JP2020045749A - Construction machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily perform a replenishment operation of a urea aqueous solution using a replenishment tank for a urea aqueous solution tank.
SOLUTION: An upper housing case 16 provided at a front position of a revolving frame 5 can be moved between the inside of the upper housing case 16 and the outside in front of the upper housing case 16 by using a link mechanism 20. A replenishing tank moving device 19 having a tank table 23 is provided. The replenishing tank 30 storing the replenishing urea aqueous solution is provided on the tank table 23 of the replenishing tank moving device 19.
[Selection] Fig. 4

Description

  The present invention relates to a construction machine such as a hydraulic shovel provided with a urea aqueous solution tank for storing an urea aqueous solution used for purifying exhaust gas.

  In general, a hydraulic excavator, which is a typical example of construction equipment, has a lower traveling structure that can move forward and backward, an upper revolving structure that is rotatably provided on the lower traveling structure, and an upper revolving structure that can be raised and lowered. And a front device provided in the vehicle.

  The upper revolving unit has a bottom plate and a left vertical plate and a right vertical plate provided on the bottom plate, and a revolving frame in which a front device is attached to a front position of each vertical plate, and is provided on a rear side of the revolving frame. Engine.

  Generally, a diesel engine is used as an engine of a hydraulic excavator. This diesel engine emits a large amount of nitrogen oxides (hereinafter referred to as NOx) and the like. Therefore, a NOx purifying device for purifying NOx is provided as a post-processing device for purifying exhaust gas of a diesel engine. The NOx purifying device includes, for example, a urea selective reduction catalyst provided in an exhaust pipe of an engine for removing NOx in exhaust gas, a urea aqueous solution tank for storing a urea aqueous solution as a reducing agent, and a urea aqueous solution in the urea aqueous solution tank. And a urea water injection valve that injects upstream of the selective reduction catalyst.

  Here, the lower frame is provided with a lower storage case at a front position, and an upper storage case is provided at an upper position of the lower storage case. The lower housing case houses a urea aqueous solution tank for storing an aqueous urea solution for purifying exhaust gas. On the other hand, a replenishing tank storing a replenishing aqueous urea solution is housed in the upper housing case (for example, see Patent Document 1).

JP-A-2006-204880

  According to the above-mentioned Patent Document 1, when replenishing the urea aqueous solution into the urea aqueous solution tank stored in the lower storage case, the open / close cover of the upper storage case is opened and the internal replenishment tank is taken out. When the replenishing tank is taken out, the urea aqueous solution in the lower housing case can be replenished with the urea aqueous solution by tilting while holding the replenishing tank.

  However, the replenishment tank is heavy, and the upper revolving structure is not flat, and replenishment work in an unreasonable posture can be considered. Therefore, it takes time to replenish the urea aqueous solution tank with the urea aqueous solution. There is.

  The present invention has been made in view of the above-described problems of the related art, and an object of the present invention is to provide a construction machine capable of easily performing a urea aqueous solution replenishing operation using a replenishing tank for a urea aqueous solution tank. To provide.

  A construction machine according to the present invention is provided with a lower traveling body capable of self-propelling in a forward and rearward direction, an upper revolving body rotatably provided on the lower traveling body, and an elevating movable body provided on the upper revolving body. A revolving frame comprising a front device, wherein the upper revolving unit has a bottom plate, a left vertical plate and a right vertical plate provided on the bottom plate, and the front device is attached to a front position of each of the vertical plates. An engine provided on the rear side of the turning frame, a lower housing case provided at a front position of the turning frame, an upper housing case provided at an upper position of the lower housing case, A urea aqueous solution tank that is stored in the lower housing case and stores a urea aqueous solution for purifying exhaust gas from the engine; and a replenishment tank that is stored in the upper housing case and stores a urea aqueous solution for replenishment. There.

  A feature of the present invention is that, in the upper storage case, a refill tank moving device having a tank table movable between the upper storage case and the outside in front of the upper storage case using a link mechanism is provided. The refill tank is provided on the tank base of the refill tank moving device.

  ADVANTAGE OF THE INVENTION According to this invention, the replenishment operation | work of the urea aqueous solution using the replenishment tank with respect to a urea aqueous solution tank can be performed easily.

