JP2022114944A - work machine - Google Patents

Abstract

To provide a work machine capable of widening a space under the feet of an operator.SOLUTION: A working machine includes a machine body, a cabin mounted on the machine body, an air conditioner main body for air-conditioning an interior of the cabin, and a prime mover room for housing a prime mover mounted on the machine body. The air conditioner main body is arranged above the prime mover room.SELECTED DRAWING: Figure 19

Description

The present invention relates to a working machine such as a backhoe.

BACKGROUND ART Conventionally, a working machine disclosed in Patent Document 1 is known.
The work machine disclosed in Patent Document 1 includes an air conditioner main body for air-conditioning the interior of a cabin mounted on the machine body. The main body of the air conditioner is arranged below the driver's seat.

Japanese Patent Application Laid-Open No. 2020-2720

If the main body of the air conditioner is arranged below the driver's seat as in the conventional case, there is a problem that the space under the operator's feet is narrowed.
SUMMARY OF THE INVENTION In view of the above problems, it is an object of the present invention to provide a work machine capable of increasing the space under the operator's feet.

A work machine according to one aspect of the present invention includes an airframe, a cabin mounted in the airframe, an air conditioner main body for air-conditioning an interior of the cabin, and a motor room that houses a motor mounted in the airframe. The air conditioner main body is arranged above the engine room.

According to the above-described work machine, by arranging the air conditioner body above the motor room, it is possible to increase the foot space of the operator compared to the one where the air conditioner body is arranged below the driver's seat.

It is a schematic side view which shows the whole structure of a working machine. 1 is a schematic plan view of a working machine; FIG. FIG. 4 is a perspective view of a swivel frame; 1 is a perspective view of a fuselage; FIG. 1 is a perspective view of a fuselage; FIG. 1 is a perspective view of a fuselage; FIG. It is a right side view of an airframe and a cabin. It is the perspective view which looked at the body and the cabin from the right back. It is the perspective view which looked at the body and the cabin from the left rear. It is the perspective view which looked at the body and the cabin from the right back. It is a front cross-sectional view showing the arrangement of a fuel tank and a swing motor. 1 is a perspective view of a cabin and a swing frame; FIG. FIG. 4 is a perspective view showing the arrangement of a fuel tank and a swing motor; 4 is a perspective view of a support table, a mounting frame, and a support frame; FIG. It is a perspective view which shows the structure of a support stand. It is a perspective view which shows the structure of a support stand. It is a right view of a fuel tank and a support stand. It is a front view which shows extraction of a turning motor. It is a perspective view showing the support structure of the fuel tank. FIG. 4 is a rear view showing the relationship between the fuel tank and the hose; It is a side sectional view of a cabin and a prime mover room. It is a perspective view of the installation part of an air-conditioner main body. FIG. 3 is a rear perspective view of the duct structure, compressor, condenser, etc.; FIG. 4 is a rear perspective view of the duct structure, the condenser, and the like; It is a perspective view of a partition. It is a perspective view of a partition. It is a perspective view of a partition. FIG. 4 is a perspective view of the partition with the cover wall removed; FIG. 4 is a perspective view of a cover wall; FIG. 4 is a cross-sectional view showing the structure of a duct structure; It is a perspective view which shows the wiring of a refrigerant|coolant pipe line. It is a perspective view which shows the wiring of a refrigerant|coolant pipe line. FIG. 4 is a perspective view showing the layout of refrigerant pipes and heat medium pipes; 1 is a perspective view of the cabin, compressor, condenser and receiver; FIG. It is a perspective view showing an intake structure and an exhaust structure. It is a figure which shows an intake structure and an exhaust structure. It is a plane sectional view of an intake structure.

An embodiment of the present invention will be described below with appropriate reference to the drawings.
FIG. 1 is a schematic side view showing the overall configuration of a working machine 1 according to this embodiment. FIG. 2 is a schematic plan view of the working machine 1. FIG. In this embodiment, a backhoe, which is a turning work machine, is exemplified as the work machine 1 .
As shown in FIGS. 1 and 2 , the working machine 1 includes a machine body (swivel base) 2 , a traveling device 3 , and a working device 4 . A cabin 5 is mounted on the fuselage 2 . A driver's seat 6 on which an operator (driver) sits is provided inside the cabin 5 . That is, the driver's seat 6 is surrounded by the cabin 5 . The operator's seat 6 has a seat portion 6A on which an operator sits (seated), and a backrest portion 6B on which the operator's back rests.

In this embodiment, the direction toward the front of the operator seated in the driver's seat 6 of the work machine 1 (direction of arrow A1 in FIGS. 1 and 2) is forward (the front of the machine body), and the direction toward the rear of the operator (in FIG. 1 , the direction of arrow A2 in FIG. 2) is the rear (rear side of the fuselage), and the direction of arrow K1 in FIGS. 1 and 2 is the front-rear direction. Also, the direction toward the left side of the operator (back side in FIG. 1, direction of arrow B1 in FIG. 2) is defined as left, and the direction toward the right side of the operator (front side in FIG. 1, direction of arrow B2 in FIG. 2) is defined as right. explain.

A horizontal direction perpendicular to the front-rear direction (body front-rear direction) K1 will be described as a body width direction K2 (see FIG. 2). The direction from the central portion in the width direction of the body 2 to the right or left portion will be described as the outer side in the width direction of the body. That is, the outer side in the body width direction is the direction away from the center of the body 2 in the width direction in the body width direction K2. The direction opposite to the outer side in the width direction of the machine body will be described as the inner side in the width direction of the machine body. That is, the inner side in the machine width direction is the direction toward the center of the machine body 2 in the width direction in the machine width direction K2.

In the present embodiment, a configuration (cabin specification) in which the driver's seat 6 is arranged in the cabin 5 will be described, but the configuration is not limited to this, and the front-rear direction K1 and the machine width direction K2 of the driver's seat 6 are open to the outside. The upper part may be covered with a roof (canopy) (canopy specification), or the front-rear direction K1, the body width direction K2, and the upper part of the driver's seat 6 may be open to the outside.

As shown in FIGS. 1 and 2, the traveling device 3 is a crawler-type traveling device that supports the body 2 so that it can travel. 3L and a second travel device 3R provided on the right side of the travel frame 3A. The first travel device 3L and the second travel device 3R are driven by a travel motor M1 configured by a hydraulic motor (hydraulic actuator). Although the crawler-type traveling device 3 is used in this embodiment, the present invention is not limited to this, and a wheel-type traveling device or the like may be used. A dozer device 7 is attached to the front portion of the traveling device 3 .

As shown in FIG. 1, the fuselage 2 is supported on the travel device 3 via a swivel bearing 8 so as to be able to swivel about a swivel axis X1 extending vertically. As shown in FIG. 2, a cabin 5 is mounted on the left side of the fuselage 2 and near the front.
As shown in FIG. 1, the machine body 2 has a support bracket 9 and a swing bracket 10 for supporting the working device 4 at the front. The support bracket 9 is provided so as to protrude forward from the body 2 . The swing bracket 10 is attached to the front portion of the support bracket 9 so as to be able to swing about a vertical axis (an axis extending in the vertical direction).

As shown in FIG. 1 , the work device 4 has a boom 11 , an arm 12 and a bucket 13 . The base of the boom 11 is pivotally attached to an upper portion of the swing bracket 10 so as to be rotatable about a horizontal axis (an axis extending in the machine width direction K2). The arm 12 is pivotally attached to the tip side of the boom 11 so as to be rotatable about the horizontal axis. The bucket 13 is provided on the tip side of the arm 12 so as to be able to scoop and dump. The squeezing operation is an operation for swinging the bucket 13 in a direction to bring it closer to the boom 11, and is an operation for scooping up earth and sand, for example. A dumping operation is an operation for swinging the bucket 13 in a direction away from the boom 11, and is an operation for dropping (discharging) scooped earth and sand, for example.

