JP2021120628A - Construction machine - Google Patents

Abstract

To improve workability when attaching and detaching an antenna device.SOLUTION: A hydraulic excavator 1 includes an antenna support member 30 to which a first antenna device 26 is detachably attached, an upper link 32 whose one end 32A is rotatably attached to a link support member 28, and a lower link 33 whose one end 33A is rotatably attached to the link support member 28 below the upper link 32. An antenna support member 30 is rotatably attached to the other end 32B of the upper link 32 and the other end 33B of the lower link 33 to form a parallel link 31, and a first antenna device 26 is held by the parallel link 31 so as to be switchable between an antenna use position located above an upper swing body 3 and an antenna attachment/detachment position located lower than the antenna use position.SELECTED DRAWING: Figure 3

Description

The present disclosure relates to a construction machine provided with an antenna device for measuring the position information of a vehicle body.

In general, a hydraulic excavator representing a construction machine has a vehicle body composed of a self-propelled lower traveling body, an upper rotating body provided so as to be able to turn on the lower traveling body, and work provided on the front side of the upper turning body. It is equipped with a device. Here, a hydraulic excavator in which two antenna devices are provided on an upper swing body is known. This antenna device is composed of, for example, a GNSS (Global Navigation Satellite System) antenna, and measures the position information of a hydraulic excavator based on the position information of these two antenna devices to support construction management such as excavation work.

As a hydraulic excavator provided with such an antenna device, a hydraulic excavator in which an antenna device is attached above a counterweight via an antenna holding mechanism has been proposed. This antenna holding mechanism includes a shaft rotatably supported above the counterweight and a pole whose base end is fixed to the shaft and whose tip is detachably attached to the antenna device. This antenna holding mechanism has a configuration in which the pole rises vertically from the upper surface of the counterweight so that the antenna device can be supported at a high position when the hydraulic excavator is in operation (see Patent Document 1).

Japanese Unexamined Patent Publication No. 2008-102097

By the way, since the antenna device is very expensive, it is necessary to prevent theft by removing the antenna device from the vehicle body when the hydraulic excavator is not in operation. In the above-mentioned antenna holding mechanism according to the prior art, the antenna device can be removed from the tip of the pole on the ground while the tip of the pole fixed to the shaft is rotated downward by rotating the shaft. It is a structure that can be done.

However, since the antenna holding mechanism according to the prior art performs the attachment / detachment work of the antenna device in a state where the tip of the pole is rotated downward, the direction in which the antenna device comes out from the pole faces the ground. Therefore, the antenna device may be accidentally dropped on the ground during the attachment / detachment operation, which may damage the antenna device or cause the dropped antenna device to collide with the operator.

An object of an embodiment of the present invention is to provide a construction machine capable of improving workability when attaching and detaching an antenna device.

The construction machine according to the embodiment of the present invention is a construction machine including a self-propelled vehicle body and an antenna device provided on the vehicle body for measuring position information of the vehicle body, and the antenna device is attached / detached. An antenna support member that is rotatably attached, a first link member that is rotatably attached to the vehicle body on one side, and a first link member that is rotatably attached to the vehicle body on one side below the first link member. The antenna support member includes a two-link member, and the antenna support member is rotatably attached to the other side of the first link member and the other side of the second link member to form a parallel link, and the antenna device is the parallel. It is characterized in that it is held so as to be switchable between an antenna use position located above the vehicle body and an antenna attachment / detachment position located lower than the antenna use position by a link.

According to one embodiment of the present invention, the work of attaching / detaching the antenna device to / from the antenna support member by moving the antenna support member to which the antenna device is attached to an antenna attachment / detachment position lower than the antenna use position. You can improve your sex.

It is a right side view which shows the hydraulic excavator by one Embodiment of this invention. It is a top view of the hydraulic excavator with the working device removed. It is a perspective view which shows the antenna holding mechanism, the support member, the antenna device, the hydraulic oil tank, etc. by 1st Embodiment of this invention in the state which the front right side cover is removed. It is a perspective view of the main part which shows the support member, the antenna holding mechanism, the antenna device and the like. It is a perspective view which shows the hydraulic oil tank, the support member, the antenna holding mechanism, the antenna device, etc. in the state where the antenna is used. It is a perspective view which shows the hydraulic oil tank, the support member, the antenna holding mechanism, the antenna device, etc. in the state of being in the antenna attachment / detachment position. It is a perspective view which shows the antenna holding mechanism by the 2nd Embodiment of this invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings, taking as an example a case where it is applied to a hydraulic excavator. 1 to 6 show a first embodiment of the present invention. In the embodiment, the traveling direction of the hydraulic excavator will be the front-rear direction, and the direction orthogonal to the traveling direction of the hydraulic excavator will be described as the left-right direction.

In the figure, the hydraulic excavator 1 is provided on the front side of the crawler type lower traveling body 2 capable of self-propelling in the front-rear direction, the upper swivel body 3 mounted on the lower traveling body 2 so as to be swivel, and the upper swivel body 3. It is configured to include the work device 4 provided. The lower traveling body 2 and the upper turning body 3 constitute the vehicle body of the hydraulic excavator 1. The hydraulic excavator 1 travels on the work site by the lower traveling body 2, and moves the work device 4 up and down while turning the upper rotating body 3 to perform excavation work of earth and sand.

The work device 4 is rotatably attached to the boom 4A attached to the front side of the swivel frame 5, which will be described later, the arm 4B rotatably attached to the tip of the boom 4A, and the tip of the arm 4B. It is configured to include the bucket 4C and the bucket 4C. Further, the working device 4 has a boom cylinder 4D for driving the boom 4A, an arm cylinder 4E for driving the arm 4B, and a bucket cylinder 4F for driving the bucket 4C.

