JP2014218821A - Attachment mounting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve workability in mounting an attachment, such as a hose reel unit.SOLUTION: An attachment mounting device comprises a first frame 22 that is rotatably attached to an ascendably/descendably attached front frame, an actuator that is attached to the first frame 22, a second frame 31 that moves up and down by being driven by the actuator relative to the first frame 22, and an attachment 45 that is connected to the second frame 31 via a connection member 75 and hoisted by being driven by the actuator. The first frame 22 and the attachment 45 have couplings 52, 53, and 54 that are detachably coupled each other, respectively. At least one of the second frame 31 and the attachment 45 is provided with position adjusters 55 and 56 that can adjust the connection position of a connection member 75 so as to align the positions of the couplings of the first frame (hereinafter referred to as first couplings 52 and 53) and the position of the coupling of the attachment (hereinafter referred to as a second coupling 54).

Description

  The present invention relates to an attachment mounting device.

  There is known an earth drill including a hose reel unit for winding / unwinding a hydraulic hose for supplying pressure oil to a bottom expansion bucket (see Patent Document 1). Earth drills are used with a crane as a base. The earth drill includes a front frame that is attached to the boom so as to be raised and lowered, an upper frame that is rotatably attached to the front frame, and a kelly drive device mounted on the upper frame. The kelly drive device is a device that rotationally drives a kelly bar suspended from the top of the boom. The kelly bar extends in the vertical direction and is inserted into the drive hole of the rotating disk of the kelly drive device. A bucket for excavation is attached to the lower end of the Keriba.

  As a bucket for excavation, there is a bottom expansion bucket used for excavation of a bottom portion of a vertical hole. The bottom expansion bucket has expansion blades driven by a hydraulic cylinder mounted on the bottom expansion bucket, rotates the bottom expansion bucket via a kelly bar rotated by a kelly drive device, and opens the expansion blade to the bottom of the vertical hole while opening the expansion blades. Form.

  The hose reel unit is a device that winds up or feeds out a hydraulic hose that transmits an oil pressure that expands the expansion blades of the bottom expansion bucket. The hose reel unit is detachably attached to a reel unit mounting frame provided on the upper frame of the front frame by pins or bolts. When the earth drill is transported to the site, the hose reel unit is removed from the reel unit mounting frame and transported, and is attached to the reel unit mounting frame at the site.

  In Patent Document 1, the hose reel unit and the device frame of the kelly drive device are connected by a connecting member, and the hose reel unit is lifted by lifting the kelly drive device with a hydraulic cylinder connected to the upper frame. An invention is disclosed in which the reel unit is attached to the reel unit mounting frame in a suspended state. Since the hose reel unit can be attached to the reel unit mounting frame in a lifted state, it is not affected even when the ground is inclined, for example, with the hose reel unit placed on the ground. Compared to the case where the attachment work is performed, the attachment work can be easily performed.

JP 2009-2122 A

  However, in the technique described in Patent Document 1, if the position of the center of gravity deviates from the design point due to the influence of a load such as a hydraulic hose wound around the hose reel unit, the hose reel unit is lifted when the hose reel unit is lifted. May tilt. In this case, it is difficult to align the position of the mounting hole (pin hole) of the reel unit mounting frame and the mounting hole (pin hole) of the hose reel unit, and the mounting work may be troublesome.

The attachment mounting device according to claim 1 is a first frame that is rotatably attached to a front frame that is attached to be able to undulate, an actuator that is attached to the first frame, and a first frame that is driven by the actuator. A second frame that moves up and down, and an attachment that is connected to the second frame via a connection member and is lifted by driving of an actuator, wherein the first frame and the attachment are detachably coupled to each other At least one of the second frame and the attachment, the position of the coupling portion of the first frame (hereinafter referred to as the first coupling portion), and the coupling portion of the attachment (hereinafter referred to as the second coupling portion). ) Position adjustment that can adjust the connection position of the connection member to match the position Wherein the parts are provided.
The attachment attachment device according to claim 2 is the attachment attachment device according to claim 1, wherein the position adjustment unit includes a pair of support plates and a support shaft spanned between the pair of support plates. The end of the member is provided with an opening through which the support shaft is inserted, and the end of the connection member is movable between the pair of support plates along the support shaft.
The attachment mounting device according to claim 3 is the attachment mounting device according to claim 2, wherein the first coupling portion is provided with a first pin hole, and the second coupling portion is provided with a second pin hole. By inserting the pin through the first pin hole of the first coupling portion and the second pin hole of the second coupling portion, the first coupling portion and the second coupling portion are coupled, and the central axis of the pin is the support shaft It is characterized by being orthogonal to the central axis.
The attachment mounting device according to claim 4 is characterized in that, in the attachment mounting device according to claim 3, a restriction member for restricting rotation of the attachment around the pin is provided with respect to the first frame. To do.
The attachment attachment device according to claim 5 is the attachment attachment device according to any one of claims 1 to 4, wherein the actuator is a hydraulic cylinder, a kelly drive device is attached to the second frame, and the attachment is It is a hose reel unit.

  According to the present invention, it is possible to improve the attachment workability of an attachment such as a hose reel unit.