Instead of or in addition to the bucket 13, the work machine 1 can be equipped with other work implements (hydraulic attachments) that can be driven by hydraulic actuators. Other working tools include hydraulic breakers, hydraulic crushers, angle blooms, earth augers, pallet forks, sweepers, mowers, snow blowers, and the like.
The swing bracket 10 is swingable by extension and contraction of the swing cylinder C1. The boom 11 is swingable by extension and contraction of the boom cylinder C2. The arm 12 is swingable by extension and contraction of the arm cylinder C3. The bucket 13 is capable of squeezing and dumping by extension and contraction of the bucket cylinder C4. The swing cylinder C1, the boom cylinder C2, the arm cylinder C3, and the bucket cylinder C4 are configured by hydraulic cylinders (hydraulic actuators).

Next, with reference to FIG. 2 and the like, an arrangement configuration of main devices mounted on the working machine 1 will be schematically described.
As shown in FIG. 2, a prime mover E1 is mounted on the rear portion of the airframe 2 (see FIG. 5). Prime mover E1 is a diesel engine. The prime mover E1 may be a gasoline engine, an electric motor, or a hybrid type having an engine and an electric motor. A cooling fan 14 is attached to the right side of the prime mover E1. The cooling fan 14 is driven by the prime mover E1 and generates cooling air that flows from the right to the left, that is, from the outside of the airframe 2 toward the prime mover E1. Specifically, the cooling fan 14 is a suction fan that draws in air (outside air) from the right side of the fuselage 2 and flows it toward the engine E1.

A radiator 15 , an oil cooler 16 and a fuel cooler 17 are arranged to the right of the cooling fan 14 . The radiator 15 is a cooler that cools the coolant that cools the engine E1. The oil cooler 16 is a cooler that cools return hydraulic oil returned from hydraulic actuators such as hydraulic cylinders and hydraulic motors. The fuel cooler 17 is a cooler that cools the fuel. These coolers are cooled by the cooling air sucked by the cooling fan 14 .

A compressor 18 driven by the prime mover E1 is arranged in front of the right portion of the prime mover E1. The compressor 18 is a device that constitutes a part of the air conditioning system (air conditioner) installed in the working machine 1, and compresses a refrigerant (air conditioner gas) into a semi-liquid state.
A fuel tank (tank) 19 is arranged in front of the compressor 18 , the radiator 15 and the oil cooler 16 . The fuel tank 19 is a tank that stores fuel for the prime mover E1. A swing motor 20 is arranged below the left portion of the fuel tank 19 (see FIG. 5). The swing motor 20 is configured by a hydraulic motor (hydraulic actuator). The turning motor 20 is a motor that turns (rotates) the body 2 around the turning axis X1. A swivel joint 21 is arranged at the position of the turning axis X1. The swivel joint 21 is a rotary joint that allows hydraulic fluid to be supplied and discharged between the hydraulic actuator on the travel device 3 side and the control valve V1 on the machine body 2 side. The left portion of the fuel tank 19 , the swing motor 20 and the swivel joint 21 are arranged below the cabin 5 .

A battery 22 is arranged in front of the fuel tank 19 . The battery 22 is a storage battery that supplies electric power to electrical components installed in the work machine 1 . Arranged in front of the battery 22 are a condenser 23 and a receiver 24 that form part of the air conditioning system. The condenser 23 is a device that radiates heat from the refrigerant from the compressor 18 and liquefies it. Specifically, it is a cooler that cools the semi-liquid refrigerant by the compressor 18 to promote liquefaction. In this embodiment, the capacitor 23 is an electric capacitor cooled by an electric fan. The receiver 24 is a device that stores the refrigerant liquefied by the condenser 23, separates the refrigerant that could not be liquefied by the condenser 23 from the liquefied refrigerant, and removes moisture and impurities.

A hydraulic pump 25 is attached to one side (left portion) of the prime mover E1. The hydraulic pump 25 is driven by the power of the prime mover E1. The hydraulic pump 25 discharges hydraulic oil (pressure oil) for driving hydraulic actuators such as hydraulic motors and hydraulic cylinders installed in the work machine 1 . In addition, the hydraulic pump 25 discharges pilot pressure for operating hydraulic valves and hydraulic pressure for signals.

An exhaust gas purification device 26, an air cleaner 27, and a hydraulic oil tank 28 are arranged to the left of the prime mover E1. The exhaust gas purifying device 26 is a device for purifying exhaust gas discharged from the prime mover E1, and is, for example, a DPF (Diesel particulate filter). The air cleaner 27 is a device that cleans the air supplied to the prime mover E1. The hydraulic oil tank 28 is a tank that stores hydraulic oil. The exhaust gas purification device 26 and the air cleaner 27 are arranged above the hydraulic pump 25 , and the air cleaner 27 is arranged to the left of the exhaust gas purification device 26 . The hydraulic oil tank 28 is arranged below the driver's seat 6 . Hydraulic oil is delivered from the hydraulic oil tank 28 to the hydraulic pump 25 .

A control valve V<b>1 is arranged in front of the hydraulic oil tank 28 . The control valve V1 controls the flow rate of hydraulic fluid supplied from the hydraulic pump 25 to a hydraulic actuator mounted on the work implement 1 and driven by hydraulic fluid. Specifically, the control valve V<b>1 is a valve unit that integrates control valves that control the flow rate of hydraulic oil supplied to the hydraulic actuators of the work machine 1 . The control valve V1 is arranged below a step portion 84a, which will be described later.

The hydraulic oil tank 28 and the control valve V1 are arranged on the same side of the machine body 2 as the hydraulic pump 25 . By arranging the hydraulic pump 25, the hydraulic oil tank 28, and the control valve V1 on one side (left side) of the airframe 2, the hydraulic hose routed between the hydraulic pump 25, the hydraulic oil tank 28, and the control valve V1 can be arranged. simplification of policy routes and the like can be achieved.

An air conditioner body 29 for air-conditioning the interior of the cabin 5 is arranged above the prime mover E1, the hydraulic pump 25, and the exhaust gas purification device 26 (see FIG. 5). The air conditioner main body 29 is a device that constitutes the main body of the air conditioning system, and has a case and an expansion valve, an evaporator, a blower fan, etc. housed in the case. In the air conditioner main body 29, the refrigerant from the receiver 24 is sprayed into the evaporator from the expansion valve and vaporized, the vaporized refrigerant cools the evaporator, and the wind of the blower fan is passed through the evaporator to generate cool air. Refrigerant leaving the evaporator returns to the compressor 18-. The heating system of the air conditioning system uses the heat of the prime mover E1.

As shown in FIG. 3, the airframe 2 has a turning frame 30 as a skeleton. The revolving frame 30 has a revolving base (substrate) 31 forming the bottom of the body 2 , reinforcing ribs 32 reinforcing the revolving base 31 , the support brackets 9 described above, and weights 33 . The revolving frame 30 also has brackets, stays, and the like for attaching devices, tanks, and other parts to be mounted on the body 2 . The swivel base plate 31 is formed of a thick steel plate or the like. Brackets, stays, and the like mounted on the swivel frame 30 are fixed on the swivel base plate 31 by welding. The swivel base plate 31 is rotatably supported on the travel device 3 via the swivel bearing 8 around the swivel axis X1.

The reinforcing ribs 32 are provided on the swivel base plate 31 from the front to the rear. The reinforcing ribs 32 are made of a plate material, stand upright on the swivel base plate 31 with their plate thickness direction aligned with the horizontal direction, and are fixed to the swivel base plate 31 by welding. Specifically, the reinforcing ribs 32 include a first vertical rib 32R provided on one side (right side) of the turning base plate 31 in the body width direction K2 and extending from the front part to the rear side of the turning base plate 31; and a second longitudinal rib 32L provided on the other side (left side) in the width direction K2 and extending from the front portion toward the rear portion of the swivel base plate 31 .

As shown in FIGS. 4A, 4B, and 4C, the hydraulic oil tank 28 is arranged on the other side (left side) of the fuselage width direction K2 relative to the second longitudinal rib 32L. The control valve V<b>1 is arranged on the other side (left side) of the machine width direction K<b>2 from the second vertical rib 32</b>L and forward from the hydraulic oil tank 28 . The hydraulic pump 25 is arranged on the rear side of the aircraft body with respect to the front end portion of the hydraulic oil tank 28 . A delivery hose (hydraulic hose) 114 connecting the hydraulic pump 25 and the control valve V1 is routed between the second vertical rib 32L and the hydraulic fluid tank 28. As shown in FIG.

