US3821859A

US3821859A - Dredge ladder shock mounting arrangements

Info

Publication number: US3821859A
Application number: US00195674A
Authority: US
Inventors: Watters W Mc
Original assignee: Individual
Current assignee: Individual
Priority date: 1971-11-04
Filing date: 1971-11-04
Publication date: 1974-07-02
Anticipated expiration: 1991-07-02
Also published as: JPS4897339A; AU4703672A

Abstract

Shock mounting arrangements for mounting one end of a rigid dredge ladder and for mounting the holding spud on a dredging barge or dredging platform. In the ladder mounting, pivot pins are connected to one end of the ladder for permitting pivotal movement of the ladder thereabout. The pivot pins are supported in rigid housing structures attached to the barge structure. These housing structures include a plurality of coil springs operatively engaging the pins and the rigid housing structure such that the pins are normally held in a fixed position but are permitted limited radial movement in response to dredging operation shock forces transmitted by way of the ladder to the pin means. Guide means can also be provided to limit the motion of the pin means along a single plane extending perpendicularly to the pivot axis of the ladder. Other shock absorbing means, such as hydraulic means or rubber means can be substituted for the spring means. One arrangement of the invention provides for mounting the dredge ladder for pivoting movement about an axis at the rear of the barge, while another embodiment provides for pivotally mounting the ladder forwardly of the rear of the barge. In the holding spud mounting, a vertically extending housing is provided with radially extending springs for supporting the holding spud in vertical position with respect to the barge. These springs permit limited radial movement to attenuate shifting shock forces caused by winds and water swells.

Description

United States Patent [191 McWatters [11] 3,821,859 [451 July 2,1974

[ DREDGE LADDER SHOCK MOUNTING ARRANGEMENTS [76] Inventor: William Andrew McWatters, 0/0 P.

E. Terry, Charlton Rd., East Brookfield, Mass. 015 15 22 Filed: Nov. 4, 1971 211 App]. No.: 195,674

[5 6] References Cited UNITED STATES PATENTS 110.259 12/1870 Martinson 308/26 x 57 ABSTRACT Shock mounting arrangements for mounting one end of a rigid dredge ladder and for mounting the holding spud on a dredging barge or dredging platform. In the ladder mounting, pivot pins are connected to one end of the ladder for permitting pivotal movement of the ladder thereabout. The pivot pins are supported in rigid housing structures attached to the barge structure. These housing structures include a plurality of coil springs operativelyengaging the pins and the rigid housing structure such that the pins are normally held in a fixed position but are permitted limited radial movement in response to dredging operation shock forces transmitted by way of the ladder to the pin means. Guide means can also be provided to limit the motion of the pin means along a single plane extending perpendicularly to the pivot axis of the ladder.

Other shock' absorbing means, such as hydraulic means or rubber means, can be substituted for the spring means. One arrangement of the invention provides for mounting thedredge ladder for pivoting movement about an axisat the rear of the barge, while another-embodiment provides for. pivotally mounting the ladder forwardly of the rear of the barge; In the holding spud mounting; a vertically extending housing is provided with radially extending springs for supporting thelholding, spud in vertical position with respect to the barge. These springs permit limited radial movement to attenuate shifting shock forces caused by winds and water swells.

' 1 54 Claims, 16" Drawing Figures 52l,580 6/l894 37/67 l,272.l l0 7/l9l8 37/73 1,768,290 6/1930 308/26 X l,845,55l 2/1932. 308/26 X 2,093,062 9/1937- 74/l8.2 x 2,420,163 5/l947 Borsini..... 2.12/59 A 2,559,933 7/1951 Briney 287/86 X 3,050,880 8/],962 Cushing, Sr 37/73. 3,494,678 2/l970 Reznick et al.. 308/26 3,521,387 7/l970 Degelman 37/66 Primary Examiner-Robert E. Pulfrey 7 Assistant Examiner-Clifford D. Crowder v Attorney, Agent, or FirmCraig and Antonelli ATENTEUJUL P 19'- sum 3 or s HGIO FIGIOA FIG.

PAIENTEBJUL 2 1914 SHEET t (IE 5 DREDGE LADDER SHOCK MOUNTING ARRANGEMENTS BACKGROUND OF THE INVENTION The present invention is related to the mounting of a rigid dredge ladder and to the mounting of a holding spud on a dredging barge or dredging platform. It is particularly related to a shock mounting arrangement for a pivotal connection between the barge structure and the ladder structure. It is also particularly directed to a shock mounting arrangement for a holding spud on a barge structure.

Prior dredging apparatus have included pivotally mounted rigid dredge ladders attached to the barge or platform structure. At the end of the rigid dredge ladder opposite the pivotal connection with the barge, a drilling or dredging head was securely attached. The ladder and attached dredging head could be lowered into engagement with the material to be dredged by pivoting about the pivot connection with the barge. With these prior arrangements, the pivotal connection between the dredge ladder and the barge structure provided a rigid continuous structure for holding the drilling or dredging head against the surface to be dredged.

A major disadvantage of this known dredging apparatus arises from the fact that there were no effective means for cushioning shock forces experienced by the drilling or dredging head, such as when it came into contact with rock or other hard surfaces. Consequently, these shock forces were transmitted directly through the rigid ladder to the mounting attachment at the barge or platform. These forces were, in many cases, sufficient, to cause extensive damage to the mounting connection between the rigid ladder and the barge structure. Also, the drilling or dredging head and the barge structure itself could be damaged by these relatively unattenuated shock forces.

Since these dredging machines are, of necessity, of such heavy and expensive construction, the repairs likewise are exceedingly expensive. In addition, the money lost due to shut-downs, for any repairs are also exceedingly great. For example, dredging machines of the type discussed may have initial cost running in excess of approximately ten million dollars. Therefore, the reduction of repair or dry-dock downtime by even a few days a year would constitute considerable savmgs.

Another disadvantage of the known dredging apparatus was that the mounting connection between the rigid dredge ladder and the barge orplatforrn was difficult to disassemble and repair. This fact further increased the potential downtime caused bythe drilling or dredging shock forces transmitted through the ladder to the barge. In some cases, the failure of a relatively small structural element of the connection between the ladder and the barge would require a complete shut-down of the dredging operation for repair.

Another disadvantage of the known dredging apparatus was that the holding spud for holding the barge or platform in position during a dredging operation was also subjected to shock forces. These shock forces would be transmitted from the holding spud to the barge structure or the spud gate and spud frame holding the spud in position with respect to the barge. These shock forces would be caused basically by high winds and/or swells or waves in the water. The present invention is particularly directed to an improved shock lining or mounting arrangement between the. spud and the barge structure such that shock forces are attenuated by allowing a limited radial movement of the spud with respect to the barge structure during extreme swell conditions.

SUMMARY OF THE INVENTION The present invention is directed to overcoming the afore-mentioned disadvantages of the prior art.

The present invention provides a mounting between the rigid ladder and the dredge or barge platform structure which effectively absorbs the shock forces experienced by the drilling or dredging head by permitting a slight radial movement of the dredge ladder with respect to the ladder pivot axis. The present mounting is also operative to maintain the ladder in a fixed relatively rigid position for normal dredging operations, since significant movements of the dredgeladder are permitted only in the event of large predetermined shock forces of the magnitude that could cause structural damage to the dredge ladder, drilling head, or barge structure. y

In the present invention, the rigid dredge ladder is pivotally mounted by way of bearings to pivot pins extending perpendicular to the longitudinal extent of the dredge ladder. These pivot pins are supported, at least at their outer ends, within rigid housing means fixedly attached to the barge structure. These housing means include shock absorbing structure for permitting a slight movement of the pivot pins with respect to the rigid barge and housing structure.