The upper swivel body 3 is provided on the lower traveling body 2 so as to be swivelable. The upper swivel body 3 includes a swivel frame 5, a counterweight 6, an engine 7, a cab 10, a building cover 11, a hydraulic oil tank 18, a fuel tank 20, and the like, which will be described later.

The swivel frame 5 constitutes the base of the upper swivel body 3. As shown in FIG. 2, the swivel frame 5 has a thick flat plate-shaped bottom plate 5A, a left vertical plate 5B that is erected on the bottom plate 5A and extends in the front-rear direction at a predetermined interval in the left-right direction, and a right vertical plate. It is configured to include a plate 5C and left and right side frames 5D (only the right side is shown) arranged on both left and right sides of the bottom plate 5A and extending in the front-rear direction. The base end of the boom 4A and the base end of the boom cylinder 4D are rotatably attached to the front side of the left vertical plate 5B and the right vertical plate 5C.

The counterweight 6 is provided on the rear side of the swivel frame 5 constituting the upper swivel body 3. The counterweight 6 balances the weight with the working device 4, and is formed as a heavy object having an arcuate rear surface. A second antenna device 36, which will be described later, is attached to the left end side of the counterweight 6.

The engine 7 as a prime mover is located on the front side of the counterweight 6 and mounted on the rear side of the turning frame 5. The engine 7 is arranged in a horizontal position extending in the left-right direction. A hydraulic pump 8 is attached to the right side of the engine 7. The hydraulic pump 8 is driven by the engine 7 to use the hydraulic oil stored in the hydraulic oil tank 18 as a traveling motor of the lower traveling body 2, a swivel motor of the upper swivel body 3 (not shown), and a working device 4. Discharge toward the hydraulic actuators of each cylinder 4D, 4E, 4F, etc. As the prime mover, an electric motor or a hybrid type prime mover in which an engine and an electric motor are combined can be used.

The heat exchanger 9 is located on the left side of the engine 7 and mounted on the swivel frame 5. The heat exchanger 9 includes a radiator for cooling engine cooling water, an oil cooler for cooling hydraulic oil, and the like. The cooling air supplied into the building cover 11 by the cooling fan (not shown) passes through the heat exchanger 9, so that the heat exchanger 9 transfers heat such as engine cooling water and hydraulic oil into the cooling air. Dissipate heat.

The cab 10 is located on the left side of the left vertical plate 5B of the swivel frame 5 and is provided on the left front side of the swivel frame 5. The cab 10 is formed in a box shape that defines the driver's cab, and a driver's seat (not shown) on which the operator sits is provided inside the cab 10. Further, a traveling lever pedal device (not shown) for controlling the traveling operation of the hydraulic excavator 1 is provided on the front side of the driver's seat, and the turning operation of the upper swivel body 3 is provided on both sides of the driver's seat in the left-right direction. An operation lever device (not shown) for controlling the operation of the work device 4 is provided.

The building cover 11 is located on the front side of the counterweight 6 and is provided on the swivel frame 5. The building cover 11 forms a machine room on the rear side of the swivel frame 5, and houses on-board equipment such as an engine 7, a hydraulic pump 8, and a heat exchanger 9 in the machine room. The building cover 11 includes a left side cover 12, a right side cover 13, a top cover 15, and an engine cover 16, and is supported by a support member 14 and the like, which will be described later, provided on the swivel frame 5. There is.

The left side cover 12 is arranged between the left end of the counterweight 6 and the left side surface 10A of the cab 10, and extends upward from the left side frame (not shown) of the swivel frame 5. The left side cover 12 covers the left outer surface of the upper swivel body 3, and has two covers, a rear left side cover 12A located on the counterweight 6 side and a front left side cover 12B located on the cab 10 side. It is composed of.

The right side cover 13 is arranged between the right end of the counterweight 6 and the right side surface 20B of the fuel tank 20, and extends upward from the right side frame 5D of the swivel frame 5. The right side cover 13 covers the right outer surface of the upper swivel body 3, and has two covers, a rear right side cover 13A located on the counterweight 6 side and a front right side cover 13B located on the hydraulic oil tank 18 side. Consists of a cover. The rear right side cover 13A is attached to the support member via a hinge mechanism (neither is shown), and covers the hydraulic pump 8 so as to be openable and closable from the right side while facing the hydraulic pump 8 in the left-right direction. .. The front right side cover 13B is attached to a support member 14 (see FIG. 3) erected on the right end side of the swivel frame 5 via a hinge mechanism (not shown). As a result, the front right side cover 13B can be opened and closed between the closed position that covers the hydraulic oil tank 18 from the right side and the open position that exposes the hydraulic oil tank 18 to the outside.

The upper surface cover 15 is located on the front side of the counterweight 6 and extends horizontally between the upper end of the left side cover 12 and the upper end of the right side cover 13. The top cover 15 is formed with an inspection opening (not shown) located on the upper side of the engine 7 or the like, and maintenance work for the engine 7 or the like is performed through the inspection opening.

The engine cover 16 is provided on the turning frame 5 in a state of covering the engine 7 and the like from above. The engine cover 16 extends in the left-right direction in a state of being raised upward from the upper surface cover 15, and closes the inspection opening formed in the upper surface cover 15. The rear end side of the engine cover 16 is attached to a support member (neither is shown) via a hinge mechanism, and the front end side rotates about the hinge mechanism in the vertical direction or the front-rear direction. As a result, the engine cover 16 can be opened and closed with respect to the upper surface cover 15 between an open position for opening the inspection opening and a closed position for closing the inspection opening. The area of the top cover 15 that is in front of the engine cover 16 is the work scaffold 17. The work scaffold 17 forms a scaffold for the operator to open the engine cover 16 and perform maintenance work on the engine 7 and the like.

