JP5352846B2 - Clamshell bucket - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a clamshell bucket which can prevent earth and sand from overflowing from the right-and-left buckets during dredging and which can prevent formation of a concavity on the sea bottom or the like after dredging. <P>SOLUTION: The clamshell bucket is provided with an attachment bracket 26, a fluid cylinder 21, the right-and-left buckets 23, and the right-and-left link mechanisms 24. The attachment bracket 26 is attached to a working machine 11, and the fluid cylinder 21 can perform elongation and contraction of a piston rod 21A by the supply of fluid. Then the right-and-left buckets 23 are supported by the attachment bracket so that they can move up and down and that they can be opened and closed, and are displaced up and down by the expansion and contraction of the fluid cylinder. A cutting edge part is formed at the tip of the bottom of each of the right-and-left buckets. The right-and-left link mechanisms 24 open and close the right-and-left buckets while positioning the cutting edge parts of each of the right-and-left buckets on the same plane by the expansion and contraction of the piston rod of the fluid cylinder and by the up-and-down displacement of the right-and-left buckets. <P>COPYRIGHT: (C)2008,JPO&amp;INPIT

Description

  The present invention relates to a clamshell bucket, and more particularly to a bucket suitable for dredging sediments and sludge on the seabed (hereinafter also simply referred to as sediments).

  The clamshell bucket is provided with left and right buckets, and is often used to drown out sediment and sludge on the seabed by closing the left and right buckets after the blade tips of the left and right buckets are bitten into earth and sand.

  In this type of clamshell bucket, the left and right buckets are opened and closed in synchronization with one hydraulic cylinder and link (Patent Document 1), and the left and right buckets can be opened and closed separately with two hydraulic cylinders. Is known (Patent Document 2).

JP 2003-247247 A JP 2001-254386 A

  However, in the clamshell buckets described in Patent Documents 1 and 2, the blade tips of the left and right buckets draw an arc-shaped trajectory to scoop out earth and sand and sludge. A recess is formed, and it may be necessary to level it later, which is troublesome.

  In addition, when dredged sediment or sludge is temporarily stored in the pool, and the soil or sludge is scooped out by the clamshell bucket, the bottom of the pool may be damaged by the blade tips of the left and right buckets.

  Further, while the left and right buckets are being closed, there is a problem that earth and sand containing water and sludge overflow from the gaps between the side walls of the left and right buckets, resulting in poor work efficiency. In the clamshell bucket described in Patent Document 1, it is proposed that cover members are provided and the left and right buckets are closed and then the side edges of the left and right buckets are covered. We cannot deal with overflows inside.

  In view of such problems, the present invention has an object to provide a clamshell bucket in which dirt and the like do not overflow from the left and right buckets in the dredging, and that there is no recess in the seabed after dredging. To do.

  Therefore, the clamshell bucket according to the present invention is a clamshell bucket in which the left and right buckets are closed to scoop up the earth and sand and are opened to discharge the earth and sand, a mounting bracket attached to the work machine, and a fluid supply A fluid cylinder capable of extending and contracting the piston rod by means of the above and the left and right supported by the mounting bracket so as to be movable up and down and openable and closable. Left and right link mechanisms that open and close the left and right buckets while the blades of the left and right buckets are positioned on the same plane by the expansion and contraction of the piston rod of the fluid cylinder and the vertical displacement of the left and right buckets; It is provided with.

  One of the features of the present invention is that the left and right buckets are displaced up and down with respect to the mounting bracket by expansion and contraction of the piston rod of the fluid cylinder, and the left and right bucket tips are positioned on the same plane by the link mechanism. The point is to open and close the bucket.

  As a result, when the left and right buckets are closed after the blade tips of the left and right buckets are bitten into the sediment and sludge on the seabed, the blade tips remain on the same plane. Unlike the clamshell buckets described in Patent Documents 1 and 2, which draw an arc-shaped locus, a large number of deep recesses are not formed on the seabed.

  In addition, when dredged sediment or sludge is temporarily stored in the pool, and the sediment or sludge is scooped out by the clamshell bucket, the bottom of the pool is not damaged by the blade tips of the left and right buckets.