In a preferred embodiment of the present invention for use on barges of the type having a ladder mounted at the rear end face of the barge, two separate pivot pins are provided. Each of these pivot pins extend through bearing means provided in respective arms on the ladder. Each pin is supported at its respective ends by housing structures fixed to the rear edge of the barge. Each of the housing structures includes sliding block means having an opening for the acceptance of the respective ends of the pin. These sliding block means are mounted for movement within the housing fixtures by means of a plurality of springs engaging the sliding block means at least at two opposite sides 7 thereof. In this manner, the block means are suspended between the respective springs, thereby holding the pins resiliently suspended with respect to the barge structure. The spring means are maintained in a position so as to exert only forces in the radial direction with respect to the. axis of the pin, or the ladder pivot axis, by means of cylindrical spring guide chambers provided in thehousing. Spring abutment guides are also provided on the sliding block means for holding the ends of the springs in engagement therewith. The

springs are pretensioned against the sliding block by,

for a particular pin includesone housing having a sliding block with a cylindrical opening for acceptance of the cylindrical end portion of the pin and another housing structure with a sliding block having a rectangular cross-section opening for accepting the rectangular cross-section end portion of the pin. Both housing structures include parallel guide walls for guiding the respective sliding blocks in a linear radial direction with respect to the pivot axis of the ladder. The ladder leg is attached to the cylindrical portion of the pin by way of bearing means between the two respective housing structures. With this arrangement, the pins are nonrotatably held with respect to the barge and housing structure, while permitted to move linearly such that the pivot axis of the ladder can be moved within a plane perpendicular to the said pivot axis. The housing structures may also include end plate means for abutting against the respective ends of the pin to hold it in place. At least the end plate associated with the housing means having the rectangular cross-section apertured sliding block is readily removable such that the pin can be inserted or removed from the mounting arrangement. Since the rectangular cross-section opening in the sliding block is larger than the cylindrical section of the pin, the pin can be inserted through this sliding block, then through the bearing means in the ladder leg, and finally into the sliding block of the other housing support.

Lubricating means are provided within the housing structures for lubricating therelatively sliding surfaces and the spring means. In addition, a flexible seal is provided between the respective housing structures and the pin so as to preclude the loss of the lubricating means and to preclude the entry of water and other foreign substances into the housing structures. This sealing means is arranged as a flexible sheet which permits the radial movement of the pin means with respect to the housing structure while still maintaining an adequate seal.

Another preferred embodiment of the present invention for use on barges of the type having the ladder'pivotally mounted inwardly of the rear edge of the barge or platform includes'two housing structures mounted within the framework of the barge for accepting opposite ends of pivot pin means extending from respective sides of the ladder. This arrangement can utilize either a single pin extending entirely through the ladder or can use separate pins fixed to respective arms of the ladder. Each of the housing structures include, like the arrangement of the first embodiment, spring means for resiliently suspending the ends of the pivot pin. The barge includes a central opening extending from the rear of the barge forwardly beyond the position where the ladder pivot axis is for permitting the pivotal downward movement of the dredge ladder during use.

Each of the housing structures is fixed to the barge framework at a position beneath the deck of the barge and above the lower bulkhead or bottom surface of the barge. This attachment to thebasic structure, beneath the deck surface,-provi des for an optimum utilization of the barge deck and for an optimum utilization of the basic large structural units. In this embodiment, a plurality of circumferentially spaced, radially extending, springs are provided for suspending a movable support block through which the pin extends. This arrangement differs from the other embodiment in that the pivot pin can move in any radial direction. A particularly advantageous arrangement utilizes six equally circumferentially spaced coil springs engaging with abutment means on a removable block directly supporting the pivot pin. In order to assure that sufficient spring forces are present for supporting the very large loads on the pivot pin, any number of sets ofsprings can be arranged longitudinally of the pivot'pin within the housing structure. ln'this embodiment, cylindrical guide chambers in the housing can also be used for holding the springs in position. In addition, removable back-up means and locking plug means of the type described for the embodiment mounted at the rear of the barge could also be utilized, however a preferred arrangement utilizes a plurality of back-upheads, each covering three springs. This arrangement provides for the easy removal and repair or replacement ofindividual springs. Also, the block preferrably is in two sections to aid assembly.

7 Also, this embodiment utilizes removable outside 'end plates on the housing structures for permitting the simple insertion and removal of the pivot pin and movable support block structure. With this end plate removed, the pivot pin and support block structure can be inserted into the housing. Also, with this arrangement, the aperture in the movable, support block can be cylindrical and include bearing means for permitting rotation of the pivotpin, or in addition, or alternatively, the pivot pin can pivot about bearings in the ladder structure. I I

This embodiment also utilizes seal means between the housing structure and the support block or pivot pin to hold lubricants inside of the housing structure and'to prevent water and other foreign material from entering therein. In addition, seal means are provided between the pivot pin and/or the movable support block and the inside bulkhead to prevent water from reaching the pivot pin. Both of these sealing means can be resilient diaphragm-like sheets of material which will permit the slightradial movement of the pivot pin and support block with respect to the housing structure and the bulkhead structure.

Another embodiment of the invention is directed to a shock mounting arrangement for the holding spud between the spud and the barge structure. This embodiment utilizes a housing and spring arrangement substantially similar to the arrangement of the embodiment mounting the pivotal ladder'inwardly from the rear ofthe barge. The major difference in this embodiment being that the longitudinal centerline of the housing chamber extends substantially vertical with respect to the barge structure, rather than horizontal, as do the dredge ladder pivot arrangements. This embodiment basically utilizes the plurality of radially extending springs to position a spud supporting movable block centrally within the housing. Upon heavy swells or heavy wind conditions, the barge structure is moved relative to the point of the spud driven into the underwater surface. This relative motion between the spud and the barge structure is attenuated by means of the spring allowing the limited radial movement of the spud supporting block. A collar is provided adjacent the bottom of the housing supporting the springs, to prevent the spud supporting block from falling to the bottom of the spud during assembly or use thereof. For example, this collar provides a bottom rest for the supporting block, in the event the radially extending springs become inoperative to hold it in the vertical position along the spud. Also in this embodiment, a split ring arrangement is utilized to hold the spud supporting block in position from the upper end thereof. This split ring is composed of two half rings, each bolted by a plurality of bolts to the basic housing structure holding the spring means.

All of the basic embodiments of the present invention exhibit the advantage that they are simple to construct and install on existing barges, in addition to being usable on brand new barge structures. Also, each of the embodiments are easily repairable because of'the various features providing for the removal and replacement of many of the basic structural parts that would possibly fail in service, rather than requiring a complete dismantling of the assembly. For example, the removable heads and plugs for the springs, and the removal of the pivot pins or spud supporting holders can take place without removing the fixed housing structures from the barge. Further advantages of the present invention reside in the provision for lubrication of relatively moving parts and for sealing the relatively moving parts with respect to the surrounding water environment. Another particular advantage of the present invention is the utilization of the basic barge structure to hold the necessarily heavy spring mounting arrangements in place.