The external appearance side view of an earth drill provided with the attachment mounting apparatus which concerns on 1st Embodiment. The elements on larger scale of FIG. The elements on larger scale of FIG. The A direction arrow directional view of FIG. FIG. 4 is a view in the direction of arrow B in FIG. 3. The side view which shows the state before the attachment to the reel unit attachment frame of a hose reel unit. The C direction arrow directional view of FIG. The plane schematic diagram which shows the connection structure of a hose reel unit and a reel unit attachment frame, and the connection structure of a hose reel unit and an apparatus frame. The figure which shows the state in which the hose reel unit is mounted in the ground. The figure which shows the state by which the hose reel unit was lifted before the position of the upper end of a wire rope was adjusted. The figure which shows the state by which the hose reel unit was lifted after the position of the upper end of a wire rope was adjusted. The figure which shows the state by which the hose reel unit was lifted before the position of the lower end of a wire rope was adjusted in the attachment attachment apparatus which concerns on 2nd Embodiment. The figure which shows the state by which the hose reel unit was lifted after the position of the lower end of a wire rope was adjusted in the attachment attachment apparatus which concerns on 2nd Embodiment. The figure which shows the state by which the hose reel unit was lifted before the position of the both ends of a wire rope was adjusted in the attachment attachment apparatus which concerns on a modification. The figure which shows the state by which the hose reel unit was lifted after the position of the both ends of a wire rope was adjusted in the attachment attachment apparatus which concerns on a modification.

Hereinafter, an embodiment of an attachment mounting device according to the present invention will be described with reference to the drawings.
-First embodiment-
FIG. 1 is an external side view of an earth drill 1 including an attachment mounting device according to a first embodiment of the present invention, and FIG. 2 is a partially enlarged view of FIG. In the following, as illustrated, the vertical and front / rear / left / right directions of the earth drill 1 are defined based on the posture of FIG. 1. The up-down direction, the left-right direction, and the front-rear direction shown by arrows are orthogonal to each other. The earth drill 1 uses a crane as a base machine. The earth drill 1 includes a crawler-type lower traveling body 2, an upper revolving body 4 that is pivotably provided on the lower traveling body 2 via a swivel bearing, and a base end portion that is rotatable to the upper revolving body 4. And an attached boom 7. The upper swing body 4 is provided with a machine room 5 provided with a hydraulic power source, a power source, an engine, and the like, and an operation room 6.

  A hydraulic cylinder 8 for raising and lowering the boom 7 and a hoisting winch 10 around which a hoisting rope 16 is wound are mounted on the upper swing body 4. The hoisting rope 16 is connected to the kelly bar 14 via a sheave provided at the tip of the boom 7. The kelly bar 14 is inserted into a kelly drive device 30 and a hose reel unit 45 described later, and is rotated by the kelly drive device 30. A bottom expansion bucket 15 having expansion blades 15a is detachably coupled to the lower end of the kelly bar 14, and the ground is excavated as the kelly bar 14 rotates. The expansion bucket 15 is equipped with a hydraulic cylinder (not shown) for opening and closing the expansion blade 15a.

  The bottom expansion bucket 15 excavates by expanding the bottom portion of the vertical hole into a conical shape by opening (expanding) the expansion blade 15a. The expansion blade 15a is opened and closed by a hydraulic cylinder (not shown) mounted on the bottom expansion bucket 15, and hydraulic pressure for driving the hydraulic cylinder (not shown) is supplied from a hydraulic source via a hydraulic hose. A hydraulic hose that transmits hydraulic pressure is wound around a hose reel 46 (see FIGS. 6 and 7) of a hose reel unit 45, which will be described later. To do.

  The attachment attachment device according to the present embodiment will be described. FIG. 3 is a partially enlarged view of FIG. The attachment mounting device includes a front frame 18, an upper frame 22, a device frame 31 of the kelly drive device 30, a hydraulic cylinder 35 provided between the upper frame 22 and the device frame 31, and a hose reel unit 45. ing. As will be described later, the hose reel unit 45 is connected to the device frame 31 via a connecting member 75 when the hose reel unit 45 is attached to the reel unit mounting frame 27 of the upper frame 22 (see FIGS. 6 and 7). It is suspended / lifted by 35 telescopic driving.

  As shown in FIG. 2, the front frame 18 is pivotally attached to the upper swing body 4 by a pin 19 at the base end. The front frame 18 is raised and lowered around the pin 19 by the expansion and contraction drive of the left and right hydraulic cylinders 20 provided between the front frame 18 and the boom 7.

  With reference to FIGS. 3 to 5, the upper frame 22 attached to the front frame 18, and the Kelly drive device 30 and the device frame 31 that operate in the vertical direction with respect to the upper frame 22 will be described. 4 is a view in the direction of arrow A in FIG. 3 (viewed from the front), and FIG. 5 is a view in the direction of arrow B in FIG. 3 (viewed from above). 3 and the subsequent drawings, the illustration of the kelly bar 14 is omitted.

  As shown in FIG. 3, the front frame 18 has a bifurcated tip, and a hydraulic cylinder 24 is connected to one tip, and a lower portion of the upper frame 22 is rotated by a pin 23 to the other tip. It is mounted movably. In the hydraulic cylinder 24, the end of the cylinder tube is connected to the front frame 18, and the end of the cylinder rod is connected to the upper part of the upper frame 22.

  As shown in FIGS. 3 to 5, the upper frame 22 rotates around the pin 23 by the expansion and contraction drive of the hydraulic cylinder 24. The upper frame 22 includes an upper horizontal frame 25 extending in the left-right direction, a pair of left and right vertical frames 26 extending in the up-down direction, and a reel unit mounting frame 27 provided below the vertical frame 26. Yes.

  A Kerry drive device 30 is attached to the upper frame 22 via a device frame 31 so as to be movable up and down. The apparatus frame 31 is provided with sliding portions 31a that are fitted to guide rails 32 provided on the left and right vertical frames 26 of the upper frame 22 so as to be movable up and down.

  The kelly drive device 30 is equipped with a rotating disk 29 having a drive hole 29a through which the kelly bar 14 (see FIG. 2) can be moved up and down and cannot be relatively rotated, and a hydraulic motor 33 that rotates the rotating disk 29. ing.