It is a front view showing the hydraulic shovel applied to an embodiment of the invention. FIG. 4 is a plan view showing a state where an engine, a fuel tank, a hydraulic oil tank, a lower housing case, an upper housing case, and the like are mounted on a turning frame. It is the perspective view of the principal part expansion which looked at the right front part of the revolving frame, the lower side storage case, and the upper side storage case from the right front side. FIG. 4 is a cross-sectional view of the right front part of the revolving frame, a lower storage case, an upper storage case, a urea aqueous solution tank, a replenishing tank moving device, and a replenishing tank as viewed from the direction of arrows IV-IV in FIG. It is a perspective view which expands and shows a replenishment tank moving apparatus and a replenishment tank. It is a perspective view which shows the link mechanism in FIG. 5, and the link side holder of a tank stand. It is a perspective view which shows the tank side holder of the tank stand in FIG. FIG. 6 is an enlarged cross-sectional view of a main part of the stopper mechanism in FIG. 5 when viewed from a direction indicated by arrows VIII-VIII. It is a perspective view which shows the replenishment tank in FIG. FIG. 5 is a cross-sectional view of a state where the tank table is moved to the outside of the upper storage case together with the refill tank by a link mechanism of the refill tank moving device, as viewed from the same position as in FIG. 4. FIG. 5 is a cross-sectional view of a state in which a urea aqueous solution tank is replenished with a urea aqueous solution tank by rotating a tank-side holder of a tank table to a front side, as viewed from the same position as in FIG.

  Hereinafter, a crawler-type hydraulic excavator will be described as an example of a construction machine according to an embodiment of the present invention, and will be described in detail with reference to FIGS.

  In FIG. 1, a hydraulic excavator 1 is a representative example of a construction machine, and is used for excavation of earth and sand. The hydraulic excavator 1 includes a lower traveling body 2 of a crawler type capable of self-propelling forward and backward, an upper revolving body 3 rotatably provided on the lower traveling body 2, and a front position of the upper revolving body 3. The front device 4 is provided so as to be capable of raising and lowering. The upper swing body 3 includes a swing frame 5, an engine 6, a lower housing case 14, an upper housing case 16, an aqueous urea tank 18, and a replenishing tank moving device 19, which will be described later.

  The revolving frame 5 forms a support structure for the upper revolving unit 3. As shown in FIG. 2, the revolving frame 5 includes a thick bottom plate 5A extending in the front and rear directions, and a standing frame standing on the bottom plate 5A and extending left and right at predetermined intervals in the front and rear directions. A vertical plate 5B, a right vertical plate 5C, a bottom plate 5A, a plurality of overhanging beams 5D extending outwardly in the left and right directions from the vertical plates 5B and 5C and arranged at intervals in front and rear directions; It is configured to include a left side frame 5E and a right side frame 5F which are attached to the tip of each overhanging beam 5D and located in the outer side in the direction, and extend in the front and rear directions.

  Front device mounting portions 5B1 and 5C1 are provided at front end portions of the left and right vertical plates 5B and 5C. The front device mounting portions 5B1 and 5C1 support the foot portion of the front device 4 so as to be rotatable upward and downward.

  As shown in FIG. 4, the front right side of the turning frame 5 covers the front beam 5G extending leftward from the front end of the right side frame 5F, and the space between the right edge of the bottom plate 5A and the right side frame 5F. And an under cover 5H. The front right side of the revolving frame 5 forms a bottom side of a lower housing case 14 described later. Further, a rectangular footrest plate 5J is provided on the front beam 5G so as to protrude forward. The footrest plate 5 </ b> J constitutes a first step in which a worker who performs maintenance of the engine 6 or the like climbs on the upper revolving structure 3 from the lower traveling structure 2, first steps on the foot.

  The engine 6 is mounted on the rear side of the turning frame 5. The engine 6 is configured as a diesel engine, and is mounted on the revolving frame 5 in a horizontal state in which the axis of a crankshaft (not shown) extends leftward and rightward. The engine 6 is provided with an exhaust pipe 7 for discharging exhaust gas.

  The engine 6 has good thermal efficiency and excellent durability, but harmful substances such as nitrogen oxides (NOx) are discharged together with the exhaust gas. Therefore, a NOx purification device 13 described later is provided in the exhaust pipe 7, and the NOx purification device 13 includes a selective urea reduction catalyst 13B and an oxidation catalyst 13C for removing nitrogen oxides (NOx) in the housing cylinder 13A. Is housed.

  The heat exchange device 8 is provided on the revolving frame 5 on the left side of the engine 6. The heat exchange device 8 includes a radiator for cooling engine cooling water, an oil cooler for cooling hydraulic oil, an intercooler for cooling air sucked by the engine 6, and the like. On the other hand, the hydraulic pump 9 is mounted on the right side of the engine 6. The hydraulic pump 9 is driven by the engine 6 to supply hydraulic oil in the hydraulic oil tank 11 to various hydraulic actuators provided in the front device 4 and the like.

