JP5631842B2 - Construction machinery - Google Patents

Description

  The present invention relates to a construction machine such as a hydraulic excavator and a hydraulic crane, and more particularly to a construction machine equipped with a grease gun used for a greasing operation.

  In general, a hydraulic excavator as a typical example of a construction machine includes a lower traveling body capable of self-propelling, an upper revolving body provided on the lower traveling body so as to be able to swivel, and front and rear sides of the upper revolving body. And a working device provided so as to be able to move up and down.

  The upper swing body includes a swing frame that forms a support structure of the vehicle body, a counterweight provided at a rear portion of the swing frame that balances the weight of the work device, and a front side of the counterweight that is positioned on the swing frame. The engine is mounted horizontally and extends in the left-right direction to drive the hydraulic pump, the cooling fan that is provided in the engine and sucks external air as cooling air, and the upstream of the cooling fan in the flow direction of the cooling air And a heat exchanger including a radiator that is provided on the side facing the cooling fan and cools engine cooling water by cooling air, an oil cooler that cools hydraulic oil, and the like.

  The hydraulic excavator is equipped with a grease gun for supplying grease to a greasing part such as a working device. In this case, a small hydraulic excavator cannot be provided with a tool box for accommodating a grease gun because the upper swing body is downsized. Therefore, the hydraulic excavator according to the prior art has a structure in which a grease gun holding member is provided near the side of the heat exchange device, and the grease gun is held by the grease gun holding member (see, for example, Patent Document 1).

JP 2005-213933 A

  By the way, in the thing by patent document 1, the grease gun is arrange | positioned in the side position of the heat exchange apparatus. In this case, it is conceivable that a part of the cooling air flows to the side of the heat exchange device, but the heat exchange device cools various fluids whose temperature has risen, and the supplied high-temperature fluid The grease gun will be warmed. As a result, the temperature of the grease gun disposed in the vicinity of the heat exchange device rises due to the heat of the heat exchange device. Moreover, in Patent Document 1, the grease gun is held by the grease gun holding member so that the nozzle is on the lower side.

  As described above, when the temperature of the grease gun rises due to the heat of the heat exchange device, the internal grease melts and becomes liquid, and drips from the downward nozzle. As a result, there is a problem that the periphery of the heat exchange device is soiled by the grease that has dropped.

  The present invention has been made in view of the above-described problems of the prior art, and an object of the present invention is to keep the periphery of the grease gun clean by preventing the grease in the grease gun from melting and dripping down. It is to provide such a construction machine.

A construction machine according to the present invention comprises a vehicle body frame that forms a support structure for a vehicle body and a work device is attached to the front side, and a counterweight provided at a rear portion of the vehicle body frame to balance the weight of the work device, A prime mover located on the front side of the counterweight and provided on the vehicle body frame, a cooling fan that sucks external air as cooling air by rotating with the prime mover as a power source, and cooling air that is cooler than the cooling fan. A heat exchange device that is located on the upstream side in the flow direction and that faces the cooling fan and cools the fluid with cooling air ; and on the vehicle body frame so as to cover the prime mover, the cooling fan, and the heat exchange device from above An exterior cover provided with a side door through which outside air flows as cooling air at a position upstream of the cooling air, and a vehicle body covered with the exterior cover. Comprising a positioned part and the heat exchange device and a partition cover provided upright between the counterweight, the said outer inside cover, upstream of the heat exchanger to the flow direction of the cooling air at a position where the side, the counterweight, the enclosed by the outer cover of the side door and the heat exchanger, that has provided a heat exchanger upstream chamber to be released to the outside upon opening the side door.

Then, in order to solve the above problems, characteristic of the structure of the invention of claim 1 is employed, the counterweight is a its front side, the left, at least one side of the right direction is inclined toward the front , is formed as an inclined surface surrounding the heat exchanger upstream chamber from the rear side, the partition cover is disposed along the inclined surface of the counterweight is located in the heat exchanger upstream chamber, the partition cover On the front side, a grease gun holding member is provided at a position exposed to the cooling air on the upstream side of the cooling air flowing in the upstream chamber of the heat exchange device toward the heat exchange device. the feed nozzle for injecting the grease fat target holds the grease gun so that the upper in a vertically placed condition, the grease gun, the front when opening the side door of the exterior cover In that the loading and unloading is Ru consists heat exchanger upstream chamber.

  According to a second aspect of the present invention, the grease gun includes a cylindrical body that contains grease therein, the nozzle that is provided in the cylindrical body and that has a tip portion extending as an inlet, and is provided in the cylindrical body. The grease gun holding member is formed with a handle that pushes the filled grease to the nozzle side, and the grease gun holding member is positioned below the cylinder support part and a cylinder support part that supports the cylinder of the grease gun. And the cylindrical body receiving portion that receives the bottom surface portion of the cylindrical body.