  Specifically, the clamshell bucket according to the present invention can be configured as follows. That is, the fluid cylinder is attached to the mounting bracket so that the piston rod can be expanded and contracted vertically, the base is attached to the lower end of the piston rod, and the upper inner portions of the left and right buckets are rotatably attached to the base. The tip of the pair of links is connected to each other so as to be rotatable, the intermediate part of one link of the link pair is rotatably supported by the mounting bracket, and the other end of one link is the piston rod of the fluid cylinder The other end of the other link of the link pair is rotatably connected to the outer top ends of the left and right buckets, and the base is displaced upward by contraction of the piston rod of the fluid cylinder. The mechanism closes the left and right buckets while the blade tips of the left and right buckets are positioned on the same plane, while the fluid cylinder piston With displacing the base downwards by extension of the rod, it is possible to configure the edge portions of the left and right of the bucket by a link mechanism so as to open the left and right buckets remain are positioned on the same plane.

  In addition, the upper inner parts of the left and right buckets are rotatably connected to the base, the base is slidable up and down with respect to the mounting bracket, and is mounted between the upper middle parts of the left and right buckets with the fluid cylinder facing sideways. The link mechanism is composed of a single link, the inner end of the link is rotatably connected to the mounting bracket, and the outer end of the link is the connecting portion of the inner end of the link at the upper outer portion of the left and right buckets The left and right buckets are suspended and supported by the mounting bracket, and the base is slid downward by contraction of the piston rod of the fluid cylinder, and the blade tips of the left and right buckets are linked by links. Open the left and right buckets while keeping them on the same plane, while raising the base by extending the piston rod of the fluid cylinder With displacing, it can constitute a cutting edge portion of the left and right of the bucket by links so as to close the left and right buckets remain are positioned on the same plane.

  In the case of the latter method, when the base is fixed to the mounting bracket, the link is detachably provided to the mounting bracket or bucket, the base is fixed to the mounting bracket, and the link is detached from the mounting bracket or bucket, The left and right buckets can be opened and closed so that the blade edge portion draws an arcuate locus by expansion and contraction of the piston rod of the fluid cylinder.

  Also, the inner end of the link is detachably provided at a place lower and higher than the connecting part of the outer end part of the link of the mounting bracket, and the inner end part of the link is provided more than the connecting part of the outer end part of the link of the mounting bracket. The left and right buckets are opened and closed while the blade tips of the left and right buckets are positioned on the same plane by attaching to the lower part, while the inner end of the link is higher than the connecting part of the outer end of the link of the mounting bracket By attaching the left and right buckets, the left and right buckets can be opened and closed while drawing the locus of the composite arc on the blade tips of the left and right buckets. In particular, in the case of this method, when the left and right buckets are closed, they are deeply engulfed, so that a large amount of earth and sand and sludge can be scooped up efficiently.

  Furthermore, if a cover plate is attached to the mounting bracket so as to cover both sides of the left and right buckets during opening and closing, the overflow of earth and sand from the gap between the left and right buckets during dredging can be reduced, and work efficiency can be improved.

  In addition, the left and right buckets are connected to each other, and the upper parts of the left and right buckets are connected to the mounting bracket by a link, while the mounting bracket is provided with a base that can be slid vertically, and the base and the left and right buckets are connected by a slider link In addition, the rear end of the fluid cylinder extending in the lateral direction is connected to one of the left and right buckets, the tip of the piston rod is connected to the other of the left and right buckets, and the base is slid downward by contraction of the fluid cylinder to The left and right buckets are opened while the blade tips of the left and right buckets are positioned on the same plane by the link, while the base is displaced upward by the extension of the piston rod of the fluid cylinder and the link. Leave the blade tips of the left and right buckets on the same plane It is possible to configure the left and right of the bucket so as to close.

  In addition, the upper parts of the left and right buckets are connected to each other, and the upper parts of the left and right buckets are connected to a mounting bracket by a link. On the other hand, a fluid cylinder is attached to the mounting bracket so that its piston rod can be expanded and contracted vertically. A base is attached to the lower end of the base, and the left and right buckets are rotatably mounted by means of slider links. The base is displaced upward by contraction of the piston rod of the fluid cylinder, and the blade tips of the left and right buckets are flush with the links. The left and right buckets are opened while the piston rod of the fluid cylinder is extended, and the base is displaced downward by the extension of the piston rod of the fluid cylinder, and the left and right buckets are left on the same plane by the link. Can be configured to be closed

  The mounting bracket only needs to be attached to the work machine. For example, the mounting bracket may be attached to the tip of the arm of a hydraulic excavator and suspended from the tip of the arm of the dredger. The form is not particularly limited as long as the base is attached to the piston rod of the fluid cylinder.