  As shown in FIG. 1, the cab 10 is provided on the front left side of the turning frame 5. More specifically, the cab 10 is located at one of left and right sides of the front device mounting portions 5B1 and 5C1 of the left and right vertical plates 5B and 5C constituting the revolving frame 5, that is, the front device mounting of the left vertical plate 5B. The portion 5B1 is provided on the revolving frame 5 at the left side in the left and right directions. The cab 10 is operated by an operator to drive the hydraulic excavator 1, and includes a driver's seat on which the operator sits, operation levers for operation, operation levers for traveling, etc. (none of them are shown). Has been established.

  The hydraulic oil tank 11 is provided on the right side of the turning frame 5 in front of the engine 6. The hydraulic oil tank 11 stores hydraulic oil therein, and is formed as a rectangular parallelepiped pressure-resistant tank extending upward and downward.

  The fuel tank 12 is provided on the right side of the turning frame 5 adjacent to the front side of the hydraulic oil tank 11. The fuel tank 12 is formed as a rectangular parallelepiped tank, and stores fuel to be supplied to the engine 6 therein.

  The NOx purifying device 13 is provided in the exhaust pipe 7 of the engine 6. The NOx purifying device 13 purifies nitrogen oxides (NOx) in exhaust gas using a urea aqueous solution (hereinafter, referred to as urea water) as a reducing agent. As shown in FIG. 2, the NOx purification device 13 includes a housing cylinder 13A connected to the exhaust pipe 7, a urea selective reduction catalyst 13B housed on the upstream side in the housing cylinder 13A, and a urea selective reduction catalyst 13B. And a urea water injection valve (not shown) provided on the upstream side of the urea selective reduction catalyst 13B. The urea water injection valve is connected to a urea aqueous solution tank 18 described later via a supply pipe or the like (not shown).

  Here, the NOx purification device 13 injects urea water into the exhaust gas by the urea water injection valve, and causes the NOx in the exhaust gas to undergo a reduction reaction using ammonia generated from the urea water by the urea selective reduction catalyst 13B. Decomposes into water and nitrogen. Then, the ammonia in the exhaust gas is reduced by the oxidation catalyst 13C.

  As shown in FIG. 3, the lower housing case 14 is provided at a front position of the turning frame 5. Specifically, the lower housing case 14 is located on the other side of the left and right vertical plates 5B and 5C of the left and right vertical plates 5B and 5C constituting the revolving frame 5 in the left and right directions, that is, the right vertical plate 5C. It is provided on the revolving frame 5 on the right side of the left and right directions of the front device mounting portion 5C1. Thus, the lower housing case 14 is provided at the front right side of the turning frame 5 immediately before the fuel tank 12. As shown in FIGS. 3 and 4, the lower housing case 14 is surrounded by the left vertical plate 5B of the revolving frame 5, the overhanging beam 5D located at the forefront of the right side, the front portion of the right side frame 5F, and the front beam 5G. By utilizing the space above the under cover 5H, a large accommodation space is provided therein.

  The lower housing case 14 rises from a front portion 14A formed by rising from the front edge of the front beam 5G of the revolving frame 5 and from an overhang beam 5D positioned at the rightmost front portion close to the front surface of the fuel tank 12. A hollow having a rectangular parallelepiped shape is formed by a surface portion 14B, a left side portion 14C and a right side portion 14D which stand upright so as to sandwich the front surface portion 14A and the rear surface portion 14B, and an upper surface portion 14E which closes an upper side of each of the surface portions 14A to 14D. It is configured as a structure.

  When the lower portion of the lower housing case 14 is close to the front surface of the fuel tank 12, the front surface of the fuel tank 12 replaces the rear surface portion 14B and closes the rear side. The surface portion 14B can be omitted. The upper surface portion 14E of the lower housing case 14, together with a lower opening / closing cover 15 described later, constitutes a second step following the footrest plate 5J of the revolving frame 5.

  The lower housing case 14 is provided with a wide opening 14F in the left and right directions over the front surface portion 14A and the upper surface portion 14E. A water supply port 18A of the urea aqueous solution tank 18 is disposed in the opening 14F.

  The lower opening / closing cover 15 forms a part of the lower housing case 14 and is attached to the lower housing case 14 so as to cover the opening 14F. The lower opening / closing cover 15 folds, for example, a rectangular plate elongated in the left and right directions into an L shape along a bending line extending in the left and right directions at an intermediate portion in the front and rear directions. It is formed as follows. The lower opening / closing cover 15 has a front cover portion 15A located on the front side and covering the front surface portion 14A side, and an upper cover portion 15B located on the rear side and covering the upper surface portion 14E side. The lower opening / closing cover 15 is attached to the upper surface portion 14E so as to be openable and closable via a hinge 15C whose rear end portion of the upper cover portion 15B serves as a rotation fulcrum.