  According to a third aspect of the present invention, the partition cover is provided with a handle support portion that supports the handle of the grease gun adjacent to the cylindrical body support portion of the grease gun holding member.

According to the first aspect of the present invention, in the exterior cover provided on the vehicle body frame, the counterweight and the side cover of the exterior cover are positioned upstream of the heat exchange device in the cooling air flow direction. And a heat exchanger upstream chamber that is surrounded by the heat exchanger and is released to the outside when the side door is opened. The partition cover erected between the heat exchanger and the counterweight is positioned in the heat exchanger upstream chamber is disposed along the inclined surface of the counterweight, on its front side, the heat the exchange device upstream chamber on the upstream side of the cooling air flowing toward the heat exchanger, Ru Tei provided grease gun holding member in a position which is exposed to the cooling air. The grease gun holding member is configured to hold the grease gun in a vertically placed state so that a nozzle for injecting grease into the lubrication target is on the upper side.

Therefore, when the cooling fan is driven, the cooling air sucked from the outside into the upstream chamber of the heat exchange device is supplied to the heat exchange device through the front side of the partition cover. At this time, since the grease gun holding member is provided on the front side of the partition cover, which is upstream of the cooling air, the temperature of the grease gun held by the grease gun holding member increases due to the cooling effect of the cooling air. Can be suppressed. In addition, since the grease gun is placed in a vertical position with the nozzle on the top, even if the temperature of the grease gun rises and the grease melts, it is possible to prevent the grease from dripping from the nozzle. it can.

  As a result, the grease gun held on the grease gun holding member can be kept at a low temperature at which the grease is not melted by the cooling air flowing nearby. Further, the grease does not sag from the nozzle arranged on the upper side. Thereby, scattering of grease can be effectively prevented, and the periphery of the grease gun holding member can be kept clean.

  Further, the partition cover is arranged along the inclined surface of the counterweight, and the grease gun holding member is provided on the front side of the partition cover. Accordingly, since at least a part of the grease gun can be hidden on the partition cover side, the grease gun can be disposed at a position that does not interfere with the work when the heat exchange device is subjected to maintenance work.

  According to the invention of claim 2, the grease gun holding member supports the grease gun cylinder by the cylindrical body support portion, and receives the bottom surface of the cylindrical body by the cylindrical body reception portion. Can be held in the position. On the other hand, the grease gun taken out from the grease gun holding member connects the nozzle inlet to the object to be lubricated, and operates the handle in this state to push the grease filled in the cylinder to the nozzle side. Thereby, grease can be inject | poured toward the lubrication object from the injection port of a nozzle.

  According to the invention of claim 3, since the partition cover is provided with the handle support portion for supporting the handle of the grease gun adjacent to the cylindrical body support portion of the grease gun holding member, the grease gun is attached to the grease gun holding member. In this state, the position of the handle can be fixed by the handle support portion, and the grease gun can be reliably held at an accurate position so as not to be displaced or rattled.

1 is a front view showing a hydraulic excavator according to an embodiment of the present invention. It is an enlarged plan view showing a hydraulic excavator in a state where a part of the working device and an exterior cover are omitted. It is a top view which shows the turning frame carrying an engine, a heat exchange apparatus, a grease gun, etc. It is a front view of the principal part expansion which shows the rear side part of an upper revolving body in the state which opened the side door. FIG. 5 is an external perspective view of an enlarged main part when a heat exchange device, a partition cover, a grease gun, a grease gun holding member, and the like are viewed from the direction of arrows V-V in FIG. 2. It is an external appearance perspective view which expands and shows the partition cover, grease gun, grease gun holding member, etc. in FIG. It is an external appearance perspective view which shows a partition cover, an electrical component, an electrical component cover, a grease gun, and a grease gun holding member in the state which removed the reserve tank from FIG. It is the external appearance perspective view which looked at the state which removed the grease gun from the grease gun holding member from the same position as FIG. It is a disassembled perspective view which shows the state which removed the electrical component cover and the grease gun holding member from the partition cover.

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

  In FIG. 1, reference numeral 1 denotes a crawler hydraulic excavator as a construction machine. The hydraulic excavator 1 includes a self-propelled crawler-type lower traveling body 2, an upper revolving body 3 that is turnably mounted on the lower traveling body 2 and forms a vehicle body together with the lower traveling body 2, and the upper It is generally constituted by a working device 4 that is provided in front of the revolving structure 3 and on the front side in the rearward direction so as to be able to move up and down and that performs excavation work of earth and sand.

