The present invention relates to a boom attach/detach device of a crane, and a boom attach/detach method for a crane.
For example, Patent Literature 1 and the like recite techniques of attaching/detaching (mounting, dismounting) a boom to/from an upper slewing body. Patent Literature 1 recites, in FIG. 11, a technique of attaching/detaching a boom using a power device (“other lifting means” in Abstract of Patent Literature 1) separate from a crane to/from which the boom is attached/detached. Additionally, FIG. 1 to FIG. 8 and Abstract of Patent Literature 1 recite a technique of attaching/detaching a boom using a boom receiving base.
Patent Literature 1: JP H5-330790 A
As recited in Abstract of Patent Literature 1, a boom receiving base enables a boom to be attached/detached without other lifting means. However, as recited in FIG. 3 and FIG. 4 of Patent Literature 1, the boom receiving base is arranged between a boom supporting bracket (a “foot bracket” in Patent Literature 1) and the boom. Therefore, there occurs a problem that a size of an upper slewing body is increased. Additionally, there occur a problem that a mass of the upper slewing body is increased by a mass of the boom receiving base, and a problem that a cost of the upper slewing body is increased. For example, in a case where the upper slewing body is transported, since a transport size and a transport mass are limited by laws and regulations, increases in size and mass of the upper slewing body are not desirable.
Under these circumstances, the present invention aims at providing a boom attach/detach device of a crane, and a boom attach/detach method for a crane, which device and method facilitate attachment/detachment of a boom without requiring a power device separate from a crane and enable increases in size, in mass, and in cost of an upper slewing body to be suppressed.
A boom attach/detach device of a crane according to a first aspect includes an upper slewing body, a boom, a drive cylinder, and a boom supporting portion. The boom is attached to the upper slewing body via a boom foot pin so as to rise and fall. The drive cylinder is provided in the upper slewing body or the boom to drive the boom. The boom supporting portion supports the boom. At least a part of the boom supporting portion is arranged more to a boom front end side than the upper slewing body. When the drive cylinder conducts extension and contraction operation in a state where coupling between the upper slewing body and the boom by the boom foot pin is cut off, the boom supporting portion supports the boom so as to enable a rear end portion of the boom to move in a boom axis direction.
A boom attach/detach method for a crane according to a second aspect is used for a crane including a boom and a drive cylinder. The boom is attached to an upper slewing body via a boom foot pin so as to rise and fall. The drive cylinder is provided in the upper slewing body or the boom to drive the boom. In a state where the boom is supported at a position more to a boom front end side than the upper slewing body and coupling between the upper slewing body and the boom by the boom foot pin is cut off, the drive cylinder is caused to conduct extension and contraction operation to enable a rear end portion of the boom to move in a boom axis direction.
According to the first aspect, the boom can be attached/detached with ease without a need to use a separate power device from the crane, and increases in size, in mass, and in cost of the upper slewing body can be suppressed. According to the second aspect, the boom can be attached/detached with ease without a need to use a separate power device from the crane, and increases in size, in mass, and in cost of the upper slewing body can be suppressed.
With reference to
The boom attach/detach device 1 is a device which attaches/detaches a boom 20 (shown below) to/from an upper slewing body 13 (shown below) as shown in
The crane 10 is a construction machine including the boom 20 (shown below), and more specifically, is a movable crane. The crane 10 includes a lower travelling body 11, the upper slewing body 13, a rising and falling cylinder 19 (drive cylinder), the boom 20, an extensible cylinder 31 (drive cylinder) (see
The lower travelling body 11, which includes a crawler 11a, is a part for causing the crane 10 to travel.
The upper slewing body 13 is mounted on the lower travelling body 11 so as to be turnable with respect to the lower travelling body 11. The upper slewing body 13 includes a slewing frame 15 and a driver's room 17. On a part of the slewing frame 15, there is provided a boom supporting bracket 15b to which the boom 20 is attached. The driver's room 17 is mounted on the slewing frame 15.
The rising and falling cylinder 19 is a cylinder which causes the boom 20 to rise and fall with respect to the upper slewing body 13 and is a hydraulic cylinder. A base end portion of the rising and falling cylinder 19 is coupled to the slewing frame 15 via a rising and falling cylinder foot pin 19c. A front end portion of the rising and falling cylinder 19 is coupled to the boom 20 via a rising and falling cylinder rod pin 19d. A rising and falling cylinder supporting device 19s supports the rising and falling cylinder 19 with respect to the slewing frame 15 when the rising and falling cylinder 19 and the boom 20 are separated from each other (the rising and falling cylinder rod pin 19d is detached).