As a result, it is possible to improve the maintainability of the suction filter (not shown) and the return filter 115 provided in the hydraulic oil tank 28, and to avoid noise caused by interference between the delivery hose (hydraulic hose) 114 and the exterior.
A return filter 115 is provided in front of the hydraulic oil tank 28 , and the return filter 115 and the control valve V<b>1 are connected by a return hose (hydraulic hose) 116 .

The support bracket 9 is composed of a pair of upper and lower plate members and is fixed to the front portion of the reinforcing rib 32 . The weight 33 is attached to the rear portion of the swivel base plate 31 .
A partition plate 34 is fixed to an intermediate portion of the turning base plate 31 in the front-rear direction. The partition plate 34 is vertically oriented and arranged to extend in the fuselage width direction K2, and crosses the first longitudinal rib 32R and the second longitudinal rib 32L. A motor E<b>1 is mounted between the partition plate 34 and the weight 33 . A front end side of the hydraulic oil tank 28 is arranged on the left side of the partition plate 34 . The rear portion of the hydraulic oil tank 28 and the hydraulic pump 25 are arranged behind the partition plate 34 .

A reinforcement plate 35 extending rearward from an upper plate 9A constituting the upper portion of the support bracket 9 is fixed to the front of the partition plate 34 and on the first vertical rib 32R and the second vertical rib 32L.
As shown in FIGS. 3, 4B, and 4C, mount attachment portions 36 are provided on the front left side of the swivel base plate 31 and the front portion of the reinforcing plate 35 . A pair of left and right support portions 37 are provided on the left portion of the weight 33 so as to protrude upward.

As shown in FIG. 4A , a mount member 38 is attached to the mount attachment portion 36 to attach the front portion of the cabin 5 while supporting it in a vibration-isolating manner. A shield plate 40 is attached to the left and right support portions 37 of the weight 33 via a thick plate member 39 (see FIG. 19). 41 is attached.
As shown in FIG. 4A , the left and right side surfaces and the front surface of the swivel frame 30 are covered with swivel covers 42 . The control valve V1 is housed inside the fuselage 2 and can be inspected and serviced by removing the swivel cover 42 .

As shown in FIGS. 2 and 5 to 7, the body 2 has a cover device 43 that covers equipment, parts, members, etc. mounted on the revolving frame 30. As shown in FIG. The cover device 43 is configured with a plurality of covers. The plurality of covers includes first cover 43A to ninth cover 43I and duct structure 45. As shown in FIG. The first cover 43A is arranged on the right front portion of the fuselage 2 and covers the capacitor 23 and the receiver 24 . The first cover 43A is detachable, and by removing it, inspection and maintenance of the capacitor 23 and the receiver 24 are possible. The second cover 43B is arranged behind the first cover 43A and covers the fuel tank 19 and the battery 22 from above. As shown in FIG. 5, the second cover 43B is pivotally supported by a hinge at its rear portion and opens upward. Inspection and maintenance of the battery 22 can be performed. The third cover 43C covers the fuel tank 19 and the right side of the battery 22 . As shown in FIG. 2, the third cover 43C is pivotally supported by a hinge at its rear portion and opens rearward. can do The third cover 43C is not limited to being pivotally supported by hinges, and may be detachably attached by bolts, for example. The fourth cover 43D covers the radiator 15, the oil cooler 16, and the fuel cooler 17 from above and from the right side to the rear. The fourth cover 43D has an opening 44 through which the cooling fan 14 takes in outside air. As shown in FIG. 8, the front portion of the fourth cover 43D is pivotally supported by a hinge and opens forward. By opening the second cover 43D, inspection and maintenance of the radiator 15, the oil cooler 16 and the fuel cooler 17 can be performed. The fifth cover 43E covers the cooling fan 14 from above. The sixth cover 43F and the seventh cover 43G cover the rear of the prime mover E1. The sixth cover 43F has an upper first portion 43Fa located above the seventh cover 43G and a second portion 43Fb located to the left of the seventh cover 43G. The seventh cover 43G, as shown in FIG. 8, has an upper portion pivoted by a hinge and opens upward. The seventh cover 43G may be configured such that the left side or right side is pivotally supported by a hinge so that it opens leftward or rightward. The eighth cover 43H covers the upper portion of the hydraulic oil tank 28 and the left side of the air cleaner 27 . As shown in FIG. 7, the eighth cover 43H is hinged at its rear portion and opens rearward. By opening the eighth cover 43H, inspection and maintenance of the hydraulic oil tank 28, the air cleaner 27, and the hydraulic pump 25 can be performed. The ninth cover 43I is arranged below the eighth cover 43H and covers the lower portion of the hydraulic oil tank 28 . The duct structure 45 is provided on the left side of the fifth cover 43E, covers the upper side of the prime mover E1, and discharges the hot air above the prime mover E1 to the outside of the cover device 43. As shown in FIG.

As shown in FIG. 7, an opening/closing cover 42A is provided on the left side surface of the turning cover 42. As shown in FIG. The opening/closing cover 42A is pivoted at its upper portion by a hinge and opens upward. The control valve V1 can be accessed by opening the opening/closing cover 42A.
As shown in FIGS. 4A and 9, the turning motor 20 is arranged in front of the partition plate 34 and near the first vertical rib 32R between the first vertical rib 32R and the second vertical rib 32L. The fuel tank 19 is arranged above the first vertical rib 32R (reinforcing rib 32) and extends from the right end side of the fuselage 2 (right side of the first vertical rib 32R) to above the first vertical rib 32R in the fuselage width direction K2. It is arranged so as to cross and extend to the upper side of the turning motor 20 .

As shown in FIG. 9 , the swing motor 20 is mounted on a swing base plate 31 . The swing motor 20 is arranged below the cabin 5 . A swing pinion 47 driven around the vertical axis by the power of the swing motor 20 is attached to the lower portion of the swing motor 20 . A swivel pinion 47 is arranged below the swivel base plate 31 and engages the swivel bearing 8 . Specifically, the slewing bearing 8 comprises an outer ring attached to the machine body 2 and an inner ring provided rotatably around the slewing axis X1 on the inner peripheral side of the outer ring and having an internal gear formed on the inner peripheral side. A slewing pinion 47 meshes with the internal gear. The turning pinion 47 is rotationally driven by the turning motor 20 and moves along the internal gear, thereby turning the machine body 2 around the turning axis X1.

As shown in FIG. 9 , the fuel tank 19 is arranged near the swing motor 20 . Specifically, it is arranged on the right side of the turning motor 20 . The fuel tank 19 includes a tank body 19A arranged on the right side of the swing motor 20, a projecting portion 19B extending leftward from the tank body 19A and projecting upward from the swing motor 20, and a tank body 19A extending downward from the tank body 19A. It has a protruding portion 19C that protrudes toward. The projecting portion 19C is formed so as to extend in the body width direction K2 at the front-rear direction central portion of the tank body 19A (see FIG. 15). The lower surface of the tank main body 19A and the front and rear of the protruding portion 19C are used as a mounting lower surface 48 to be mounted on a mounting portion 55c, which will be described later. The pair of mounting lower surfaces 48 are formed as flat surfaces over the body width direction K2.

In the fuel tank 19 of this embodiment, the capacity of the fuel tank 19 can be increased by providing the projecting portion 19B and the projecting portion 19C.
As shown in FIGS. 9 and 10, the cabin 5 has lower side plates 49 at its lower portion. The lower side plates 49 are provided on the lower left side and the lower right side of the cabin 5 . The left and right lower side plates 49 are members that form a cabin frame that forms the skeleton of the cabin 5 together with the front pillar 50 and the rear pillar 51 . A notch portion 49 a is formed on the lower side of the lower side plate 49 to avoid interference with the projecting portion 19 B of the fuel tank 19 .

As shown in FIG. 11 , the projecting portion 19B is inserted below the cabin 5 via the notch portion 49a. The fuel tank 19 is supported by a support base 52 attached to the revolving frame 30 . Further, the fuel tank 19 is movably supported by the support base 52 so as to retract the projecting portion 19B from the upper side of the turning motor 20. As shown in FIG. In this embodiment, the fuel tank 19 can be moved outward (to the right) in the machine width direction K2 from the installation position shown in FIG.