' These and other objects, features, and advantages of the present invention will become more apparent from the following description thereof, when taken in connection with the accompanying drawing.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a dredging apparatus with a schematic representation of a first embodiment of the ladder mounting arrangement of the present invention.

FIG. 2 is a partial cross-sectional showing of the mounting connection for one of the ladder legs- FIG. 3 is a partial cross-sectional view through plane IIIIII of FIG. 2. v

FIG. 4 is a cross-sectional view taken along plane IVIV of FIG. 2.

FIG. 5 is a partial cross-sectional view taken through plane VV of FIG. 3.

FIG. 6 is a partial cross-sectional view taken along plane Vl-VI of FIG. 2.

FIG. 7 shows a coil spring for use with the present invention.

FIG. 8 discloses an adjustable spring back-up plug for use with the present invention.

FIG. 9 discloses a lock nut for locking the spring back-up plug of FIG. 8 in position.

FIG. 10 discloses, in schematic form, a second embodiment of the invention wherein the ladder pivot axis is positioned inwardly from the rear edge of the barge or platform.

FIG. 10A is a partial cross-sectional schematic view taken along the plane X-X of FIG. 10.

FIG. 11 is a cross-sectional view taken along the plane XIXI of FIG. 10.-

FIG. 12 is a partial cross-sectional schematic view taken along the plane XII-XII of FIG. 11.

FIG. 13 is a schematic, partial cross-sectional view of a barge including both a ladder pivot arrangement corresponding to FIG. 10 and a mounting for a holding spud.

FIG. 14 is a partial cross-sectional schematic view of the shock mounting arrangement for the holding spud taken along the plane XIV-XIV of FIG. 13.

FIG. 15 is a cross-sectional view taken along the plane XVXV of FIG. 14.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring now to the drawings, whereinlike reference numerals are used throughout the Figures to designate like structure, and more particularly to FIG. I, the dredge barge or platform 1 has a rigid dredge ladder 2 pivotally connectedat the rear end face 3 of the barge. This dredge ladder 2 is constructed substantially rigid throughout its length by known means. A drilling or dredging head 4 is provided at the outermost end of this dredge ladder 2. Driving means (not shown) for the dredging head'4 are provided on the barge and extend along the dredge ladder 2.A winching arrangement 5 is provided forlowering the drilling head at the end of the dredge ladder 2 into engagement with the surface to be dredged.

The dredge ladder includes a lefthand leg 6 and a righthand leg 6. Pivot pins 7 and 7 extend through bearing means, such as shown at 8 in FIG. 2, wherein the mounting arrangement for the left leg of the ladder is-illustrated. Since the mounting arrangement for the pin 7 of the right leg 6 of the ladder 2 is the same as for the left pivot pin 7, a detailed illustration of this right pivot pin mounting is dispensed with.

As best seen in FIG. 2, the mounting for the pivot pin 7 includes two spaced rectangularly shaped

housing structures

9 and 10 disposed at respective opposite ends of the pivot 'pin 7. The innermost housing struc-.

ture 10 includes a sliding block '11 having a cylindrical opening 12 for slidably accepting an inner end portion 13 of the pivot pin 7. Coil springs 14 are arranged in cylindrical guide chambers 15 provided in the housing 10. These coil springs 14 operatively engage radially opposite abutment means or guides 16 provided on the sliding block 11. In this manner, the coil springs operatively hold the sliding block 11, and the associated end 13 of the pivot pin approximately midway between the top and bottom of the housing chamber 17.

The housing structure 10 has a first opening 18 which is substantially larger than the cylindrical inner end portion 13 of the pivot shaft, and which is large enough to accommodate the sliding block 11 therethrough. A first flat resilient seal means 19 is'disposed between the surface of the pivot pin and the housing walls adjacent the first opening 18 to preclude entry of water and other foreign material into the housing chamber and to sealin'gly hold lubricating material within the housing chamber. y

Each of the cylindrical guide chambers 15 is provided with a removable backing or back-up plug 20 at its outer end. This backing plug 20 is threadably engaged in righthand threads 21 provided in the upper portion of the guide chamber 15. This backup plug 20 can be tightened a predetermined amount to pretension the springs to the desired value. Immediately outward of the back-up plug 20 is a locking plug 22 which is threadably engaged by way of lefthand threads 23 in the housing 10. A removable end plate 24 is provided for abuttingly engaging the end 25 of the pivot pin 7 to hold it in place within the housing 10.

The basic arrangement of the housing 9 is substantially similar to the housing 10. Therefore, structure of housing 9 which is substantially identical to the equivalent structure in housing 10 is designated by primed reference numerals similar to the reference numerals shown for the corresponding parts in housing 10. The outer end portion 26 of the pivot pin 7 is of a rectangular cross-section, as best shown in FIG. 3. Sliding block 27 has a rectangular cross-sectional opening 28 for accepting this outer end portion 26. This rectangular opening 28, and corresponding outer end portion 26 of pivot pin 7 is sufficiently larger than the cylindrical inner end portion 13 so that the pin 7 can be inserted, from the left, as indicated in FIG. 2, through the block 27.- An outer end plate 29 is provided for closing the opening 30 at the left side of housing 9.

Sliding block 11 is provided with two parallel side surfaces 31 and 32 for slidably engaging

surfaces

33 and 34 of the housing chamber such that the block 11 is constrained to linear movement within the housing chamber 17. (See FIG. 6). Sliding block 27 of housing 9 is also constrained by similar sliding wall surfaces as shown in FIG. 3, primed reference numerals indicating like parts from the housing of FIG. 6. Although the drawings show the distances X and Y in FIG. 3 to be approximately equal, the side of the housing X connected to the barge may advantageously be smaller than the other side Y.

FIG. 4 is a partial cross-sectional end view showing the attachment of the seal means 19 to the housing 9 by way of seal plate 35 and seal plate fasteners 36. FIG. 5 discloses a top cross-sectional view' of the housing structure 9 with the back-up plugs and locking plugs ling or dredging head 4 to the barge structure 1. When the drilling or dredging head runs into hard rocks or other hard material, or possibly uneven terrain features, shock forces will be sent to the pivot pins 7 and 7 by way of the dredge ladder 2 and the bearings 8, 8. Since the pivot pins are supported in the spring mounted sliding blocks 11 and 27, these shock forces will cause a movement of the pivot pins upward or downward against the springs. Consequently, the shock forces will be attenuated and absorbed by the springs and by the movement of the pivot pins and ladder structure. Due to this shock attenuation, the potential damages to the drilling or dredging head will be significantly reduced. Further, this shock attenuation also 22 removed. FIGS. 7, 8 and 9-are detailed showings of a

spring

14, 14, a back-

up plug

20, 20, and a locking

plug

22, 22, respectively.

The assembly of the embodiment of FIGS. 1 to 9 will be described for the left leg 6 of the rigid ladder, it being understood that the assembly-of the right leg 6 into the mounting arrangement will be similar thereto. The two

housing

9 and 10 are fixed to the rear end face of the barge or platform 3 by, for example, welding. These

housings

9 and 10 are spaced apart and aligned with one another such that the first opening 18 of housing structure 10 is essentially aligned with respect to a first opening 18 of the housing structure 9. The sliding blocks 11 and 27 can then be positioned in their respective housings and can be suspended centrally within the housings on the coil springs 14, 14. The ladder leg 6 is then held such that its bearing means 8 is aligned with the

openings

18 and 18 of the housing structures, while the pivot pin is slidably inserted first through opening 30 of housing structure 9, then through sliding block 27, then through the bearing 8 on the ladder leg 6 and then into the sliding block 11. Then the

end plates

24 and 29 can be fixedly secured to the outer ends of the housings to hold the pivot pin in axial position. The

springs

14, 14 may then be pretensioned the desired amount by means of the back-up plugs 20. The springs 14 and 14' can be inserted into the housing and removed from the housing for repair by way of the opening provided upon removal of the back-up plugs 20, 20' and lock plugs 22 and 22'. The

seals

19 and 19 can be arranged on the respective housings prior to the installation of the pivot pin.