  A hydraulic cylinder 35 is disposed between the upper end portion of the apparatus frame 31 and the upper end portion of the upper frame 22. One hydraulic cylinder 35 is provided on each of the left and right sides. The hydraulic cylinder 35 is attached by a pin 37 to a bracket 36 provided at the upper part of the vertical frame 26 at the upper end of the cylinder tube, and attached to a bracket 38 provided at the apparatus frame 31 by a pin 39 at the lower end of the cylinder rod. ing. For this reason, when the hydraulic cylinder 35 is driven, the sliding portion 31a of the device frame 31 is slid on the guide rail 32 as the cylinder rod expands and contracts, and the Kelly drive device 30 and the device frame 31 move with respect to the upper frame 22. Works up and down. Although not shown, the hydraulic cylinder 35 serves to increase the excavation efficiency by pressing the excavating blade at the bottom of the bucket against the bottom of the excavating hole via the kelly bar 14 during shaft digging.

  The hose reel unit 45 attached to the reel unit attachment frame 27 will be described with reference to FIGS. 6 is a side view showing a state before the hose reel unit 45 is attached to the reel unit attachment frame 27, and FIG. 7 is a view in the direction of arrow C in FIG. 6 (viewed from the front).

  The hose reel unit 45 includes a turntable 48 and a center joint 49. Two hose reels 46 are mounted on the turntable 48. The hose reel 46 winds up / feeds out a hydraulic hose (not shown) for supplying hydraulic oil to a hydraulic cylinder (not shown) for opening and closing the expansion blade 15a (see FIG. 2). It has a constant torque motor for applying a certain tension. The turntable 48 includes a lower plate 48a on which the hose reel 46 is placed, a central vertical frame 48b, and an upper plate 48c.

  The center joint 49 includes a cylindrical outer cylinder and an inner cylinder that is rotatably fitted in the outer cylinder. The center joint 49 is provided to rotate the hydraulic hose between the bottom expansion bucket 15 and the turntable 48 together with the hose reel 46 during the bottom expansion operation. The upper plate 48 c of the turntable 48 is coupled to an inner cylinder that is a rotating part of the center joint 49.

  The hose reel unit 45 is coupled to and integrated with the reel unit mounting frame 27 of the upper frame 22 during operation, and is removed from the upper frame 22 and transported during transportation. A connection structure between the hose reel unit 45 and the reel unit mounting frame 27 will be described with reference to FIGS. FIG. 8 is a schematic plan view showing a connection structure between the hose reel unit 45 and the reel unit mounting frame 27 and a connection structure between the hose reel unit 45 and the apparatus frame 31. In FIG. 8, the center joint 49 and the connecting member 75 of the hose reel unit 45 are indicated by solid lines, and a part of the device frame 31 and a part of the reel unit mounting frame 27 are indicated by two-dot chain lines. In the partially enlarged cross-sectional view, the connecting portion of the hose reel unit 45 and the reel unit mounting frame 27 is indicated by a solid line. Further, in FIG. 8, in order to show the connection portion between the hose reel unit 45 and the reel unit mounting frame 27, the DD line cut section and the EE line cut section of FIG. 6 are schematically illustrated.

  As shown in FIGS. 6 to 8, the reel unit mounting frame 27 has a pair of left and right horizontal frames 28. The pair of horizontal frames 28 extend in the front-rear direction, and an arrangement space for the kelly bar 14 is provided between the pair of horizontal frames 28. Each horizontal frame 28 is formed by welding a bottom plate 28a, an inner side plate 28b, an outer side plate 28c, and a top plate 28e, and the inside is hollow.

  As shown in FIG. 8, the bottom plate 28a is provided with an opening 28d through which a mounting bracket 50 of a hose reel unit 45 described later is passed. Bosses 52 and 53 are fixed to the portions of the side plates 28b and 28c corresponding to the openings 28d of the bottom plate 28a by welding. The bosses 52 and 53 are provided with pin holes 52a and 53a penetrating in the left-right direction, respectively. The pin holes 52a, 53a of the bosses 52, 53 fixed to the left lateral frame 28 and the pin holes 52a, 53a of the bosses 52, 53 fixed to the right lateral frame 28 are arranged to face each other. The center of each pin hole 52a and 53a is located on the same straight line extended in the left-right direction. Hereinafter, the center axis of the pin holes 52a and 53a is referred to as a pin hole center axis CL1.

  As shown in FIGS. 6 to 8, the hose reel unit 45 is provided with a pair of left and right mounting brackets 50. The mounting bracket 50 is provided to protrude upward at two locations on the left and right sides of the upper surface of the outer cylinder, which is a non-rotating portion of the center joint 49. Each mounting bracket 50 has a flat plate 57, and a boss 54 is fixed to the flat plate 57 by welding. A reinforcing member 58 for improving the rigidity of the mounting bracket 50 is fixed to the front and rear of the flat plate 57. The boss 54 is provided with a pin hole 54a penetrating in the left-right direction. The pin hole 54a of the boss 54 of the left mounting bracket 50 and the pin hole 54a of the boss 54 of the right mounting bracket 50 are arranged to face each other on the same straight line extending in the left-right direction. The center of the pin hole 54a is located. Hereinafter, the central axis of the pin hole 54a is referred to as a pin hole central axis CL2.

  As shown in FIG. 8, the bosses 52 and 53 of the reel unit mounting frame 27 and the boss 54 of the mounting bracket 50 have pin holes 52a, 53a and 54a arranged on the same straight line, that is, the pin hole central axis. The pin holes 51a, 53a, and 54a are inserted into and attached to the pin holes 52a, 53a, and 54a by aligning the CL1 and the pin hole central axis CL2.