  Thus, the lower opening / closing cover 15 can be closed to cover the opening 14F, thereby preventing earth and sand and dust from entering the lower housing case 14, and locking the lock to prevent mischief or the like. . On the other hand, by opening the lower opening / closing cover 15, the opening 14F can be opened, and the water supply port 18A of the urea aqueous solution tank 18 can be exposed to the outside.

  Here, the lower opening / closing cover 15 can be rotated 180 degrees from the closed position shown in FIG. 4 to the fully opened position shown in FIGS. 10 and 11 around the hinge 15C as a fulcrum. When the lower opening / closing cover 15 is located at the fully open position, the front cover portion 15A stands up, and the standing front cover portion 15A is provided at its upper end with a tank table 23 of a refill tank moving device 19 described later. Can be supported at a predetermined height position.

  The upper housing case 16 is provided at an upper position of the lower housing case 14. The length of the upper storage case 16 in the front and rear directions is set to, for example, about half the length of the front and rear directions of the lower storage case 14. The upper housing case 16 is mounted on the rear half of the upper surface 14E of the lower housing case 14. As shown in FIG. 4, a refill tank 30 can be stored inside the upper storage case 16 together with a refill tank moving device 19 described later.

  The upper housing case 16 has a rectangular bottom plate 16A attached to face the upper surface portion 14E of the lower housing case 14, a front plate 16B formed by rising from the front edge of the bottom plate 16A, and a front surface of the fuel tank 12. The rear plate 16C rising from the rear edge of the bottom plate 16A, the left plate 16D rising from the left edge of the bottom plate 16A, the right plate 16E rising from the right edge of the bottom plate 16A, and the upper side of each of the plates 16B to 16E. And a top plate 16F that closes the opening is configured as a hollow structure having a rectangular parallelepiped shape.

  The upper housing case 16 can also omit the bottom plate 16A by attaching the lower edges of the plates 16B to 16E to the upper surface portion 14E of the lower housing case 14. Further, when the rear portion is close to the front surface of the fuel tank 12, the upper housing case 16 closes the rear side instead of the rear plate 16C when the front portion of the fuel tank 12 is closed. 16C can be omitted.

  The upper housing case 16 is provided with an opening 16G over the front plate 16B and the upper plate 16F. The opening 16G is formed large in the left and right directions and in the front and rear directions so that a tank table 23 described later can be taken in and out. That is, the opening 16G is open to the lower side of the height of the lower opening / closing cover 15 (front cover portion 15A) when the lower opening / closing cover 15 is fully opened on the front plate 16B side. In addition, the opening 16G is open to the vicinity of the rear plate 16C on the upper plate 16F side.

  The upper opening / closing cover 17 forms a part of the upper housing case 16 and is attached to the upper housing case 16 so as to cover the opening 16G. The upper opening / closing cover 17 has a front cover portion 17A that covers the front plate 16B side of the opening 16G, and an upper cover portion 17B that covers the upper plate 16F side of the opening 16G. The upper opening / closing cover 17 is attached to the rear plate 16C so as to be openable and closable via a hinge 17C in which the rear end of the upper cover 17B serves as a pivot. The upper cover portion 17B of the upper opening / closing cover 17 constitutes a third step following the upper surface portion 14E of the lower housing case 14. The upper cover 17 may be attached to the upper plate 16F via a hinge 17C.

  Thereby, as shown in FIG. 4, the upper opening / closing cover 17 can be closed to cover the opening 16 </ b> G, thereby preventing earth and sand and dust from entering the upper housing case 16, and furthermore, locking to prevent mischief or the like. It can be prevented beforehand. On the other hand, as shown in FIGS. 10 and 11, the upper opening / closing cover 17 can open the opening 16 </ b> G by opening, and the refill tank 30 can be taken in and out together with the tank table 23.

  The urea aqueous solution tank 18 is housed in the lower housing case 14, and is mounted on the under cover 5 </ b> H of the turning frame 5. The urea aqueous solution tank 18 stores an urea aqueous solution for purifying exhaust gas discharged from the engine 6. For this reason, the urea aqueous solution tank 18 is formed as a closed container that is long in the left and right directions. On the front side of the urea aqueous solution tank 18, a water supply port 18 </ b> A is provided diagonally upward at a position facing the opening 14 </ b> F of the lower housing case 14 in a state of being housed in the lower housing case 14. . A cap 18B is detachably attached to the water supply port 18A.

  Next, the configuration and operation of the refill tank moving device 19, which is a characteristic part of the present embodiment, will be described.