During normal operation of the dredging apparatus shown in FIG. 1, the pivot pins, and consequent pivot axis p-p of the rigid dredge ladder 2 will be held in a relatively fixed position. This arrangement thereby enabling normal dredging operation to take place by providing a rigid effective unitary platform from the drilprotects the pivotal connection between the dredge ladder and the barge, and the dredge ladder and barge structure itself. In the FIG. 1 embodiment, the pivot pin is constrained to move up and down in a vertical direction in a plane parallel to the rear end face 3 of the barge. This is a preferred arrangement, however the movement of the pivot pin could be along planes other than planes parallel to the rear end face 3 of the barge. For a given dredging machine, with a given pivotal position of a dredge ladder, other angles of inclination of the movement of the pivot axis may be desired.

The particular size of springs and other structure to be used will, of course depend upon the particular size of the dredge ladder, barge, and associated structure.

For purposes of example, springs having a spring constant corresponding to, on the order of, 20 tons/inch could be used. In the just described embodiment, each of these springs could be put under a pretension of approximately five inches, leaving an additional five inches total possible deflection during usage thereof. correspondingly rigid housing structure, sliding block structure, and pivot pin structure would also be used. Due to the pretensioning of the relatively large springs, normal operating dredging forces will not significantly move the pivot axis, thereby giving the installation the advantages of the previously known rigid structure, while providing the additional advantage of shock attenuation for the expected extreme operating conditlons.

The embodiment shown in FIGS. 10 to 12 is usable on a dredging barge or platform 40, of the type having the pivot axis p-p spaced inwardly from the rear edge 41 of the barge. The rigid ladder 42 has a drilling or dredging head'43 mounted at the outer end thereof for dredging in a conventional manner. The mounting connection between the ladder 42 and the barge 40 includes a right and left pivot shaft or

44, 44 respectively, attached rigidly to the ladder structure. Alternatively, a single pivot shaft could be extended completely through the ladder, either rotatably fixed with respect to the ladder or through bearings in the ladder.

Mounted within the framework 45 under the deck of the barge 40, are two spaced

housing structures

46 and 47. These housings structures are arranged at opposite ends of the pivot pin arrangement connected to the rigid dredge ladder 42. Since each of these

housing structures

46 and 47 are substantially similar, only the lefthand housing 46 is shown at FIGS. 1 1 and 12 of the drawings and is discussed in the following paragraphs.

As best seen in FIGS. 11 and 12, basic housing structure 46 is supported on the barge by way of the framework 45. A cylindrical housing chamber 47 extends longitudinally in the direction of the pivot axis p-p. Cylindrical guide chambers 48 extend radially outwardly from the housing chamber 47. A spring 49 or other shock absorbing member is arranged in each of the guide chambers 48 for resiliently supporting a movable support block 50 such that the support block can move against the force of the springs in all radial directions. This support block 50 includes abutment means, such as the conical abutments 51 for guiding the end of the spring in engagement with the support block 50. Support block 50 is preferably made in two sections,- split at line 59, to aid in the assembly operation.

The support block 50 has a cylindrical aperture 52 extending from one end to the other with a bearing means 53 arranged therein. The lefthand end of pivot pin 44 is inserted within the bearing 53 arranged therein. The lefthand end of pivot pin 44 is inserted within the bearing 53 of the support block 50 so as to be rotatable with respect thereto. A seal 54 is provided for sealing the space between the housing structure 46 and the movable support block 50. A further seal 55 is provided for sealing the space between the inside bulkhead 56 and the movable support block 50. The seal 54 is operative to preclude entry of water and other foreign matter into the housing chamber 47 and also to hold lubricant material within said housing chamber. The seal 55 is operative to protect the pivot shaft 44 from water and other foreign matter. The springs 49 are backed up on their outer ends by head covers 57. In a preferred embodiment, three springs 49 are held in place by a single head cover 57, thereby making it possible to remove and repair springs, without dismantling the remainder of the spring support structure. In the preferred embodiment shown in the drawings, there are a series of six circumferentially spaced springs in contact with the movable support block 50. Since there are six sets of such springs axially spaced along the

support block

50, 36 springs operatively support each end of the pivot pin or shaft arrangement. It is noted that there are more pins included in this particular arrangement than in the FIG. 1 embodiment because of the permissible free radial movement in the FIG. cmbodiment. Because of this free radial movement, a greater total number of springs is necessary to account for all of the possible direction of shock forces through the pivot means. In order to make possible the removal of the bottom set springs, the housing supportingframe structure 45 includes a removable bottom section that will permit the removal of the bottom head covers.

A removable end plate 58 is provided at the outer end of the housing structure 46 for permitting assembly and repair of the mounting. The FIG. 10 embodiment can be assembled in much the same manner as the FIG. 1 embodiment, providing a single pivot pin is used. Also, the same assembly operation could be utilized if the right and left pivot pins 44 and 44 were not rigidly connected to the ladder 42. For example, the pins could have rectangular cross-section ends for engaging in rectangular apertures in the ladders, with locking keys or pins holding them in place at the ladder. Another assembly technique that could be used if the pivot pins are rigidly connected to the ladder 42 is to hold the ladder in position and then mount the

housing

46 and 47 within the framework 45 at opposite ends of the pivot structure. The movable block 50 should preferably be in two sections so that it can be assembled into the fixed housings without removing or changing the outside bulkhead of the barge.

The operationiof the embodiment of FIG. 10 is substantially similar to 'the'operation of the FIG. 1 embodiment, except for the fact that the pivot pin can move in all radial directions in the FIG. 10 embodiment while it is constrained for linear motion in the FIG. 1 embodiment.

A further embodiment of the present invention is illustrated in FIGS. 13 to 15, whereby a shock mounting arrangement is provided for a holding spud 60. This holding spud 60 is mounted in a spud gate arrangement at one end of the barge l and extends vertically downward from the barge structure for engagement into the surface underneath the ladder adjacent the area being dredged. This holding spud 60 operates to hold the barge in a relatively fixed position during the dredging operation. A spud supporting tower structure 61 is rigidly attached to one end of the bargestructure for supporting the spud in position. This holding or supporting tower 61 includes an upper supporting member 62 for holding the upper position of the holding spud in a vertical position. Means are also provided adjacent the spud support tower 61 for feeding additional lengths of spud rod and for fixing the vertical height of the spud rod on the spud support tower. Numeral 63 represents the shock mounting arrangement of the present invention, whereby the holdingspud 60 is permitted a slight radial movement against spring forces,fso as to attenuate any shocks that may be transferred from thespud to the .barge structure during heavy Windsor heavy swells in the water. v v