  Here, the hydraulic excavator 1 is configured as a small turning machine in which the upper turning body 3 is substantially within the vehicle width of the lower traveling body 2. As shown in FIG. 2, the upper turning body 3 in this case has a substantially circular shape so that at least the rear side is substantially within the vehicle width of the lower traveling body 2 during the turning operation, and is formed compact as a whole.

  Reference numeral 5 denotes a revolving frame as a vehicle body frame that forms a support structure for the upper revolving structure 3. As shown in FIG. 3, the revolving frame 5 has a bottom plate 5A made of a thick steel plate or the like extending in the front and rear directions, and is erected on the bottom plate 5A, and front and rear with a predetermined interval in the left and right directions. Left vertical plate 5B, right vertical plate 5C extending in the direction, left side frame 5D, right side frame 5E extending in the front and rear directions, spaced apart from the vertical plates 5B, 5C, and the bottom plate 5A, each of the vertical plates 5B and 5C is extended in the left and right directions, and is formed of a plurality of extended beams 5F that support the left and right side frames 5D and 5E at the front ends thereof. As shown in FIG. 2, the working device 4 is attached to the front side of each of the vertical plates 5B and 5C so as to be able to move up and down, and an engine 8 and the like to be described later are mounted on the rear side.

  Reference numeral 6 denotes a cab mounted on the left front side of the revolving frame 5 (see FIGS. 1 and 2). The cab 6 is used by an operator, and includes a driver's seat on which the operator is seated, an operation lever for traveling, an operation lever for work (none of which are shown), and the like.

  Reference numeral 7 denotes a counterweight attached to the rear portion of the revolving frame 5, and the counterweight 7 balances the weight with the work device 4 and is formed of a heavy object. The counterweight 7 provided in the small hydraulic excavator 1 is arranged in the front side (swing center) in order to form the upper swing body 3 in a compact manner, and is substantially arc-shaped with both left and right directions extending forward. Is formed. In this arc-shaped counterweight 7, the center position in the left and right directions on the front side is a central flat surface 7A extending linearly in the left and right directions, and both sides of the central flat surface 7A are inclined forward. The left inclined surface 7B and the right inclined surface 7C are formed.

  As shown in FIGS. 2, 4, and 5, the left inclined surface 7B of the counterweight 7 has an outer end portion 7B1 reaching an intermediate portion in the front and rear directions of the heat exchange device 11 described later. Accordingly, the tip of the partition cover 17 described later is positioned in the vicinity of the tip 7B1 of the left inclined surface 7B, and the grease gun 21 provided at the tip of the partition cover 17 flows toward the heat exchange device 11. It becomes easy to be exposed to cooling air.

  Reference numeral 8 denotes an engine as a prime mover provided on the rear side of the turning frame 5, and the engine 8 is mounted in a horizontally placed state extending in the left and right directions. A cooling fan 8A is provided on the left side of the engine 8. The cooling fan 8A is driven to rotate by using the engine 8 as a power source, thereby sucking outside air as cooling air, a radiator 13 of the heat exchange device 11 described later, The cooler 14 and the intercooler 15 are supplied. On the other hand, an exhaust manifold 8B provided on the front side of the engine 8 is provided with a supercharger 8C for forcibly sending air into each cylinder of the engine 8 using exhaust gas. Further, the air supplied to the supercharger 8C is cleaned by an air cleaner 8D, and this air cleaner 8D is disposed, for example, on the rear side of the cab 6 and on the upstream side of the cooling air with respect to the heat exchange device 11. Note that a water jacket (not shown) through which cooling water flows is provided inside the engine 8, and this water jacket is connected to the radiator 13.

  A hydraulic pump 9 is provided on the right side of the engine 8. The hydraulic pump 9 is driven by the engine 8 so as to increase (pressurize) and discharge hydraulic oil supplied from a hydraulic oil tank 26 described later. The hydraulic fluid returned by driving various actuators is returned to the hydraulic oil tank 26 after being cooled by an oil cooler 14 described later.

  Reference numeral 10 denotes an exterior cover provided on the revolving frame 5 from the rear side to the side of the cab 6. The exterior cover 10 covers the engine 8, the hydraulic pump 9, the heat exchange device 11 and the like mounted on the revolving frame 5. Further, when the cooling fan 8A of the engine 8 is rotationally driven, the exterior cover 10 allows outside air to flow in as cooling air from the side door 10A located on the upstream side, cools each part, and warms the cooling air downstream. It can flow out from the side door (not shown).

  Reference numeral 11 denotes a heat exchange device provided on the rear side of the revolving frame 5 so as to face the cooling fan 8A of the engine 8. This heat exchange device 11 cools various fluids whose temperature has risen with cooling air. As shown in FIGS. 2 and 3, the heat exchange device 11 is roughly configured by a support frame 12, a radiator 13, an oil cooler 14, an intercooler 15, and the like, which will be described later.

