JP2020193621A - Service vehicle - Google Patents

Abstract

To provide a service vehicle in which arrangement of a reducer tank is optimized.SOLUTION: A tractor 100 includes: a cabin 16 provided at a machine body; a transmission 13; an engine 12; and a reducer tank 34 which stores a reducer used in an exhaust emission control system 2 of the engine 12. A pair of left and right fenders 17 is provided at the rear side of a lower part of the cabin 16. A support base connected to the transmission 13 is provided at the inner side of the fenders 17. In the support base, the reducer tank 34 is provided at one of left and right sides of the machine body.SELECTED DRAWING: Figure 9

Description

The present invention relates to a work vehicle, and more particularly to a work vehicle provided with a reducing agent tank for storing a reducing agent used in an exhaust gas purification device.

Conventionally, work vehicles such as tractors for agricultural work and wheel loaders for civil engineering work have been known. Of these, work vehicles equipped with a diesel engine are equipped with an exhaust purification device that reduces particulate matter (soot, particulate), nitrogen oxides (NOx), etc. contained in the exhaust.

As a device for reducing nitrogen oxides, an exhaust gas purification device that reduces NOx to nitrogen and water by using a selective reduction type NOx catalyst (SCR catalyst) and a reducing agent is known. For example, there is a method in which ammonia is generated from urea water injected into high-temperature exhaust gas and brought into contact with a NOx catalyst to reduce NOx to nitrogen and water.

When using urea water, the work vehicle is equipped with a urea water tank that stores urea water, a urea water injection nozzle for supplying urea, and a urea water pump that pumps urea water from the urea water tank to the urea water injection nozzle. (See Patent Document 1). As a result, the urea water in the urea water tank is pumped from the urea water injection pump to the urea water injection nozzle, injected from the urea water injection nozzle into the urea mixing pipe, and mixed with the exhaust from the engine in the urea mixing pipe. The exhaust gas mixed with urea water passes through the SCR catalyst to reduce nitrogen oxides and is discharged from the muffler to the outside.

Japanese Unexamined Patent Publication No. 2014-15176

A large space is required to mount such an exhaust gas purification device, and how to arrange each member becomes a big issue. Among them, the urea water tank is large and it is necessary to replenish the urea water, so that it is generally placed in an empty space near the fuel tank. For example, in Patent Document 1 above, the urea water tank is installed on the left side of the bonnet in the front surface of the cabin.

Under such circumstances, it is conceivable to optimize the arrangement of each member of the exhaust gas purification device by designing the work vehicle on the premise that the exhaust gas purification device is installed. Among them, it is an issue to optimize the arrangement of the reducing agent tank for storing the reducing agent such as urea water.

An object of the present invention is to provide a work vehicle in which the arrangement of the reducing agent tank is optimized.

A tractor including a cabin provided in the airframe, a transmission, an engine, and a reducing agent tank for storing the reducing agent used in the exhaust gas purification device of the engine. A pair of left and right fenders are provided behind the lower part of the cabin. A support base connected to the transmission is provided on the inner side of the fender, and the support base is provided with the reducing agent tank on one of the left and right sides of the machine body.

In the above-mentioned work vehicle, the support base is configured to be connected to the transmission via a support member that fixes the support base and a transfer case that fixes the support member and is fixed to the transmission. You can also do it.

The reducing agent tank is arranged side by side with the fuel tank of the engine, and the fender has a first lid that can open and close an opening facing the fuel filler port of the fuel tank, and the reducing agent tank. The opening facing the replenishment port for replenishing the reducing agent may be provided with a second lid that can be opened and closed.

According to the above-mentioned work vehicle, it is possible to provide a work vehicle in which the arrangement of the reducing agent tank is optimized.

Further, according to the above-mentioned work vehicle, the support base can be made to have a strong structure.

Further, according to the above-mentioned work vehicle, the reducing agent tank and the fuel tank can be arranged in an empty space of the support base, and the space can be effectively utilized.