The hydraulic oil tank 18 is provided on the swivel frame 5 on the right side of the right vertical plate 5C of the swivel frame 5 and on the front side of the hydraulic pump 8. The hydraulic oil tank 18 stores the hydraulic oil supplied to the traveling motor of the lower traveling body 2, the turning motor of the upper rotating body 3, and the hydraulic actuators such as the cylinders 4D, 4E, and 4F of the working device 4. As shown in FIG. 5, the hydraulic oil tank 18 closes a cylindrical tank body 18A extending in the vertical direction, a quadrangular flat bottom plate 18B that closes the lower end of the tank body 18A, and the upper end of the tank body 18A. It is configured to include a quadrangular flat top plate 18C. The upper surface plate 18C of the hydraulic oil tank 18 forms the same plane as the upper surface cover 15.

An air breather 18D is provided on the upper surface plate 18C of the hydraulic oil tank 18. Further, on the right end side of the upper surface plate 18C, a front mounting seat 18E and a rear mounting seat 18F are provided apart from each other in the front-rear direction. The lower ends of the rear handrails 23, which will be described later, are fixed to the front and rear mounting seats 18E and 18F. Further, on the right front side of the upper surface plate 18C, a notch groove 18G that opens at the right end edge 18C1 of the upper surface plate 18C is provided. The notch groove 18G is formed by notching the right end edge 18C1 of the top plate 18C to the left at a position close to the front mounting seat 18E, and the groove width of the notch groove 18G is larger than the diameter of the antenna support member 30 described later. It is set.

Here, when the front right side cover 13B attached to the support member 14 is in the closed position to cover the hydraulic oil tank 18 from the right side, an equipment accommodating space is provided between the front right side cover 13B and the hydraulic oil tank 18. 19 is formed. An antenna holding mechanism 27, which will be described later, is housed in the device accommodating space 19.

The fuel tank 20 is provided on the right side of the right vertical plate 5C of the swivel frame 5 and adjacent to the front side of the hydraulic oil tank 18. The fuel tank 20 is formed as a rectangular parallelepiped container extending in the vertical direction, and stores fuel to be supplied to the engine 7. The upper surface 20A of the fuel tank 20 forms the same plane as the upper surface cover 15, and is a scaffold connected to the work scaffold 17 formed on the upper surface of the upper surface cover 15. Further, the right side surface 20B of the fuel tank 20 forms the same plane as the right side surface cover 13.

The article storage case 21 is located on the front side of the fuel tank 20 and is provided on the right front side of the swivel frame 5. Articles such as tools and replacement parts are accommodated inside the article accommodating case 21. The upper surface of the article storage case 21 is formed in a stepped shape having, for example, a first step 21A and a second step 21B. On the front side of the article storage case 21, the lowermost step 22 is arranged below the first step 21A. These two-step steps 21A and 21B and the lowest step 22 form a scaffold for the worker to move between the work scaffold 17 formed on the upper surface cover 15 and the ground.

A rear handrail 23 extending in the front-rear direction is erected on the right end side of the hydraulic oil tank 18. The lower end of the rear handrail 23 is fixed to the front mounting seat 18E and the rear mounting seat 18F provided on the upper surface plate 18C of the hydraulic oil tank 18 by using bolts or the like. On the right end side of the upper surface 20A of the fuel tank 20, an intermediate handrail 24 extending in the front-rear direction adjacent to the front side of the rear handrail 23 is provided. On the right end side of the article storage case 21, a front handrail 25 extending in the front-rear direction adjacent to the front side of the intermediate handrail 24 is provided. When the operator gets on and off between the ground and the work scaffold 17 using the lowermost step 22, steps 21A and 21B of the article storage case 21, and the upper surface 20A of the fuel tank 20 as scaffolds, these handrails 23 and 24 , 25 is gripped.

Next, the first antenna device 26, the antenna holding mechanism 27, and the second antenna device 36 mounted on the upper swing body 3 will be described.

The first antenna device 26 is attached to the support member 14 via an antenna holding mechanism 27 described later. The first antenna device 26 and the second antenna device 36 form a pair of GNSS (Global Navigation Satellite System) antennas. These first and second antenna devices 26 and 36 are connected to a controller (neither of them is shown) via a cable or the like. The first and second antenna devices 26 and 36 receive position information from the satellite, and the controller measures the position information of the hydraulic excavator 1 based on the position information of the first and second antenna devices 26 and 36. Support construction management such as excavation work based on the measured position information.

Here, since the first antenna device 26 is an expensive device, it is necessary to prevent theft by removing the first antenna device 26 from the upper swing body 3 when the hydraulic excavator 1 is not operating. .. Therefore, between the support member 14 and the first antenna device 26, the first antenna device 26 is attached / detached between the antenna use position shown by the solid line in FIG. 4 and the antenna attachment / detachment shown by the alternate long and short dash line in FIG. An antenna holding mechanism 27 for holding the antenna so that it can be switched (movably) between the position and the position is provided.

The antenna holding mechanism 27 is provided between the support member 14 that supports the front right side cover 13B and the first antenna device 26. The antenna holding mechanism 27 lowers the first antenna device 26 from the antenna using position (positions in FIGS. 3 and 5) located above the hydraulic oil tank 18 constituting the upper swing body 3 and the antenna using position. It is held so that it can be switched to the antenna attachment / detachment position (position in FIG. 6) at the position. The antenna holding mechanism 27 includes a link support member 28, an antenna support member 30, an upper link 32, and a lower link 33.

