JP2022156289A - Shovel - Google Patents

Abstract

To provide a shovel which improves workability of oil-feeding work of a fuel.SOLUTION: A shovel includes: a urea water tank arranged in a space formed in front of a fuel tank; and a fuel pump arranged above the urea water tank in the space.SELECTED DRAWING: Figure 5

Description

The present disclosure relates to excavators.

A shovel is disclosed in which a space is formed in front of an aqueous urea tank within a processing agent tank cover and a lubricating pump is accommodated in this space (see Patent Document 1).

JP 2016-125242 A

By the way, the processing agent tank cover of the excavator disclosed in Patent Document 1 is provided with an opening/closing door that is opened when accessing the lubricating pump. Further, it is disclosed that the opening/closing door is provided above or in front of the fuel pump. Therefore, when refueling the fuel tank using the refueling pump, the hose connected to the refueling pump is routed through the opening/closing door, resulting in a long hose. For this reason, it takes time to arrange and store the hose when refueling, resulting in a decrease in workability.

Therefore, in view of the above problems, it is an object of the present invention to provide a shovel that improves the workability of refueling work.

To achieve the above object, in one embodiment of the present invention, a urea water tank is arranged in a space formed in front of a fuel tank, and a fuel pump is arranged in the space above the urea water tank. and an excavator is provided.

According to the above-described embodiment, it is possible to provide a shovel that improves the workability of refueling work.

It is a left side view of a shovel. It is a right side view of a shovel. FIG. 4 is a top plan view of the upper revolving body of the excavator; 1 is a perspective view of a shovel seen from the front right side; FIG. FIG. 4 is a perspective view of the excavator for explaining the internal structure of the processing agent tank cover;

An embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a left side view of a shovel, which is an example of a construction machine according to one embodiment. FIG. 2 is a right side view of the excavator.

As shown in FIGS. 1 and 2, the excavator has a lower traveling body 1, an upper rotating body 2, a cab 3, a boom 4, an arm 5, and a bucket 6. The upper rotating body 2 is mounted on the lower traveling body 1 via a rotating mechanism (not shown). A cab 3 is provided on the left front portion of the upper revolving body 2 . One end of a boom 4 is rotatably attached to the front center of the upper swing body 2 . Arm 5 is rotatably attached to the tip of boom 4 . A bucket 6 as an end attachment is rotatably attached to the tip of the arm 5 . An end attachment such as a breaker or a crusher may be attached to the tip of the arm 5 instead of the bucket 6 which is an excavation attachment.

FIG. 3 is a plan view showing a schematic configuration of the upper revolving body 2. As shown in FIG. As shown in FIG. 3, an engine room 7 (indicated by a dashed line) is formed in the rear portion of the upper revolving body 2 . A diesel engine 8 is installed in the engine room 7 . An SCR system 110 (selective catalytic reduction system) is arranged above the diesel engine 8 as shown in FIG. The SCR system 110 includes an exhaust gas treatment device 10 that purifies exhaust gas emitted from the diesel engine 8 . A hydraulic pump 21 is arranged below the SCR system 110 . A cooling fan 12 is provided in the diesel engine 8 , and a heat exchanger unit 13 including a radiator is installed in front of the cooling fan 12 .

An air cleaner 63 (air filter) is arranged on the side of the heat exchanger unit 13 (the front side as a shovel). The air cleaner 63 is connected to the diesel engine 8 via an intake pipe 64 . Air filtered by the air cleaner 63 is supplied to the diesel engine 8 through an intake pipe 64 .

The diesel engine 8 is connected to an exhaust pipe 9 for discharging engine exhaust (hereinafter referred to as "exhaust gas"). At the end of the exhaust pipe 9 on the downstream side, an exhaust gas treatment device 10 that complies with higher exhaust gas regulations is installed. In this embodiment, as the exhaust gas treatment device 10, a urea selective reduction type NOx treatment device using a urea aqueous solution (liquid reducing agent) is used.

The cab 3 is arranged on the left front portion of the upper revolving body 2 . Here, in this specification, the front portion of the upper rotating body 2 is the portion on the side where the boom 4 is attached when viewed from the center of the upper rotating body 2 . Further, the front is the direction in which the boom 4 extends when viewed from the center of the upper rotating body 2 . In addition, the left side is the left side of the upper swing body 2 when facing forward (the direction in which the boom 4 extends). Further, the right side is a portion on the right side of the upper rotating body 2 when facing forward (the direction in which the boom 4 extends).

A hydraulic fluid tank 120 that stores hydraulic fluid used in the hydraulic system is arranged behind the cab 3 . The exhaust gas treatment device 10 described above is arranged behind the hydraulic oil tank 120 .