  The fluid cylinder may have any form as long as the piston rod can be extended and contracted by supplying fluid such as oil or air. Further, the left and right buckets may be in any form as long as a blade edge portion is formed at the tip of the bottom, and an inner portion of the upper end is rotatably attached to the base so that the opening can be matched.

  The link mechanism is not particularly limited as long as the left and right buckets can be opened and closed while the blade tips of the left and right buckets are positioned on the same plane by the expansion and contraction of the piston rod of the fluid cylinder and the vertical displacement of the left and right buckets.

  For example, the intermediate portion is rotatably supported by the mounting bracket, and both ends are rotatably connected to the upper outer portions of the left and right buckets and the piston rod of the fluid cylinder, and the piston rod contracts and lowers the base of the fluid cylinder. The left and right buckets are closed while the blade tips of the left and right buckets are positioned on the same plane due to the displacement, while the blade tips of the left and right buckets are the same by the extension of the piston rod of the fluid cylinder and the upward displacement of the base. It is sufficient that the left and right buckets can be opened while being positioned on a plane, and for example, a link mechanism shown in the following embodiment can be employed.

  Hereinafter, the present invention will be described in detail based on specific examples shown in the drawings. 1 to 3 show a preferred embodiment of a clamshell bucket according to the present invention. In the figure, an excavator vehicle (work machine) 10 is provided with an arm 11, and the arm 11 is provided so that it can be swung up and down and left and right by operating a lever or the like in the passenger compartment. A clamshell bucket 20 is attached.

  The clamshell bucket 20 is provided with two mounting brackets 26 arranged opposite to each other. A mounting hole 26A is formed at the upper left and right ends of the mounting bracket 26, and the distal end of the arm 11 is formed in the mounting hole 26A. The mounting bracket 26 is attached to the tip of the arm 11 by aligning the mounting holes of the parts and press-fitting the mounting rod.

  A hydraulic cylinder (fluid cylinder) 21 is mounted between the mounting brackets 26 so as to expand and contract the piston rod 21A up and down. The hydraulic cylinder 21 extends and contracts the piston rod 21A by supplying hydraulic pressure.

  A base 22 is attached to the piston rod 21 </ b> A of the hydraulic cylinder 21, and left and right attachment holes 22 </ b> A are formed in the base 22, and the attachment holes 22 </ b> A are positioned with respect to the attachment holes in the upper inner portions of the attachment flanges 23 </ b> A of the left and right buckets 23. The upper and inner parts of the left and right buckets 23 are rotatably attached to the base 22 by inserting the mounting rods 22B together.

  A left and right link mechanism 24 is provided between the mounting bracket 26 and the left and right buckets 23. The link mechanism 24 is configured by connecting the tip portions of a pair of links so as to be rotatable with each other, one link is rotatably connected to a mounting bracket 26, and the other end of one link is a piston of the hydraulic cylinder 21. It is rotatably attached to a mounting rod in the middle of the rod 21A.

  Furthermore, a mounting hole is formed in the other end portion of the other link of the left and right link mechanisms 24, and the mounting hole is aligned with a mounting hole in the upper outer portion of the mounting flange 23A of the left and right buckets 23, When the mounting rod is inserted, the outer end portion of the other link is rotatably attached to the upper end outward portion of the mounting flange 23A of the left and right buckets 23. Thus, the mounting bracket 26 and the left and right buckets 23 are left and right. The link mechanism 24 is linked.

  Further, a substantially triangular cover plate 25 is fixed to the mounting bracket 26, and the cover plate 25 is provided so as to cover both sides of the left and right buckets 23 so as to reduce the overflowing amount of earth and sand. Bending portions are formed on both side bottom portions of the cover 23 so as to guide the opening and closing of the bucket 23. In FIG. 1, the cover plate 25 is omitted for convenience of illustration.