The link support member 28 is attached to a support member 14 that constitutes the upper swing body 3. As shown in FIG. 4 and the like, the link support member 28 is formed in a C-shaped frame shape using a steel plate or the like, and is provided on a vertical plate portion 28A extending in the vertical direction and an upper end of the vertical plate portion 28A. It has a horizontal plate portion 28B and a lower horizontal plate portion 28C provided at the lower end of the vertical plate portion 28A. The vertical plate portion 28A is fixed to, for example, the lower side of the support member 14 (a range below the intermediate position of the height dimension in the vertical direction) by using a plurality of bolts 29.

The upper horizontal plate portion 28B projects rearward from the upper end of the vertical plate portion 28A, and the tip end side of the upper horizontal plate portion 28B becomes an upper mounting portion 28D that bends downward and faces the vertical plate portion 28A in the front-rear direction. There is. The lower horizontal plate portion 28C projects rearward from the lower end of the vertical plate portion 28A, and the tip end side of the lower horizontal plate portion 28C becomes a lower mounting portion 28E that bends upward and faces the vertical plate portion 28A in the front-rear direction. There is. The upper mounting portion 28D and the lower mounting portion 28E of the link support member 28 are provided with female screw portions (neither shown) including a nut welded to the back surface facing the vertical plate portion 28A. One end 32A of the upper link 32 described later is attached to the upper attachment portion 28D, and one end 33A of the lower link 33 described later is attached to the lower attachment portion 28E.

The antenna support member 30 is arranged apart from the link support member 28, and the first antenna device 26 is detachably attached to the tip end (upper end). The antenna support member 30 is formed by using, for example, a rod-shaped body extending linearly. On the base end (lower end) side of the antenna support member 30, the upper connecting pin 30A and the lower connecting pin 30B penetrating in the radial direction are fixed at intervals in the vertical direction. The vertical dimension (interval) between the upper connecting pin 30A and the lower connecting pin 30B is between the female threaded portion (not shown) provided between the upper mounting portion 28D and the lower mounting portion 28E of the link support member 28. It is set to be equal to the vertical dimension (interval) of. For example, a male screw portion 30C is formed on the tip end side of the antenna support member 30. By screwing the male screw portion 30C to the female screw portion 26A formed on the lower surface side of the first antenna device 26, the first antenna device 26 is detachably attached to the tip of the antenna support member 30. There is.

The parallel link 31 is composed of an antenna support member 30, an upper link 32 as a first link member, and a lower link 33 as a second link member. That is, in the antenna support member 30, the other end 32B of the upper link 32 in which one end 32A is rotatably attached to the link support member 28 and the lower link in which one end 33A is rotatably attached to the link support member 28. It is rotatably attached to the other end 33B of 33 to form a parallel link 31. The upper link 32 is formed in a rectangular flat plate shape using a steel plate or the like, a bolt insertion hole (not shown) is provided at one end 32A in the length direction, and a pin is inserted at the other end 32B in the length direction. A hole (not shown) is provided. The lower link 33 is also formed in the shape of a rectangular flat plate having the same shape as the upper link 32, and one end 33A in the length direction is provided with a bolt insertion hole (not shown), and the other end 33B in the length direction is provided. Is provided with a pin insertion hole (not shown).

A wing bolt 34 is inserted into a bolt insertion hole provided in one end 32A of the upper link 32, and the wing bolt 34 is screwed into a female screw portion provided in the upper mounting portion 28D of the link support member 28. Further, the upper connecting pin 30A of the antenna support member 30 is inserted into the pin insertion hole provided in the other end 32B of the upper link 32, and the antenna support member 30 is removed by using a retaining member (not shown) such as a retaining ring. ing. As a result, one end 32A of the upper link 32 is rotatably attached to the upper attachment portion 28D of the link support member 28 via the wing bolt 34, and the other end 32B of the upper link 32 is connected above the antenna support member 30. It is rotatably attached to the pin 30A.

On the other hand, a wing bolt 35 is inserted into a bolt insertion hole provided at one end 33A of the lower link 33, and the wing bolt 35 is screwed into a female screw portion provided at the lower mounting portion 28E of the link support member 28. Will be done. Further, the lower connecting pin 30B of the antenna support member 30 is inserted into the pin insertion hole provided in the other end 33B of the lower link 33, and the antenna support member 30 is removed by using a retaining member (not shown) such as a retaining ring. Has been done. As a result, one end 33A of the lower link 33 is rotatably attached to the lower attachment portion 28E of the link support member 28 via the wing bolt 35, and the other end 33B of the lower link 33 is the antenna support member 30. It is rotatably attached to the lower connecting pin 30B. In this case, one end 32A, which is a rotating portion on one side of the upper link 32, and one end 33A, which is a rotating portion on one side of the lower link 33, are arranged side by side in the vertical direction (see FIG. 4). ..

Here, the wing bolts 34 and 35 form a locking mechanism that regulates the operation of the parallel link 31 including the upper link 32 and the lower link 33. That is, the wing bolt 34 screwed to the female screw portion provided on the upper mounting portion 28D of the link support member 28 regulates the rotational operation of the upper link 32 by adjusting the tightening amount with respect to the female screw portion. be able to. On the other hand, the wing bolt 35 screwed to the female screw portion provided on the lower mounting portion 28E of the link support member 28 regulates the rotational operation of the lower link 33 by adjusting the tightening amount with respect to the female screw portion. can do. Therefore, by tightening the wing bolts 34 and 35, the antenna holding mechanism 27 is locked at the antenna use position and the antenna attachment / detachment position.