The boom 20 is a member to which a hook H1 (see
The base end boom 21 (basic boom) is a unit boom at the most rear position on the boom rear end side X1 among the plurality of unit booms constituting the boom 20. The base end boom 21 includes a rising and falling cylinder attachment bracket 21b. The rising and falling cylinder attachment bracket 21b is a part which is provided on a belly face (lower face) of the base end boom 21 and to which the rising and falling cylinder rod pin 19d is attached.
The front end boom 25 is a unit boom at the most front position on the boom front end side X2 among the plurality of unit booms constituting the boom 20. As shown in
The extensible cylinder 31 (drive cylinder) is provided in the boom 20 to drive the boom 20 as shown in
The hydraulic hose for extension 33 is a hydraulic hose for supplying and discharging oil between the extensible cylinder 31 and the upper slewing body 13 and is connected to an end portion of the boom 20 on the boom rear end side X1 and to the upper slewing body 13.
The truck 40 (transport carriage) is a vehicle provided with a platform 41 for transporting a cargo. The truck 40 is a carriage for transporting the boom 20 and is capable of transporting cargoes other than the boom 20.
The boom supporting device 50 (boom supporting portion) is a device for supporting the boom 20. The boom supporting device 50 is arranged more to the boom front end side X2 than the slewing frame 15 and arranged more to the boom front end side X2 than the upper slewing body 13. The boom supporting device 50 is arranged at a position away from the upper slewing body 13 and is arranged more to the boom front end side X2 than the driver's room 17. The boom supporting device 50 is disposed on the truck 40, and more specifically, mounted (arranged) on the platform 41. The boom supporting device 50 includes a frame 51, a boom front end side supporting device 60 (boom front end side supporting portion), and a boom rear end side supporting device 70 (boom rear end side supporting portion).
The frame 51 is a part which supports the boom front end side supporting device 60 and the boom rear end side supporting device 70. The frame 51 is fixed to the platform 41 and is arranged to extend, for example, from an end portion of the platform 41 on the boom front end side X2 to an end portion of the boom rear end side X1. The frame 51 includes a rail 53, a lateral member 55 (see
The rail 53 is a rod-shaped member extending in the boom axis direction X. As shown in
As shown in
As shown in
The boom front end side supporting device 60 (boom front end side supporting portion) is a part which supports a part of the boom 20 on the boom front end side X2, and more specifically, a part which supports the front end boom 25 and a device (jig, fixing jig) which supports the front end boom 25. As shown in
The front end fixing portion 61 supports the front end boom 25, and more specifically, supports the boom point pin 25c, and has a U-shaped recess which supports (receives) the boom point pin 25c from below. As shown in
The reinforcing member 63 is a member which reinforces fixing (coupling) between the frame 51 and the front end fixing portion 61. The reinforcing member 63 is fixed to an end face (more specifically, both end faces) of the front end fixing portion 61 in the boom axis direction X, and to an upper face of the frame 51 (the rail 53), and is, for example, plate-shaped.
The fixing pin 65 is a pin (lock pin) for preventing the boom point pin 25c from coming off from the front end fixing portion 61. The fixing pin 65 is arranged above the boom point pin 25c received by the front end fixing portion 61 and is attached to the front end fixing portion 61 so as to connect upper end portions of the U-shaped recess of the front end fixing portion 61 in the boom axis direction X.
As shown in
The second boom rear end side supporting device 72 is arranged more to the boom rear end side X1 than the first boom rear end side supporting device 71. As shown in
The outer frame 81 and the inner frame 82 are configured to be nested and to be extensible in a vertical direction. The inner frame 82 is arranged inside the outer frame 81 and is vertically movable with respect to the outer frame 81. As shown in
The lifting cylinder 85 (support height changing portion) changes the top plate 83 (a part supporting the boom 20) to have an arbitrary height, and more specifically, moves the inner frame 82 and the top plate 83 vertically with respect to the outer frame 81. The lifting cylinder 85 is arranged inside the outer frame 81 and the inner frame 82 and is arranged below the top plate 83. The lifting cylinder 85 is a cylinder which is extensible in the vertical direction, for example, a hydraulic cylinder or the like.