  Reference numeral 12 denotes a support frame that forms an outer frame of the heat exchange device 11. The support frame 12 is mounted in a horizontally installed state extending in the direction orthogonal to the flow direction of the cooling air by the cooling fan 8A of the engine 8, that is, in the left and right directions as in the present embodiment. Then, it arrange | positions so that the front and back direction of the upper revolving structure 3 may turn into a horizontal direction. The support frame 12 is formed as a frame structure that surrounds and supports the radiator 13, the oil cooler 14, the intercooler 15, and the like.

  As shown in FIG. 5, the support frame 12 includes a first side plate 12A, a second side plate (not shown) provided in a state where the radiator 13, the oil cooler 14 and the like are sandwiched from the lateral direction, An upper surface plate 12B that connects the side plates 12A at an upper position of the side plates 12A, and a lower surface plate (not shown) that connects the side plates 12A at a lower position of the side plates 12A; The fan cover 12C (see FIG. 3) on the engine 8 side is provided so as to surround the cooling fan 8A. For example, the lower side of each side plate 12 </ b> A is bolted to the extended beam 5 </ b> F of the revolving frame 5. A dust-proof net 16 described later is attached to the support frame 12 so as to be located on the upstream side in the flow direction of the cooling air.

  Reference numeral 13 denotes a radiator serving as one of heat exchangers provided in the support frame 12. The radiator 13 is positioned closer to the counterweight 7 in the support frame 12 and is disposed so as to be orthogonal to the flow direction of the cooling air by the cooling fan 8A of the engine 8. The radiator 13 cools the engine cooling water whose temperature has risen by cooling the engine 8, and is connected to the water jacket of the engine 8.

  Reference numeral 14 denotes an oil cooler that is one of the heat exchangers provided in parallel with the radiator 13 in the support frame 12 (illustrated by dotted lines in FIGS. 2 and 3). The oil cooler 14 is located closer to the cab 6 side in the support frame 12 and is disposed so as to form substantially the same plane as the radiator 13. The oil cooler 14 cools the hydraulic oil that has returned from various actuators and has risen in temperature.

  An intercooler 15 is provided on the upstream side in the flow direction of the cooling air with respect to the radiator 13 and the oil cooler 14 and serves as one of the heat exchangers (illustrated by dotted lines in FIGS. 2 and 3). The intercooler 15 cools the intake air flowing from the supercharger 8 </ b> C of the engine 8 and flows out toward the intake side of the engine 8. The intercooler 15 is disposed so as to face the upper position of the radiator 13 and the oil cooler 14. The intercooler 15 has an inflow side connected to the supercharger 8 </ b> C of the engine 8 and an outflow side connected to the intake side of the engine 8.

  A dust-proof net 16 is provided on the support frame 12 and is located upstream of the cooling air of the radiator 13, the oil cooler 14, and the intercooler 15. The dust net 16 captures dust, insects and the like in the cooling air sucked by the cooling fan 8A. The dust-proof net 16 has a front net portion 16A formed in a rectangular shape that is long in the upward and downward directions, and is bent from the top of the front net portion 16A and extends toward the engine 8 and is long in the front and rear directions. The upper surface net portion 16B having a rectangular shape is bent into an inverted L shape.

  The heat exchange device 11 and the dust net 16 configured in this way are attached on the revolving frame 5 as one assembly unit, for example. In the heat exchange device 11, for example, a condenser, a fuel cooler, or the like can be arranged in an empty space below the intercooler 15.

  Here, as shown in FIG. 2, the upstream side in the flow direction of the cooling air from the heat exchange device 11 is the rear surface of the cab 6, the left inclined surface 7B of the counterweight 7, the side door 10A of the exterior cover 10, and the heat exchange device. The range surrounded by 11 is the heat exchange device upstream chamber A. This heat exchange device upstream chamber A is formed as a trapezoidal space in plan view, and a grease gun 21 and a reservoir tank 25 are provided on the front side of a partition cover 17 described later.

  As shown in FIG. 4, when the side door 10A is opened, the heat exchange device upstream chamber A can be released to the outside, and the heat exchange device upstream chamber A can be closed by closing the side door 10A. . In the state where the side door 10A is opened, maintenance work for the air cleaner 8D and work for putting in and out the grease gun 21 can be performed.

  A partition cover 17 is provided between the heat exchange device 11 and the counterweight 7 and is erected on the revolving frame 5 in the vertical direction (upward and downward). This partition cover 17 is a plate-like body extending along the left inclined surface 7B of the counterweight 7 from the rear position of the heat exchange device 11 on the front side of the counterweight 7 toward the rear portion of the left side frame 5D of the swivel frame 5. It is configured. As shown in FIGS. 7 to 9, the partition cover 17 has a flat plate-like vertical plate 17A erected at a position facing the left inclined surface 7B of the counterweight 7, and the left side frame 5D side of the vertical plate 17A. An inverted L attached to the vertical plate 17A so as to surround the bent plate 17B formed by bending forward from the outer edge and the rectangular notch 17A1 formed above the vertical plate 17A. The frame member 17C made of a letter-shaped angle member is formed with a vertically long rectangular outer shape as a whole.