  When scooping sludge, when the piston rod 21A of the hydraulic cylinder 21 is extended, the base 22 is displaced downward, and the inner end portion of the link mechanism 24 is pushed downward. The left and right buckets 23 are thereby opened.

  Then, when the arm 11 is operated, the blade tips at the bottom ends of the left and right buckets 23 are bitten into the sludge, and the piston rod 21A of the hydraulic cylinder 21 is contracted, the base 22 is displaced upward, and at the same time the link mechanism 24 Since the inner end portion is pulled upward, the outer portions of the mounting flanges 23A of the left and right buckets 23 are pushed down, whereby the left and right buckets 23 are closed and the sludge can be scooped up.

  At this time, since both sides of the left and right buckets 23 are covered with the cover plate 25, the amount of sludge overflowing from the bucket 23 is small, and the working efficiency can be improved.

  Further, since the link mechanism 24 pushes down the outer portion of the mounting flange 23A of the left and right buckets 23 in accordance with the amount of upward displacement of the base 22, the cutting edge portions of the left and right buckets 23 can move on the same plane. , Do not scoop deep sludge under the sea.

  As a result, it is no longer necessary to level the seabed. Further, even when sludge is stored in the pool and the sludge is scooped up by the clamshell bucket of this example, there is no possibility of damaging the bottom surface of the pool. When releasing sludge, an operation reverse to the above may be performed.

  4 to 6 show a second embodiment. In the figure, the same reference numerals as those in FIGS. 1 to 3 denote the same or corresponding parts. In the clamshell bucket 20 ′ of this example, mounting holes 26A ′ are formed at the left and right upper ends of the mounting bracket 26 ′, and the mounting bracket 26 ′ is formed at the tip of a working arm such as an excavator vehicle or dredger by the mounting hole 26A ′. Mounted on.

  The inner end 24B ′ of the link 24 ′ is rotatably connected to the mounting bracket 26 ′, and the outer end of the link 24 ′ is higher than the connection position of the inner end 24B ′ of the link 24 ′ of the left and right buckets 23. The left and right buckets 23 are suspended and supported by a mounting bracket 26 '.

  The upper inner portions of the left and right buckets 23 are connected to each other by a connecting pin 29 and are attached to the lower end of the base 22 ′. The base 22 slides up and down in a guide portion 26 B ′ on the inner surface of the mounting bracket 26. The upper end of the base 22 is formed with a lock hole 22B ′. The lock hole 22B ′ is aligned with the lock hole of the mounting base 26, and the lock pin 22C ′ is inserted to slide the base 22 ′ up and down. Can be regulated.

  A hydraulic cylinder (fluid cylinder) 21 ′ is mounted between the upper end middle portions 23B ′ of the left and right buckets 23 so as to extend and contract the piston rod 21A ′ in the lateral direction. The rod 21A 'is extended and contracted.

  A base 22 is attached to the piston rod 21A of the hydraulic cylinder 21, and a mounting hole is formed in the base 22, and the mounting hole is aligned with a mounting hole in the upper end of the mounting flange 23A of the left and right buckets 23 and mounted. By inserting the rod 29, the upper inner portions of the left and right buckets 23 are rotatably attached to the base 22.

  In the case of scooping sludge, when the piston rod 21A ′ of the hydraulic cylinder 21 ′ is contracted, the base 22 slides downward and the outer end 24A ′ of the link 24 ′ as shown in FIG. Is pivoted inwardly around the inner end 24B ', thereby opening the left and right buckets 23.

  Therefore, when the arm is operated so that the blade tips at the bottom ends of the left and right buckets 23 are bitten into the sludge and the piston rod 21A ′ of the hydraulic cylinder 21 ′ is extended, it is shown in FIGS. 5B and 5A. Thus, the base 22 'slides upward, and the outer end 24A' of the link 24 'is pivoted outward about the inner end 24B', thereby closing the left and right buckets 23, You can scoop up sludge.

  At this time, the link 24 ′ closes the left and right buckets 23 in response to the upward slide of the base 22 ′, so that the blade tips of the left and right buckets 23 can move on the same plane, Don't scoop deeply.

  Further, when opening the bucket 23, the link 24 'opens the left and right buckets 23 in response to the downward sliding of the base 22', so that the cutting edge portions of the left and right buckets 23 can move on the same plane.