The wheel supporting portions 87 are parts which support the wheels 88 with respect to the outer frame 81. The wheel supporting portions 87 are fixed to the outer frame 81, protrude from both sides of the outer frame 81 in the boom axis direction X, and are, for example, plate-shaped and orthogonal to, for example, the boom width direction Y.
The wheels 88 allow the second boom rear end side supporting device 72 to be movable (to be freely movable) in the boom axis direction X. The wheels 88 are attached to the outer frame 81 via the wheel supporting portions 87 so as to be rotatable with respect to the outer frame 81. The wheels 88 are arranged (mounted) on the rail 53 and are capable of rotating on the rail 53. As shown in
As shown in
(Boom Attach/Detach Method)
A boom attach/detach method by the boom attach/detach device 1 shown in
(Detachment of Boom 20)
As shown in the order of
The hook H1, the auxiliary sheave 27, and the auxiliary hook H2 shown in
As shown in
The first boom rear end side supporting device 71 is arranged on the rail 53, and more specifically, arranged in an end portion (or the vicinity thereof) of the rail 53 on the boom rear end side X1.
As shown in
As shown in
As shown in
The boom foot pin 20a is detached from the base end boom 21 and the boom supporting bracket 15b. The rising and falling cylinder rod pin 19d is detached from the rising and falling cylinder 19 and the rising and falling cylinder attachment bracket 21b. At this time, the rising and falling cylinder 19 is supported by the rising and falling cylinder supporting device 19s. At this time, the load of the boom 20 is received by the first boom rear end side supporting device 71, and the front end boom 25 is fixed by the boom front end side supporting device 60. Accordingly, when the boom foot pin 20a is detached, the boom 20 is suppressed from moving (e.g., falling), which results in facilitating detachment of the boom foot pin 20a (the same applies to detachment of the rising and falling cylinder rod pin 19d). At this time, the boom 20 is allowed to conduct rising and falling operation with the boom point pin 25c (see
As shown in
The second boom rear end side supporting device 72 is disposed on the rail 53, and more specifically, is arranged in the end portion (or the vicinity thereof) of the rail 53 on the boom rear end side X1 and is arranged more to the boom rear end side X1 than the rising and falling cylinder attachment bracket 21b. Similarly to the first boom rear end side supporting device 71, a height of the second boom rear end side supporting device 72 is adjusted to bind the base end boom 21 by the binding device 89. At this time, according to the adjusted height of the second boom rear end side supporting device 72, the height of the first boom rear end side supporting device 71 can be adjusted.
As shown in
As shown in
(Attachment of Boom 20)
By a procedure reverse to the above boom 20 attachment procedure (or by an approximately reverse procedure), the boom 20 is attached to the upper slewing body 13 in the order of
As shown in
As shown in
The binding member 89a of the second boom rear end side supporting device 72 is detached from the boom 20. The second boom rear end side supporting device 72 is lowered, and the second boom rear end side supporting device 72 is detached from the rail 53.
As shown in
The binding member 89a of the first boom rear end side supporting device 71 is detached from the boom 20. The fixing pin 65 of the boom front end side supporting device 60 shown in
As shown in
As shown in
Effects of the boom attach/detach device 1 shown in
[Configuration 1-1]
At least a part of the boom supporting device 50 is arranged more to the boom front end side X2 than the upper slewing body 13.
[Configuration 1-2]
When the extensible cylinder 31 conducts extension and contraction operation in a state where coupling between the upper slewing body 13 and the boom 20 by the boom foot pin 20a is cut off, the boom supporting device 50 supports the boom 20 so as to enable the end portion (rear end portion) of the boom 20 on the boom rear end side X1 to be movable in the boom axis direction X.
In the Configuration 1-2, as power for attaching/detaching the boom 20 to/from the upper slewing body 13, extension and contraction operation of the extensible cylinder 31 is used. Accordingly, the boom 20 can be attached/detached without a need to use a separate power device from the crane 10.