Therefore, in the state where the wing bolts 34 and 35 are loosened, the upper link 32 and the lower link 33 are rotationally displaced with the link support member 28 as a fulcrum, and the antenna support member 30 and the first antenna device 26 are displaced. It is moved between the antenna use position shown by the solid line in FIG. 4 and the antenna attachment / detachment position shown by the two-dot chain line in FIG. In this case, between the other end 32B of the upper link 32 and the antenna support member 30, and between the other end 33B of the lower link 33 and the antenna support member 30, the wing bolt 34 (of the wing bolt 34) protruding from the upper link 32. Spacers (not shown) having axial dimensions larger than the protruding length of the head) are provided. As a result, the antenna support member 30 can move between the antenna use position and the antenna attachment / detachment position without interfering with the wing bolt 34.

As described above, the antenna support member 30 is rotatably attached to the other end 32B of the upper link 32 and the other end 33B of the lower link 33, so that the antenna support member 30 is rotatably attached to the link support member 28 side together with the upper link 32 and the lower link 33. It constitutes a parallel link 31 that is rotationally displaced with the fulcrum as a fulcrum. Then, the first antenna device 26 attached to the antenna support member 30 is located at the antenna use position (position in FIG. 5) located above the hydraulic oil tank 18 by the parallel link 31 and at a position lower than the antenna use position. It is held so as to be switchable to a certain antenna attachment / detachment position (position in FIG. 6).

Therefore, when the first antenna device 26 moves between the antenna use position and the antenna attachment / detachment position, the first antenna device 26 moves in parallel in the left-right direction of the upper swing body 3 so as to approach and separate from the hydraulic oil tank 18. .. Then, at the antenna attachment / detachment position, the first antenna device 26 moves to the right side of the right side cover 13 and is arranged outside the upper swing body 3. Therefore, the antenna use position of the first antenna device 26 supported by the parallel link 31 is set to the right end side (right side cover 13 side) of the upper swing body 3, and the antenna attachment / detachment position is set to the upper swing body 3. Can be set to the outside. Therefore, when the first antenna device 26 moves between the antenna use position and the antenna attachment / detachment position, the space occupied in the device accommodation space 19 of the upper swing body 3 as the movement path of the antenna support member 30 is provided. It can be made as small as possible.

When moving the first antenna device 26 to the position where the antenna is used, the wing bolts 34 and 35 are loosened while the front right side cover 13B is moved to the open position and the device accommodation space 19 is opened. Then, one end 32A of the upper link 32 and one end 33A of the lower link 33 are rotationally displaced in a direction approaching the hydraulic oil tank 18, the antenna support member 30 is brought closer to the hydraulic oil tank 18, and then the wing bolt 34, Tighten 35. At this time, the intermediate portion of the antenna support member 30 is inserted into the notch groove 18G provided in the upper surface plate 18C of the hydraulic oil tank 18. In this state, by moving the front right side cover 13B to the closed position, the first antenna device 26 is held at the antenna use position protruding upward of the hydraulic oil tank 18.

On the other hand, when the first antenna device 26 is moved to the antenna attachment / detachment position, the wing bolts 34 and 35 are loosened in a state where the front right side cover 13B is moved to the open position and the device accommodation space 19 is opened. Then, one end 32A of the upper link 32 and one end 33A of the lower link 33 are rotationally displaced in a direction away from the hydraulic oil tank 18, and the antenna support member 30 is separated to the right side of the hydraulic oil tank 18, and then the wing bolt is used. Tighten 34 and 35. As a result, the antenna support member 30 moves in parallel to the antenna attachment / detachment position while maintaining the posture extending in the vertical direction, and the male screw portion 30C of the antenna support member 30 is the right side cover 13 constituting the upper swing body 3. It is placed on the outside and descends to a position where, for example, a worker standing on the ground can reach it.

The second antenna device 36 is attached to the left end side of the counterweight 6 via an attachment member (not shown) (see FIG. 2). The second antenna device 36 constitutes a pair of GNSS antennas together with the first antenna device 26, and the first and second antenna devices 26 and 36 are separated from each other in the left-right direction of the upper swing body 3. In this way, the first antenna device 26 is located in front of the counterweight 6 and is arranged above the hydraulic oil tank 18 mounted on the right side of the upper swing body 3, and the second antenna device 36 is By arranging the counterweight 6 on the left end side, the distance between the first antenna device 26 and the second antenna device 36 is set as large as possible. As a result, the position observation accuracy of the hydraulic excavator 1 using the first and second antenna devices 26 and 36 can be improved.

The hydraulic excavator 1 according to the first embodiment has the above-described configuration, and the operation of the hydraulic excavator 1 will be described below.

When operating the hydraulic excavator 1, first, the first antenna device 26 and the second antenna device 36 are attached to the upper swing body 3. When installing the first antenna device 26, an operator such as an operator moves the front right side cover 13B to the open position to open the device accommodation space 19. At this time, the antenna holding mechanism 27 locked at the antenna use position is accommodated in the device accommodation space 19.