  As shown in FIG. 4, the refill tank moving device 19 is provided in the upper storage case 16 together with a refill tank 30 described later. As shown in FIG. 5, the replenishment tank moving device 19 includes a link mechanism 20 and a tank table 23 described later. The refilling tank moving device 19 moves the tank table 23 between the inside of the upper housing case 16 and the outside in front of the upper housing case 16 using the link mechanism 20. The tank table 23 contains a refill tank 30.

  The link mechanism 20 is provided between the bottom plate 16A of the upper housing case 16 and the tank base 23. The link mechanism 20 holds the tank table 23 in a storage position (the position shown in FIG. 4) in which it is stored in the upper storage case 16 and an external position in which the tank table 23 is moved forward from the upper storage case 16 (shown in FIGS. 10 and 11). Position).

  As shown in FIG. 6, the link mechanism 20 includes left and right base members 21 symmetrically arranged in the left and right directions with an interval, and two link arms rotatably attached to each base member 21. 22 and each side plate 24B of a link-side holder 24 described later.

  The left and right base members 21 are each formed of a plate that is bent in an L-shape and extends forward and rearward. A vertical plate portion 21A that rises inside the left and right directions has an interval in the front and rear directions. , One ends of the two link arms 22 are rotatably attached. The left and right base members 21 are attached to a position closer to the front side of the bottom plate 16A of the upper housing case 16 by means such as screwing or welding.

  The link arms 22 disposed on the left and right as a set of two are formed of long plate bodies having the same length, and one end of one link arm 22 in the longitudinal direction is the vertical of the base member 21. It is attached to the front portion of the plate portion 21A so as to be rotatable forward and backward. One end of another link arm 22 is attached to a rear position of the vertical plate portion 21A of the base member 21 so as to be rotatable forward and backward. On the other hand, the other end of each link arm 22 is attached to the side plate portion 24B of the link-side holder 24 so as to be rotatable in the front and rear directions with the same interval dimension as the front and rear directions of attachment to the vertical plate portion 21A. I have.

  Thus, the link mechanism 20 forms a parallel link by the base member 21, the two link arms 22, and the side plate 24B of the link-side holder 24. The link mechanism 20 configured as a parallel link can move the link-side holder 24 of the tank base 23 forward or backward while maintaining the horizontal state.

  The tank table 23 is moved by the link mechanism 20 between a storage position in the upper storage case 16 and an external position taken out from the upper storage case 16 forward. The tank base 23 includes a link-side holder 24, a tank-side holder 25, and a lock mechanism 26, which will be described later.

  The link-side holder 24 includes a base plate portion 24A formed of a rectangular plate disposed between the base members 21 and a left side bent upward from the left and right edges of the base plate portion 24A and extending upward. , Right side plate 24B. In the link-side holder 24, for example, a long bracket 24C extending upward is provided at a front portion of the side plate portion 24B located on the right side. A pin insertion hole 24D into which a lock pin 28 described later is inserted is provided in an upper portion of the bracket 24C. Further, two hinges 24E are attached to the front end of the base plate portion 24A at intervals in the left and right directions.

  Here, the left and right side plate portions 24 </ b> B also serve as a part of the link mechanism 20. Specifically, the other end of the link arm 22 located on the front side is rotatably attached to each side plate portion 24B at an intermediate position between the front and rear directions, and the link arm 22 located on the rear side is located at the rear position. The other end is rotatably attached. Thus, the link-side holder 24 is translated by the link mechanism 20 in the forward or rearward direction.

  As shown in FIG. 8, an annular spring mounting cylinder 24F is provided around the pin insertion hole 24D and protrudes to the right, which is the outside in the left and right directions. The spring mounting cylinder 24F is mounted by fitting one end of a tension spring 29 of a lock mechanism 26 described later.

  The tank-side holder 25 is provided on the base plate portion 24A of the link-side holder 24. The tank-side holder 25 holds the replenishing tank 30. As shown in FIG. 7, the tank-side holder 25 includes a rectangular lower plate 25A facing the base plate portion 24A of the link-side holder 24, and a short front plate 25B extending upward from the front edge of the lower plate 25A. A rear plate 25C extending upward from the rear edge of the lower plate 25A, a left plate 25D extending upward from the left edge of the lower plate 25A, and a right plate 25E extending upward from the right edge of the lower plate 25A. Have.

  The tank-side holder 25 is provided with a holding bar 25F located above the front plate 25B and extending between the left plate 25D and the right plate 25E. As shown in FIG. 11, the holding bar 25F holds the internal refill tank 30 so as not to fall when the tank-side holder 25 is tilted forward. Further, the tank-side holder 25 is provided with a grip 25G located on the rear side of the upper part and extending between the left plate 25D and the right plate 25E. The grip 25G is formed of a columnar or cylindrical rod extending in the left and right directions, and has left and right ends attached to the left plate 25D and the right plate 25E.