  In the present embodiment, the mounting bracket 50 is coupled to the reel unit mounting frame 27 with the pin hole central axis CL1 extending in the left-right direction and the pin hole central axis CL2 being aligned with each other. The reel unit 45 is swingable (rotatable) in the front-rear direction around the pin 51 with respect to the upper frame 22. Therefore, in the present embodiment, in order to restrict the rotation of the hose reel unit 45 around the pin 51 with respect to the upper frame 22, the hose reel unit 45 is provided with a rotation stop bracket 80, and the rotation stop bracket. A rear bracket 85 to which 80 is coupled by a lock pin 81 is provided on the upper frame 22. As shown in FIG. 6, the rotation stop bracket 80 is provided so as to extend upward from the rear side surface of the outer cylinder of the center joint 49. The rear bracket 85 is provided so as to protrude rearward from the lower end portion of the upper frame 22.

  As shown in FIGS. 6 and 8, the rear bracket 85 includes a boss 86 provided on a single flat plate member, and the boss 86 includes a pin hole 86 a. A pair of anti-rotation brackets 80 are provided so as to sandwich the rear bracket 85 (see FIG. 8). Each of the pair of anti-rotation brackets 80 is formed by providing a boss 82 on one flat plate member, and the boss 82 is provided with a pin hole 82a.

  As shown in FIG. 8, after the mounting bracket 50 is coupled to the reel unit mounting frame 27 by the pin 51, the pin hole 82a of the anti-rotation bracket 80 and the pin hole 86a of the rear bracket 85 are on the same straight line. Arrange. Thereafter, by inserting the lock pin 81 into each pin hole 82a, 86a, the hose reel unit 45 is restricted from rotating with respect to the upper frame 22, and the hose reel unit 45 and the reel unit mounting frame 27 are left and right. It is fixed integrally by being connected at three places, the side and the rear.

  As described above, the upper frame 22 and the hose reel unit 45 have the bosses 52 and 53 and the boss 54, and the boss 86 and the boss 82, which are detachably coupled to each other. Both can be carried separately.

  A structure for lifting the hose reel unit 45 by the kelly drive device 30 will be described with reference to FIGS. A pair of upper support plates 55 for supporting the hose reel unit 45 are fixed to the left and right side surfaces of the device frame 31 of the kelly drive device 30 by welding or the like. The upper support plate 55 is provided with a shaft hole penetrating in the front-rear direction. The support shaft 56 is inserted through the shaft hole of the upper support plate 55 and spanned between the pair of upper support plates 55 so as to extend in the front-rear direction.

  One lower support plate 65 is fixed to each of the left and right side surfaces of the center joint 49 of the hose reel unit 45 by welding or the like. The lower support plate 65 is provided with a pin hole through which the shackle pin 73 is inserted. The upper support plate 55 and the lower support plate 65 are formed by connecting a connecting member 75 (described later) connected to the upper support plate 55 and the lower support plate 65 in the vertical direction when viewed from the left or right side of the earth drill 1. Are provided at positions corresponding to each other.

  As shown in FIG. 8, the pair of upper support plates 55 provided on the left side surface of the apparatus frame 31 and the lower support plate 65 provided on the left side surface of the center joint 49 of the hose reel unit 45 are respectively centered on the pin holes. It is located in front of the axes CL1 and CL2. A pair of upper support plates 55 provided on the right side surface of the apparatus frame 31 and a lower support plate 65 provided on the right side surface of the center joint 49 of the hose reel unit 45 are respectively located behind the pin hole central axes CL1 and CL2. positioned.

  The reason why the upper support plate 55 and the lower support plate 65 are not provided symmetrically in this way will be described. For example, as shown in FIG. 8, the center of gravity of the hose reel unit 45 is a design point at a position G1 in the vicinity of the central axis O extending in the vertical direction of the center joint 49 in plan view. For this reason, the lower support plate 65 is provided on the left and right side surfaces of the outer cylinder of the center joint 49 so as to sandwich the position G1 of the center of gravity and to have a bilaterally symmetric shape, and the device corresponding to the lower support plate 65 It is conceivable to provide the upper support plate 55 at a position in the frame 31. However, in this case, since the connecting member 75 described later is positioned on the pin holes 52a, 53a, and 54a in a side view, that is, the connecting member 75 is positioned on the pin hole central axes CL1 and CL2, the pin 51 is connected to the pin holes 52a, It becomes difficult to attach to 53a, 54a.

  For this reason, in the present embodiment, the upper support plate 55 and the lower support plate 65 are provided asymmetrically so that the connection member 75 is not positioned on the pin hole central axes CL1 and CL2. The center of gravity of the hose reel unit 45 is positioned on a virtual line L that connects the connection position PL of the connection member 75 on the left lower support plate 65 and the connection position PR of the connection member 75 on the right lower support plate 65. Thus, the positions of the support plates 55 and 65 are set. That is, the distance in the front-rear direction from the center of gravity position G1 to the left support plates 55, 65 and the distance in the front-rear direction from the center of gravity position G1 to the right support plates 55, 65 are set to be the same.

  A support shaft 56 spanned between the pair of upper support plates 55 and the lower support plate 65 are connected by a connection member 75. As shown in FIGS. 6 to 8, the connecting member 75 includes a wire rope 71, a shackle 72, and a shackle pin 73. At both ends of the wire rope 71, ring-shaped thimbles 71a and 71b forming openings are provided. When the hose reel unit 45 is attached to the reel unit attachment frame 27, the thimble 71 a at the upper end of the wire rope 71 is attached to the support shaft 56, and the thimble 71 b at the lower end of the wire rope 71 is attached to the shackle 72. The shackle 72 is attached to the lower support plate 65 by a shackle pin 73. Since the thimble 71 a at the upper end of the wire rope 71 can be moved along the support shaft 56 between the pair of upper support plates 55 while being attached to the support shaft 56, the connection position of the connection member 75 is adjusted. be able to.