Next, the operator releases the locked state of the antenna holding mechanism 27 by loosening the wing bolts 34 and 35, and the one end 32A of the upper link 32 and the one end 33A of the lower link 33 are separated from the hydraulic oil tank 18. Rotate and displace. As a result, the antenna support member 30 is separated from the hydraulic oil tank 18 to the right while maintaining the posture extending in the vertical direction, and moves in parallel to the antenna attachment / detachment position. In this state, by tightening the wing bolts 34 and 35, the antenna support member 30 is locked to the antenna attachment / detachment position. At this time, the male screw portion 30C of the antenna support member 30 is lowered to a position outside the right side cover 13 constituting the upper swing body 3 and within the reach of an operator standing on the ground. Therefore, the operator can easily screw the female screw portion 26A of the first antenna device 26 to the male screw portion 30C of the antenna support member 30 while maintaining a stable working posture on the ground. Further, the antenna support member 30 maintains a posture extending in the vertical direction at the antenna attachment / detachment position. As a result, the female screw portion 26A of the first antenna device 26 can be screwed to the male screw portion 30C of the antenna support member 30 from above by utilizing the own weight of the first antenna device 26, and the first antenna can be screwed. Workability when mounting the device 26 can be improved.

After attaching the first antenna device 26 to the tip of the antenna support member 30, with the wing bolts 34 and 35 loosened, one end 32A of the upper link 32 and one end 33A of the lower link 33 are attached to the hydraulic oil tank 18. The antenna support member 30 is brought closer to the hydraulic oil tank 18 by being rotationally displaced in the direction of approaching. Then, the wing bolts 34 and 35 are tightened in a state where the antenna support member 30 is moved to the antenna use position shown in FIGS. 3 and 5. As a result, the antenna holding mechanism 27 is locked at the antenna use position where the first antenna device 26 is located above the hydraulic oil tank 18, and the intermediate portion of the antenna support member 30 is placed on the upper surface plate 18C of the hydraulic oil tank 18. It is inserted into the provided notch groove 18G. In this state, the first antenna device 26 can be held at the antenna use position by moving the front right side cover 13B to the closed position.

Next, the operator attaches the second antenna device 36 to the left end side of the counterweight 6 via an attachment member (not shown). As a result, the first antenna device 26 is located in front of the counterweight 6 and is arranged above the hydraulic oil tank 18 mounted on the right side of the upper swing body 3, and the second antenna device 36 is a counter. It is arranged on the left end side of the weight 6, and the distance between the first antenna device 26 and the second antenna device 36 can be set as large as possible.

With the first and second antenna devices 26 and 36 attached to the upper swing body 3, the operator gets on the cab 10 and sits in the driver's seat (not shown) to start the engine 7. In this state, the hydraulic excavator 1 can be driven toward the work site by operating the traveling lever pedal device (not shown). Then, by operating the operation lever device (not shown) at the work site, the operator can perform excavation work or the like using the work device 4 while turning the upper swivel body 3.

At the time of excavation work using the work device 4, the first and second antenna devices 26 and 36 receive the position information from the satellite and transmit this position information to the controller (not shown). The controller measures the position information of the hydraulic excavator 1 based on the position information of the first and second antenna devices 26 and 36, and obtains the position information of the hydraulic excavator 1 and the sensor attached to the work device 4. The tip position information of the work device 4 is collated with the terrain data and the target terrain data to perform a calculation for constructing the target terrain, and for example, the construction information (calculation result) is displayed on the monitor in the cab 10. As a result, the operator can perform the construction on the target terrain by controlling the operation of the work device 4 by using the operation lever device while checking the construction information displayed on the monitor.

Next, when the operation of the hydraulic excavator 1 is stopped, the first and second antenna devices 26 and 36 are removed from the upper swing body 3 to prevent theft. When removing the first antenna device 26, the operator moves the front right side cover 13B to the open position to open the device accommodation space 19. Next, the operator loosens the wing bolts 34 and 35 to release the locked state of the antenna holding mechanism 27, and moves one end 32A of the upper link 32 and one end 33A of the lower link 33 away from the hydraulic oil tank 18. Rotate and displace. As a result, the antenna support member 30 moves in parallel with the first antenna device 26 from the antenna use position to the antenna attachment / detachment position in the left-right direction of the upper swing body 3 while maintaining the posture extending in the vertical direction. Then, when the operator tightens the wing bolts 34 and 35, the antenna holding mechanism 27 is locked to the antenna attachment / detachment position.

At this time, the height of the first antenna device 26 is switched between the antenna use position and the antenna attachment / detachment position, and the antenna attachment / detachment position is lowered to a position within reach of a worker standing on the ground. Therefore, the operator can easily separate the female screw portion 26A of the first antenna device 26 from the male screw portion 30C of the antenna support member 30 while maintaining a stable working posture on the ground. In this case, one end 32A, which is a rotating portion on one side of the upper link 32, and one end 33A, which is a rotating portion on one side of the lower link 33, are arranged side by side in the vertical direction, so that the antenna support member 30 can always maintain a vertically extended posture while moving between the antenna use position and the antenna attachment / detachment position. Therefore, when the first antenna device 26 is arranged at the antenna attachment / detachment position, the female screw portion 26A of the first antenna device 26 engages with the male screw portion 30C of the antenna support member 30 due to the weight of the first antenna device 26. It fits. As a result, it is possible to prevent the first antenna device 26 from being inadvertently dropped from the antenna support member 30, and it is possible to improve workability when removing the first antenna device 26. Further, the first antenna device 26 can be translated together with the antenna support member 30 to a position distant from the hydraulic oil tank 18 to the right side. As a result, it is possible to prevent the first antenna device 26 from interfering with the parts provided around the hydraulic oil tank 18 during the attachment / detachment work of the first antenna device 26, further improving the workability at the time of attachment / detachment. Can be improved.