FIG. 14 illustrates the details of the shockvmounting arrangement 63. This arrangement 63 includes a rigid housing structure 64 attached rigidly to the barge or spud support tower structure. This housing 64 is substantially similar to the housing structures utilized in the ladder pivot arrangement of FIGS. 10-12, except that housing 64 extends in the vertical direction. Housing 64 includes a centrally disposed cylindrical chamber 65, within which a spud holding block 66 is radially movable. This spud holding block 66 has a central aperture within which the spud 60 can slide vertically within. This aperture 66a in the spud holding block 66 is sufficiently larger than the outer diameter of the spud 60 so as to permit a limited radial movement prior to contact of the spud 60 with the block 66. Also, this clearance aids in the assembly of the spud within the spud holding block, and also allows for tolerances between the upper spud support 62 and the shock mounting arrangement 63. The spud holding block 66 is maintained normally in a central position with respect to the housing chamber by means of springs 67, which are mounted in cylindrical guide chambers 68 provided in the housing 64. As in the other describedembodiments for the pivotal connection between the dredge ladder and the barge, these springs may be guided on the spud holding block by means of conically shaped spring guide abutment means 69. Heads 70 are provided for holding the springs in place in the housing. These heads 70 are arranged for pretensioning the springs a desired amount. In a preferred arrangement, a separate head 70 is provided for each three springs. With one head 70 for each three springs67, the springs can be exchanged during use without dismantling the connection between the spud and the remainder of the of the housing 64, without removing the housing from position on the barge. This splitring'64a may include two or more separate sections that can'be detached while the spud is in position. A framework 76 is pro vided for attaching the housing 64 in position at the end of the barge. This spud holding embodiment of FIGS. 13-15 may include lubricating means within the housing, and seal means therefor, in the same manner as the embodiments forthe pivotal ladder connection. However, such additional lubrication may not be desired, or necessary. for this embodiment. (It is also noted that the other embodiments need not necessarily have the specific lubricating means in the housing to operate, how- 'ever, this lubrication enhances their operation. I

Although this detailed description of the various embodiments of the invention has referred to a particular end of the barge structure as being the rear end and the like, the particular end or edge of the barge whereat the ladder is mounted or the spud holder is mounted dein most cases, be disposed away from the area where shock absorbing means in at least two opposite radial directions of said pivot pin means, characterized in that said support means includes housing means for said pin means, said housing means being rigidly attachable to the barge structure, said shock absorbing means being arranged within said housing means, characterized in that guide means are arranged in said housing means for guiding the radial movement of said pin means in a single plane perpendicular to the ladder pivot axis whereby the pivot axis is restricted to movement linearly in said plane, and characterized in that said guide means includes at least one sliding block in the housing means, each of said sliding blocks having an aperture fitted over portions of said pivot pin means, each of said sliding blocks further having two oppositely 'disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallelinner housing wall surfaces on said housing means whereby each of. the sliding blocks and assotively at opposite ends of the respective pm, each of the dredge ladder is pivotally mounted to the barge.

, While I have shown and described three basic embodiments in accordance with the present invention, it is to be understood that the same is not limited thereto but is susceptible to numerous changes and'modifications as known to a person skilled-in the art, and I therefore do not wish to be limited to the details shown and described herein but intend to cover all such changes and modifications as are within the scope of those skilled in the art. For example, the pretensioning back-up arrangement for the springs in the FIG. 1 embodiment could likewise be utilized on the embodiments of FIGS. 10 and 13. Also, it would-be possible to utilize a movable block arrangement-such as shown at FIG. 10 in the FIG. 1 embodiment so as to permit free radial movement in all directions of the pivot pin. Also, hydraulic means, rubber means, or other shock absorbing arrangements could be substituted for the springs in each of the embodiments of the present invention.

I claim: I

l. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected tothe barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin: means against the force of said shock absorbing means, wherein said shock absorbing means supports the 'pivot pin means in a central position such that movementof said pivot pin means from said central position is resiliently opposed by said said housingstructures having sliding blocks with apertures surrounding respective end portions of the re spective pins. I r

3. An arrangement according to claim 1, characterized in that said shock absorbing means includes coil springs arranged incylindrical guide chambers of said housing means, said cylindrical guide chambers extending radially with respect to said la'dd'er pivot axis, the inner ends of said coil springs'being in engagement with respective sliding blocks. 4. An arrangement according to claim 3, characterized in that said pivot pin means includes two similar axially aligned pins spacedfromone another for extending through respective separate bearing'means in said ladder, each .pin including a cylindrical section for rotatable engagement with said bearing means, in that said support means includes a housing means for each pin, said housing means beingrigidly' attachable to the barge structure, and said shock absorbing means being arranged within said housing means, and in that two sets of cylindrical guide chambers are provided for each housing means, the two sets being arranged at opposite sides of the pin in'a commonplane extending the two sets of guide chambers.

5. An arrangement "according to claim 4, characterized in that each of said sliding blocks include spring guide abutment means for holding the inner ends of the springs inposition against the sliding block such that radial movement of the inner end of the coil spring about its axis is precluded,

6. An arrangement according to claim 5, characterized in that each set of cylindrical guide chambers includes three similar cylindrical guide chambers.

' 7. An arrangement according to claim 3, characterized in that removable and adjustable spring back-up means are provided in said housing for pretensioning therespective coil springs to preclude radial movement of said pin means until predetermined shock forces are experienced thereby, said back-up means operatively engaging the outer ends of said springs.

8. An arrangement according to claim 1, wherein at least one of said sliding blocks includes means for preventing relative rotation of said sliding block and the pivot pin means.

9. An arrangement according to claim 8, wherein said means for preventing relative rotation includes forming at least a part of said apertures of non-circular cross-section for mating engagement with corresponding non-circular cross-section portions of said pivot pin means.

10. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, said pivot pin means including two similar axially aligned pins spaced from one another for extending through respective separate bearing means in said ladder, each of said pins including a cylindrical section for rotatable engagement with said bearing means, said support means including housing means for each pin, said housing'means being rigidly attachable to the barge structure, said shock absorbing means including spring means arranged within each of said housing means for operatively resiliently supporting the respective pins such that the pins can move in at least two opposite radial directions against the forces of the spring means, wherein guide means are arranged in each of said housing means for guiding the radial movement of said pins in a plane perpendicular to the ladder pivot axis whereby the pivot axis is moved linearly in said plane, said guide means including at least one sliding block in each of the respective housing means for each pin, each of said sliding blocks having apertures fitted over portions of said pins, said sliding blocks further having two oppositely disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallel inner housing wall surfaces whereby the sliding blocks and associated pins are guided for linear movement within the housing means, wherein the housing means for each pin includes a first and second housing structure positioned respectively at opposite ends of the respective pins, each of said housing structures having sliding blocks with apertures surrounding end portions of the respective pins, characterized in that the sliding block associated with the first housing structure has a cylindrical aperture for accepting a first cylindrical end section of the respective pin, and in that the sliding block associated with the second housing structure has a rectangular opening for accepting a rectangular cross-section end portion of the respective pin, whereby the respective pin is rotatably fixed with respect to said housing structure.

11. An arrangement according to claim 10, characterized in that the bearing means in said ladder are positioned respectively between the first and second housing structures associated with each pin.

12. An arrangement, according to claim 11, characterized in that seal means are provided for sealing each of said housing structures with respect to the juncture of the respective pins-and the housing structures for precluding entry of water and other forcign matter into said housing.