As shown in FIG. 12, the support base 52 has a first side plate 53, a second side plate 54 and an upper plate 55. As shown in FIG.
As shown in FIGS. 12 and 13, the first side plate 53 includes a front upper edge 53a, a longitudinal edge 53b extending downward from the front upper edge 53a, and a rearward extending lower end of the longitudinal edge 53b. and a rear upper edge 53c. The first side plate 53 also has a mounting piece 53d formed at the lower front portion. As shown in FIG. 13, the mounting piece 53d is attached by a bolt to a nut member 56 fixed on the reinforcing plate 35. As shown in FIG.

As shown in FIGS. 14 and 15, the second side plate 54 includes a front upper edge 54a, a longitudinal edge 54b extending downwardly from the front upper edge 54a, and a rear first edge extending rearwardly from the longitudinal edge 54b. 1 upper edge 54c, a rear second upper edge 54d positioned at a distance behind the rear first upper edge 54c, and a rear upper edge 54c provided between the rear first upper edge 54c and the rear second upper edge 54d. and a recessed edge portion 54e recessed downward. The concave edge portion 54e includes a first edge portion 54e1 extending downward from the rear end of the rear first upper edge 54c, a second edge portion 54e2 extending downward from the front end of the rear second upper edge 54d, and a first edge portion 54e1. and a third edge portion 54e3 connecting the lower ends of the second edge portion 54e2. The second side plate 54 has a mounting piece 54f at the lower front portion. The attachment piece 54f is attached to the swivel base plate 31 with a bolt.

As shown in FIGS. 12-15, the top plate 55 is secured to the first side plate 53 and the second side plate 54 . The upper plate 55 has a battery mounting wall 55a, a hanging wall 55b, a pair of mounting portions 55c, and a connecting wall 55d.
The battery mounting wall 55a extends between the front upper edges 53a and 54a of the first side plate 53 and the second side plate 54. As shown in FIG. The battery 22 is placed and attached to the battery attachment wall 55a (see FIG. 4A).

The hanging wall 55b extends downward from the rear edge of the battery mounting wall 55a and extends between the vertical edges 53b and 54b of the first side plate 53 and the second side plate 54. As shown in FIG.
One of the pair of mounting portions 55c (front side) mounting portion 55c extends rearward from the lower edge of the hanging wall 55b. It is provided over the rear first upper edge 54 c of the plate 54 . The other (rear) mounting portion 55c is arranged behind the one mounting portion 55c with a space therebetween, and is positioned between the rear upper edge 53c of the first side plate 53 and the rear portion of the second side plate 54. It is provided over the second upper edge 54d. A mounting piece 55e is formed on the rear right side of the other mounting portion 55c. The attachment piece 55e is fixed by a bolt to a support plate 57 provided on the revolving frame 30. As shown in FIG. An extension piece 55f extending rearward is formed on the left side of the mounting piece 55e in the other mounting portion 55c. A pair of mounting portions 55c protrude rightward from the second side plate 54 .

As shown in FIG. 15, the mounting lower surface 48 of the fuel tank 19 is mounted on the pair of mounting portions 55c so as to be movable (slidable) in the machine body width direction K2. In other words, the support table 52 has a pair of mounting portions 55c that slidably support the fuel tank 19 in the tank moving direction 58, which is the direction in which the fuel tank 19 is moved. are spaced side by side in a horizontal direction perpendicular to the direction of tank movement 58 . In this embodiment, the mounting lower surface 48 is mounted on the mounting portion 55c via an underlay member 59 provided on the upper surface of the mounting portion 55c. The underlying member 59 is formed of, for example, a member with low frictional resistance or a member with cushioning properties. Also, the underlay member 59 may be formed of a member having a low frictional resistance and a cushioning property.

As shown in FIG. 15, the protruding portion 19C protrudes between the pair of mounting portions 55c and is positioned within the concave edge portion 54e.
As shown in FIG. 13, the connecting wall 55d connects the left ends of the pair of mounting portions 55c. The projecting portion 19C is arranged on the right side of the connecting wall 55d. The rear portion of the connecting wall 55d is placed on and supported by a block member 60 fixed on the reinforcing plate 35. As shown in FIG.

As shown in FIG. 16, the fuel tank 19 is movable on the support base 52 in the tank moving direction 58 (body width direction K2), and the fuel tank 19 can be moved rightward from the installation position shown in FIG. Then, the projecting portion 19B is retracted from above the turning motor 20. As shown in FIG. As a result, access to the turning motor 20 becomes possible, and maintenance of the turning motor 20 becomes possible. A motor removal path 61 is provided between the cabin 5 and the support base 52 to remove the turning motor 20 . Therefore, by moving the fuel tank 19 to retract the projecting portion 19B from above the turning motor 20, the projecting portion 19B is retracted from the motor removal path 61. FIG. By retracting the projecting portion 19B from the motor removal path 61, the turning motor 20 can be removed upward through the motor removal path 61. FIG. That is, the protruding portion 19B projects above the swing motor 20 by blocking the motor removal path 61, which is the path along which the swing motor 20 is removed from the body 2 upward. In other words, the motor removal path 61 for removing the turning motor 20 is used for disposing the fuel tank 19 .

As described above, in this embodiment, by moving the fuel tank 19 to retract the overhanging portion 19B from the upper side of the swing motor 20, it is possible to secure maintenance, removal, etc. of the swing motor 20. 19 is provided with an overhanging portion 19B projecting upward from the turning motor 20, the capacity can be increased, and the space above the turning motor 20 can be effectively used.

Further, since the motor removal path 61 for removing the swing motor 20 is formed between the cabin 5 and the support base 52, the swing motor 20 can be removed without removing (lowering) the cabin 5 from the airframe 2. can be done. Moreover, since the cabin 5 does not have to be taken down from the machine body 2 to remove the turning motor 20, the cabin 5 can be firmly mounted on the machine body 2. - 特許庁

In this embodiment, the support base 52 is formed by combining a tank support base that supports the fuel tank 19 and a battery support base that supports the battery 22. However, the tank support base and the battery support base are different. , may be formed separately.
As shown in FIG. 17 , the fuel tank 19 has a mounting stay 63 mounted on a mounting frame 62 erected on the support base 52 . By attaching the mounting stay 63 to the mounting frame 62, movement of the fuel tank 19 in the tank moving direction 58 can be restricted.

As shown in FIGS. 12 and 17, the mounting stay 63 has a lower wall 63a and a vertical wall 63b extending upward from the rear portion of the lower wall 63a. The lower wall 63 a is fixed to a mounting fixture 64 , and the mounting fixture 64 is mounted to a mounting portion 65 provided on the upper portion of the fuel tank 19 .
As shown in FIGS. 12 and 17, the mounting frame 62 includes a support member 62A erected from the extension piece 55f of the mounting portion 55c, a stay mounting portion 62B fixed to the upper portion of the support member 62A, and a frame mounting member. and a portion 62C. The stay attachment portion 62B is fixed to the upper front side of the support member 62A. By detachably attaching the mounting stay 63 to the stay mounting portion 62B with a bolt or the like, movement of the fuel tank 19 in the tank movement direction 58 can be restricted. Further, by releasing the fixation of the mounting stay 63 to the stay mounting portion 62B, the movement of the fuel tank 19 in the tank moving direction 58 can be permitted. The frame attachment portion 62C is fixed to the upper end of the support member 62A on the rear side of the stay attachment portion 62B. By opening the second cover 43B, the fixation of the mounting stay 63 to the stay mounting portion 62B can be released. Further, by opening (or removing) the second cover 43B and the third cover 43C, the fuel tank 19 can be moved to the right.

As shown in FIGS. 4A and 17 , the mounting frame 62 is attached to a support frame 66 that supports equipment mounted on the airframe 2 . As a result, the mounting frame 62 can be sufficiently supported, and the movement of the fuel tank 19 can be sufficiently controlled and supported.
The support frame 66 has a gate-shaped main frame 67 and sub-frames 68 that reinforce the main frame 67 . For example, the radiator 15 and a fan shroud surrounding the cooling fan 14 are attached to and supported by the main frame 67 . The main frame 67 has a lower portion attached to a mounting portion 69 provided on the weight 33 and a rear support portion 67A erected on the mounting portion 69, and a lower portion attached to a mounting portion 70 fixed to the partition plate 34. It has a front strut portion 67B erected on the mounting portion 70 and a connecting portion 67C that connects the rear strut portion 67A and the front strut portion 67B. An attachment piece 71 to which the frame attachment portion 62C is attached is fixed to the upper portion of the front strut portion 67B.