On the other hand, a fuel tank 19 for storing diesel engine fuel such as light oil is arranged on the front side of the engine room 7 . Diesel engine fuel stored in the fuel tank 19 is supplied to the diesel engine 8 via a fuel supply pipe (not shown). A urea water tank (treating agent tank) 20 for storing a treating agent (urea aqueous solution (liquid reducing agent)) used by the exhaust gas treatment device 10 is arranged in front of the fuel tank 19 . The treating agent stored in the urea water tank 20 is supplied to the exhaust gas treatment apparatus 10 by a treating agent pump 20b provided in the middle of the treating agent supply pipe 20a. The urea aqueous solution (liquid reducing agent) is an example of the treatment agent, and other treatment agents or other treatment methods may be used as the liquid reducing agent. The urea water tank 20 is covered with a processing agent tank cover 40 (see FIG. 2). A tool box 22 for storing working tools and working machines is arranged in front of the urea water tank 20 . The toolbox 22 is covered with a toolbox cover 50 (see FIG. 2). A fuel pump 19b, which will be described later, is arranged in the processing agent tank cover 40. As shown in FIG. Further, inside the processing agent tank cover 40, a space (accommodating portion) 45, which will be described later, is formed on the laterally outer side (right side) of the urea aqueous solution tank 20. As shown in FIG.

The boom 4 is rotatably supported by a boom support bracket 17 that is firmly fixed to the center of the front side of the revolving frame 2 a of the upper revolving body 2 . More specifically, the boom 4 is sandwiched between the right bracket 17R and the left bracket 17L of the boom support bracket 17, and the boom foot is provided through the right bracket 17R, the boom 4, and the left bracket 17L. It is supported by pins 100 .

Next, the arrangement configuration of the fuel tank 19, the urea water tank 20, the tool box 22 and the fuel pump 19b will be further described with reference to FIGS. 4 and 5. FIG. FIG. 4 is a perspective view of the excavator seen from the front right side.

An upper surface of the fuel tank 19 is provided with a filler port 19 a for pouring fuel into the fuel tank 19 . As a result, the fuel can be supplied to the fuel tank 19 from the fuel supply port 19a by a fuel supply device (not shown) outside the shovel.

A cover CV is provided in front of the fuel tank 19, and a treating agent tank cover 40 is arranged in front thereof. The upper surface of the processing agent tank cover 40 is partially lowered and provided with a step. This step forms a staircase used by workers to climb the upper revolving structure 2 . A handrail GR and a guardrail HR are provided on the upper surface of the processing agent tank cover 40 . A worker can grasp the handrail GR and the guardrail HR when climbing the upper revolving structure 2 . A side door 41 that can be opened and closed is provided on the right side of the processing agent tank cover 40 . The side door 41 is configured to be prevented from being opened too much by a rail RA and a stay ST. The stay ST has one end rotatably attached to the plate PL and the other end slidably attached to the rail RA. The plate PL is fixed to the revolving frame 2a. In FIG. 5, the plate PL is provided with a cross pattern for clarity.

A tool box cover 50 is arranged in front of the processing agent tank cover 40 . The tool box 22 is arranged inside the tool box cover 50 . The upper surface of the tool box cover 50 is also used as part of the stairs used by the operator to climb onto the upper revolving structure 2 .

FIG. 5 is a perspective view of the shovel explaining the internal structure of the processing agent tank cover 40. As shown in FIG. 5 shows a state in which the side door 41 is opened. Also, the processing agent tank cover 40, the tool box cover 50, the tool box 22, the boom 4, and the boom foot pin 100 are removed for illustration. Also, the position where the tool box 22 is arranged is indicated by a dashed line.

An internal space 40 a covered with a processing agent tank cover 40 is formed in front of the fuel tank 19 . The urea water tank 20 is arranged in this internal space 40a. Here, since the processing agent tank cover 40 and the tool box cover 50 are used as part of the stairs used when the worker climbs onto the upper revolving body 2, the top plate of the processing agent tank cover 40 is It is formed higher than the upper surface of the processing agent tank cover 40 . For this reason, a space is provided above the urea water tank 20 in the processing agent tank cover 40 so that a fuel pump 19b, which will be described later, can be arranged. A water supply port 20c for pouring urea water into the urea water tank 20 is formed to extend upward from the urea water tank 20. As shown in FIG.

Further, the processing agent tank cover 40 accommodates a fuel pump 19b, fuel hoses 19c and 19d, and a nozzle 19e. The nozzle 19e is provided with a check valve and configured to be able to suck in fuel. Further, the nozzle 19e may be provided with a filter for preventing foreign matter from being sucked into the fuel pump 19b. A nozzle 19e is connected to one end of the fuel hose 19d. The other end of the fuel hose 19d is connected to the suction port of the fuel pump 19b. One end of the fuel hose 19c is connected to the discharge port of the fuel pump 19b. The other end of the fuel pump 19 b is connected to the upper side of the front wall surface of the fuel tank 19 . By connecting the nozzle 19e to a supply fuel tank (not shown, for example, a drum containing fuel) provided outside the shovel and operating the fuel pump 19b, fuel is supplied from the supply fuel tank. can be sucked up to refuel the fuel tank 19 of the shovel.