  Further, as shown in FIG. 6A, when the link 24 ′ is removed, the lock hole 22C ′ of the base 22 ′ is aligned with the lock hole of the mounting bracket 26, and the lock pin 22D ′ is inserted, the base 22 'Up and down slide can be regulated.

  When the piston rod 21A ′ of the hydraulic cylinder 21 ′ is extended and contracted in this state, the left and right buckets 23 are opened and closed around the connecting pin 29, as shown in FIG. It is opened and closed to draw an arcuate trajectory.

  Therefore, when a blade blade is attached to the bottom end of the bucket 23, hard ground such as rock can be excavated reliably.

  7 and 8 show a third embodiment, in which the same reference numerals as those in FIGS. 4 to 6 denote the same or corresponding parts. In this example, the outer end portion 24A ′ of the link 24 ′ is rotatably connected to the upper outer end portion at a position higher than the connecting position of the inner end portion 24B ′ of the link 24 ′ of the left and right buckets 23. 23 is suspended and supported by a mounting bracket 26 ', and a mounting hole 24C' to which an inner end 24B 'of the link 24' can be mounted is formed at the upper end portion of the mounting bracket 26 '.

  When scooping sludge, when the piston rod 21A ′ of the hydraulic cylinder 21 ′ is contracted, the base 22 slides downward and the outer end 24A ′ of the link 24 ′ slides as shown in FIG. 7B. Is pivoted inwardly around the inner end 24B ', thereby opening the left and right buckets 23.

  Then, when the arm is operated, the blade tips at the bottom ends of the left and right buckets 23 are bitten into the sludge and the piston rod 21A ′ of the hydraulic cylinder 21 ′ is extended, as shown in FIG. As the base 22 'slides upward, the outer end 24A' of the link 24 'is pivoted outward about the inner end 24B', thereby closing the left and right buckets 23 and scooping sludge. Can be taken.

  At this time, the link 24 ′ closes the left and right buckets 23 in response to the upward slide of the base 22 ′, so that the blade tips of the left and right buckets 23 can move on the same plane, Don't scoop deeply.

  Further, when opening the bucket 23, the link 24 'opens the left and right buckets 23 in response to the downward sliding of the base 22', so that the cutting edge portions of the left and right buckets 23 can move on the same plane.

  Further, as shown in FIG. 8A, when the inner end 24B ′ of the link 24 ′ is removed, aligned with the mounting hole 26C ′ at the upper end of the mounting bracket 26 ′, and the connecting pin is inserted, the link The inner end 24B ′ of 24 ′ can be rotatably mounted at a position higher than the outer end 24A ′.

  When the piston rod 21A ′ of the hydraulic cylinder 21 ′ is extended and contracted in this state, the left and right buckets 23 are opened and closed while being displaced up and down as shown in FIG. Since it can be opened and closed so as to draw a trajectory of FIG. 6 and deeply eaten as compared with the case shown in FIG. 6, a large amount of earth and sand and sludge can be scooped up efficiently.

  FIG. 9 shows a fourth embodiment. In the figure, the same reference numerals as those in FIGS. 1 to 8 denote the same or corresponding parts. In the clamshell bucket 20 ″ of this example, mounting holes 26A ″ are formed at the left and right upper ends of the mounting bracket 26 ″. Mounted on the tip.

  An inner end 24B ″ of the link 24 ″ is rotatably connected to the mounting bracket 26 ″, and a connecting pin of the inner end 24B ″ is inserted into a long groove 23D ″ formed in the mounting flange 23A ″ of the left and right buckets 23. ing.

  Further, the outer end 24A ″ of the link 24 ″ is rotatably connected to the upper outer portion at a position higher than the connecting position of the inner end 24B ″ of the link 24 ″ of the mounting flange 23A ″ of the left and right buckets 23. Thus, the left and right buckets 23 are suspended and supported by the mounting bracket 26 ".

  Inner portions of the mounting flanges 23 ″ of the left and right buckets 23 are rotatably connected to each other by a connecting plate 210 and a connecting pin 211, and between the intermediate portions of the mounting flanges 23A ″ of the left and right buckets 23, hydraulic cylinders ( Fluid cylinder) 21 "is mounted to extend and retract the piston rod 21A" in the lateral direction.

