 25 in a lateral orientation in which the longitudinal direction is directed to the lateral width direction (Y direction) of the aircraft, and the exhaust treatment device 23 is disposed in the lateral width direction of the aircraft. The position is a position deviated to one side from the central portion. That is, as shown in FIG. 4, the exhaust treatment device 23 has a first distance between the right side portion 23 c of the exhaust treatment device 23 and the right inner wall portion 304 of the right side panel 302 a facing the exhaust treatment device 23. The second distance Q2 between Q1 and the left inner wall 305 of the left side panel 302b opposite to the left side 23d of the exhaust treatment device 23 is arranged to be different. In this embodiment, the first distance Q1 is made larger than the second distance Q2. The pair of left and right support columns 27 are arranged so as to be symmetric with respect to the center in the lateral width direction (Y direction). The support plate 28 is supported in a state extending over the pair of left and right columns 27, and the first distance Q1 becomes larger than the second distance Q2 when the exhaust treatment device 23 is fixedly supported on the upper portion of the support plate 28. Thus, the arrangement position of the exhaust treatment device 23 is adjusted.

  In the right side panel 302a, which is the larger distance side between the first distance Q1 and the second distance Q2, the inner wall portion 306 of the upper panel 301 continuing to the right inner wall portion 304 is aligned along the longitudinal direction of the body. A wire harness 45 is provided. For example, the wire harness 45 connects the light 46 provided on the front panel 303 of the bonnet 3 and the traveling machine body 4 on the rear side of the bonnet 3. The side panel 302 is formed in a curved shape in which an intermediate part in the vertical direction bulges outward in the longitudinal direction of the body, and the upper panel 301 is formed in the vertical direction in the longitudinal direction of the body. It is formed in a curved shape that curves continuously at the upper end. And the wire harness 45 is arrange | positioned in the lower end side site | part of the inner wall part 306 of the upper panel 301, and is arrange | positioned in the position facing the upper side site | part of the exhaust-gas treatment apparatus 23. FIG. Thereby, the bad influence of the heat by the exhaust treatment device 23 is not given to the wire harness 45, and the life of the wire harness 45 is prevented from being reduced. Incidentally, the wire harness 45 is provided in a general heat-resistant corrugated tube to protect it.

[Another embodiment]
(1) In the said embodiment, the 1st exhaust port and the 2nd exhaust port are provided as a processing apparatus side exhaust port, and the 3rd exhaust port is provided as an engine side exhaust port. About this processing apparatus side exhaust port and engine side exhaust port, the number of the exhaust ports with which it is provided and its formation location can be changed suitably.

(2) In the above embodiment, an example in which the working vehicle is applied to a tractor has been described. However, the working vehicle can be applied to various other working vehicles.

  According to the present invention, when an exhaust treatment device is arranged in an engine room, it causes a bad influence due to heat on various devices provided around the exhaust treatment device and in the vicinity of the engine without causing a complicated configuration. It can be applied to various work vehicles that can suppress this.

3 Bonnet 9 Engine room 10 Engine 21 Cooling fan 22 Air cleaner 23 Exhaust treatment device 23a Treatment device body 23b Connection portion 28 Support (support plate)
34 Exhaust manifold 38 First exhaust port (treatment device side exhaust port)
39 Second exhaust port (treatment device side exhaust port)
41 3rd exhaust port (engine side exhaust port, porous part)
42 Compartment space 43 Compartment 302 Lateral side of bonnet (side panel)

Claims (5)

A cooling fan, an engine, an exhaust treatment device that processes exhaust from the engine, and an engine room that houses the cooling fan, the engine, and the exhaust treatment device are formed in a closed state and an open state. With a bonnet that can be opened and closed,
In the engine room, the exhaust treatment device is arranged at the upper part of the engine, and the cooling fan is arranged in front of the engine and the exhaust treatment device,
The exhaust treatment device is supported on an upper portion of a support body disposed between the exhaust treatment apparatus and the engine in a vertical direction,
The support body is formed in a plate shape extending in the longitudinal direction of the body and in the lateral direction of the body,
A processing apparatus side exhaust port that exhausts air on the exhaust processing apparatus side from the support body to the outside of the engine room, and an engine side exhaust that exhausts air on the engine side from the support body to the outside of the engine room. A work vehicle equipped with a mouth.   The processing apparatus side exhaust port is disposed at a portion facing the end portion of the support plate in the lateral width direction of the machine body at a first exhaust port disposed at an upper portion of the bonnet and a lateral side portion of the bonnet in a closed state. A second exhaust port, and the engine-side exhaust portion includes a third exhaust port disposed in a lateral side portion of the engine room that extends from a lateral side portion of the hood in a closed state to a lower side. The work vehicle according to claim 1.   A compartment that divides the internal space of the closed bonnet into the engine room and a compartment space behind it in the longitudinal direction of the machine body is provided. The work vehicle according to claim 1, wherein the work vehicle is disposed rearward of the opening and the engine-side exhaust port.   The work vehicle according to any one of claims 1 to 3, wherein an air cleaner is provided between the cooling fan and the exhaust treatment device in a longitudinal direction of the machine body.   The exhaust processing apparatus includes a processing apparatus main body and a connection part connected to an exhaust manifold of the engine, and the connection part is disposed on the rear side of the processing apparatus main body in the longitudinal direction of the machine body. The work vehicle according to any one of 1 to 4.

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