In the Configuration 1-1, at least a part of the boom supporting device 50 is provided separately from the upper slewing body 13. Accordingly, it is not necessary to provide the upper slewing body 13 with a structure for supporting the boom 20 at the time of attachment/detachment of the boom 20. Alternatively, the boom supporting device 50 to be disposed in the upper slewing body 13 can be reduced in size (see, for example, a first guide roller device 351 of a third embodiment shown in
For example, as compared with a case where “the boom receiving base” recited in Patent Literature 1 is provided in the upper slewing body 13, since in the present embodiment, a gap between the boom supporting bracket 15b and the boom 20 in the width direction can be reduced, the width of the upper slewing body 13 can be made narrower. Additionally, since it is not necessary to provide the upper slewing body 13 with a boom receiving base, it is possible to suppress an increase in size of the upper slewing body 13, an increase in mass of the upper slewing body 13, and an increase in cost of the upper slewing body 13. As a result of suppressing the increases in size and in mass of the upper slewing body 13, amounts of fuel and exhaust gas necessary for operation of the crane 10 can be suppressed. Additionally, a vehicle for transporting the upper slewing body 13 can be reduced in size, amounts of fuel and exhaust gas necessary for transporting the upper slewing body 13 can be suppressed, and the cost necessary for transporting the upper slewing body 13 can be suppressed.
[Configuration 2]
The boom 20 is extensible. The drive cylinder is the extensible cylinder 31 which causes the boom 20 to extend and contract.
In the Configuration 2, as power for attaching/detaching the boom 20 to/from the upper slewing body 13, extension and contraction operation of the extensible cylinder 31 (i.e., extension and contraction operation of the boom 20) can be used.
[Configuration 3]
As shown in
As compared with a case where only one of the boom front end side supporting device 60 and the boom rear end side supporting device 70 is provided, this Configuration 3 enables the boom 20 to be securely supported. Accordingly, the boom 20 can be securely attached/detached to/from the upper slewing body 13.
[Configuration 4]
The boom supporting device 50 includes the rail 53 extending in the boom axis direction X. The boom rear end side supporting device 70 is movable in the boom axis direction X along the rail 53.
With this Configuration 4, the boom rear end side supporting device 70 moves following the extension and contraction operation of the boom 20. Accordingly, the boom rear end side supporting device 70 is allowed to securely support the boom 20 conducting the extension and contraction operation. Additionally, as compared with a case where the boom rear end side supporting device 70 does not move along the rail 53, the boom rear end side supporting device 70 is more likely to move smoothly, so that noise caused by movement of the boom rear end side supporting device 70 can be suppressed more easily.
[Configuration 5]
The boom rear end side supporting device 70 includes the lifting cylinder 85 (support height changing portion) which changes the top plate 83 (the part supporting the boom 20) to have an arbitrary height as shown in
With this Configuration 5, the following effect can be obtained at the time of attaching the boom 20. When the top plate 83 supports the boom 20 (see
With the Configuration 5, the effect can be obtained at the time of attaching the boom 20. In a state where the top plate 83 does not support the boom 20 (see the state between
[Configuration 6]
As shown in
As compared with a case where only one boom rear end side supporting device 70 is provided, this Configuration 6 enables the boom 20 to be supported more stably.
[Configuration 13]
The boom supporting device 50 is provided on the truck 40 (the transport carriage) for transporting the boom 20.
This Configuration 13 allows the truck 40 to transport the boom 20 while the boom 20 is supported by the boom supporting device 50 provided on the truck 40 after detachment work of the boom 20.
Additionally, with the Configuration 13, the following effect can be obtained in a case where the boom 20 is transported in a state where the boom 20 is supported by the boom supporting device 50 provided on the truck 40 before attachment work of the boom 20. In this case, attachment work of the boom 20 can be started while the boom 20 remains in the state at the time of transportation.
Effects obtained by a boom attach/detach method according to the present embodiment are as follows. This boom attach/detach method is used by the crane 10 including the boom 20 and the extensible cylinder 31 shown in
[Configuration 14]
In a state where the boom 20 is supported at a position more to the boom front end side X2 than the upper slewing body 13 and coupling between the upper slewing body 13 and the boom 20 via the boom foot pin 20a is cut off, the extensible cylinder 31 is caused to conduct extension and contraction operation. This extension and contraction operation causes the end portion of the boom 20 on the boom rear end side X1 to move in the boom axis direction X.
With this Configuration 14, the same effect as that described above in the “Effect of First Invention” can be obtained.