  A slider bracket 212 is vertically attached between the pair of mounting brackets 26 ″. A base 213 is slidably installed in the slider bracket 212, and the base 213 is attached to the left and right buckets 23 by slider links 214. It is connected to the flange 23A ″.

  When scooping sludge, when the piston rod 21A ″ of the hydraulic cylinder 21 ″ is contracted, the outer end 24A ″ of the link 24 ″ is moved to the inner end 24B while the whole of the base 213 and the left and right buckets 23 slide downward. "" And the left and right buckets 23 are opened.

  Therefore, when the arm is operated, the blade tips at the bottom ends of the left and right buckets 23 are bitten into the sludge, and the piston rod 21A ″ of the hydraulic cylinder 21 ″ is extended, the base 213 and the entire left and right buckets 23 are moved upward. While sliding, the outer end 24A ″ of the link 24 ″ is rotated outward around the inner end 24B ″, the left and right buckets 23 are closed, and sludge can be scooped out.

  At this time, since the link 24 ″ closes the left and right buckets 23 in response to the upward slide of the base 213, the cutting edge portions of the left and right buckets 23 can move on the same plane, and scoop off sludge and the like on the seabed deeply. There is nothing.

  Further, when the bucket 23 is opened, the link 24 ″ opens the left and right buckets 23 corresponding to the downward slide of the base 213, so that the cutting edge portions of the left and right buckets 23 can move on the same plane.

  By the way, when dredging the sludge, the tip of the bucket 23 may be pressed against the riverbed or the seabed, and the dredger or the like may be moved by operating the arm. In this case, in the structures of the first to third embodiments, the mounting posture of the left and right buckets 23 with respect to the mounting brackets 26 and 26 ′ may fluctuate, and the dredger or the like may not move.

  On the other hand, in this example, the mounting bracket 26 ″ and the left and right buckets 23 are connected by the link 24 ″ and the slider link 214, so that the base 213 is difficult to slide due to the load from the left and right buckets 23 side. The attitude of the bucket 23 with respect to the mounting bracket 26 ″ does not change, and the left and right buckets 23 and arms can be used to move the dredger or the like reliably.

  10 and 11 show a fifth embodiment, in which the same reference numerals as those in FIGS. 1 to 9 denote the same or corresponding parts. In this example, in the clamshell bucket 20 ′ ″ of this example, mounting holes 26A ″ are formed at the upper left and right ends of the mounting bracket 26 ′ ″, and the mounting bracket 26 ′ ″ is formed by the mounting holes 26A ′ ″. Is attached to the tip of a work arm such as an excavator vehicle or dredger.

  An inner end 24B ′ ″ of the link 24 ′ ″ is rotatably connected to the mounting bracket 26 ′ ″, and an outer end 24A ′ ″ of the link 24 ′ ″ is connected to the mounting flange 23A of the left and right buckets 23. The '"link 24' '' is connected to the outer end of the upper end at a position higher than the connecting position of the inner end 24B '' 'of the link 24' '', and thus the left and right buckets 23 are attached to the mounting bracket 26 '' '. Further, the inner portions of the mounting flanges 23 '' 'of the left and right buckets 23 are rotatably connected to each other by a connecting plate 210' '' and a connecting pin 211 '' '.

  Between the pair of mounting brackets 26 '' ', a slider bracket 212' '' extends vertically and is mounted. In the slider bracket 212 '' ', a hydraulic cylinder 21' '' moves the piston rod 21A '' 'up and down. The base 213 '' 'is built in the piston rod 21A' '' so as to be slidable up and down. The base 213 '' 'is attached to the left and right buckets 23 by means of slider links 214' ''. It is concatenated with '' '.

  When scooping up sludge, when the piston rod 21A ′ ″ of the hydraulic cylinder 21 ′ ″ is contracted, the base 213 ′ ″ and the entire left and right buckets 23 are moved upward as shown in FIG. The outer end 24A ′ ″ of the link 24 ′ ″ is pivoted inwardly around the inner end 24B ′ ″, and the left and right buckets 23 are opened.