It is a right side view of the tractor of 1st Embodiment. It is a left side view of the tractor of 1st Embodiment. It is a top view of the tractor of the first embodiment. It is a right-side view of the peripheral part of the exhaust gas purification device of the tractor of 1st Embodiment. It is a top view of the peripheral part of the exhaust gas purification device of the tractor of 1st Embodiment. It is a top view of the urea water tank and the fuel tank peripheral part of 1st Embodiment. It is a top view of the urea water tank, the fuel tank, the frame, and the support of the first embodiment. It is a bottom view of the urea water tank, the fuel tank, the frame, and the support of the first embodiment. It is a right side view of the tractor of the 2nd Embodiment. It is a left side view of the tractor of the 2nd Embodiment. It is a top view of the tractor of the second embodiment. It is a top view of the urea water tank and the fuel tank peripheral part of the 2nd Embodiment. It is a top view of the urea water tank, the fuel tank, and the support base of the second embodiment. It is a bottom view of the urea water tank, the fuel tank, and the support base of the second embodiment. It is a right side view of the urea water tank, the fuel tank and the support base of the 2nd Embodiment.

The technical idea of the present invention can be applied to any work vehicle. In the following, a tractor, which is a typical work vehicle, will be described. A wheel tractor will be described in the first embodiment, and a crawler tractor will be described in the second embodiment.

[First Embodiment] In the present embodiment, a wheel tractor having a cabin specification will be described as an example, but a wheel tractor having a lops specification may be used.

<Overall Configuration of Wheel Tractor> FIG. 1 is a right side view of the tractor 1, FIG. 2 is a left side view of the tractor 1, and FIG. 3 is a top view of the tractor 1. In the figure, the front-rear direction, the left-right direction, and the up-down direction of the tractor 1 are shown.

The tractor 1 includes a frame 11, an engine 12, a transmission 13, a front axle 14, a rear axle 15, and a cabin 16. Further, the tractor 1 is provided with an exhaust gas purification device 2 that purifies the exhaust gas of the engine 12.

The frame 11 forms the skeleton of the tractor 1. The frame 11 constitutes the chassis of the tractor 1 together with the transmission 13, the front axle 14, and the rear axle 15. The engine 12 and the cabin 16 are vibration-proof supported by the frame 11 via vibration-proof rubber or the like.

The engine 12 is a diesel engine, which converts heat energy obtained by burning fuel into kinetic energy. That is, the engine 12 produces rotational power by burning fuel. An engine control device is connected to the engine 12 (not shown). When the operator operates the accelerator pedal, the engine control device changes the operating state of the engine 12 according to the operation. Further, an exhaust gas purification device 2 is connected to the engine 12.

The transmission 13 transmits the rotational power of the engine 12 to the front axle 14 and the rear axle 15. The rotational power of the engine 12 is input to the transmission 13 via a connecting mechanism. The transmission 13 is provided with a continuously variable transmission (HST or HMT, not shown). When the operator operates the shift lever, the continuously variable transmission changes the operating state of the transmission 13 according to the operation.

The front axle 14 transmits the rotational power of the engine 12 to the front tire 141. The rotational power of the engine 12 is input to the front axle 14 via the transmission 13. A steering device is arranged side by side on the front axle 14 (not shown). When the operator operates the steering wheel 162, the steering device changes the steering angle of the front tire 141 according to the operation.

The rear axle 15 transmits the rotational power of the engine 12 to the rear tire 151. The rotational power of the engine 12 is input to the rear axle 15 via the transmission 13. The rear axle 15 is provided with a PTO output device (not shown). When the operator operates the PTO switch (not shown), the PTO output device transmits rotational power to the towing work machine in response to the operation.

The inside of the cabin 16 is a cockpit, and a driver's seat 161, a steering wheel 162, an accelerator pedal (not shown), a shift lever (not shown), a PTO switch, and the like are arranged. The operator can operate the tractor 1 by operating the steering wheel 162, the accelerator pedal, the shift lever, and the like while sitting in the driver's seat 161.

<Exhaust gas purification device> FIG. 4 is a right side view of the peripheral portion of the exhaust gas purification device 2 of the tractor 1, and FIG. 5 is a top view of the peripheral portion of the exhaust gas purification device 2 of the tractor 1. In FIGS. 4 and 5, the bonnet is shown by a virtual line.