[Configuration 15]
In the boom attach/detach method, the boom 20 is extensible, and the drive cylinder is the extensible cylinder 31 which causes the boom 20 to extend and contract.
With this Configuration 15, the same effect as that described above in the “Effect of Second Invention” can be obtained.
With reference to
While in the first embodiment, the lower travelling body 11 includes the crawler 11a as shown in
The car body 211b is a part to which the crawler 11a is attached (see
The jack 211c (translifter) is a hydraulic jack (hydraulic cylinder) to be attached to the car body 211b. The jack 211c lifts up an upper slewing body 13 to an arbitrary height. More specifically, the jack 211c is capable of arbitrarily changing the height of the upper slewing body 13 with respect to the ground by lifting up the car body 211b from the ground, and is capable of arbitrarily changing an inclination of the upper slewing body 13 with respect to the ground. The jacks 211c are provided at a plurality of positions, specifically, provided at four positions, and arranged spaced apart from each other in a boom axis direction X and a boom width direction Y.
(Boom Attach/Detach Method)
As shown in the order of
(Detachment of Boom 20)
As shown in
On the other hand, since in the second embodiment shown in
(Attachment of Boom 20)
In the first embodiment, at the time of attachment of the boom 20, adjustment of the height of the first boom rear end side supporting device 71 shown in
On the other hand, in the second embodiment, for example, the above pin holes cannot be aligned merely by the height adjustment of the first boom rear end side supporting device 71. Therefore, as shown in
Effects obtained by the boom attach/detach device 201 shown in
[Configuration 7]
The jack 211c lifts up the upper slewing body 13 to an arbitrary height.
With this Configuration 7, the following effect can be obtained at the time of detachment of the boom 20. By lifting up the upper slewing body 13 by the jack 211c to an arbitrary height, the boom 20 attached to the upper slewing body 13 can be changed to have an arbitrary height. Accordingly, the boom 20 can be appropriately supported by the boom supporting device 50.
With the Configuration 7, the following effect can be obtained at the time of attachment of the boom 20. By lifting up the upper slewing body 13 by the jack 211c to an arbitrary height, the pin hole of the boom foot pin 20a of the upper slewing body 13 (a boom supporting bracket 15b) can be changed to have an arbitrary height. Accordingly, the boom foot pin 20a can be attached with ease.
With reference to
The boom attach/detach device 301 includes a crane 310, a truck 340 (transport carriage), a boom supporting device 350 (boom supporting portion), and a cylinder receiving base 360 (see
The upper slewing body 313 includes a slewing frame 315. The slewing frame 315 includes a bottom plate 315a and a boom supporting bracket 315b. The boom supporting bracket 315b upwardly protrudes from the bottom plate 315a. In
The rising and falling cylinder 319 (drive cylinder) includes a cylinder tube 319a and a cylinder rod 319b (see
The boom 320 is attached to the slewing frame 315 (to the upper slewing body 313) via a boom foot pin 320a as shown in
The base end boom 321 (the basic boom) includes a box-shaped base end boom main body 321a, a bracket for rising and falling 321b, and a bracket for attachment/detachment 322 (a coupling member for attachment/detachment) as shown in
To the bracket for rising and falling 321b, the rising and falling cylinder 319 is attached when the boom 320 is caused to rise and fall (during use of the boom and during crane work, see
To the bracket for attachment/detachment 322 (coupling member for attachment/detachment), the rising and falling cylinder 319 is attached during boom attachment/detachment work as shown in
The bracket main body for attachment/detachment 322b is attachable/detachable to/from the bracket for attachment/detachment supporting portion 322a, and is attached, for example, to the bracket for attachment/detachment supporting portion 322a via a pin (see
A front end portion (boom front end side X2 end portion) of the front end boom 325 includes a side plate 325a and a boom point pin 325c as shown in
The truck 340 (transport carriage) is a vehicle which transports the boom 320 and includes a platform 341 as shown in
The boom supporting device 350 (boom supporting portion) is a device for supporting the boom 320. The boom supporting device 350 supports the boom 320 from below. The boom supporting device 350 includes a first guide roller device 351, a second guide roller device 352, a rail 353, and a carriage 357.