  Here, as shown in FIG. 9, the folding plate 17B constituting the partition cover 17 is formed by bending the outer edge of the vertical plate 17A to the front side along the upward and downward bending curves, so that the vertical plate 17A The structure increases the strength so as not to cause deformation such as twisting. In this case, since the bent plate 17B is a reinforcing structural body, it is necessary to form a large width dimension in order to obtain strength.

  As a result, a first handle housing space S1 is formed at a corner between the vertical plate 17A and the bent plate 17B. The first handle housing space S1 is bent with the vertical plate 17A. It is formed as a reinforcing structure with the plate 17B. In the present embodiment, the first handle accommodating space S1 is used as a handle accommodating space for accommodating a handle 21C of a grease gun 21 described later in cooperation with the second handle accommodating space S2. .

  On the other hand, the vertical plate 17A is provided with a mounting bracket 17D at a lower portion on the tip side thereof, and the mounting bracket 17D can be attached to the rear portion of the left side frame 5D of the turning frame 5.

  Further, an L-shaped mounting base 17E is provided between the vertical plate 17A and the bent plate 17B of the partition cover 17 so as to form a second handle accommodating space S2 described later, and the mounting base 17E. Is for attaching a cylindrical body support 23 of a grease gun holding member 22 to be described later. In addition, the mounting base 17E also serves as a handle support portion that supports the handle 21C of the grease gun 21, and is provided adjacent to the cylindrical body support portion 23. The mounting base 17E is provided across the vertical plate 17A and the bent plate 17B at an intermediate position in the upper and lower directions of the vertical plate 17A.

  That is, the mounting base 17E is formed by bending a rectangular plate material into an L shape in the horizontal direction, bending the mounting plate portion 17E1 facing the vertical plate 17A, and bending plate 17B from the mounting plate portion 17E1. And a bent plate portion 17E2 facing each other. For example, two screw holes 17E3 are provided in the mounting plate portion 17E1. In the mounting base 17E, the end edge portion of the attachment plate portion 17E1 is attached to the bent plate 17B, and the end edge portion of the bent plate portion 17E2 is attached to the vertical plate 17A. Thus, a second handle housing space S2 is formed at the corner between the mounting plate portion 17E1 and the bending plate portion 17E2 of the mounting base 17E so as to face the first handle housing space S1.

  Here, as shown in FIG. 7, the handle 21C of the grease gun 21 is housed in the second handle housing space S2 formed at the corner of the mounting plate 17E1 and the bending plate 17E2 of the mounting base 17E. can do. As described above, in a state where the handle 21C is accommodated in the mounting base 17E, it is possible to prevent the position of the grease gun 21 from being displaced or rattling in cooperation with the first handle accommodating space S1.

  Furthermore, the vertical plate 17A is provided with a screw hole 17A2 located above the electric components 20A to 20D described later. The bent plate 17B is provided with, for example, two bolt insertion holes 17B1 located on the side of the electric components 20A to 20D. These screw holes 17A2 and bolt insertion holes 17B1 are used when an electrical component cover 18 described later is attached to the vertical plate 17A.

  The partition cover 17 is bolted at the lower end of the vertical plate 17A to the overhanging beam 5F of the revolving frame 5, and the lower mounting bracket 17D is bolted to the rear of the left side frame 5D, as shown in FIG. The counterweight 7 is arranged in a vertical direction at a position facing the front surface of the left inclined surface 7B.

  An electrical component cover 18 is provided on the lower side of the front side of the partition cover 17, and the electrical component cover 18 covers various electrical components 20A to 20D described later. The electrical component cover 18 includes a front surface portion 18A facing the vertical plate 17A of the partition cover 17, a top surface portion 18B bent from the upper edge of the front surface portion 18A and extending toward the partition cover 17, and an outer side of the front surface portion 18A. A side surface portion 18C that is bent from the end edge and extends toward the bent plate 17B of the partition cover 17 is provided with a cylindrical body receiving portion 24 to be described later attached to the upper surface portion 18B.

  The electrical component cover 18 has a bolt 19 inserted through the upper surface portion 18B screwed into the screw hole 17A2 of the vertical plate 17A and a bolt 19 inserted through the bolt insertion hole 17B1 of the bent plate 17B into the side surface portion 18C. Thus, it is attached to the outside position of the partition cover 17 on the upstream side of the cooling air.