Moreover, since the parallel link 31 is composed of the antenna support member 30, the upper link 32, and the lower link 33, the antenna support member 30 can be positioned at the antenna use position and the antenna attachment / detachment position while maintaining the posture extending in the vertical direction. Can be translated between. Therefore, in the process of moving the parallel link 31 between the antenna use position and the antenna attachment / detachment position, the direction in which the first antenna device 26 is pulled out from the antenna support member 30 can always be upward. As a result, the first antenna device 26 does not fall off from the antenna support member 30 in the process of moving the parallel link 31, and the first antenna device 26 can be safely and securely attached to and detached from the antenna support member 30. Can be done. Further, even if the length dimension of the antenna support member 30 is set to be relatively small, by moving the antenna support member 30 to the antenna attachment / detachment position, the first antenna device can be reached by a worker standing on the ground. 26 can be placed. As a result, the weight of the entire antenna holding mechanism 27 including the antenna support member 30 can be reduced, and the burden on the operator when attaching and detaching the first antenna device 26 can be reduced.

After removing the first antenna device 26 from the antenna support member 30, with the wing bolts 34 and 35 loosened, one end 32A of the upper link 32 and one end 33A of the lower link 33 approach the hydraulic oil tank 18. The antenna support member 30 is brought closer to the hydraulic oil tank 18 by being rotationally displaced in the direction of the above. Then, the wing bolts 34 and 35 are tightened in a state where the antenna support member 30 is moved to the antenna use position shown in FIGS. 3 and 5. As a result, the antenna holding mechanism 27 from which the first antenna device 26 has been removed is locked at the position where the antenna is used, and the intermediate portion of the antenna support member 30 is a notch groove provided in the upper surface plate 18C of the hydraulic oil tank 18. It is inserted in 18G. In this state, by moving the front right side cover 13B to the closed position, the antenna holding mechanism 27 from which the first antenna device 26 has been removed can be accommodated in the equipment accommodating space 19. Then, by removing the second antenna device 36 arranged on the left end side of the counterweight 6, theft of the first and second antenna devices 26 and 36 can be prevented.

Thus, the hydraulic excavator 1 according to the first embodiment has an antenna support member 30 to which the first antenna device 26 is detachably attached, and an upper link 32 to which one end 32A is rotatably attached to the link support member 28. And the lower link 33 in which one end 33A is rotatably attached to the link support member 28 on the lower side of the upper link 32, and the antenna support member 30 includes the other end 32B of the upper link 32 and the lower link 33. The parallel link 31 is rotatably attached to the other end 33B of the above, and the first antenna device 26 is located above the upper swing body 3 by the parallel link 31 and from the antenna using position. It is held so that it can be switched to the antenna attachment / detachment position, which is also in a lower position.

According to this configuration, the parallel link 31 moves the first antenna device 26 from the antenna use position to the antenna attachment / detachment position, so that the first antenna device 26 can be reached by an operator standing on the ground. It can be lowered to that extent. As a result, the worker can perform the work of attaching / detaching the first antenna device 26 to / from the antenna support member 30 while maintaining a stable working posture on the ground, and the workability thereof can be improved. Further, in the process of moving the parallel link 31 between the antenna use position and the antenna attachment / detachment position, the direction in which the first antenna device 26 is pulled out from the antenna support member 30 can always be upward. Therefore, it is possible to reliably prevent the first antenna device 26 from suddenly falling off from the antenna support member 30, and it is possible to safely and securely attach / detach the first antenna device 26 to / from the antenna support member 30.

Further, the antenna attachment / detachment position of the first antenna device 26 is located outside the upper swing body 3. According to this configuration, the first antenna device 26 that has moved from the antenna use position to the antenna attachment / detachment position can be arranged at a position away from the hydraulic oil tank 18 on the right side. As a result, it is possible to prevent the first antenna device 26 from interfering with the parts provided around the hydraulic oil tank 18 during the attachment / detachment work of the first antenna device 26, further improving the workability at the time of attachment / detachment. Can be improved. Moreover, when the first antenna device 26 moves between the antenna use position and the antenna attachment / detachment position, it is necessary to secure a large movement path of the antenna support member 30 in the device accommodation space 19 of the upper swing body 3. Therefore, it is possible to secure a large equipment accommodating space in the equipment accommodating space 19.

Further, the upper swing body 3 includes a support member 14 to which a right side cover 13 covering the outer surface is attached, and a link support member 28 is attached to the lower portion of the support member 14, and one end 32A of the upper link 32 is attached. And one end 33A of the lower link 33 is attached to the link support member 28. According to this configuration, the link support member 28 is attached by using the existing support member 14 without adding a dedicated member for attaching the link support member 28, and the upper link 32 and the lower are attached to the link support member 28. A parallel link 31 composed of a side link 33 and an antenna support member 30 can be attached.

Further, one end 32A of the upper link 32 and one end 33A of the lower link 33 are arranged side by side in the vertical direction. According to this configuration, the antenna support member 30 can be moved between the antenna use position and the antenna attachment / detachment position while maintaining the posture extending in the vertical direction. As a result, the tip end side of the antenna support member 30 can always be kept vertically upward while the antenna support member 30 moves between the antenna use position and the antenna attachment / detachment position. Therefore, even if the attachment portion between the first antenna device 26 and the antenna support member 30 is loosened, it is possible to prevent the first antenna device 26 from falling off from the tip end side of the antenna support member 30.

Next, FIG. 7 shows a second embodiment of the present invention. The feature of this embodiment is that the counterweight is provided with a housing recess, and the link support member is arranged in the housing recess. In the second embodiment, the same components as those in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

In the figure, the counterweight 37 is provided on the rear side of the swivel frame 5 constituting the upper swivel body 3 and balances the weight with the work device 4, similarly to the counterweight 6 according to the first embodiment. .. However, the counterweight 37 is different from the one according to the first embodiment in that the accommodating recess 38 described later is provided.