The first guide roller device 351 supports a rear end side part (a part closer to the boom rear end side X1 than to a central part of the boom 320 in a boom axis direction X) of the boom 320. The first guide roller device 351 is provided (disposed) at the slewing frame 315. As shown in
The extensible frame 351a is a box-shaped member extensible in a vertical direction. The extensible frame 351a includes, for example, an outer side frame 351a1 and an inner side frame 351a2. The inner side frame 351a2 is arranged on the inner side than the outer side frame 351a1 and protrudes more upwardly than the outer side frame 351a1.
The frame coupling portion 351b couples an upper end portion of the extensible frame 351a of the first guide roller device 351L and an upper end portion of the extensible frame 351a of the first guide roller device 351R. The frame coupling portion 351b is, for example, plate-shaped with a thickness direction as the vertical direction.
The lifting cylinder 351c (support position lifting device) raises and lowers the guide roller 351e, thereby causing a support position of the boom 320 by the guide roller 351e to be raised and lowered. The lifting cylinder 351c raises and lowers the cylinder receiving base 360, thereby causing a support position of the cylinder tube 319a by the cylinder receiving base 360 to be raised and lowered. The lifting cylinder 351c is arranged (housed) inside the extensible frame 351a. The lifting cylinder 351c causes the extensible frame 351a to extend and contract in the vertical direction, and more specifically, causes the inner side frame 351a2 to be raised and lowered with respect to the outer side frame 351a1. The lifting cylinder 351c is, for example, a hydraulic cylinder or the like.
The guide roller supporting portion 351d is a part which supports the guide roller 351e and upwardly protrudes from the extensible frame 351a. The guide roller supporting portion 351d is formed of two plates sandwiching the guide roller 351e, for example.
The guide roller 351e is a part which fits the belly face of the boom 320 (the base end boom 321) to support the belly face. The guide roller 351e is rotatable with respect to the guide roller supporting portion 351d and rotates along with movement of the base end boom 321 shown in
The second guide roller device 352, the rail 353, and the carriage 357 are each arranged more to the boom front end side X2 than the slewing frame 315 and arranged more to the boom front end side X2 than the upper slewing body 313. The second guide roller device 352, the rail 353, and the carriage 357 are each arranged at positions away from the slewing frame 315 (in a state of being separated from the slewing frame 315) and arranged at positions away from the upper slewing body 313. Specifically, the second guide roller device 352, the rail 353, and the carriage 357 are each provided on the truck 340, and more specifically, mounted (arranged) on the platform 341.
The second guide roller device 352 supports the rear end side part of the boom 320 and the central part thereof in the boom axis direction X. The second guide roller device 352 is configured approximately similarly to the first guide roller device 351. In the following, description will be made mainly of differences of the second guide roller device 352 from the first guide roller device 351. As shown in
The rail 353 is a rod-shaped member extending in the boom axis direction X as shown in
The carriage 357 is movable in the boom axis direction X along the rail 353 shown in
The carriage roller 357b is a member which causes the carriage 357 to be movable along the rail 353. The carriage roller 357b is attached to the carriage frame 357a to be rotatable around an axis of the carriage roller 357b with respect to the carriage frame 357a. A plurality of, for example, four (a total of eight) carriage rollers 357b are provided for one rail 353. As shown in
The boom point pin fixing portion 357c supports the front end boom 325, and more specifically, supports the boom point pin 325c, and has a U-shaped recess for supporting (receiving) the boom point pin 325c from below as shown in
The cylinder receiving base 360 is a base which receives (supports from below) the cylinder tube 319a of the rising and falling cylinder 319 as shown in
(Operation)
An outline of operation of the boom attach/detach device 301 shown in
When the boom 320 is changed from a position where boom 320 is attached to the upper slewing body 313 (a body attachment position) to a position where the boom 320 is mounted on the truck 340 (a transport carriage position) (at the detachment of the boom 320), operation of the boom attach/detach device 301 to be conducted is as follows. In the following, description will be made following the order of steps (the order of steps may be appropriately changed).