  Reference numerals 20 </ b> A to 20 </ b> D denote a plurality of types of electrical components attached to the lower side of the front side of the partition cover 17. These electrical components 20A to 20D are made of, for example, a starter relay, a battery relay, a glow relay, a fuse, or the like. The electrical components 20 </ b> A to 20 </ b> D are covered with an electrical component cover 18 so that rainwater or the like entering from the outside of the exterior cover 10 is not applied.

  Here, reference numeral 21 denotes a grease gun for supplying grease to a greasing part such as the work device 4. As shown in FIG. 8 and the like, the grease gun 21 includes a cylindrical body 21A in which a cartridge (not shown) in which grease is sealed is accommodated, and a nozzle 21B provided at the tip of the cylindrical body 21A. The handle 21C is provided on the cylinder 21A and pushes the grease in the cartridge accommodated in the cylinder 21A toward the nozzle 21B. The handle 21C is rotated so as to approach and separate from the cylinder 21A. The grease can be pushed out to the nozzle 21B side by the dynamic operation.

  The grease gun 21 connects the inlet 21B1 at the tip of the nozzle 21B to a grease nipple (not shown) to be lubricated, and rotates the handle 21C in this state, so that the grease gun 21 can be lubricated through the nozzle 21B. Grease can be supplied. On the other hand, when the greasing operation is not performed, the grease gun 21 is held by a later-described grease gun holding member 22 in a vertically placed state in which the nozzle 21B is on the upper side and the bottom surface portion 21A1 of the cylindrical body 21A is on the lower side.

  Reference numeral 22 denotes a grease gun holding member provided on the front side of the partition cover 17, and the grease gun holding member 22 includes a cylinder support portion 23 and a cylinder receiving portion 24 described later. The grease gun holding member 22 is provided on the upstream side of the cooling air flowing toward the heat exchange device 11 and on the distal end side of the partition cover 17, that is, on the side door 10A side. The grease gun holding member 22 holds the grease gun 21 in a vertically placed state with the nozzle 21B on the upper side. When the grease gun 21 is held by the grease gun holding member 22, the handle 21C is accommodated in the first handle. It is supported between the space S1 and the second handle housing space S2.

  Here, since the grease gun holding member 22 is provided on the front end side of the partition cover 17 facing the left inclined surface 7B of the counterweight 7 reaching the middle part in the front and rear direction of the heat exchange device 11, the held grease gun 21 can be disposed almost in front of the heat exchange device 11, and the grease gun 21 can be positively exposed to cooling air flowing toward the heat exchange device 11. Furthermore, since the grease gun holding member 22 holds the grease gun 21 on the front end side of the partition cover 17 that can be easily reached from the outside, the grease gun 21 can be easily attached and detached.

  Reference numeral 23 denotes a cylinder support portion that supports the cylinder 21 </ b> A of the grease gun 21. The cylindrical body support portion 23 is attached to a mounting base 17E provided on the front side of the partition cover 17. The cylindrical body support portion 23 has a symmetrical shape from both ends of the contact surface portion 23A and the contact surface portion 23A that contacts the mounting plate portion 17E1 of the mounting base 17E by bending a steel plate having spring properties into a substantially U shape. And a gripping portion 23B extending in parallel. The cylindrical body support portion 23 causes the contact surface portion 23A to contact the mounting plate portion 17E1 of the mounting base 17E so that the gripping portions 23B are arranged in the horizontal direction (horizontal direction). In this state, the bolt 19 inserted through the contact surface portion 23A is screwed into the screw hole 17E3 of the mounting base 17E, so that it can be attached to the mounting base 17E.

  The cylindrical body support portion 23 can grip the cylindrical body 21A of the grease gun 21 from the radial direction by its spring property, and on the other hand, can support or remove the cylindrical body 21A by elastically deforming. it can.

  Reference numeral 24 denotes a cylindrical body receiving portion that is provided below the cylindrical body supporting portion 23. The cylindrical body receiving portion 24 receives the bottom surface portion 21A1 of the cylindrical body 21A of the grease gun 21, thereby supporting the grease gun 21 mounted in a vertically placed state from below and positioning it upward and downward. be able to. The cylindrical body receiving portion 24 is formed as a plate attached to the outside of the upper surface portion 18B of the electrical component cover 18.

  When the grease gun 21 is attached to the grease gun holding member 22, the cylinder 21A of the grease gun 21 is spring-operated with the gripping portions 23B of the cylinder support portion 23 in a state where the nozzle 21B is disposed on the upper side. The cylindrical body 21 </ b> A can be gripped by the gripping portions 23 </ b> B by pushing in between the gripping portions 23 </ b> B from the upper side or the front side. In this state, the grease gun 21 is moved downward, and the bottom surface portion 21A1 of the cylindrical body 21A is brought into contact with the cylindrical body receiving portion 24, whereby positioning can be performed in the upward and downward directions. Thereby, the grease gun holding member 22 can hold the grease gun 21 in a vertically placed state with the nozzle 21B on the upper side.