The sub-frame 68 is formed of a bar or plate, and has a lower portion attached to a support plate 57 fixed to the partition plate 34, and a column portion 68A standing upright from the support plate 57. It has a horizontal member portion 68B which extends in the direction and whose left end side is fixed to the upper portion of the front strut portion 67B. The mounting piece 71 is also fixed to the horizontal member portion 68B.
As shown in FIG. 18, the hose 73 connected to the fuel tank 19 has enough pressure to allow the movement of the fuel tank 19 in the tank movement direction 58 as indicated by the phantom line. formed in length. The hose 73 connected to the fuel tank 19 includes a delivery hose 73A that feeds fuel from the fuel supply pump 72 to the fuel tank 19, a fuel tube 73B that connects the fuel filter 100 and the fuel tank 19, and a hose that returns to the fuel tank 19. A return hose 73C for circulating the fuel to be discharged, a drain tube 73D for draining the fuel in the fuel tank 19, and the like.

As shown in FIGS. 5 and 19 , the air conditioner main body 29 is mounted in the rear portion of the cabin 5 . The air conditioner main body 29 is arranged behind the driver's seat 6 , more specifically, behind the backrest portion 6</b>B of the driver's seat 6 . The air conditioner main body 29 has a front part inside the cabin 5 and a rear part protruding rearward from the rear surface of the cabin 5 . A portion of the air conditioner main body 29 protruding from the cabin 5 is covered with an air conditioner cover 46 . By projecting the air conditioner main body 29 from the cabin 5, it is possible to suppress the air conditioner main body 29 from narrowing the indoor space of the cabin 5.例文帳に追加

As shown in FIG. 8, the air conditioner cover 46 has an opening/closing cover 46A that can be opened and closed. The opening/closing cover 46A is pivotally supported on the cabin 5 via a hinge at the front side of the upper part and opens upward. By opening the opening/closing cover 46A, maintenance of the air conditioner body 29 and the like can be performed.
As shown in FIG. 19, the air conditioner body 29 is arranged above a motor room (engine room) E2 that houses the motor E1. By arranging the air conditioner main body 29, which has conventionally been installed below the driver's seat 6, above the motor room E2, it is possible to widen the foot space of the operator.

As shown in FIGS. 2, 19, 27, etc., the engine room E2 includes a partition wall 74 separating the engine E1 and the driver's seat 6 side, a partition plate 34, a swivel base plate 31, a weight 33, a sixth cover 43F to a ninth cover 43F to a ninth cover. It is composed of a cover 43I, a shielding plate 40, and the like.
As shown in FIG. 19 , the cabin 5 has a plate member 75 provided behind the driver's seat 6 . Specifically, the plate member 75 is provided at the lower rear portion of the backrest portion 6B of the driver's seat 6 . The plate member 75 has a front portion disposed inside the cabin 5 and a rear portion protruding rearward from the rear surface of the cabin 5 . A plate member 75 is connected to the rear portion of the left and right lower side plates 49 . The plate member 75 is connected to the rear portion of a floor sheet (outer wall of the cabin 5 ) 84 that forms the bottom side of the interior of the cabin 5 . The floor seat 84 includes a step portion 84a on which the operator's feet are placed, a seat base portion 84b positioned behind the step portion 84a and on which the driver's seat 6 is mounted, and which shifts upward as it goes rearward from the seat base portion 84b. It has an inclined wall portion 84 c and a connection wall portion 84 d that extends rearward from the rear upper portion of the inclined wall portion 84 c and is connected to the plate member 75 .

As shown in FIG. 19, the floor sheet 84 and the partition wall 74 are spaced apart. That is, the engine room E1 and the interior of the cabin 5 are partitioned by a double structure of the partition wall 74 that separates the engine room E1 from the outside of the engine room E1 and the outer wall of the cabin 5 (floor sheet 84). Further, the plate member 75 is arranged above the engine compartment E2 with a gap therebetween, and is supported by the airframe 2 via the mount member 41 for vibration isolation. The air conditioner body 29 is installed on this plate member 75 . The plate member 75 is made of a thick plate material, and is spaced apart from the motor chamber E2. ) from being transmitted to the air conditioner body 29 can be greatly suppressed.

Further, by installing the air conditioner main body 29 on the plate member 75 to which the mount member 41 for supporting the rear portion of the cabin 5 in vibration isolation is attached, it is possible to achieve common use of the members and to make the installation structure of the air conditioner main body 29 compact. be able to.
As shown in FIG. 20, a filter device 77 is installed behind the air conditioner body 29 . On the left side of the air conditioner main body 29, there is provided an intake section 29A for sucking air, and on the right side of the air conditioner main body 29, there is provided a discharge section 29B for discharging conditioned air.

As shown in FIG. 19, the filter device 77 and the air intake portion 29A are connected by an air intake duct 78, and outside air is drawn into the air conditioner body 29 via the filter device 77. As shown in FIG. A supply duct 79 is connected to the discharge portion 29B, and conditioned air is supplied into the cabin 5 from the supply duct.
As shown in FIG. 2, the duct structure 45 for discharging hot air from the engine room E2 to the outside is provided on the right side of the engine room E2 (on the right side of the engine E1).

As shown in FIGS. 23A and 24, the duct structure 45 forms part of a partition wall 74 that forms the engine room E2. Specifically, the partition wall 74 includes a main wall portion 80 forming the left portion of the partition wall 74, a fan cover wall portion 81 forming the right portion of the partition wall 74, and a wall portion between the main wall portion 80 and the fan cover wall portion 81. a first connecting wall portion 82 connecting the lower portions of the main wall portion 80 and the fan cover wall portion 81; and the rear portions of the main wall portion 80 and the fan cover wall portion 81. It has the 2nd connection wall part 83 which connects.

As shown in FIG. 19, the main wall portion 80 has an upper wall 80A that covers the top of the prime mover E1 and a front wall 80B that covers the front of the prime mover E1. As shown in FIG. 19, the upper wall 80A is connected to the shielding plate 40. As shown in FIG.
As shown in FIGS. 23A and 24, a notch portion 117 is formed in the left portion of the front wall 80B. The notch portion 117 is formed in a notch shape that opens leftward and downward from an upper edge 117a extending in the machine width direction K2 and a vertical edge 117b extending downward from the right end of the upper edge 117a. As shown in FIG. 23B , cutout portion 117 is arranged such that the front portion of hydraulic oil tank 28 closes cutout portion 117 . A sealing member 118 is attached across the upper edge 117 a and the vertical edge 117 b of the notch 117 . Sealed. Therefore, the hydraulic oil tank 28 forms part of a partition wall 74 that separates the engine room E2 from the outside of the engine room E2 (on the side of the driver's seat 6).

As shown in FIGS. 21 and 22, the fan cover wall portion 81 has an upper wall 81A covering the upper side of the cooling fan 14 and a front wall 81B covering the front side of the cooling fan 14. As shown in FIGS. As shown in FIGS. 23A and 24, the first connecting wall portion 82 connects the lower portions of the front wall 80B of the main wall portion 80 and the front wall 81B of the fan cover wall portion 81 to each other. As shown in FIG. 24, the second connecting wall portion 83 connects the rear portions of the upper wall 80A of the main wall portion 80 and the upper wall 81A of the fan cover wall portion 81 to each other. As shown in FIG. 27 , the lower portion of the front wall 80B of the main wall portion 80, the lower portion of the front wall 81B of the fan cover wall portion 81, and the first connecting wall portion 82 are attached to the partition plate 34. As shown in FIG. As shown in FIGS. 23A and 27 , a contact that abuts and positions the upper end of the partition plate 34 over the front wall lower portion of the main wall portion 80 , the first connecting wall portion 82 , and the front wall 81 B lower portion of the fan cover wall portion 81 . A contact plate 85 is provided.