  The grip 25G is gripped when the tank-side holder 25 is tilted forward, and by gripping the grip 25G, the heavy replenishment tank 30 filled with the urea aqueous solution can be easily tilted. Moreover, the holding bar 25F and the grip 25G also serve as a reinforcing member for maintaining the shape of the tank-side holder 25.

  Each hinge 24E of the link-side holder 24 is fixed to the front plate 25B by using welding means or the like. Thereby, as shown in FIG. 11, the tank-side holder 25 can rotate to the front side with each hinge 24E as a fulcrum.

  The lock mechanism 26 is provided on the tank table 23. The lock mechanism 26 fixes an angular position when the tank-side holder 25 rotates with respect to the link-side holder 24. The lock mechanism 26 includes the bracket 24C of the link-side holder 24, the pin insertion hole 24D, the engagement holes 27A to 27E described later, the lock pin 28, and the tension spring 29.

  For example, five engagement holes 27A to 27E are provided in the right plate 25E of the tank-side holder 25. The engagement holes 27A to 27E are arranged so as to penetrate in the left and right directions (plate thickness direction) at an interval from each other along an arc centered on the hinge 24E (rotation axis). As shown in FIG. 8, the diameter of each of the engagement holes 27A to 27E is smaller than the diameter of the pin insertion hole 24D of the link side holder 24, and is slightly larger than the diameter of the distal end portion 28C of the lock pin 28. Is set.

  Of the engagement holes 27A to 27E, the engagement hole 27A located at the forefront and upper side is provided with a lock pin when the replenishing tank 30 is housed in the upper housing case 16 as shown in FIG. 28 are inserted. Thereby, rattling of the tank-side holder 25 can be suppressed. Each of the engagement holes 27B to 27E is selected according to the replenishment amount of the urea water. The replenishment amount of the urea water increases sequentially from the engagement hole 27B to the engagement hole 27E.

  As shown in FIG. 8, the lock pin 28 selectively engages with each of the engagement holes 27A to 27E while engaging with the pin insertion hole 24D of the link side holder 24. The lock pin 28 includes a pin main body 28A inserted into the pin insertion hole 24D of the link-side holder 24, a disk-shaped grip portion 28B formed by enlarging the base end side of the pin main body 28A, and a pin main body 28A. And a distal end portion 28C provided with a reduced diameter on the distal end side. Further, a spring mounting portion 28D is provided at a position of the pin main body 28A near the grip portion 28B so as to expand in diameter.

  The extension spring 29 is provided between the bracket 24 </ b> C of the link-side holder 24 and the lock pin 28. The extension spring 29 is formed by a coil spring disposed around a pin body 28A of the lock pin 28. One end of the tension spring 29 is externally fitted and attached to the spring mounting tube 24F of the link side holder 24, and the other end is externally fitted and attached to the spring mounting portion 28D of the lock pin 28. Thereby, the tension spring 29 urges the lock pin 28 so that the distal end portion 28C is inserted into any of the engagement holes 27A to 27E.

  The lock mechanism 26 grips the grip portion 28B of the lock pin 28 and pulls the distal end portion 28C against each of the engagement springs 27A to 27E by gripping the grip portion 28B of the lock pin 28 as shown by a two-dot chain line in FIG. Can be extracted from In this state, the tank-side holder 25 can be freely rotated with respect to the link-side holder 24. By inserting the distal end portion 28C into any of the engagement holes 27A to 27E, the tank-side holder 25 (refill tank 30) can be fixed in an inclined state with respect to the link-side holder 24.

  The replenishment tank 30 stores a replenishment aqueous urea solution, and is accommodated in the upper accommodation case 16. The replenishing tank 30 is formed as a container having a rectangular parallelepiped outer shape, and a replenishing port (not shown) and a cap 30A for closing the replenishing port are provided at the upper part. The external dimensions of the refill tank 30 are set to fit in the tank-side holder 25 of the refill tank moving device 19.

  The hydraulic shovel 1 according to the present embodiment has the above-described configuration, and its operation will be described next.

  The operator in the cab 10 starts the engine 6 and drives the hydraulic pump 9. In this state, the lower traveling body 2 can be moved forward or backward by operating the traveling operation lever. On the other hand, by operating the operation lever for work, the front device 4 can be moved up and down to perform excavation work on earth and sand.