  At this time, by inserting the handle 21 </ b> C into the second handle housing space S <b> 2 so that the handle 21 </ b> C is engaged with the mounting base 17 </ b> E of the partition cover 17, rotation and displacement of the grease gun 21 can be prevented. In addition, by disposing the handle 21C in the first handle accommodating space S1, the grease gun 21 can be disposed at a position that does not interfere with the flow of cooling air or maintenance work of the heat exchange device 11.

  Reference numeral 25 denotes a reserve tank provided in the partition cover 17, and the reserve tank 25 stores cooling water supplied to the radiator 13. The reserve tank 25 is located on the upper side of the electrical component cover 18 and is disposed downstream of the grease gun holding member 22 in the cooling air flow direction. The reserve tank 25 is connected to the radiator 13 via a hose member 25A.

  Reference numeral 26 denotes a hydraulic oil tank (see FIG. 2) provided on the revolving frame 5 and positioned on the front side of the hydraulic pump 9. The hydraulic oil tank 26 stores hydraulic oil supplied to the hydraulic pump 9. Reference numeral 27 denotes a fuel tank provided on the side of the hydraulic oil tank 26.

  The hydraulic excavator 1 according to the present embodiment has the above-described configuration. Next, the operation of the hydraulic excavator 1 will be described.

  First, the operator gets on the cab 6 and sits on the driver's seat. By operating the traveling lever in this state, the lower traveling body 2 can be driven to move the hydraulic excavator 1 forward or backward. The operator seated in the driver's seat can operate the working device 4 and the like to perform excavation work of soil and the like by operating the working lever.

  Next, when grease is to be applied to a greasing part such as the working device 4, the grease gun 21 is taken out from the grease gun holding member 22, and the inlet 21B1 of the nozzle 21B is fitted into the grease nipple. In this state, by rotating the handle portion 21C of the grease gun 21, the grease filled in the cylindrical body 21A can be supplied from the nozzle 21 to the grease supply site via the grease nipple. When the greasing operation is completed, the grease gun 21 is attached to the grease gun holding member 22.

  Thus, according to the present embodiment, the partition cover 17 erected between the heat exchange device 11 and the counterweight 7 is disposed along the left inclined surface 7B of the counterweight 7, and on the front side thereof, A grease gun holding member 22 is provided on the upstream side of the cooling air flowing toward the heat exchange device 11. The grease gun holding member 22 is configured to hold the grease gun 21 in a vertically placed state so that the nozzle 21B for injecting grease into the object to be lubricated is on the upper side.

  Therefore, the cooling air sucked from the outside by the cooling fan 8 </ b> A of the engine 8 can be supplied to the heat exchange device 11 through the front side of the partition cover 17. At this time, since the grease gun holding member 22 is provided on the front side of the partition cover 17 on the upstream side of the cooling air, the temperature of the grease gun 21 held by the grease gun holding member 22 does not rise. It can be suppressed by cooling air. Moreover, since the grease gun 21 is arranged in a vertical state with the nozzle 21B facing upward, even if the grease gun 21 rises in temperature and the grease melts, the grease droops from the nozzle 21B. Can be prevented in advance.

  As a result, like the small excavator 1, the accommodation location of the grease gun 21 is limited, and the grease gun 21 is held by the grease gun holding member 22 even when the grease gun 21 must be disposed around the heat exchange device 11. The grease gun 21 can be cooled so that the grease is not melted by the cooling air flowing nearby. In addition, since the grease gun 21 is arranged in a vertically placed state with the nozzle 21B on the upper side, even if the grease melts due to an increase in the temperature at the work site, it is possible to prevent the grease from dripping. Thereby, scattering of grease can be prevented and the periphery of the grease gun holding member 22 can be kept clean.

  Further, the partition cover 17 is arranged along the inclined surface of the counterweight, and the grease gun holding member 22 is provided on the front side of the partition cover 17 so that the grease gun 21 is held. In this case, since the partition cover 17 is provided with a mounting base 17E as a handle support portion for supporting the handle 21C of the grease gun 21, the mounting base 17E is held in a state where the grease gun 21 is held by the grease gun holding member 22. Thus, the position of the handle 21C can be fixed. Therefore, the grease gun 21 can accommodate the handle 21C in a space surrounded by the first handle accommodating space S1 and the second handle accommodating space S2 on the partition cover 17 side. The grease gun 21 can be reliably held at an accurate position so as not to be displaced or rattling.