[Step A]
The first guide roller device 351 and the cylinder receiving base 360 (see
[Step B]
The boom 320 is lowered by the rising and falling cylinder 319 and the boom 320 (the front end boom 325) is supported by the carriage 357. Next, as shown in
[Step C]
Drive of the lifting cylinder 351c shown in
[Step D]
The boom foot pin 320a shown in
[Step E]
By operation by an operator, the rising and falling cylinder 319 is extended. Then, the boom 320 moves to the boom front end side X2. At this time, the boom 320 moves to the boom front end side X2 while being supported by the first guide roller device 351 and the carriage 357. As a result, the boom rear end side X1 end portion of the boom 320 separates from the boom supporting bracket 315b to the boom front end side X2. As shown in
[Step F]
The cylinder rod pin 319d is detached from the cylinder rod 319b and the bracket for rising and falling 321b. Next, the rising and falling cylinder 319 is contracted.
[Step G]
As shown in
[Step H]
The bracket for attachment/detachment 322 is disposed at the boom 320. More specifically, the bracket main body for attachment/detachment 322b is attached to the bracket for attachment/detachment supporting portion 322a. Then, the cylinder rod pin 319d is attached to the cylinder rod 319b and the bracket for attachment/detachment 322.
[Step I]
The rising and falling cylinder 319 is extended. Consequently, the boom 320 moves to the boom front end side X2 in the boom axis direction X. As shown in
[Step J]
The cylinder rod pin 319d is detached from the cylinder rod 319b and the bracket for attachment/detachment 322. Then, the rising and falling cylinder 319 is contracted.
[Step K]
The boom 320 is transported by the truck 340.
When the position of the boom 320 is changed from the transport carriage position to the body attachment position (see
Effects obtained by the boom attach/detach device 301 shown in
[Configuration 8]
The drive cylinder is the rising and falling cylinder 319 which is attached to the upper slewing body 313 to cause the boom 320 to rise and fall with respect to the upper slewing body 313.
In the Configuration 8, since the rising and falling cylinder 319 is used for attaching/detaching the boom 320, it is not necessary to place a member necessary for operating the rising and falling cylinder 319 outside the upper slewing body 313, so that attaching/detaching work of the boom 320 can be conducted with ease.
A specific example of this effect is as follows. For example, as power for attaching/detaching the boom 320 to/from the upper slewing body 313, an extensible cylinder for causing the boom 320 to extend and contract (see the extensible cylinder 31 shown in
As shown in
[Configuration 9]
The bracket for attachment/detachment 322 is arranged more to the boom rear end side X1 (the boom rear end side) than the bracket for rising and falling 321b, and the rising and falling cylinder 319 can be attached.
The boom attach/detach device 301 includes the Configuration 9. Accordingly, even when the bracket for rising and falling 321b is located more to the boom front end side X2 than the front end portion of the rising and falling cylinder 319 when the rising and falling cylinder 319 extended the most, the rising and falling cylinder 319 is allowed to move the boom 320 in the boom axis direction X via the bracket for attachment/detachment 322. Accordingly, as compared with a case where the bracket for attachment/detachment 322 is not provided, the boom 320 can be moved further away from the upper slewing body 313 to the boom front end side X2, or the boom 320 can be moved from the position on the boom front end side X2 closer to the upper slewing body 313. Accordingly, attachment/detachment of the boom 320 can be appropriately conducted.
[Configuration 10]
The boom attach/detach device 301 includes the cylinder receiving base 360 as shown in
With the Configuration 10, at the time of attachment/detachment of the boom 320 shown in
[Configuration 11]
The boom supporting device 350 includes the rail 353 and the carriage 357. The rail 353 extends in the boom axis direction X. The carriage 357 is movable in the boom axis direction X along the rail 353 and supports the boom 320.
With the Configuration 11, the carriage 357 is allowed to securely support the boom 320 which moves in the boom axis direction X at the time of attachment/detachment of the boom 320. Accordingly, the boom 320 can be appropriately attached/detached.
[Configuration 12]
The boom supporting device 350 (the first guide roller device 351) is further provided in the slewing frame 315 of the upper slewing body 313.
With the Configuration 12, the boom 320 can be more securely supported as compared with a case where the boom supporting device 350 is arranged only at a position more to the boom front end side X2 than the upper slewing body 313. Accordingly, the boom 320 can be appropriately attached/detached.
Effects obtained by the boom attach/detach method of the present embodiment are as follows.
[Configuration 16]
The drive cylinder is the rising and falling cylinder 319 which is attached to the upper slewing body 313 to cause the boom 320 to rise and fall with respect to the upper slewing body 313.
With this Configuration 16, the same effect as that described in the above “Effect of Eighth Invention” can be obtained.