The exhaust gas purification device 2 is a device that removes particulate matter (soot, particulate), nitrogen oxides (NOx) and the like contained in the exhaust gas of the engine 12 and discharges the purified exhaust gas to the outside. The exhaust purification device 2 is a first case 21 as a diesel particulate filter (DPF) for removing particulate matter in the exhaust of the engine 12, and a urea selection catalyst for reducing nitrogen oxides in the exhaust of the first case 21. It includes a second case 22 as a reduction (SCR) system. An oxidation catalyst and a soot filter are installed internally in the first case 21. In the second case 22, an SCR catalyst and an oxidation catalyst for reducing the urea selective catalyst are installed internally.

The first case 21 is formed in a cylindrical shape extending in the front-rear direction. The first case 21 is fixed to the upper surface of the engine 12 with bolts or the like. The second case 22 is formed in a cylindrical shape extending in the vertical direction. The second case 22 is fixed to the frame 11 via a plate-shaped bracket 27.

Further, the exhaust purification device 2 includes a first exhaust pipe 23 connected to the outlet of the first case 21 and a telescopic pipe 24 connected to the outlet of the first exhaust pipe 23 from the upstream side in the direction of exhaust flow. A second exhaust pipe 25 connecting the outlet of the expansion pipe 24 and the inlet of the second case 22 and a third exhaust pipe 26 connected to the outlet of the second case 22 are provided.

A urea water injection nozzle 28 is arranged in the middle of the second exhaust pipe 25. The urea water injection nozzle 28 is connected to a pump and a urea water tank, and is configured to inject urea water into the second exhaust pipe 25. The injected urea water is mixed with the exhaust gas in the second exhaust pipe 25. Therefore, the second exhaust pipe 25 serves as a mixer. The downstream side of the second exhaust pipe 25 from the urea water injection nozzle 28 is preferably a double pipe from the viewpoint of maintaining the temperature at which the exhaust and urea water can react.

The third exhaust pipe 26 is an exhaust pipe that discharges the exhaust gas from the second case 22 to the outside. The third exhaust pipe 26 is fixed to the column of the cabin 16 via the bracket 262. The periphery of the third exhaust pipe 26 is covered with a cover member 261.

With such a configuration, the exhaust gas discharged from the engine 12 is discharged to the outside via the exhaust gas purification device 2. At that time, the exhaust gas purification device 2 reduces carbon monoxide, hydrocarbons, particulate matter, and nitrogen oxides in the exhaust gas. The exhaust gas purification device 2 may be in the form of using a reducing agent other than urea water.

<Arrangement of urea water tank and fuel tank> Fig. 6 is a top view of the urea water tank and the peripheral part of the fuel tank, Fig. 7 is a top view of the urea water tank, the fuel tank, the frame and the support, and Fig. 8 is the urea water tank and the support base. It is a bottom view of a fuel tank, a frame, and a support base.

The frame 11 has a front frame (engine frame) 111 (see FIG. 4) forming a skeleton in the front portion of the tractor 1 and left and right rear frames (airframe frames) 112 fixed to the rear portion of the front frame 111. .. The front frame 111 mounts the engine 12, and the rear frame 112 mounts the transmission 13 and the cabin 16.

Further, the frame 11 has a front cross rail frame 113 suspended and fixed to the rear frame 112 and projecting outward to the left and right, and a rear cross rail frame 114 fixed to the lower surface of the transmission 13. Then, the left support base 30 is erected on the left end of the front cross rail frame 113 and the rear cross rail frame 114. On the other hand, the right support base 31 is erected on the right end of the front cross rail frame 113 and the rear cross rail frame 114.

The left support base 30 and the right support base 31 are plates formed in a substantially rectangular frame plate shape. The left fuel tank 32 is placed on the left support base 30, and is bound and fixed by a band 321. On the other hand, the right fuel tank 33 and the urea water tank 34 are placed side by side on the right support base 31, and are bound and fixed by bands 331 and 341.