13. An arrangement according to claim 12, characterized in that lubricant means are provided in each of said housing structures for lubricating the spring means and the sliding surfaces between the respective sliding blocks and inner housing walls, said seal means also operatively retaining the lubricant means within the housing structures.

14. An arrangement according to claim 12, characterized in that each of said housing structures has a first opening which is larger than the diameter of the pin at its side facing the ladder bearing means for accepting the pin and for permitting the linear radial movement of the pin with respect to said housing structure, and in that said seal means includes a resilient sheet of material attached to both the pin and the outer side of the housing structure to close the space between the pin and the housing opening.

15. An arrangement according to claim 14, characterized in that the second housing structure includes a second closable opening oppositely disposed-from said first opening for insertion of the pin into the two housing structures, said second opening being larger than the largest cross-section of the pin.

16. An arrangement according to claim 11, characterized in that the first cylindrical end section of the pin is no larger than'the cylindrical portion of the pin extending through the bearing means, that the cylindrical portions extending through the bearing means has a diameter less than the smallest side of the rectangular end portion of the pin, and that the second housing structure has a pin assembly opening oppositely disposed with respect to the ladder bearing means for accepting the pin, whereby the pin can be assembled into the housing structures by insertion of the cylindrical end portion of the pin through the pin assembly opening of the second housing structure and then through the sliding block of the second housing structure and then through the ladder bearing means and lastly into the first housing structure and associated sliding block.

17. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, wherein said shock absorbing means supports the pivot pin means in a central position such that movement of said pivot pin means from said central position is resiliently opposed by said shock absorbing means in at least two opposite radial directions of said pivot pin means, characterized in that said support means includes housing .means for said pin means, said housing means being rigidly attachable to the barge structure, said shock absorbing means being arranged within said housing means, and characterized 20. An arrangement according to claim 17, charac-.

terized in that guide means are arranged in said housing means for guiding the radial movement of said pin means in a single plane perpendicular to the ladder pivot axis whereby the pivot axis is restricted to movement linearly in said plane.

21. An arrangement according to claim 17, characterized in that said shock absorbing means includes spring means arranged in cylindrical guide chambers provided in said housing means, said guide chambers extending radially with respect to said ladder pivot axis.

22. An arrangement according to claim 21, characterized in that said spring means includes a plurality of coil springs, a coil spring being positioned in each of the respective guide chambers.

23. An arrangement according to claim 17, characterized in that at least one movable support block is provided in said housing means, said support block having an opening for accepting an end portion of a pin forming part of the pin means, said shock absorbing means including a plurality of radially spaced resilient springs operatively engaging the structure of said housing means and the support block whereby the support block is resiliently supported within the housing means such that it can move against spring forces in any radial direction of the pin in response to shock forces experienced by the pin.

24. An arrangement according to claim 23, characterized in that cylindrical guide chambers are provided in said housing means for guiding the outer ends of the resilient springs, said support block having spring guide abutment means for holding the inner ends of the springs against the support block such that radial movement of the springs about the respective spring axes is precluded.

25. An arrangement according to claim 23, characterized in that the pivot pin means includes two separate axially aligned axially spaced pins, said pins engaging respective spaced ladder bearings on said ladder, said housing means including two housing structures each spaced outwardly with respect to the respective ladder bearings, each housing structure having a support block disposed therein for accepting the outer end of a respective pin.

26. An arrangement according to claim 25, characterized in that seal means are provided for sealing each of said housing structures with respect to the juncture of the respective pins and the housing structures for precluding entry of water and other foreign matter into said housing.

27. An arrangement according to claim 26, characterized in that lubricant means are provided in each of said housing structures for lubricating the spring means, said seal means also operatively retaining the lubricant means within the housing structures.

28. An arrangement according to claim 26, characterized in that each of said housing structures has a first opening which is larger than the diameter of the pin at its side facing the ladder bearing means for accepting the pin and for permitting the radial movement of the pin with respect to said housing structure, and in that said seal means includes a resilient sheet of material attached to both the pin and the outer side of the housing structure to close the space between the pin and the housing opening.

29. An arrangement according to claim 25, characterized in thatframework means are provided for attaching the housing structures to the barge.

30. An arrangement according to claim 23, wherein at least one of said sliding block includes means for preventing relative rotation of said sliding block and the pivot pin means.

31. An arrangement according to claim 17, wherein said shock absorbing means are dimensioned and configured such that said pivot pin means is maintained relatively fixed in said central position for normal dredging operations and is movable significantly from said central position only in response to large predetermined shock forces of a magnitude potentially permanently damaging to said dredge ladder and associated barge structure.

32. A dredging apparatus comprising a dredge barge and a rigid dredge ladder pivotally mounted on said barge by means of a pivotal mounting arrangement; said pivotal mounting arrangement including pivot pin means for. supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means'for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, wherein said shock absorbing means supports the pivot pin means in a central position such that movement of said pivot pin means from said central position is resiliently opposed by said shock absorbing means in at least two opposite radial directions of said pivot pin means, characterized in that said support means includes rigid housing means fixedly attached to the dredge barge, the pivot pin means including at least one pin extending through a bearing means on the ladder, said bearing means being spaced from the housing means, said at least one pin also extending into the housing means for operative engagement with shock absorbing means arranged within said housing means for operatively resiliently supporting the pin such that the pin can move in said at least two opposite radial directions with respect to the pivot axis against the forces of the shock absorbing means.

33. An apparatus according to claim 32, characterized in that the pivot pin means includes two axially spaced axially aligned pins extending through two respective separate bearings in said ladder.

34. An apparatus according to claim 33, characterized in that the housing means includes four separate housing structures, each of said housing structures being fixedly connected to an outwardly facing rear edge of said barge, said housing structures being positioned at opposite ends of each of the pins for supporting each of the respective pins at both ends thereof.

35. An apparatus according to claim 34, characterized in that seal means are provided for sealing said housing structures with respect to the juncture of the respective pins and the housing structures for precluding entry of water and other foreign matter into said housing.

36. An apparatus according to claim 34, characterized in that guide means are arranged in each of said housing structures for guiding the radial movement of said pins in a single plane perpendicular to the ladder pivot axis whereby the pivot axis is moved linearly in said plane.

37. An apparatus according to claim 36, characterized in that said guide means include at least one sliding block in each of the respective housing structures for each pin, said sliding blocks having apertures fitted over portions of said pins, said sliding blocks further having two oppositely disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallel inner housing wall surfaces whereby the sliding blocks and associated pins are guided for linear movement within the housing means.

38. An apparatus according to claim 32, characterized in that the pivot pin means includes a single pin extending through the ladder and in that the housing means includes two separate housing structures, each of said housing structures being fixedly connected at opposite ends of the pin to the framework of the barge at a position forwardly from the rear edge of the barge, said barge including a centrally disposed opening extending forwardly from the rear of the barge for permitting the pivotal downward movement of the dredge ladder.

39. An apparatus according to claim 38, characterized in that said housing structures are positioned between the barge deck and the lower bulkhead of the barge.

40. An apparatus according to claim 39, characterized in that at least one movable support block is provided in each of said housing structures, said support block having an opening for accepting an end portion of the respective pin, said shock absorbing means including spring means, said spring means including a plurality of radially extending circumferentially spaced resilient springs operatively engaging said housing structure and the support block whereby the support block is resiliently supported within the housing structure such that it can move against spring forces in any radial direction of the pin in response to shock forces experienced by the pin.