  With reference to FIGS. 9 to 11, the mounting operation of the hose reel unit 45 to the reel unit mounting frame 27 will be described. FIG. 9 is a view showing a state where the hose reel unit 45 is placed on the ground 190. FIG. 10 is a view showing a state in which the hose reel unit 45 is lifted before the position of the upper end of the wire rope 71 is adjusted. FIG. 11 is a view showing the state of the hose reel after the position of the upper end of the wire rope 71 is adjusted. It is a figure which shows the state by which the unit 45 was lifted.

  The hose reel unit 45 is transported separately from the reel unit mounting frame 27 of the upper frame 22 and is mounted on the reel unit mounting frame 27 on site. As shown in FIG. 9, the hose reel unit 45 is lifted from the transport trailer and placed on the ground 190. The boom 7 and the front frame 18 are attached to the earth drill 1. The earth drill 1 is run and swiveled, and the hydraulic cylinder 20 is further expanded and contracted to position the reel unit mounting frame 27 on the hose reel unit 45 as shown, and the hydraulic cylinder 24 is expanded and contracted to adjust the reel unit. The horizontal frame 28 of the mounting frame 27 is kept horizontal. The hydraulic cylinder 35 that moves the kelly drive device 30 up and down is extended to set the kelly drive device 30 at the lowest position.

  A thimble 71 a at the upper end of the wire rope 71 is attached to a support shaft 56 that spans between the pair of upper support plates 55. Since the support shaft 56 is attached to the upper support plate 55 during transportation, the support shaft 56 is temporarily removed, and then the support shaft 56 is inserted into the opening of the thimble 71a and the shaft holes of the pair of upper support plates 55. . For example, the upper end of the wire rope 71 is disposed at the center position C0 (see FIG. 10) of the support shaft 56. The shackle 72 is attached to the thimble 71 b at the lower end of the wire rope 71, the shackle pin 73 is inserted into the pin hole of the lower support plate 65 and the pin hole of the shackle 72, and the shackle 72 is connected to the lower support plate 65.

  The cylinder rod of the hydraulic cylinder 35 is contracted to lift the kelly drive device 30 and the hose reel unit 45 connected to the device frame 31 of the kelly drive device 30 via the connection member 75 is floated in the air. Here, the gravity center position of the hose reel unit 45 is an imaginary line L that connects the connection position PL of the connection member 75 on the lower support plate 65 on the left side and the connection position PR of the connection member 75 on the lower support plate 65 on the right side. A position G1 that substantially coincides with the upper side is set as a design point. When the center of gravity is located at the position G1, the hose reel unit 45 can be floated in a state of being maintained substantially horizontal. However, the hose reel unit 45 may be tilted when the center of gravity deviates from the design point position G1 due to the influence of a load such as a hydraulic hose wound around the hose reel unit 45.

  For example, as shown in FIG. 10, when the hose reel unit 45 is lifted when the center of gravity of the hose reel unit 45 is shifted to a position G2 that is a predetermined distance away from the design point position G1, as shown in FIG. Further, the hose reel unit 45 is tilted so that the rear part of the hose reel unit 45 is lower than the front part. When the hose reel unit 45 is tilted, the front and rear positions of the pin hole central axis CL1 and the pin hole central axis CL2 are displaced.

  For this reason, the operator adjusts the position of the connecting member 75 as follows. After measuring the amount of deviation (Xmm) between the pin hole central axis CL1 and the pin hole central axis CL2, the worker once extends the cylinder rod of the hydraulic cylinder 35 to place the hose reel unit 45 on the ground 190. Place. In the first embodiment, as described above, the thimble 71 a at the upper end of the wire rope 71 is movable along the support shaft 56 between the pair of upper support plates 55. Therefore, the worker moves the position of the thimble 71a of the wire rope 71 forward by the amount of deviation (Xmm) of the pin hole. That is, between the pair of upper support plates 55, the connection position of the upper end of the wire rope 71 is adjusted to a position C1 (see FIG. 11) that is separated from the center position C0 of the support shaft 56 by X mm forward along the support shaft 56. To do. Thereafter, the cylinder rod of the hydraulic cylinder 35 is contracted again, and the hose reel unit 45 is floated in the air.

  By adjusting the position of the upper end of the wire rope 71 as described above, as shown in FIG. 11, when the hose reel unit 45 is floated in the air, the pin holes 52a of the bosses 52, 53 of the reel unit mounting frame 27, The center of the pin 53a (pin hole central axis CL1) and the center of the pin hole 54a of the boss 54 of the mounting bracket 50 (pin hole central axis CL2) are located on the same vertical line in a side view. In other words, the pin hole central axis CL1 and the pin hole central axis CL2 coincide in plan view. That is, the pair of upper support plates 55 and the support shafts 56 position the positions of the bosses 52 and 53 of the reel unit mounting frame 27 and the positions of the bosses 54 of the mounting bracket 50 on the same vertical line in a side view. Moreover, it functions as a position adjustment unit that can adjust the connection position of the connection member 75.

  The operator contracts the hydraulic cylinder 35 that moves the kelly drive device 30 up and down. Due to the contraction of the hydraulic cylinder 35, the hose reel unit 45 is lifted by the kelly drive device 30, and the hose reel unit 45 approaches the reel unit mounting frame 27.

  The hydraulic cylinder 35 is contracted, and the mounting bracket 50 of the hose reel unit 45 is inserted from the opening 28 d of the bottom plate 28 a of the horizontal frame 28 constituting the reel unit mounting frame 27.

  Further, the hydraulic cylinder 35 is contracted so that the pin hole 54a of the mounting bracket 50 is inserted between the boss 52 and the boss 53 of the reel unit mounting frame 27, and the center axis CL1 of the pin holes 52a and 53a and the pin hole 54a are The center axis CL2 is made to coincide. In this state, the operator inserts the pin 51 into the pin holes 52a and 53a and the pin hole 54a (see FIG. 8), and inserts a retaining pin (not shown) into the boss 53 and the pin 51 to prevent the retaining. .