The left fuel tank 32, the right fuel tank 33, and the urea water tank 34 are arranged below the cabin 16, between the front tires 141 and the rear tires 151, and inside the rear tires 151 (on the frame 11 side). .. The left fuel tank 32, the right fuel tank 33, and the urea water tank 34 are arranged on the left and right sides of the airframe (frame 11).

The left fuel tank 32 is a main fuel tank having a large capacity, and the right fuel tank 33 is a sub fuel tank having a smaller capacity than the left fuel tank 32. The lower part of the left fuel tank 32 and the right fuel tank 33 is communicated with a fuel communication pipe 35, and the upper part is communicated with an air communication pipe 36. In this way, the capacity can be secured in the left fuel tank 32, and the capacity can be added in the sub right fuel tank 33. The right fuel tank 33 may be omitted.

The fuel filler port 322 is arranged above the front end of the left fuel tank 32. Further, the urea water supply port 342 is arranged above the urea water tank 34. By allocating the refueling port 322 and the water supply port 342 to the left and right sides of the airframe in this way, it is possible to prevent the fuel and urea water from being mistakenly mixed.

The fuel filler port 322 may be arranged in the right fuel tank 33. In this case, the refueling port 322 and the water supply port 342 are arranged on the same side on the left and right sides of the airframe, and the fuel and urea water can be replenished on the same side, which is convenient.

Since the urea water tank 34 is smaller than the left fuel tank 32, by arranging the right fuel tank 33, which is a sub fuel tank, in the empty space of the right support base 31, the fuel tank 33 and the urea water tank can be placed on one support base 31. 34 can be arranged and the space can be effectively used. Further, by arranging the urea water tank 34 on the same side as the second case 22 (on the right side of the machine body in the present embodiment), the urea water pipe can be shortened.

In the present embodiment, the urea water tank 34 is arranged side by side on the front side and the right side fuel tank 33 is arranged side by side on the rear side, but they may be arranged upside down. Further, in the present embodiment, the main fuel tank is arranged on the left side of the machine body, and the urea water tank 34 and the sub fuel tank are arranged on the right side, but they may be arranged upside down.

[Second Embodiment] In this embodiment, a cabin specification crawler tractor will be described as an example, but a lops specification crawler tractor may be used.

<Overall Configuration of Crawler Tractor> FIG. 9 is a right side view of the tractor 100, FIG. 10 is a left side view of the tractor 100, and FIG. 11 is a top view of the tractor 100. In the figure, the front-rear direction, the left-right direction, and the up-down direction of the tractor 100 are shown. The same components as those of the tractor 1 of the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted.

The tractor 100 includes a frame 11, an engine 12, a transmission 13, a front axle 14, a crawler-type traveling device 51, a cabin 16, and a fender 17. Further, the tractor 100 includes an exhaust gas purification device 2 that purifies the exhaust gas of the engine 12.

The crawler type traveling device 51 has left and right drive sprockets 511 supported by the front axle 14 and crawler belts 512 wound around the left and right drive sprockets 511, respectively. The front axle 14 transmits the rotational power of the engine 12 to the drive sprocket 511. The rotational power of the engine 12 is input to the front axle 14 via the transmission 13. A steering device is arranged side by side on the front axle 14 (not shown). When the operator operates the steering wheel 162, the steering device changes the speed and rotation direction of the left and right crawler belts 512 according to the operation. A pair of left and right crawler belts 512 are provided so as to cover the fender 17 and the left and right crawler belts 512.

<Arrangement of urea water tank and fuel tank> FIG. 12 is a top view of the urea water tank and the peripheral portion of the fuel tank, FIG. 13 is a top view of the urea water tank, the fuel tank and the support base, and FIG. 14 is the urea water tank and the fuel tank. A bottom view of the support base, and FIG. 15 is a right side view of the urea water tank, the fuel tank, and the support base.

Transfer cases 131 are fixed to the left and right sides of the rear portion of the transmission 13. A substantially U-shaped support member 40 is fixed to the upper ends of both transfer cases 131. A left support base 41 is fixed to the upper surface of the left support member 40. On the other hand, the right side support base 42 is fixed to the upper surface of the right side support member 40.