(Modification)
The above respective embodiments may be variously modified. Components of the embodiments different from each other may be combined. For example, as power for attaching/detaching the boom 20 to/from the upper slewing body 13 shown in
Fixing or coupling may be conducted directly or conducted indirectly. For example, the rising and falling cylinder supporting device 19s shown in
The lower travelling body 11 shown in
In the above embodiment, the boom supporting device 50 is provided on the truck 40. However, the boom supporting device 50 may be provided on a transport carriage other than the truck 40, may be provided on a transport carriage which is not self-propelled, may be provided on, for example, a trailer, may be provided on, for example, a carriage dedicated to transportation of the boom 20, or may be integral with the carriage. Additionally, the boom supporting device 50 may not be provided on a transport carriage, but may be fixed to the ground or the floor.
Although in the above embodiment, the boom supporting device 50 is a device, but a part or the entire of the boom supporting device 50 may be a boom supporting portion which is not a device. The boom supporting portion, which is not a device, may be a block-shaped substance, for example, wood or the like.
As shown in
Although the number of the boom rear end side supporting devices 70 is two as shown in
The boom rear end side supporting device 70 may be provided with a load detection means for detecting a load of the boom 20. The load detection means enables detection whether the boom rear end side supporting device 70 appropriately supports the boom 20 or not when the boom foot pin 20a shown in
Although in the above embodiment, the height of the top plate 83 may be changed by the lifting cylinder 85 as a hydraulic cylinder, the height of the top plate 83 may be changed using electric power by, for example, an electric motor or the like.
In the above embodiment, arrangement of the wheels 88 on the rail 53 makes the boom rear end side supporting device 70 be movable in the boom axis direction X. However, the wheel 88 may be replaced by, for example, a slide member or the like. The slide member is configured to be easily slidable with respect to the rail 53 and is, for example, a plate-shaped (sliding pad), and is made of, for example, resin. The wheel 88 or the slide member may not be arranged on the rail 53, but may be arranged beside the rail 53 (on the inner side or outer side in the boom width direction Y) or arranged in a groove or the like formed in the rail 53.
The procedure for detaching the boom 20 from the upper slewing body 13 and the procedure for attaching the boom 20 to the upper slewing body 13 in the above embodiment may be appropriately changed. Although in the second embodiment, the inclination of the upper slewing body 13 with respect to the ground is adjusted by the jack 211c, only the height may be adjusted without adjustment of the inclination.
As shown in
In the boom attach/detach device 301 of the third embodiment as shown in
Although the number of the brackets for attachment/detachment 322 shown in
As shown in
A similar device to the first guide roller device 351 or the second guide roller device 352 may be further provided on the slewing frame 315 or the platform 341.
Although the number of the carriage rollers 357b shown in
As shown in
In the above embodiment, the cylinder receiving base 360 shown in
Number | Date | Country | Kind |
---|---|---|---|
2015-058033 | Mar 2015 | JP | national |
2015-148885 | Jul 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2016/058673 | 3/18/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/152770 | 9/29/2016 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4660731 | Becker | Apr 1987 | A |
5829605 | Poitras | Nov 1998 | A |
6032809 | Irsch | Mar 2000 | A |
6516917 | Mayer | Feb 2003 | B1 |
9150390 | Willim | Oct 2015 | B2 |
9919637 | Dieleman | Mar 2018 | B1 |
20140291267 | Yamashita | Oct 2014 | A1 |
20180282135 | Konijn | Oct 2018 | A1 |
Number | Date | Country |
---|---|---|
50-24965 | Mar 1975 | JP |
50-024965 | Mar 1975 | JP |
57-13885 | Aug 1982 | JP |
57-138885 | Aug 1982 | JP |
57-138885 | Aug 1982 | JP |
5-330790 | Dec 1993 | JP |
2014-31231 | Feb 2014 | JP |
Entry |
---|
International Search Report dated May 24, 2016 in PCT/JP2016/058673 dated Mar. 18, 2016. |
Japanese Office Action for JP2015-058033, dated Mar. 5, 2019. English machine translation provided. |
Japanese Office Action for JP2015-058033, dated Sep. 11, 2018. English machine translation provided. |
Number | Date | Country | |
---|---|---|---|
20180065832 A1 | Mar 2018 | US |