The accommodating recess 38 is provided at the right end of the counterweight 37. The accommodating recess 38 is formed by notching the right end portion of the counterweight 37 so as to be recessed inward from the outer surface 37A, and the right end portion of the counterweight 37 is vertically opened in a state of being opened to the outer surface 37A of the counterweight 37. It penetrates. An antenna holding mechanism 40, which will be described later, is housed inside the housing recess 38, and the inner surface of the housing recess 38 is a support member mounting surface 38A. The concave cover 39 is detachably attached to the right end of the counterweight 37 by using a bolt or the like. The concave portion cover 39 covers the accommodating concave portion 38 by being attached to the right end portion of the counterweight 37.

The antenna holding mechanism 40 is provided in the accommodating recess 38 of the counterweight 37. The antenna holding mechanism 40 includes a link supporting member 28, an antenna supporting member 30, an upper link 32, and a lower link 33, similarly to the antenna holding mechanism 27 according to the first embodiment. The antenna support member 30, the upper link 32, and the lower link 33 form a parallel link 31. In this case, the link support member 28 is arranged in the accommodating recess 38 and is attached to the support member mounting surface 38A by using bolts 29. The antenna holding mechanism 40 makes it possible to switch the first antenna device 26 between an antenna use position (position in FIG. 7) located above the counterweight 37 and an antenna attachment / detachment position located lower than the antenna use position. keeping.

When the antenna holding mechanism 40 moves to the antenna attachment / detachment position, the first antenna device 26 is removed from the antenna support member 30. The antenna holding mechanism 40 is housed in the housing recess 38 with the first antenna device 26 removed, and the antenna holding mechanism 40 and the housing recess 38 are recesses attached to the right end of the counterweight 37. It can be covered by the cover 39.

The hydraulic excavator according to the second embodiment has the above-described configuration. Also in the second embodiment, the parallel link 31 moves the antenna support member 30 from the antenna use position to the antenna attachment / detachment position. The first antenna device 26 attached to the antenna support member 30 can be translated and lowered to a height within the reach of an operator standing on the ground. Therefore, the operator can perform the work of attaching / detaching the first antenna device 26 to / from the antenna support member 30 while maintaining a stable working posture, and the workability thereof can be improved.

In the first embodiment, the case where the antenna holding mechanism 27 is housed in the device storage space 19 formed between the hydraulic oil tank 18 and the front right side cover 13B is illustrated. However, the present invention is not limited to this, and the antenna holding mechanism may be housed in a space that can be opened and closed by, for example, the rear right side cover 13A, the rear left side cover 12A, the front left side cover 12B, and the like.

Further, in the embodiment, a case where one end 32A of the upper link 32 is rotatably attached to the link support member 28 and the other end 32B is rotatably attached to the antenna support member 30 is illustrated. However, the present invention is not limited to this, and one side of the upper link 32, which is between the middle portion in the length direction of the upper link 32 and one end 32A, is rotatably attached to the link support member 28 to form the upper link 32. The other side of the upper link 32, which is between the intermediate portion in the length direction and the other end 32B, may be rotatably attached to the antenna support member 30. Similarly, one side of the lower link 33 (between the middle portion in the length direction and one end 33A) is rotatably attached to the link support member 28, and the other side of the lower link 33 (in the length direction). (Between the intermediate portion and the other end 33B) may be rotatably attached to the antenna support member 30.

Further, in the embodiment, the case where it is applied to the hydraulic excavator 1 provided with the crawler type lower traveling body 2 is illustrated. However, the present invention is not limited to this, and can be applied to, for example, a wheel type hydraulic excavator.

1 Hydraulic excavator (construction machinery)
2 Lower running body (body)
3 Upper swivel body (body)
6,37 Counterweight 13B Front right side cover (side cover)
14 Support member 19 Equipment accommodation space 26 First antenna device 27,40 Antenna holding mechanism 28 Link support member 30 Antenna support member 31 Parallel link 32 Upper link (first link member)
33 Lower link (second link member)
36 Second antenna device 37A Outer side surface 38 Containment recess 39 Recess cover

Claims (5)

A self-propelled car body and
In a construction machine provided on the vehicle body and provided with an antenna device for measuring the position information of the vehicle body.
An antenna support member to which the antenna device is detachably attached, and
A first link member whose one side is rotatably attached to the vehicle body,
A second link member, one side of which is rotatably attached to the vehicle body under the first link member, is provided.
The antenna support member is rotatably attached to the other side of the first link member and the other side of the second link member to form a parallel link.
The construction machine is characterized in that the antenna device is held by the parallel link so as to be switchable between an antenna use position located above the vehicle body and an antenna attachment / detachment position located at a position lower than the antenna use position. The construction machine according to claim 1, wherein the antenna attachment / detachment position is located outside the vehicle body. The vehicle body includes a support member to which a side cover covering the outer surface is attached.
A link support member is attached to the lower part of the support member.
The construction machine according to claim 1, wherein the rotating portion on one side of the first link member and one side of the second link member is attached to the link support member. A counterweight is provided on the rear side of the vehicle body to balance the weight with the front device provided on the front side of the vehicle body.
The counterweight is provided with a housing recess that is recessed inward from the outer surface and a recess cover that covers the storage recess.
The construction according to claim 1, wherein a link support member to which a rotating portion on one side of the first link member and one side of the second link member is attached is attached to the accommodating recess. machine. The construction machine according to claim 1, wherein the rotating portions on one side of the first link member and one side of the second link member are arranged side by side in the vertical direction.

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