  The hydraulic cylinder 24 is contracted to incline the Kelly drive device 30 so that the central axis of the pin hole 86a of the rear bracket 85 of the device frame 31 coincides with the central axis of the pin hole 82a of the rotation stop bracket 80 of the hose reel unit 45. Let In this state, the operator inserts the lock pin 81 into the pin hole 82a and the pin hole 86a (see FIG. 8), and inserts a retaining pin (not shown) into the lock pin 81 to prevent the reel from being removed. The mounting operation of the hose reel unit 45 to the unit mounting frame 27 is completed.

  As described above, the attachment mounting device according to the present embodiment includes the front frame 18 that is mounted in a undulating manner, the upper frame 22 that is rotatably mounted on the front frame 18, and the actuator that is mounted on the upper frame 22. The hydraulic cylinder 35, the device frame 31 that moves up and down with respect to the upper frame 22 by the expansion and contraction drive of the hydraulic cylinder 35, the device frame 31 is connected via a connection member 75, and is lifted by the drive of the hydraulic cylinder 35. A hose reel unit 45 that is an attachment is included. The upper frame 22 has bosses 52 and 53 that are detachably coupled to the hose reel unit 45 by pins 51, and the hose reel unit 45 is detachably coupled to the upper frame 22 by pins 51. It has a boss 54 of the mounting bracket 50 that is a part.

  In the first embodiment, in order to align the positions of the bosses 52 and 53 that are the coupling portions of the upper frame 22 and the positions of the bosses 54 of the mounting bracket 50 that are the coupling portions of the hose reel unit 45, A position adjustment unit capable of adjusting 75 connection positions is provided in the apparatus frame 31. The position adjustment unit includes a pair of upper support plates 55 and a support shaft 56 that spans between the pair of upper support plates 55, and the upper end portion of the connection member 75 is supported between the pair of upper support plates 55. It is movable along the axis 56.

According to the first embodiment described above, the following operational effects can be obtained.
Since the position adjusting portion is provided in the apparatus frame 31, even if the position of the center of gravity is shifted from the position of the design point and the hose reel unit 45 is inclined, the pin holes 52a of the bosses 52 and 53 of the reel unit mounting frame 27 are provided. 53a and the pin hole 54a of the boss 54 of the hose reel unit 45 can be easily aligned. As a result, the hose reel unit 45 can be easily attached to the reel unit attachment frame 27. That is, according to the present embodiment, it is possible to improve the workability of attaching the hose reel unit 45 to the reel unit attachment frame 27 as compared with the prior art disclosed in Patent Document 1.

-Second Embodiment-
The attachment attachment device according to the second embodiment will be described with reference to FIGS. 12 and 13. In the figure, the same or corresponding parts as those in the first embodiment are denoted by the same reference numerals, and differences will be mainly described. FIG. 12 is a view similar to FIG. 10, and in the attachment mounting device according to the second embodiment of the present invention, the hose reel unit 45 is lifted before the position of the lower end of the wire rope 71 is adjusted. FIG. FIG. 13 is a view similar to FIG. 11, and in the attachment mounting device according to the second embodiment of the present invention, the hose reel unit 45 is lifted after the position of the lower end of the wire rope 71 is adjusted. It is a figure which shows a state.

  In the first embodiment, the apparatus frame 31 is provided with a position adjustment unit that can adjust the connection position of the connection member 75. In contrast, in the second embodiment, the position adjusting unit is provided in the hose reel unit 45.

  In the second embodiment, as shown in FIG. 12, one upper support plate 255 is fixed to each of the left and right side surfaces of the apparatus frame 31 by welding or the like. The upper support plate 255 is provided with a pin hole through which the shackle pin 73 is inserted.

  A pair of lower support plates 265 are fixed to the left and right side surfaces of the outer cylinder of the center joint 49 of the hose reel unit 45 by welding or the like. The lower support plate 265 is provided with a shaft hole penetrating in the front-rear direction. The support shaft 266 is inserted through the shaft hole of the lower support plate 265 and is spanned between the pair of lower support plates 265 so as to extend in the front-rear direction.

  A thimble 71a at the upper end of the wire rope 71 is attached to the upper support plate 255 via a shackle 72, and a thimble 71b at the lower end of the wire rope 71 is attached to the support shaft 266 between the pair of lower support plates 265.

  With reference to FIGS. 12 and 13, an operation of attaching the hose reel unit 45 to the reel unit attachment frame 27 when the center of gravity of the hose reel unit 45 is shifted rearward from the design point position will be described. In addition, the procedure of attachment work is substantially the same as 1st Embodiment. Since the different work among the mounting work described in the first embodiment is the work of adjusting the position of the connecting member 75, the position adjusting work of the connecting member 75 will be mainly described below, and the other work will be described. Will not be described.

  When the hose reel unit 45 is lifted when the center of gravity of the hose reel unit 45 is shifted rearward from the position of the design point, the hose so that the rear part of the hose reel unit 45 is lower than the front part as shown in FIG. The reel unit 45 is tilted. When the hose reel unit 45 is tilted, the front and rear positions of the pin hole central axis CL1 and the pin hole central axis CL2 are displaced. The lower end of the wire rope 71 is disposed at the center position C20 of the support shaft 266.

  The operator adjusts the position of the connecting member 75 as follows to align the positions of the pin hole central axis CL1 and the pin hole central axis CL2 in the front-rear direction. After measuring the amount of deviation (Xmm) between the pin hole central axis CL1 and the pin hole central axis CL2, the worker once extends the cylinder rod of the hydraulic cylinder 35 to place the hose reel unit 45 on the ground 190. Place.

  In the second embodiment, the thimble 71 b at the lower end of the wire rope 71 is movable along the support shaft 266 between the pair of lower support plates 265. Therefore, the operator can adjust the connection position of the connection member 75 by moving the position of the thimble 71b of the wire rope 71 rearward.