41. An arrangement according to claim 32, characterized in that said shock absorbing means includes rubber means.

42. An arrangement according to claim 32, characterized in that said shock absorbing means includes hydraulic means.

43. An apparatus according to claim 32, characterized in that the pivot pin means includes two separate axially aligned pins extending through the ladder and in that the housing means includes two separate housing structures. each of said housing structures being fixedly connected at the respective outside ends of the pins to the framework of the barge at a position forwardly from the rear edge of the barge, said barge including a centrally disposed opening extending forwardly from the rear of the barge for permitting the pivotal downward movement of the dredge ladder.

44. An arrangement'according to claim 32, wherein said shock absorbing means are dimensioned and configured such that said pivot pin means is maintained relatively fixed in said central position for normal dredging operations and is movable significantly from said central position only in response to large predetermined shock forces of a magnitude potentially permanently damaging to said dredge ladder and associated barge structure.

45. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot means against the force of said shock absorbing means, said pivot pin means including two similar axially aligned pins spaced from one another for extending through respective separate bearing means in said ladder, each of said pins including a cylindrical section for rotatable engagement with said bearing means, said support means including a housing means for each pin and spring means arranged within each of said housing means for operatively resiliently supporting the respective pins such that the'pins can move in at leasttwo opposite radial directions against the forces of the spring means, said housing means being rigidly attachable to the barge structure, wherein guide means are arranged in each of said housing means for guiding the radial movement of said pins in a plane perpendicular to the ladder pivot axis whereby the pivot axis is moved linearly in said plane, said guide means including at least one sliding block in each of the respective housing means for each pin, each of said sliding blocks having apertures fitted over portions of said pins, said sliding blocks further having two oppositely disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallel inner housing wall surfaces whereby the sliding blocks and associated pins are guided for linear movement within the housing means, said shock absorbing means including coil springs arranged in cylindrical guide chambers of said housing means, said cylindrical guide chambers extending radially with respect to said ladder pivot axis, the inner ends of said coil springs being in engagement with respective sliding blocks, and wherein removable and adjustable spring back-up means are provided in said housing means for pretensioning the respective coil springs to preclude radial movement of said pin means until predetermined shock forces are experienced thereby, said back-up means operatively engaging the outer ends of said springs, characterized in that said back-up means includes a threaded back-up plug engaging a threaded outer portion of respective cylindrical guide chambers, and in that a threaded locking plug is provided for locking the back-up plug in adjusted position, the threads of said locking plug being of the opposite hand with respect to the threads of the back-up plug.

46. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, wherein said shock absorbing means supports the pivot pin means in a central position such that movement of said pivot pin means from said central position is resiliently opposed by said shock absorbing means in at least two opposite radial directions of said pivot pin means, characterized in that said support means includes housing means for said pin means, said housing means being rigidly attachable to the barge structure, said shock absorbing means being arranged within said housing means, and characterized in that ladder bearing means are provided outside of said housing means for rotatably connecting said ladder to said pin means.

47. An arrangement according to claim 46, characterized in that guide means are arranged in said housing means for guiding the radial movement of said pin means in a single plane perpendicular to the ladder pivot axis whereby the pivot axis is restricted to movement lineraly in said plane.

48. An arrangement according to claim 47, characterized in that said guide means includes at least one sliding block in the housing means, said sliding block having an aperture fitted over portions of said pin means, said sliding block further having two oppositely disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallel inner housing wall surfaces whereby the sliding blocks and associated pin means are guided for linear movement within the housing means.

49. An arrangement according to claim 46, characterized in that seal means are provided for sealing said housing means with respect to the juncture of the pin means and the housing means for precluding entry of water and other foreign matter into said housing means.

50. An arrangement according to claim 49, characterized in that lubricant means are provided in said housing means for lubricating the spring means and the sliding surfaces between the respective sliding blocks and inner housing walls, said seal means also operatively retaining the lubricant means within the housing means.

51. An arrangement according to claim 50, characterized in that said housing means has a first opening which is larger than the diameter of the pin means at its side facing the ladder bearing means for accepting the pin means and for permitting the linear radial movement of the pin with respect to housing structure of said housing means, and in that said seal means includes a resilient sheet of material attached to both the pin means and the outer side of the housing structure to close the space between the pin means and the housing opening.

52. An arrangement according to claim 47, characterized in that said shock absorbing means includes coil springs arranged in cylindrical guide chambers of said housing means, said cylindrical guide chambers extending radially with respect to said ladder pivot axis, the inner ends of said coil springs being in engagement with at least one sliding block provided in surrounding engagement with said pin means.

53. An arrangement according to claim 52, characterized in that said sliding block includes spring guide abutment means for holding the inner ends of the springs in position against the sliding block such that radial movement of the inner end of the coil spring about its axis is precluded.

54. An arrangement according to claim 46, characterized in that removable and adjustable spring back-up means are provided in said housing means for preten sioning the spring means to preclude radial movement of said pin means until predetermined shock forces are experienced thereby, said back-up means operatively engaging the outer ends of said spring means.

Claims

1. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absOrbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, wherein said shock absorbing means supports the pivot pin means in a central position such that movement of said pivot pin means from said central position is resiliently opposed by said shock absorbing means in at least two opposite radial directions of said pivot pin means, characterized in that said support means includes housing means for said pin means, said housing means being rigidly attachable to the barge structure, said shock absorbing means being arranged within said housing means, characterized in that guide means are arranged in said housing means for guiding the radial movement of said pin means in a single plane perpendicular to the ladder pivot axis whereby the pivot axis is restricted to movement linearly in said plane, and characterized in that said guide means includes at least one sliding block in the housing means, each of said sliding blocks having an aperture fitted over portions of said pivot pin means, each of said sliding blocks further having two oppositely disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallel inner housing wall surfaces on said housing means whereby each of the sliding blocks and associated pivot pin means are guided for linear movement within the housing means.

2. An arrangement according to claim 1, characterized in that said pivot pin means includes at least one pin, and in that the housing means for each pin includes a first and second housing structure positioned respectively at opposite ends of the respective pin, each of said housing structures having sliding blocks with apertures surrounding respective end portions of the respective pins.

3. An arrangement according to claim 1, characterized in that said shock absorbing means includes coil springs arranged in cylindrical guide chambers of said housing means, said cylindrical guide chambers extending radially with respect to said ladder pivot axis, the inner ends of said coil springs being in engagement with respective sliding blocks.

4. An arrangement according to claim 3, characterized in that said pivot pin means includes two similar axially aligned pins spaced from one another for extending through respective separate bearing means in said ladder, each pin including a cylindrical section for rotatable engagement with said bearing means, in that said support means includes a housing means for each pin, said housing means being rigidly attachable to the barge structure, and said shock absorbing means being arranged within said housing means, and in that two sets of cylindrical guide chambers are provided for each housing means, the two sets being arranged at opposite sides of the pin in a common plane extending parallel to the sliding surfaces of the sliding block, whereby the sliding block is resiliently supported between the respective inner ends of the coil springs in the two sets of guide chambers.

5. An arrangement according to claim 4, characterized in that each of said sliding blocks include spring guide abutment means for holding the inner ends of the springs in position against the sliding block such that radial movement of the inner end of the coil spring about its axis is precluded.

7. An arrangement according to claim 3, characterized in that removable and adjustable spring back-up means are provided in said housing for pretensioning the respective coil springs to preclude radial movement of said pin means until predetermined shock forces are experienced thereby, said back-up means operatively engaging the outer ends of said springs.

10. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, said pivot pin means including two similar axially aligned pins spaced from one another for extending through respective separate bearing means in said ladder, each of said pins including a cylindrical section for rotatable engagement with said bearing means, said support means including housing means for each pin, said housing means being rigidly attachable to the barge structure, said shock absorbing means including spring means arranged within each of said housing means for operatively resiliently supporting the respective pins such that the pins can move in at least two opposite radial directions against the forces of the spring means, wherein guide means are arranged in each of said housing means for guiding the radial movement of said pins in a plane perpendicular to the ladder pivot axis whereby the pivot axis is moved linearly in said plane, said guide means including at least one sliding block in each of the respective housing means for each pin, each of said sliding blocks having apertures fitted over portions of said pins, said sliding blocks further having two oppositely disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallel inner housing wall surfaces whereby the sliding blocks and associated pins are guided for linear movement within the housing means, wherein the housing means for each pin includes a first and second housing structure positioned respectively at opposite ends of the respective pins, each of said housing structures having sliding blocks with apertures surrounding end portions of the respective pins, characterized in that the sliding block associated with the first housing structure has a cylindrical aperture for accepting a first cylindrical end section of the respective pin, and in that the sliding block associated with the second housing structure has a rectangular opening for accepting a rectangular cross-section end portion of the respective pin, whereby the respective pin is rotatably fixed with respect to said housing structure.

12. An arrangement according to claim 11, characterized in that seal means are provided for sealing each of said housing structures with respect to the juncture of the respective pins and the housing structures for precluding entry of water and other foreign matter into said housing.

15. An arrangement according to claim 14, characterized in that the second housing structure includes a second closable opening oppositely disposed from said first opening for insertion of the pin into the two housing structures, said second opening being larger than the largest cross-section of the pin.

16. An arrangement according to claim 11, characterized in that the first cylindrical end section of the pin is no larger than the cylindrical portion of the pin extending through the bearing means, that the cylindrical portions extending through the bearing means has a diameter less than the smallest side of the rectangular end portion of the pin, and that the second housing structure has a pin assembly opening oppositely disposed with respect to the ladder bearing means for accepting the pin, whereby the pin can be assembled into the housing structures by insertion of the cylindrical end portion of the pin through the pin assembly opening of the second housing structure and then through the sliding block of the second housing structure and then through the ladder bearing means and lastly into the first housing structure and associated sliding block.

17. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, wherein said shock absorbing means supports the pivot pin means in a central position such that movement of said pivot pin means from said central position is resiliently opposed by said shock absorbing means in at least two opposite radial directions of said pivot pin means, characterized in that said support means includes housing means for said pin means, said housing means being rigidly attachable to the barge structure, said shock absorbing means being arranged within said housing means, and characterized in that ladder bearing means are provided outside of said housing means for connecting said ladder to said pin means.

18. An arrangement according to claim 17, characterized in that said pivot pin means includes two similar axially aligned pins spaced from one another for extending through respective separate bearing means in said ladder.

19. An arrangement according to claim 18, characterized in that each pin includes a cylindrical section for rotatable engagement with said bearing means.

20. An arrangement according to claim 17, characterized in that guide means are arranged in said housing means for guiding the radial movement of said pin means in a single plane perpendicular to the ladder pivot axis whereby the pivot axis is restricted to movement linearly in said plane.

29. An arrangement according to claim 25, characterized in that framework means are provided for attaching the housing structures to the barge.

32. A dredging apparatus comprising a dredge barge and a rigid dredge ladder pivotally mounted on said barge by means of a pivotal mounting arrangement; said pivotal mounting arrangement including pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot pin means against the force of said shock absorbing means, wherein said shock absorbing means supports the pivot pin means in a central position such that movement of said pivot pin means from said central position is resiliently opPosed by said shock absorbing means in at least two opposite radial directions of said pivot pin means, characterized in that said support means includes rigid housing means fixedly attached to the dredge barge, the pivot pin means including at least one pin extending through a bearing means on the ladder, said bearing means being spaced from the housing means, said at least one pin also extending into the housing means for operative engagement with shock absorbing means arranged within said housing means for operatively resiliently supporting the pin such that the pin can move in said at least two opposite radial directions with respect to the pivot axis against the forces of the shock absorbing means.

43. An apparatus accoRding to claim 32, characterized in that the pivot pin means includes two separate axially aligned pins extending through the ladder and in that the housing means includes two separate housing structures, each of said housing structures being fixedly connected at the respective outside ends of the pins to the framework of the barge at a position forwardly from the rear edge of the barge, said barge including a centrally disposed opening extending forwardly from the rear of the barge for permitting the pivotal downward movement of the dredge ladder.

44. An arrangement according to claim 32, wherein said shock absorbing means are dimensioned and configured such that said pivot pin means is maintained relatively fixed in said central position for normal dredging operations and is movable significantly from said central position only in response to large predetermined shock forces of a magnitude potentially permanently damaging to said dredge ladder and associated barge structure.

45. A mounting arrangement for mounting one end of a rigid dredge ladder on a dredging barge or dredging platform; said arrangement comprising: pivot pin means for supporting the ladder for pivotal movement about a ladder pivot axis, and pivot pin support means operatively connected to the barge for supporting the pivot pin means with respect to said barge, said support means including shock absorbing means for absorbing shock forces transmitted from said ladder to said pivot pin means during dredging operations by permitting movement of said pivot means against the force of said shock absorbing means, said pivot pin means including two similar axially aligned pins spaced from one another for extending through respective separate bearing means in said ladder, each of said pins including a cylindrical section for rotatable engagement with said bearing means, said support means including a housing means for each pin and spring means arranged within each of said housing means for operatively resiliently supporting the respective pins such that the pins can move in at least two opposite radial directions against the forces of the spring means, said housing means being rigidly attachable to the barge structure, wherein guide means are arranged in each of said housing means for guiding the radial movement of said pins in a plane perpendicular to the ladder pivot axis whereby the pivot axis is moved linearly in said plane, said guide means including at least one sliding block in each of the respective housing means for each pin, each of said sliding blocks having apertures fitted over portions of said pins, said sliding blocks further having two oppositely disposed flat surfaces extending parallel to one another for slidably engaging two oppositely disposed substantially parallel inner housing wall surfaces whereby the sliding blocks and associated pins are guided for linear movement within the housing means, said shock absorbing means including coil springs arranged in cylindrical guide chambers of said housing means, said cylindrical guide chambers extending radially with respect to said ladder pivot axis, the inner ends of said coil springs being in engagement with respective sliding blocks, and wherein removable and adjustable spring back-up means are provided in said housing means for pretensioning the respective coil springs to preclude radial movement of said pin means until predetermined shock forces are experienced thereby, said back-up means operatively engaging the outer ends of said springs, characterized in that said back-up means includes a threaded back-up plug engaging a threaded outer portion of respective cylindrical guide chambers, and in that a threaded locking plug is provided for locking the back-up plug in adjusted position, the threads of said locking plug being of the opposite hand with respect to the threads of the back-up plug.

54. An arrangement according to claim 46, characterized in that removable and adjustable spring back-up means are provided in said housing means for pretensioning the spring means to preclude radial movement of said pin means until predetermined shock forces arE experienced thereby, said back-up means operatively engaging the outer ends of said spring means.