The fuel pump 19b is arranged above the urea water tank 20 in the inner space 40a of the processing agent tank cover 40 . Further, the fuel pump 19b is attached to the front outer wall surface of the fuel tank 19 via an attachment plate. Further, the fuel pump 19b is arranged at a position where it does not interfere with the boom foot pin 100 when the boom foot pin 100 is pulled out from the pin hole PH of the boom support bracket 17 (the right bracket 17R and the left bracket 17L) for maintenance. . The pin hole PH is formed at a position higher than the water supply port 20c.

The connection from the discharge port of the fuel pump 19b to the fuel tank 19 has been described as being connected by the fuel hose 19c. good.

Further, in the inner space 40 a of the processing agent tank cover 40 , a space 45 is provided outside (to the right of) the urea water tank 20 in the lateral direction. That is, there is a space 45 between the right side wall of the urea water tank 20 and the side door 41 of the processing agent tank cover 40 . The space 45 accommodates a fuel hose 19d extending from the fuel pump 19b and a nozzle 19e. Specifically, a partition plate DP is arranged between the fuel hose 19 d and the urea water tank 20 . The partition plate DP is formed in a box shape so as to accommodate a portion of the fuel hose 19d. In FIG. 5, for the sake of clarity, the box-shaped partition plate DP is marked with diagonal lines, and part of the fuel hose 19d housed in the box-shaped partition plate DP is indicated by broken lines.

The space 45 is provided with a nozzle receiver 42 for holding the nozzle 19e when the fuel hose 19d and the nozzle 19e are accommodated in the processing agent tank cover 40. As shown in FIG. In the example of FIG. 5, the nozzle receiver 42 has an opening that penetrates vertically, and holds the nozzle 19e by inserting the nozzle 19e into the opening. This suppresses the nozzle 19e from moving within the space 45, for example, when the upper rotating body 2 rotates.

The space 45 has a switch box (operation unit) 43 for instructing the operation of the fuel pump 19b. The signal of the switch box 43 is connected to the shovel controller (not shown). For example, when the switch box 43 is turned on, the controller operates the fuel pump 19b to start refueling. The controller can monitor the level meter of the fuel tank 19 and stop the fuel pump 19b to terminate refueling when the value of the level meter exceeds a predetermined threshold.

The side door 41 is provided with a locking portion 41a. Further, the engaging portion 41 a can close the engaging portion (not shown) of the tool box cover 50 and the side door 41 .

As described above, according to the excavator according to the present embodiment, the fuel pump is arranged in front of the aqueous urea tank 20 by arranging the fuel pump 19 b above the aqueous urea tank 20 within the processing agent tank cover 40 . , the length of the fuel hose 19c can be shortened. As a result, the number of brackets and the like for fixing the fuel hose 19c can be reduced. Also, it is possible to suppress the decrease in the refueling speed due to the shortened hose length. Also, the capacity of the tool box 22 provided in front of the aqueous urea tank 20 can be increased.

Further, according to the excavator according to this embodiment, the side door 41 is provided on the side surface of the processing agent tank cover 40, and the space 45 can accommodate the fuel hose 19d and the nozzle 19e. As a result, when refueling a replenishment fuel tank (not shown), the operator stands on the ground without climbing the shovel, opens the side door 41, removes the nozzle 19e from the nozzle receiver 42, and removes the nozzle 19e and the fuel hose. 19 d can be taken out from the inner space 40 a of the processing agent tank cover 40 . In addition, the operator can operate the switch box 43 while standing on the ground without climbing the shovel. As a result, the workability of refueling work using the fuel pump 19b is improved. In addition, since the fuel hose 19d can be arranged so as to reduce bending and twisting when refueling, it is possible to suppress a decrease in refueling speed.

1 lower traveling body 2 upper rotating body 19 fuel tank 19a fuel supply port 19b fuel pumps 19c, 19d fuel hose 19e nozzle 20 urea water tank 20c water supply port 22 tool box 40 treatment agent tank cover 40a internal space (space)
41 Side door 41a Locking portion 42 Nozzle receiver 43 Switch box 45 Space (accommodating portion)
50 tool box cover

Claims (6)

a urea water tank arranged in a space formed in front of the fuel tank;
and a fuel pump arranged above the urea water tank in the space. An accommodation portion for accommodating a fuel hose connected to the fuel pump is provided outside the urea water tank in the space,
Shovel according to claim 1 . A nozzle receiver disposed outside the urea water tank in the space and holding a nozzle disposed at the end of the fuel hose,
Shovel according to claim 2. an operation unit arranged outside the urea water tank in the space and instructing the operation of the fuel pump;
The excavator according to any one of claims 1 to 3. a urea water tank cover covering the urea water tank and the fuel pump;
Having a door that can be opened and closed on the outer side surface of the aqueous urea tank cover,
The excavator according to any one of claims 1 to 4. Having a tool box cover arranged in front of the urea water tank cover,
The door has a locking portion that locks with the tool box cover,
Shovel according to claim 5.

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