  In the second embodiment, the hose reel unit 45 is provided with a lower support plate 265 and a support shaft 266 as position adjustment units. For this reason, as shown in FIG. 13, when the connection position of the lower end of the wire rope 71 is moved backward, the inclination angle of the hose reel unit 45 changes. Therefore, the operator moves the position of the thimble 71b rearward by, for example, about half the amount of deviation (Xmm) in the front-rear direction between the pin hole central axis CL1 and the pin hole central axis CL2. That is, between the pair of lower support plates 265, the connection position of the lower end of the wire rope 71 is adjusted to a position C21 that is separated by X / 2 mm rearward along the support shaft 266 from the center position C20 of the support shaft 266. Thereafter, the cylinder rod of the hydraulic cylinder 35 is contracted again, and the hose reel unit 45 is floated in the air.

  By adjusting the position of the lower end of the wire rope 71 as described above, as shown in FIG. 13, when the hose reel unit 45 is floated in the air, the pin holes 52a of the bosses 52, 53 of the reel unit mounting frame 27, The center of the pin 53a (pin hole central axis CL1) and the center of the pin hole 54a of the boss 54 of the mounting bracket 50 (pin hole central axis CL2) are located on the same vertical line in a side view. In other words, the pin hole central axis CL1 and the pin hole central axis CL2 coincide in plan view. Thereafter, as in the first embodiment, the pin holes are aligned, the pin 51 is inserted into the pin holes 52a, 53a, 54a, and the lock pin 81 is inserted into the pin holes 82a, 86a. Thus, the mounting operation of the hose reel unit 45 to the reel unit mounting frame 27 is completed.

  According to such 2nd Embodiment, there exists an effect similar to 1st Embodiment. In the second embodiment, since the inclination of the hose reel unit 45 can be reduced by adjusting the position of the connecting member 75 in the position adjusting portion provided in the hose reel unit 45, the first embodiment is changed to the first embodiment. Compared with the design point of the center of gravity, the allowable amount of displacement is larger.

The following modifications are also within the scope of the present invention, and one or a plurality of modifications can be combined with the above-described embodiment.
(1) FIGS. 14 and 15 show examples in which the first embodiment and the second embodiment are combined. As shown in FIGS. 14 and 15, the pair of upper support plates 55 and the support shaft 56 described in the first embodiment are provided on the left and right side surfaces of the apparatus frame 31, respectively, and the center joint 49 of the hose reel unit 45 is provided. A pair of lower support plates 265 and support shafts 266 described in the second embodiment may be provided on each of the left and right side surfaces. Thereby, compared with 1st Embodiment, the allowance of the position shift of a gravity center can be enlarged.

  Further, as shown in FIG. 15, since the hose reel unit 45 can be attached to the reel unit attachment frame 27 in a horizontal state, the attaching operation is further facilitated. In order to lift the hose reel unit 45 in a horizontal state, the connection position of the thimble 71b of the wire rope 71 between the lower support plates 265 is a position separated by a predetermined distance Z from the center position C30a to the rear along the support shaft 266. What is necessary is just to adjust to C31a.

  However, if the hose reel unit 45 is lifted in this state, although not shown, the pin hole central axis CL2 is positioned in front of the pin hole central axis CL1. For this reason, the connection position of the thimble 71a of the wire rope 71 between the pair of upper support plates 55 is adjusted to a position C31b separated from the central position C30b by a predetermined distance Z along the support shaft 56 backward.

  Thereby, the hose reel unit 45 can be floated in a horizontal state (that is, the same state as the state in which the hose reel unit 45 is placed on the horizontal ground 190), and the hydraulic cylinder 35 is contracted, so that the pin hole center The axis CL1 and the pin hole central axis CL2 can be matched. Thus, according to this modification, the hose reel unit 45 can be leveled, and therefore the hose reel unit 45 can be easily attached to the reel unit mounting frame 27.

(2) In the above-described embodiment, the pair of mounting brackets 50 are provided so as to face each other. However, the mounting brackets 50 are arranged at equal intervals along the circumferential direction of the outer cylinder of the center joint 49. Two or more bosses 54 may be provided at corresponding positions on the reel unit mounting frame 27. In this case, the rotation-preventing bracket 80 can be omitted. The hose reel unit 45 and the reel unit mounting frame 27 may be coupled by inserting pins and bolts in the vertical direction, for example.

(3) In the above-described embodiment, the earth drill 1 using a telescopic crane as a base crane has been described as an example, but the present invention is not limited to this. You may apply this invention to the earth drill which used the crane provided with the lattice boom as the base crane.
(4) The boom 7 may adopt a configuration in which the boom 7 is raised and lowered by a wire rope that is wound up / fed out by a raising and lowering winch instead of the configuration that is raised and lowered by the hydraulic cylinder 8.
(5) The front frame 18 may employ a configuration in which the front frame 18 is undulated by a wire rope that is wound / unwound by a hoisting winch.
(6) In the above-described embodiment, the example in which the front frame 18 is attached to the upper swing body 4 has been described, but the present invention is not limited to this. The front frame 18 can also adopt a structure in which the front frame 18 is attached to the boom 7 so as to be raised and lowered.

(7) In the above-described embodiment, the example in which the wire rope 71 is included as the connecting member 75 that connects the hose reel unit 45 and the kelly drive device 30 has been described, but the present invention is not limited thereto. Various connecting members such as a belt sling and a chain can be used.