  Therefore, when the arm is operated so that the blade tips at the bottom ends of the left and right buckets 23 are bitten into the sludge, and the piston rod 21A ′ ″ of the hydraulic cylinder 21 ′ ″ is extended, (b) (a ), The outer end 24A '' 'of the link 24' '' is moved around the inner end 24B '' 'while the entire base 213' '' and the left and right buckets 23 slide downward. Rotated outward, the left and right buckets 23 are closed, and the sludge can be skimmed off.

  At this time, the link 24 ′ ″ closes the left and right buckets 23 in response to the downward slide of the base 213 ′ ″, so that the blade tips of the left and right buckets 23 can move on the same plane, I don't scoop deeply.

  Further, when the bucket 23 is opened, the link 24 '' 'opens the left and right buckets 23 corresponding to the upward slide of the base 213' '', so that the cutting edge portions of the left and right buckets 23 can move on the same plane. .

  Further, since the mounting bracket 26 '' 'and the left and right buckets 23 are connected by the link 24' '' and the slider link 214 '' ', the left and right buckets 23 are attached by the load from the left and right buckets 23 side. The attitude with respect to the bracket 26 ′ ″ does not change, and a dredger or the like can be moved using the left and right buckets 23 and arms.

It is a figure which shows the shovel vehicle provided with preferable embodiment of the clamshell bucket which concerns on this invention. It is a figure which shows the closed state and open state of the bucket in the said embodiment. It is a rear view which shows the said embodiment. It is a figure which shows 2nd Embodiment. It is a figure which shows the closed state of the bucket in the said embodiment, the open state, and the intermediate state. It is a figure which shows the closed state and open state in the case of making a bucket perform normal opening / closing operation | movement in the said embodiment. It is a figure which shows the closed state of the bucket in 3rd Embodiment, the open state, and the intermediate state. It is a figure which shows the closed state and open state in the case of making a bucket perform normal opening / closing operation | movement in the said embodiment. It is a figure which shows the structure of 4th Embodiment. It is a figure which shows the structure of 5th Embodiment. It is a figure for demonstrating operation | movement of the said embodiment.

Explanation of symbols

10 excavator vehicle (work machine) 11 arm 20, 20 ', 20 ", 20'" clamshell bucket 21, 21 ', 20 ", 21'" hydraulic cylinder (fluid cylinder)
21A, 21A ', 21A ", 21A''' Piston rod 22, 22 ', 213, 213''' Base 23 Bucket 23A, 23A ', 23A''' Mounting flange 24 Link mechanism 24 ', 24": 24''' Link 25 Cover plate 26, 26 ', 26 ", 26''' Mounting bracket

Claims (2)

In clamshell buckets that close the left and right buckets to scoop up earth and sand and open it to release earth and sand,
Mounting brackets (26, 26 ′, 26 ″, 26 ′ ″) to be attached to the work machine;
A base (22, 22 ′, 213, 213 ′ ″) supported by the mounting bracket (26, 26 ′, 26 ″, 26 ′ ″) in a vertically movable manner;
Inner upper ends facing each other are supported by the base (22, 22 ′, 213, 213 ′ ″) so as to be openable and closable, and a blade edge is formed at the tip of the bottom. The base (22, 22 ′, 213, 213) Left and right buckets (23) which are displaced up and down by the vertical movement of '''),
One fluid cylinder for extending and contracting the piston rods (21A, 21A ′, 21A ″, 21A ′ ″) by supplying fluid and moving the base (22, 22 ′, 213, 213 ′ ″) up and down (21, 21 ′, 21 ″, 21 ′ ″),
Provided between the mounting brackets (26, 26 ′, 26 ″, 26 ′ ″) and the outer upper ends of the left and right buckets (23) facing each other, the fluid cylinders (21, 21 ′, 21 ”, 21 ′ ″) piston rods (21A, 21A ′, 21A ″, 21A ′ ″) and the above- mentioned left and right by the vertical movement of the bases (22, 22 ′, 213, 213 ′ ″) Left and right link mechanisms (24) for opening and closing the left and right buckets (23) while the blade tips of the left and right buckets (23) are positioned on the same plane by the vertical displacement of the buckets (23) of
A clamshell bucket characterized by comprising: The clamshell bucket according to claim 1, further comprising a cover plate (25) attached to the mounting bracket (26) and covering both sides of the left and right buckets (23) when opened and closed.

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