  During operation of the engine 6, nitrogen oxides (NOx), which are harmful substances, are discharged from the exhaust pipe 7. At this time, the urea water in the urea aqueous solution tank 18 is supplied to the urea water injection valve of the NOx purification device 13, and is injected into the exhaust gas from the urea water injection valve to generate ammonia. Thereby, in the urea selective reduction catalyst 13B, the nitrogen oxides can be reduced by reducing the nitrogen oxides to water and nitrogen and discharging them to the outside via the oxidation catalyst 13C.

  In many cases, the excavator 1 works for a long time at a work site. In this case, the replenishment of the fuel into the fuel tank 12 and the replenishment of the urea aqueous solution into the urea aqueous solution tank 18 are performed. Therefore, an example of the operation of replenishing the urea aqueous solution tank 18 with urea water using the replenishment tank moving device 19 will be described.

  First, the operator stands on the right front side of the upper swing body 3 and opens the lower opening / closing cover 15 of the lower housing case 14 upward to the fully open position. Thus, the water supply port 18A of the urea aqueous solution tank 18 housed in the lower housing case 14 can be exposed to the outside through the opening 14F.

  Further, the upper opening / closing cover 17 of the upper housing case 16 is opened upward to the fully open position. Thereby, the refill tank moving device 19 and the refill tank 30 housed in the upper housing case 16 can be exposed to the outside.

  Next, the replenishing tank 30 is taken out of the upper housing case 16 so as to be easily handled. In this case, as shown in FIG. 10, for example, the replenishment tank moving device 19 is used to grip the grip 25 </ b> G provided on the tank side holder 25 constituting the tank base 23, and the tank base 23 is moved upward or downward. Pull to the front. Thus, the tank table 23 is moved forward by the link mechanism 20 including the parallel links while maintaining the horizontal state. At this time, since the front cover portion 15A of the lower opening / closing cover 15 arranged at the fully open position is disposed upright at the destination of the tank table 23, the tank table 23 is placed on the raised front cover portion 15A. It can be positioned by mounting.

  When the tank base 23 provided with the replenishing tank 30 is disposed outside the upper housing case 16, the cap 18B of the urea aqueous solution tank 18 is removed as shown in FIG. Further, the cap 30A of the replenishing tank 30 is replaced with the replenishing cap 31 to which the hose 31A is connected, and the end of the hose 31A is inserted into the water supply port 18A of the urea aqueous solution tank 18.

  Next, the operator grips the grip portion 28 </ b> B of the lock pin 28 constituting the lock mechanism 26 and pulls the lock pin 28 against the tension spring 29. Thereby, the tip portion 28C of the lock pin 28 is pulled out from the engagement hole 27A. In the free state of the tank-side holder 25, the user grips the grip 25G of the tank-side holder 25 and tilts the tank-side holder 25 forward around the hinge 24E. Then, when replenishing a large amount of urea water, the tank-side holder 25 is greatly tilted, and the tip portion 28C of the lock pin 28 is inserted into the lower engagement hole 27E. Thus, the replenishing tank 30 can be fixed in a state where it is largely tilted, so that a predetermined amount of urea water can be replenished to the urea aqueous solution tank 18 even when the hand is released from the replenishing tank 30.

  On the other hand, when the replenishment of the urea aqueous solution into the urea aqueous solution tank 18 is completed, the tank table 23 can be stored in the upper storage case 16 together with the replenishment tank 30 by performing a procedure reverse to the above-described procedure. .

  Thus, according to the present embodiment, the upper housing case 16 provided at the front position of the revolving frame 5 uses the link mechanism 20 to connect the inside of the upper housing case 16 and the outside in front of the upper housing case 16. A refill tank moving device 19 having a tank table 23 that can be moved between the tanks is provided. The replenishing tank 30 storing the replenishing urea aqueous solution is provided on the tank table 23 of the replenishing tank moving device 19.

  Accordingly, when replenishing the urea aqueous solution into the urea aqueous solution tank 18 accommodated in the lower accommodation case 14, the replenishment tank 30 is taken out of the upper accommodation case 16 by hand, or the replenishment tank 30 is held. The refill tank 30 can be taken out of the upper housing case 16 together with the tank table 23 using the link mechanism 20 of the refill tank moving device 19 without tilting. As a result, the operator can easily replenish the urea aqueous solution tank 18 with the urea aqueous solution from the replenishment tank 30 provided on the tank table 23.

  The tank table 23 of the refilling tank moving device 19 is rotated in the forward or rearward direction with the link side holder 24 translated in the forward or rearward direction by the link mechanism 20 and the front position of the link side holder 24 as a fulcrum. A tank-side holder 25 movably provided to hold the replenishment tank 30.