The left support base 41 and the right support base 42 are plates formed in a substantially rectangular frame plate shape. A left fuel tank 43 is placed on the left support 41, and is bound and fixed by a band 431. On the other hand, the right fuel tank 44 and the urea water tank 34 are placed side by side on the right support base 42, and are bound and fixed by bands 441 and 341. As the urea water tank 34, the same one as in the first embodiment can be used.

The left fuel tank 43, the right fuel tank 44, and the urea water tank 34 are installed inside the fender 17. The left fuel tank 43, the right fuel tank 44, and the urea water tank 34 are arranged on the left and right sides of the airframe (frame 11).

The left fuel tank 43 is a fuel tank having a large capacity, and the right fuel tank 44 is a fuel tank having a smaller capacity than the left fuel tank 43. The lower part of the left fuel tank 43 and the right fuel tank 44 is communicated with a fuel communication pipe 45, and the upper part is communicated with an air communication pipe 46. In this way, the capacity can be secured in the left fuel tank 43, and the capacity can be added in the right fuel tank 44. The right fuel tank 44 may be omitted.

The fuel filler port 442 is located above the right fuel tank 44. Further, the urea water supply port 342 is arranged above the urea water tank 34. By arranging the refueling port 442 and the water supply port 342 on the same side on the left and right sides of the airframe in this way, the fuel and the urea water can be replenished on the same side, which is convenient. The fender 17 on the right side is provided with a lid 171 for accessing the fuel filler port 442 and a lid 172 for accessing the water supply port 342 so as to be openable and closable (see FIG. 9).

The fuel filler port 442 may be arranged in the left fuel tank 43. In this case, the refueling port 442 and the water supply port 342 are distributed to the left and right sides of the airframe, and it is possible to prevent the fuel and urea water from being mistakenly inserted.

Since the urea water tank 34 is smaller than the left fuel tank 43, the fuel tank 44 and the urea water tank 34 can be arranged on one support 42 by arranging the right fuel tank 44 in the empty space of the right support 42. Space can be used effectively. Further, the fuel filler port 442 can be arranged on the same side as the water supply port 342. Further, by arranging the urea water tank 34 on the same side as the second case 22 (on the right side of the machine body in the present embodiment), the urea water pipe can be shortened.

In the present embodiment, the urea water tank 34 is arranged side by side on the front side and the right side fuel tank 44 is arranged side by side on the rear side, but they may be arranged upside down. Further, in the present embodiment, the main fuel tank is arranged on the left side of the machine body, and the urea water tank 34 and the sub fuel tank are arranged on the right side, but they may be arranged upside down.

As described above, according to the first or second embodiment, it is possible to provide a work vehicle in which the arrangement of the urea water tank is optimized.

1 Tractor (work vehicle) 2 Exhaust purification device 30 Left support stand 31 Right support stand 32 Left fuel tank 33 Right fuel tank (sub fuel tank) 34 Urea water tank (reducing agent tank) 41 Left support stand 42 Right support stand 43 Left side Fuel tank 44 Right fuel tank (sub fuel tank) 100 Tractor (work vehicle) 322 Refueling port 342 Water supply port 442 Refueling port

Claims (3)

A tractor including a cabin provided in the airframe, a transmission, an engine, and a reducing agent tank for storing the reducing agent used in the exhaust gas purification device of the engine. A pair of left and right fenders are provided behind the lower part of the cabin. A tractor provided, a support base connected to the transmission is provided on the inner side of the fender, and the reducing agent tank is provided on one of the left and right sides of the support base. The first aspect of the present invention, wherein the support base is connected to the transmission via a support member that fixes the support base and a transfer case that fixes the support member and is fixed to the transmission. Tractor. The reducing agent tank is arranged side by side with the fuel tank of the engine, and the fender has a first lid that can open and close an opening facing the fuel filler port of the fuel tank, and reduction of the reducing agent tank. The tractor according to claim 1, wherein a second lid is provided so as to open and close an opening facing the supply port for supplying the agent.