As shown in FIGS. 23A, 24 and 25, the duct structure 45 has a pair of side walls 86, a bottom wall 87 and a cover wall 88. As shown in FIGS. The pair of side walls 86 are arranged to face each other with a gap in the body width direction K2. One side wall 86L is connected to the right end side of the main wall portion 80 . The other side wall 86R is connected to the left end side of the fan cover wall portion 81. As shown in FIG. The space between the pair of side walls 86 is open rearward, forward, upward and downward. As shown in FIG. 27, the bottom wall 87 is located above the prime mover E1. The bottom wall 87 extends rearward from the second connecting wall portion 83 and extends between the rear lower ends of the pair of side walls 86 to block the rear lower ends of the pair of side walls 86 . Therefore, the space between the lower ends of the pair of side walls 86 is open on the front side and closed by the bottom wall 87 on the rear side. The front side between the lower ends of the pair of side walls 86, that is, between the front end of the bottom wall 87 and the cover wall 88 positioned in front of the front end of the bottom wall 87 communicates with the upper portion of the motor chamber E2. An introduction port 89 for introducing hot air is provided.

As shown in FIG. 23A, the cover wall 88 closes the upper ends and the front ends of the pair of side walls 86 . Specifically, the cover wall 88 includes an upper wall 88a extending from the rear end to the front lower end between the pair of side walls 86, and one extending from the left end of the upper wall 88a and detachably attached to one side wall 86L. It has a side wall 88b and another side wall 88c extending from the right end of the upper wall 88a and detachably attached to the other side wall 86R. 26 and 27, a closing wall 90 and a discharge port 91 are provided on the rear end side of the cover wall 88. As shown in FIGS. A closing wall 90 closes the lower portion of the rear end opening between the pair of side walls 86 . The discharge port 91 is provided above the closing wall 90 and is a portion that communicates with the outside of the motor chamber E2 to discharge the hot air introduced from the introduction port 89 .

The air taken into the engine compartment E2 by the cooling fan 14 is introduced into the duct structure 45 through the inlet 89 together with the hot air from the upper part of the engine compartment E2, as indicated by the arrow in FIG. It flows rearward in the duct structure 45 and is discharged from the discharge port 91 to the outside of the engine room E2.
As shown in FIG. 27, the compressor 18 is arranged in front of the right upper portion of the prime mover E1 and below the introduction port 89. As shown in FIG. As shown in FIG. 21, the compressor 18 is driven by transmission of the power of the prime mover E1 through a transmission belt 92, and as shown in FIG. The stay 94 is attached so that the tension of the transmission belt 92 can be adjusted.

As shown in FIG. 27, the lower front portion of the duct structure 45 is provided with a compressor placement portion 95 in which the compressor 18 is placed. The compressor arrangement portion 95 is arranged on the right side (one side) of the cabin 5 in the machine width direction K2. Further, the compressor placement portion 95 is provided below the introduction port 89 so as to communicate with the introduction port 89 .
As shown in FIGS. 23A and 25, the compressor placement portion 95 has a main body portion 95A having an inspection opening 95a and an opening/closing cover 95B closing the inspection opening 95a.

As shown in FIG. 25, the main body portion 95A is formed by recessing a plate member forming the partition wall 74 from the rear toward the front. The inspection opening 95 a opens forward and communicates between the pair of side walls 86 .
As shown in FIG. 23A, the opening/closing cover 95B is integrally formed on the lower front portion of the cover wall 88 of the duct structure 45. As shown in FIG. In other words, the opening/closing cover 95B can be attached/detached integrally with the cover wall 88 .

As shown in FIG. 28, by removing the opening/closing cover 95B together with the cover wall 88, the compressor 18 can be accessed through the inspection opening 95a and between the pair of side walls 86. As shown in FIG. Therefore, when the cover wall 88 is removed together with the opening/closing cover 95B, the tension of the transmission belt 92 that transmits power to the compressor 18 can be adjusted. Also, the compressor 18 can be removed. Also, the compressor 18 is accessible from within the cabin 5 . Specifically, as shown in FIG. 1, an openable window 5A is provided on the right side (one side) of the cabin 5, and a compressor placement portion 95 is arranged on the right side (one side) of the cabin 5. . Therefore, the compressor 18 can be accessed from inside the cabin 5 by opening the second cover 43B, removing the opening/closing cover 95B and the cover wall 88, and opening the opening/closing window 5A. As a result, maintainability such as maintenance of the compressor 18 and adjustment of the transmission belt 92 can be improved.

As shown in FIG. 27, in the duct structure 45, a refrigerant pipe 96 connected to the compressor 18 and a heat medium pipe 97 for heating the air conditioning system, which is routed from the engine E1 to the air conditioner body 29, are arranged. be taken care of. That is, the inside of the duct structure 45 is a wiring path 98 for wiring the refrigerant pipe 96 and the heat medium pipe 97 . In other words, the wiring path 98 is formed by the duct structure 45, and the hot air above the motor chamber E2 is exhausted using the wiring path 98. Therefore, the wiring path 98 communicates with the upper portion of the motor chamber E2 to introduce hot air from the motor chamber E2, and communicates with the exterior of the motor chamber E2 to discharge the hot air introduced from the inlet 89. and an outlet 91 .

In this embodiment, the duct structure 45 forms a wiring path 98 for the refrigerant pipe 96 and the heat medium pipe 97, and an exhaust path for exhausting hot air from the motor chamber E2. It is possible to simplify the structure and use common members.
As shown in FIGS. 27 to 30, the refrigerant pipe 96 includes a hose 96a, a pipe (steel pipe) 96b, a joint 96c, and the like. The refrigerant pipe 96 is inserted from the compressor 18 into the wiring path 98 via the introduction port 89 and is clamped by the clamp portion 99 in the middle of the wiring path 98 . A pair of refrigerant pipes 96 are provided. One refrigerant pipe 96A is routed from the clamp 99 portion to the air conditioner main body 29 through one (left) side wall 86L. The other refrigerant pipe 96B passes through one side wall 86L, is routed forward, is connected to the condenser 23, is routed from the condenser 23 to the receiver 24, and is routed rearward from the receiver 24 to the air conditioner body 29. It is connected. One refrigerant pipe 96A and the other refrigerant pipe 96B are detachable from one side wall 86L.

As shown in FIG. 27, the heat medium pipe 97 includes a hose 97a, a pipe (steel pipe) 97b, a joint, and the like. A pair of heat medium pipes 97 are provided. A pair of heat medium pipes 97 are inserted into the wiring path 98 from the prime mover E1 through the introduction port 89, pass through one side wall 86L, and are connected to the air conditioner main body 29. As shown in FIG.
FIG. 31 shows a state in which the compressor 18 is removed from the prime mover E1, the condenser 23 and the receiver 24 are removed from the fuselage 2, and the refrigerant pipe 96 is removed from one side wall 86L. When the cabin 5 is removed from the fuselage 2, the compressor 18, the condenser 23 and the receiver 24 can be left in the cabin 5 with the refrigerant pipe 96 connected to the compressor 18, the condenser 23, the receiver 24 and the air conditioner body 29. That is, the cabin 5 can be lowered from the airframe 2 without removing the refrigerant pipe 96 from the compressor 18, the condenser 23, the receiver 24, etc. (without removing the refrigerant).

In addition, since the condenser 23 and the receiver 24 are arranged on the front side of the cabin 5, the condenser 23 and the receiver 24 are not mounted on the machine body 2 in the case of the working machine 1 that does not have a cabin specification. can be used as a walkthrough.
32 and 33 show an intake structure 101 for taking air into the engine E1 and an exhaust structure 102 for discharging the exhaust gas discharged from the engine E1 to the outside of the engine room E2.

As shown in FIGS. 32 and 33, the intake structure 101 includes an air introduction box 103 for taking in air, a silencer box 104 for reducing intake noise, a connection box 105 connecting the air introduction box 103 and the silencer box 104, and an air cleaner 27. including. The exhaust structure 102 includes an exhaust gas purification device 26 and an exhaust duct 106 . The intake structure 101 is provided on the side (left side) of the exhaust gas purification device 26 . In addition, the intake structure 101 is provided on the other side (left side) of the body 2 in the body width direction K2.