(8) The upper support plates 55 and 255 and the lower support plates 65 and 265 are not limited to a structure in which holes are formed in flat plates, and hook-shaped brackets may be employed. The position adjustment unit adopts various configurations as long as the pin hole 54a, which is the mounting hole of the hose reel unit 45, is adjusted in the horizontal direction and can be aligned with the pin holes 52a, 53a of the reel unit mounting frame 27. it can. That is, the attachment mounting device aligns the horizontal positions of the pin hole central axis CL1 and the pin hole central axis CL2 by the position adjusting unit, and the pin hole central axis CL1 and the pin hole central axis CL2 by the expansion and contraction drive of the hydraulic cylinder 35. Various configurations capable of performing vertical alignment can be employed.

(9) A hook or the like may be used instead of the shackle 72, or the thimbles 71a and 71b of the wire rope 71 may be directly attached to the pin holes.
(10) A guide portion for guiding the mounting bracket 50 at the top of the hose reel unit 45 between the bosses 52 and 53 may be provided. By providing the guide portion, it becomes easier to align the hose reel unit 45 with the reel unit mounting frame 27.

(11) In the above-described embodiment, the case where the position of the center of gravity is shifted backward from the design point has been described as an example. However, even if the position of the center of gravity is shifted forward from the design point, position adjustment is performed. By adjusting the connection position of the connection member 75 by the portion, the hose reel unit 45 and the reel unit mounting frame 27 can be easily aligned.
(12) In the above-described embodiment, the example in which the hose reel 46 is mounted on the turntable 48 has been described. However, the present invention can also be applied to a device in which a cable reel (not shown) is mounted. For example, the purpose of the cable reel is to wind or unwind a cable (not shown) connected to a sensor such as a potentiometer that detects the stroke of a hydraulic cylinder for opening and closing in order to detect the degree of opening and closing of the expansion blade 15a. Can be installed.

(13) In the above-described embodiment, the attachment when the hose reel unit 45 for winding / unwinding the hydraulic hose that supplies pressure oil to the hydraulic cylinder (not shown) that opens and closes the expansion blade 15a is an attachment. Although the attachment device has been described, the present invention is not limited to this. The present invention can be applied to various attachment attachment devices that are lifted and attached.

(14) The actuator for lifting the attachment is not limited to a hydraulic cylinder. Instead of the hydraulic cylinder, for example, an actuator capable of linear operation such as an electric cylinder may be used, or an actuator including a hydraulic motor and a mechanism for converting rotational motion into linear motion may be used.

  As long as the characteristics of the present invention are not impaired, the present invention is not limited to the above-described embodiments, and other forms conceivable within the scope of the technical idea of the present invention are also included in the scope of the present invention. .

DESCRIPTION OF SYMBOLS 1 Ground drill, 2 Lower traveling body, 4 Upper turning body, 5 Machine room, 6 Operator's room, 7 Boom, 8 Hydraulic cylinder, 10 hoisting winch, 14 Keriba, 15 Expanded bucket, 15a Expanding wing, 16 hoisting rope, 18 Front frame, 19 pins, 20 Hydraulic cylinder, 22 Upper frame, 23 Pin, 24 Hydraulic cylinder, 25 Upper horizontal frame, 26 Vertical frame, 27 Reel unit mounting frame, 28 Horizontal frame, 28a Bottom plate, 28b Side plate, 28c Side plate, 28d Opening, 28e Top plate, 29 Turntable, 29a Drive hole, 30 Kelly drive device, 31 Device frame, 31a Sliding portion, 32 Guide rail, 33 Hydraulic motor, 35 Hydraulic cylinder, 36 Bracket, 37 Pin, 38 Bracket , 39 pins, 45 hose reel unit, 46 hose reel, 48 turntable 48a lower plate, 48b vertical frame, 48c upper plate, 49 center joint, 50 mounting bracket, 51 pins, 52 boss, 52a pin hole, 53 boss, 54 boss, 54a pin hole, 55 upper support plate, 56 support shaft, 57 flat plate, 58 reinforcing member, 65 lower support plate, 71 wire rope, 71a thimble, 71b thimble, 72 shackle, 73 shackle pin, 75 connecting member, 80 anti-rotation bracket, 81 lock pin, 82 boss, 82a pin hole 85 Rear bracket, 86 Boss, 86a Pin hole, 190 Ground, 255 Upper support plate, 256 Support shaft, 265 Lower support plate, 266 Support shaft, C0, C1 position, C20, C21 position, C30a, C30b, C31a , C31b position

Claims (5)

A first frame pivotably attached to a undulating front frame;
An actuator attached to the first frame;
A second frame that moves up and down with respect to the first frame by driving the actuator;
An attachment connected to the second frame via a connection member and suspended by driving of the actuator;
The first frame and the attachment each have a coupling portion that is detachably coupled to each other;
At least one of the second frame and the attachment has a position of a coupling portion of the first frame (hereinafter referred to as a first coupling portion) and a coupling portion of the attachment (hereinafter referred to as a second coupling portion). In order to adjust the position of the attachment member, a position adjusting unit capable of adjusting the connection position of the connection member is provided. In the attachment mounting apparatus according to claim 1,
The position adjustment unit has a pair of support plates and a support shaft that spans between the pair of support plates,
The end of the connection member is provided with an opening through which the support shaft is inserted,
An attachment mounting device, wherein an end portion of the connection member is movable along the support shaft between the pair of support plates. In the attachment mounting device according to claim 2,
The first coupling part is provided with a first pin hole, and the second coupling part is provided with a second pin hole. The first pin hole of the first coupling part and the second pin hole of the second coupling part The first coupling part and the second coupling part are coupled by inserting a pin into
The attachment mounting apparatus according to claim 1, wherein a central axis of the pin is orthogonal to a central axis of the support shaft. In the attachment mounting device according to claim 3,
An attachment mounting device, wherein a restriction member for restricting rotation of the attachment around the pin is provided for the first frame. In the attachment attachment device according to any one of claims 1 to 4,
The actuator is a hydraulic cylinder;
A kelly drive device is attached to the second frame,
The attachment attachment device, wherein the attachment is a hose reel unit.

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