  Therefore, the refill tank 30 is taken out of the upper housing case 16 together with the tank table 23, and after connecting the refill tank 30 and the urea aqueous solution tank 18 with a hose or the like, the front position of the link-side holder 24 is changed. The tank-side holder 25 is rotated to the front side together with the replenishing tank 30 around the fulcrum. Accordingly, the replenishment tank 30 can be inclined without the operator holding the heavy replenishment tank 30, and the urea aqueous solution in the replenishment tank 30 can be easily replenished to the urea aqueous solution tank 18 via the hose. Can be.

  The tank table 23 is provided with a lock mechanism 26 for fixing an angular position when the tank-side holder 25 rotates with respect to the link-side holder 24. Therefore, since the lock mechanism 26 can fix the angular position when the refill tank 30 is rotated together with the tank-side holder 25, the lock mechanism 26 can adjust the angular position even when the hand is released from the refill tank 30. The specified amount of urea water can be replenished to the urea aqueous solution tank 18.

  Front device mounting portions 5B1 and 5C1 for mounting the front device 4 are provided at the front end portions of the left and right vertical plates 5B and 5C constituting the revolving frame 5. Further, a cab 10 on which the operator gets in is provided on the revolving frame 5 at a left side position, which is one side position in the left and right directions of the front device mounting portions 5B1 and 5C1. On the other hand, a lower housing case 14 and an upper housing case 16 are provided at the right side position, which is the other side position in the left and right directions of the front device mounting portions 5B1 and 5C1. Therefore, the lower housing case 14, the upper housing case 16, the urea aqueous solution tank 18, the replenishment tank moving device 19, and the replenishment tank 30 can be provided using the space on the front right side of the revolving frame 5.

  In the embodiment, the tank table 23 of the replenishing tank moving device 19 is located on the right side in the left and right directions, and the angular position when the tank-side holder 25 is rotated with respect to the link-side holder 24. 2 illustrates a case in which a lock mechanism 26 for fixing is provided. However, the present invention is not limited to this, and the lock mechanism 26 may be provided on the left side of the tank table 23 in the left and right directions.

  Further, in the embodiment, the crawler type hydraulic excavator 1 has been described as an example of a construction machine, but the present invention is not limited to this, and may be applied to a wheel type hydraulic excavator. In addition, the present invention can be widely applied to other construction machines such as a hydraulic crane.

1 Hydraulic excavator (construction equipment)
2 Lower traveling structure 3 Upper revolving structure 4 Front device 5 Revolving frame 5A Bottom plate 5B Left vertical plate 5B1, 5C1 Front device mounting portion 5C Right vertical plate 6 Engine 10 Cab 14 Lower storage case 16 Upper storage case 18 Urea aqueous solution tank 19 Replenishment Tank moving device 20 Link mechanism 23 Tank stand 24 Link side holder 24B Side plate (link mechanism)
24E hinge (rotation fulcrum)
25 Tank side holder 26 Lock mechanism 30 Refill tank

Claims (4)

A lower traveling body capable of self-running in the front and rear directions, an upper revolving body rotatably provided on the lower traveling body, and a front device provided to be capable of elevating on the upper revolving body,
The upper revolving superstructure,
A swivel frame having a bottom plate and a left vertical plate and a right vertical plate provided on the bottom plate, and the front device being attached to a front position of each of the vertical plates,
An engine provided on the rear side of the turning frame,
A lower housing case provided at a front position of the turning frame,
An upper storage case provided at an upper position of the lower storage case,
A urea aqueous solution tank that is stored in the lower storage case and stores an urea aqueous solution for purifying exhaust gas from the engine;
A replenishment tank stored in the upper storage case and storing a urea aqueous solution for replenishment,
In a construction machine comprising
In the upper storage case, a refill tank moving device having a tank table movable between the upper storage case and the outside in front of the upper storage case using a link mechanism is provided.
The construction machine wherein the refill tank is provided on the tank table of the refill tank moving device.   The tank base of the replenishing tank moving device is configured to rotate in a forward or rearward direction with a link-side holder that is translated in a forward or rearward direction by the link mechanism and a front portion of the link-side holder serving as a fulcrum. The construction machine according to claim 1, further comprising a tank-side holder that is provided so as to be capable of holding the replenishment tank.   3. The construction machine according to claim 2, wherein the tank base is provided with a lock mechanism that fixes an angular position when the tank-side holder rotates with respect to the link-side holder. 4. A front device mounting portion for mounting the front device is provided at a front end portion of the left and right vertical plates that constitute the turning frame,
A cab on which the operator gets on is provided on the revolving frame at one side position of the front device mounting portion in the left and right directions,
2. The construction machine according to claim 1, wherein the lower housing case and the upper housing case are provided at other positions on the left and right sides of the front device mounting portion. 3.

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