As shown in FIGS. 32 and 33, the air introduction box 103 has a front wall 103a, an upper wall 103b, a lower wall 103c, a first left side wall 103d and a second right side wall 103e, and is open rearward. It is said that Further, as shown in FIG. 34, the second portion 43Fb of the sixth cover 43F is formed with an outside air intake port 109 for taking air (outside air) into the rear opening 107 of the air introduction box 103. As shown in FIG. The outside air intake 109 is formed by, for example, a louver or a large number of holes.

The air introduction box 103 separates the exhaust gas purifier 26 side and the gap 108 side, and sucks the intake air of the motor E1 from the opening 107 provided on the rear side of the air introduction box 103, so that the right side of the air introduction box 103 This prevents the intake of hot air from the side of the exhaust gas purifying device 26 arranged in.
Further, the exhaust port 91 of the duct structure 45 is provided on the right side (one side) in the body width direction K2, and the air intake structure 101 introduces outside air from the left side (the other side) in the body width direction K2. It is possible to prevent hot air discharged from the engine E1 from being taken in as intake air to the engine E1.

As shown in FIG. 34 , the air introduced into the air introduction box 103 flows through the connection box 105 to the muffling box 104 and from the muffling box 104 to the air cleaner 27 . From the air cleaner 27, it flows to the prime mover E1 via the intake hose 110 and the like.
As shown in FIGS. 32 and 33 , the exhaust duct 106 is arranged vertically between the exhaust gas purification device 26 and the swivel base plate 31 . The exhaust duct 106 has an inlet opening 106a opening rightward at its upper portion and an outlet opening 106b opening rearward at its lower portion. As shown in FIG. 33, an exhaust pipe 111 is connected to an exhaust gas discharge side 26a of the exhaust gas purification device 26. As shown in FIG. The exhaust pipe 111 is bent to face the entrance opening 106 a of the exhaust duct 106 . Exhaust gas discharged from the prime mover E1 passes through the exhaust gas purifying device 26, is blown out from the exhaust pipe 111 toward the inlet opening 106a, and is discharged from the outlet opening 106b.

On the other hand, as shown in FIG. 7 , a discharge portion 112 is formed by notching at the lower end of the right portion of the weight 33 . Exhaust gas discharged from the outlet opening 106b of the exhaust duct 106 is discharged to the outside from the discharge portion 112 .
The work machine 1 includes a traveling device 3, a machine body 2 supported on the traveling machine 3 so as to be able to turn, a turning motor 20 for turning the machine body 2, and a tank (fuel tank) arranged near the turning motor 20. 19) and a support base 52 for supporting the tank 19. The tank 19 has a tank main body 19A and an overhanging portion 19B that overhangs the swing motor 20 from the tank main body 19A. 19B is movably supported by the support base 52 so as to be retracted from the upper side of the turning motor 20. As shown in FIG.

According to this configuration, by moving the tank 19 and withdrawing the projecting portion 19B from the upper side of the swing motor 20, maintenance of the swing motor 20 can be ensured. A projecting portion 19B projecting to the outside can be provided to increase the capacity, and the space above the turning motor 20 can be effectively used.
In addition, the overhanging portion 19</b>B projects above the turning motor 20 by blocking a motor removal path 61 , which is a path through which the turning motor 20 is removed upward from the machine body 2 .

According to this configuration, even if the overhanging portion 19B projecting from the tank main body 19A to the upper side of the turning motor 20 is provided, the overhanging portion 19B can be retracted from the upper side of the turning motor 20, so that the turning motor 20 can be removed from the motor. It can be taken out from path 61 .
Further, a cabin 5 is mounted on the body 2 , the turning motor 20 is arranged below the cabin 5 , and a motor removal path 61 is formed between the cabin 5 and the support base 52 .

According to this configuration, the turning motor 20 can be removed without taking down the cabin 5 from the body 2 .
Further, the support table 52 has a pair of mounting portions 55c that slidably supports the tank 19 in the tank moving direction 58, which is the direction in which the tank 19 is moved. The tanks 19 are arranged side by side with a gap in the horizontal direction orthogonal to 58, and the tank 19 has a protruding portion 19C protruding from the tank main body 19A between the pair of mounting portions 55c.

According to this configuration, the projecting portion 19C can be provided on the tank 19 without interfering with the movement of the tank 19, and the capacity can be increased by providing the projecting portion 19C.
It also has a mounting frame 62 erected on the support base 52 and a mounting stay 63 provided on the top of the tank 19. The mounting frame 62 has a stay mounting portion 62B to which the mounting stay 63 is detachably mounted. have.

According to this configuration, movement of the tank 19 can be restricted.
Further, a support frame 66 that supports devices mounted on the body 2 is provided, and the mounting frame 62 has a frame mounting portion 62C that is mounted on the support frame 66. As shown in FIG.
Movement regulation of the tank 19 can be firmly performed.
Further, the engine E1 mounted on the fuselage 2 may be provided, and the tank 19 may be a fuel tank 19 that stores fuel for the engine E1.

The work machine 1 also includes a machine body 2, a cabin 5 mounted on the machine body 2, an air conditioner main body 29 for air-conditioning the interior of the cabin 5, a motor room E2 that houses a motor E1 mounted on the machine body 2, , and the air conditioner main body 29 is arranged above the engine room E2.
According to this configuration, by arranging the air conditioner main body 29 above the motor room E2, it is possible to widen the foot space of the operator as compared with the case where the air conditioner main body 29 is arranged below the driver's seat 6. - 特許庁

Further, the cabin 5 has a driver's seat 6 arranged inside the cabin 5, and the cabin 5 has a plate member 75 arranged behind the driver's seat 6 and on which the air conditioner body 29 is installed. It is arranged above the chamber E2 with a gap from the prime mover chamber E2, and is supported by the airframe 2 via a mount member 41 for vibration isolation.
According to this configuration, it is possible to suppress the heat from the motor chamber E2 from being transferred to the air conditioner main body 29, and it is possible to simplify the structure and use common members.

Further, the plate member 75 has a front portion disposed inside the cabin 5 and a rear portion protruding rearward from the rear surface of the cabin 5 .
According to this configuration, it is possible to prevent the air conditioner main body 29 from narrowing the indoor space of the cabin 5 .
Also, the cooling fan 14 that introduces the air outside the engine room E2 into the engine room E2, the compressor 18 that is driven by the power of the engine E1 to compress the refrigerant, and the layout of the refrigerant pipe 96 connected to the compressor 18. The path 98 includes an inlet port 89 that communicates with the upper portion of the motor chamber E2 to introduce hot air from the motor chamber E2, and an outlet port 91 that communicates with the outside of the motor chamber E2 and discharges the hot air introduced from the inlet port 89. and a routing path 98 having

According to this configuration, the routing path 98 of the refrigerant pipe 96 can be used as an exhaust path for exhausting hot air from the motor chamber E2, so that the configuration can be simplified and the members can be shared.
Further, a compressor placement portion 95 in which the compressor 18 is placed is provided, and the wiring path 98 closes a pair of side walls 86 that are placed facing each other with a gap in the body width direction K2 and the rear lower ends of the pair of side walls 86. It has a bottom wall 87 and a cover wall 88 that closes between the upper ends and between the front ends of the pair of side walls 86. An inlet port 89 is formed between the bottom wall 87 and the cover wall 88, and an outlet port 91 is formed between the cover walls. Formed in the rear portion of the wall 88 , the compressor placement portion 95 is provided below the introduction port 89 so as to communicate with the introduction port 89 .

According to this configuration, the layout of the refrigerant pipe 96 can be easily performed.
Further, the compressor placement portion 95 has a body portion 95A having an inspection opening 95a that opens forward and communicates between the pair of side walls 86, and an opening/closing cover 95B that closes the inspection opening 95a. It is detachable integrally with the wall 88 .
According to this configuration, the capacitor 23 can be accessed simply by removing the opening/closing cover 95B together with the cover wall 88 .

Further, on the side of the front part of the cabin 5 and in front of the compressor 18, a condenser 23 that liquefies the heat of the refrigerant from the compressor 18 and a receiver 24 that stores the refrigerant liquefied by the condenser 23 are arranged. Compressor 18 , condenser 23 and receiver 24 are removable from fuselage 2 together with cabin 5 .
According to this configuration, the cabin 5 can be lowered from the airframe 2 without removing the refrigerant pipe 96 from the compressor 18 , the condenser 23 and the receiver 24 .