  On the other hand, the grease gun holding member 22 receives a cylindrical body support portion 23 that supports the cylindrical body 21A of the grease gun 21 and a bottom surface portion 21A1 of the cylindrical body 21A that is positioned below the cylindrical body support portion 23. Since it comprises the cylindrical body receiving part 24 to perform, the grease gun 21 can be held with a simple configuration.

  In the embodiment, the grease gun holding member 22 is constituted by a cylindrical body support part 23 and a cylindrical body receiving part 24 made of different members, and the cylindrical body support part 23 is attached to the mounting base 17E of the partition cover 17, The case where the cylindrical body receiving portion 24 is configured to be attached to the electrical component cover 18 has been described as an example. However, the present invention is not limited to this, and for example, the cylindrical body support portion 23 and the cylindrical body receiving portion 24 may be formed from a single plate and attached to the mounting base 17E of the partition cover 17.

  Moreover, in embodiment, the case where the radiator 13, the oil cooler 14, and the intercooler 15 are provided in the heat exchange apparatus 11 is illustrated. However, the present invention is not limited to this, and for example, only the radiator 13 and the oil cooler 14 may be provided in the heat exchange device 11. Further, when an electric motor is used as the prime mover, only the oil cooler 14 may be provided. Furthermore, it is good also as a structure which arrange | positions the capacitor | condenser, fuel cooler, etc. of an air conditioner.

  Furthermore, in the embodiment, the crawler hydraulic excavator 1 is described as an example of the construction machine. However, the present invention is not limited to this, and may be applied to, for example, a hydraulic excavator provided with a wheel-type lower traveling body. Furthermore, the present invention can be widely applied to other construction machines including a heat exchange device such as a hydraulic crane.

1 Excavator (construction machine)
2 Lower traveling body (car body)
3 Upper swing body (car body)
4 Working device 5 Turning frame (body frame)
7 Counterweight 7B Left inclined surface 8 Engine (motor)
8A Cooling fan 11 Heat exchange device 13 Radiator 14 Oil cooler 15 Intercooler 17 Partition cover 17A Vertical plate 17B Bending plate 17C Frame member 17E Mounting base (handle support portion)
18 Electrical component cover 21 Grease gun 21A Tube 21B Nozzle 21B1 Lubrication port 21C Handle 22 Grease gun holding member 23 Tube support 24 Tube receiver A Heat exchanger upper chamber S1 First handle housing space S2 Second Handle housing space

Claims (3)

A vehicle body frame that forms a support structure for the vehicle body and the working device is attached to the front side, a counterweight provided at the rear of the vehicle body frame to balance the weight of the working device, and a front side of the counterweight A prime mover provided on the vehicle body frame, a cooling fan that sucks external air as cooling air by rotating with the prime mover as a power source, and a position upstream of the cooling fan in the flow direction of the cooling air And a heat exchange device that is provided facing the cooling fan and cools the fluid by cooling air, and is provided on the vehicle body frame so as to cover the prime mover, the cooling fan, and the heat exchange device from above. an exterior cover having a side door outside air becomes a side position flows as cooling air, the heat exchanger located inside the vehicle body covered with outer instrumentation cover And a partition cover provided upright between the counterweight and location,
The outer cover is surrounded by the counterweight, the side door of the outer cover, and the heat exchange device at a position upstream of the heat exchange device with respect to the flow direction of the cooling air. In a construction machine provided with an upstream chamber for heat exchange that is released to the outside when the door is opened ,
The counterweight has its a front side, the left, and inclined toward at least one side of the right direction is forward, is formed as an inclined surface surrounding the heat exchanger upstream chamber from the rear side,
The partition cover is disposed along the inclined surface of the counterweight is located in the heat exchanger upstream chamber,
On the front side of the partition cover , a grease gun holding member is provided at a position exposed to the cooling air on the upstream side of the cooling air flowing in the upstream chamber of the heat exchange device toward the heat exchange device,
The grease gun holding member holds the grease gun in a vertical state so that the nozzle for injecting grease into the object to be lubricated is on the upper side ,
The grease gun is a construction machine, characterized in that the out by Ru composed from said heat exchanger upstream chamber upon opening the side door of the exterior cover. The grease gun includes a cylindrical body that contains grease therein, the nozzle that is provided in the cylindrical body and that has a tip portion extending as an injection port, and the grease that is provided in the cylindrical body and is filled therein. It consists of a handle that pushes out to the side,
The grease gun holding member includes: a cylindrical body supporting portion that supports the cylindrical body of the grease gun; and a cylindrical body receiving portion that is positioned below the cylindrical body supporting portion and receives a bottom surface portion of the cylindrical body. The construction machine according to claim 1, comprising:   The construction machine according to claim 2, wherein the partition cover is provided with a handle support portion that supports a handle of the grease gun adjacent to a cylindrical body support portion of the grease gun holding member.

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