Further, a compressor placement portion 95 in which the compressor 18 is placed is provided, and the compressor placement portion 95 is placed on one side of the cabin 5 in the fuselage width direction K2, and the compressor 18 is accessible from inside the cabin 5. .
According to this configuration, it is possible to improve maintainability such as maintenance of the compressor 18 and adjustment of the transmission belt 92 that transmits power to the compressor 18 .

The fuselage 2 also includes a substrate (rotating substrate 31), first longitudinal ribs 32R provided on one side of the substrate 31 in the fuselage width direction K2 and extending from the front to the rear of the substrate 31, A hydraulic actuator driven by hydraulic fluid, and a hydraulic fluid tank 28 that stores hydraulic fluid, and a second vertical rib 32L that is provided on the other side in the width direction K2 and extends from the front portion toward the rear portion of the substrate 31. , a hydraulic pump 25 that delivers hydraulic oil from a hydraulic oil tank 28, a control valve V1 that controls the flow rate of the hydraulic oil supplied from the hydraulic pump 25 to the hydraulic actuator, and the hydraulic pump 25 and the control valve V1 are connected. A hydraulic hose (delivery hose 114), the hydraulic oil tank 28 is arranged on the other side of the machine body width direction K2 from the second vertical rib 32L, and the control valve V1 is arranged on the machine body width from the second vertical rib 32L. The hydraulic pump 25 is arranged on the other side of the direction K2 and in front of the hydraulic oil tank 28, the hydraulic pump 25 is arranged on the rear side of the fuselage rather than the front end portion of the hydraulic oil tank 28, and the hydraulic hose 25 is connected to the second vertical rib. 32L and the hydraulic oil tank 28.

According to this configuration, it is possible to improve the maintainability of the suction filter and the return filter 115 provided in the hydraulic oil tank 28, and to avoid noise generation due to interference between the hydraulic hose (delivery hose 114) and the exterior.
Further, the engine room E2 and the inside of the cabin 5 are partitioned by a double structure of a partition wall 74 that separates the engine room E2 from the outside of the engine room E2 and the outer wall (floor sheet 84) of the cabin 5. The tank 28 forms part of the partition wall 74 .

According to this configuration, it is possible to suppress the heat of the motor chamber E2 from being transmitted into the cabin 5, and it is possible to use a common member.
A fuel tank 19 for storing fuel for the prime mover E1 is provided, and the fuel tank 19 is disposed above the first vertical rib 32R and across the first vertical rib 32R in the machine width direction K2.
According to this configuration, the cabin 5 can be arranged on the rear side of the aircraft body compared to the case where the fuel tank 19 is arranged on the rear side of the cabin 5, and the stability of the aircraft body can be improved.

Further, the exhaust port 91 is provided on one side in the machine width direction K2, and includes an intake structure 101 that introduces air into the prime mover E1. The intake structure 101 introduces outside air from the other side in the machine body width direction K2.
According to this configuration, it is possible to prevent the hot air discharged from the motor chamber E1 from being taken in as the intake air to the motor E1.

Although one embodiment of the present invention has been described above, it should be considered that the embodiment disclosed this time is illustrative in all respects and is not restrictive. The scope of the present invention is indicated by the scope of the claims rather than the above description, and is intended to include all modifications within the scope and meaning equivalent to the scope of the claims.

2 Body 5 Cabin 6 Driver's Seat 14 Cooling Fan 18 Compressor 19 Fuel Tank 23 Condenser 24 Receiver 25 Hydraulic Pump 28 Hydraulic Oil Tank 29 Air Conditioner Body 31 Board (Swivel Board)
32R First vertical rib 32L Second vertical rib 41 Mount member 74 Partition wall 75 Plate member 84 Outer wall (floor sheet)
86 Side wall 88 Cover wall 89 Inlet 91 Outlet 95 Compressor placement portion 95A Body portion 95B Open/close cover 95a Inspection opening 96 Refrigerant conduit 98 Wiring path 101 Intake structure 114 Hydraulic hose (delivery hose)
E1 Engine E2 Engine room K2 Machine width direction V1 Control valve

Claims (12)

Airframe and
a cabin mounted on the aircraft;
an air conditioner body for air conditioning the interior of the cabin;
a prime mover room for housing a prime mover mounted on the airframe;
with
The air conditioner body is a work machine arranged above the motor room. A driver's seat arranged in the interior of the cabin,
The cabin has a plate member disposed behind the driver's seat and on which the air conditioner body is installed,
2. A working machine according to claim 1, wherein said plate member is disposed above said motor chamber with a gap therebetween, and is supported by said machine body via a mount member in a vibration-isolating manner. 3. The working machine according to claim 2, wherein the plate member has a front portion disposed inside the cabin and a rear portion protruding rearward from the rear surface of the cabin. a cooling fan for introducing air outside the motor room into the motor room;
a compressor driven by the power of the prime mover for compressing a refrigerant;
A routing route of a refrigerant pipe connected to the compressor, comprising an inlet communicating with an upper portion of the motor chamber to introduce hot air from the motor chamber, and an inlet communicating with the outside of the motor chamber. a wiring path having an outlet for discharging the hot air introduced from the
The work machine according to any one of claims 1 to 3, comprising: A compressor placement portion in which the compressor is placed,
The wiring path includes a pair of side walls facing each other with a gap in the machine body width direction, a bottom wall closing between the rear lower ends of the pair of side walls, and a cover closing between the upper ends and between the front ends of the pair of side walls. a wall and
the inlet is formed between the bottom wall and the cover wall;
the outlet is formed in a rear portion of the cover wall,
5. The working machine according to claim 4, wherein the compressor placement portion is provided below the inlet so as to communicate with the inlet. The compressor placement portion has a body portion having an inspection opening that opens forward and communicates between the pair of side walls, and an opening/closing cover that closes the inspection opening,
6. The working machine according to claim 5, wherein the opening/closing cover is detachable integrally with the cover wall. On the side of the front part of the cabin and in front of the compressor, a condenser for liquefying the heat of the refrigerant from the compressor and a receiver for storing the refrigerant liquefied by the condenser are arranged,
The working machine according to claim 4, wherein the compressor, the condenser and the receiver are removable from the machine body together with the cabin. A compressor placement portion in which the compressor is placed,
The working machine according to any one of claims 4 to 7, wherein the compressor arrangement portion is arranged on one side of the cabin in the width direction of the machine body, and the compressor is accessible from inside the cabin. The fuselage comprises a substrate, a first longitudinal rib provided on one side of the substrate in the width direction of the substrate and extending from a front portion to a rear portion of the substrate, and a rib provided on the other side of the substrate in the width direction of the substrate. and a second longitudinal rib extending from the front to the rear of the substrate,
a hydraulic actuator driven by hydraulic fluid;
a hydraulic oil tank that stores the hydraulic oil;
a hydraulic pump that delivers the hydraulic oil from the hydraulic oil tank;
a control valve for controlling the flow rate of the hydraulic oil supplied from the hydraulic pump to the hydraulic actuator;
a hydraulic hose connecting the hydraulic pump and the control valve;
The hydraulic oil tank is arranged on the other side in the machine width direction of the second vertical rib,
The control valve is arranged on the other side in the machine width direction of the second longitudinal rib and forward of the hydraulic oil tank,
The hydraulic pump is arranged on the rear side of the fuselage with respect to the front end of the hydraulic oil tank,
The working machine according to claim 8, wherein the hydraulic hose is routed between the second vertical rib and the hydraulic oil tank. The engine room and the interior of the cabin are partitioned by a double structure of a partition wall that separates the engine room from the outside of the engine room and an outer wall of the cabin,
The working machine according to claim 9, wherein the hydraulic oil tank constitutes a part of the partition wall. A fuel tank for storing fuel for the prime mover,
The working machine according to claim 9 or 10, wherein the fuel tank is arranged above the first vertical rib and across the first vertical rib in the machine body width direction. The discharge port is provided on one side in the machine width direction,
An intake structure for introducing air into the prime mover,
The work machine according to claim 4, wherein the intake structure introduces outside air from the other side in the machine body width direction.

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