DE2343073A1 - FACILITY FOR MOWING AND BOWING SHIPS - Google Patents

Description

Equipment for mooring and mooring ships.

The invention relates to a device for mooring and mooring ships, with a pulling device consisting of two grooved drums for pulling in and unplugging a rope and with a stowing device for receiving the (S ₂ -) end of the rope running from the pulling device and facing away from the load side that a tensile force S _{2 is} exerted.

Such mooring and mooring devices are already known, especially on large ships. With the help of the grooved drums, over which the rope is looped, in particular with an 8-shaped loop, a relatively high tensile force S ^ can be exerted on the load-side end of the rope. The rope running off the grooved double drums on the side S ₂ away from the load side is fed to a stowage device. This is the case with the well-known mooring and mooring

509811/0072

Equipment from a stowage drum usually arranged below deck. The free end of the rope is on top of this Stowage drum wound up.

In the aforementioned known devices, however, the stowing drum not only has the task of receiving the free end of the rope facing away from the load. Rather, the force Sp required for the function of the pulling device is also applied to the end of the rope with the aid of the stowing drum. In such pulling devices, this force S ₂ is small in relation to the pulling force acting on the load side. In one of these known devices, the stowing drum is constantly driven by a motor with an approximately constant torque in the winding direction, regardless of the speed and direction of rotation of the drums of the pulling device.

Such a mooring and mooring device is due to the design of the stowing drum with its own drive relatively expensive. In contrast, according to the object on which the invention is based, a device for Mooring and mooring are proposed while retaining all the advantages of the known facilities of this Kind is simpler in its structure.

The device according to the invention is characterized in that the Sp tensile force is _{exerted by the tensile device itself on the S 2} end of the rope. According to the invention, this can be achieved in various ways, in particular by increasing the friction of the rope in one or more rope grooves of the drums on the S ^ side of the pulling apparatus.

The invention is based on the fact that in such

509811/0072

Pulling devices with grooved double drums a pulling force Sp must necessarily be exerted on the end of the rope remote from the load so that the desired pulling force S can be generated on the load side according to the law for belt drives. While this requires a separate power source in the conventional devices, for. B. in the form of the stowage drum, according to the inventive idea, the tensile force S ₂ on the S ^ side of the drums is exerted by the drums themselves on the rope. This means that the separate pulling device for the Sp force can be dispensed with. In the invention, according to a further proposal, instead of the complex stowing drum, a simple collecting basket is used, which is preferably arranged below deck and which receives the excess, load-free end of the rope in each case.

The invention is further concerned with driving the grooved drums. These are driven by a friction gear, namely by two friction wheels arranged at the ends of the drums and pressed against one another, of a common one Motor driven off. Its driving force is therefore only transmitted to and from a drum the friction wheels on the second drum. The special feature of the invention is that on one side of the device a spring is arranged with which the friction wheels present on this side are pressed against one another. The pressure force of the spring is transmitted to the neighboring friction wheels via a connecting rod. This arrangement is not only very simple in their structure. It is crucial that a favorable force curve is achieved in this way, which prevents that essential forces on the foundations of the bearing blocks for the grooved drums in the ship's structure be transmitted. In known devices of this type, the required (additional) contact pressure

509811/0072

-A-

generated for the friction wheels by two spring-loaded bearing blocks. The spring forces are supported by the foundation away. Later on, namely during the operation of the ship, this often leads to permanent deformations in the foundation and thus leading to uncontrolled changes in the required spring preload. This risk is with the invention Avoided execution.

Exemplary embodiments of the invention are explained in more detail below with reference to the drawings. It shows:

1 shows an essential part of the device according to the invention in a schematic plan view,

FIG. 2 shows a side view of FIG. 1 with the stowage device arranged below deck,

3 shows a cross section through a drum in the area of an Sp rope groove on an enlarged scale,

4 shows a cross section IV-IV in FIG. 3 through a groove profile of an S ₂ -RiIIe, on an enlarged scale,

Fig. 5 shows another embodiment of the profile of a Sp groove in a cross section corresponding to FIG. 4,

6 shows a perspective, schematic representation of the mounting of the grooved drums.

The device shown in the drawings is primarily used for mooring and mooring ships. It However, other areas of application are also conceivable and possible, provided that there are similar requirements as for the handling of watercraft.

50981 1/0072

The most important part of the device is a pulling device 10. This consists of two drums 11 and 12 driven in opposite directions. These are spaced apart arranged parallel grooves 13 in which a finite rope 14 runs. The drums 11 and 12 are looped around several times in an 8-shape in the area of the grooves 13. The S ^ end 14a of the rope facing the load runs onto the drum 11 at one end and leaves it with the S ^ end 14b. The load-side S, - end can, as can be seen from Fig. 1, run in different directions.

_{The S 2} end 14b facing away from the load is dammed in a suitable manner. In the illustrated embodiment according to FIG. 2, the Sp end 14b runs into a collecting basket 16 arranged below the deck 15. In this basket the rope 14 is loosely deposited in loops or turns. If necessary, a cable guide can be provided here. A certain guidance results from a cable guide tube 17 which directs the cable to the longitudinal center axis of the collecting basket. It is useful to choose a certain dimensional ratio between the diameter of the collecting basket 16 and the height of the lower mouth of the cable guide tube 17 above the bottom of the collecting basket 16. A dimensioning in which the diameter of the collecting basket 16 is half of the height defined above is advantageous.

A tensile force Sp must be exerted on the end of the rope 14b, so that a corresponding tensile force S ^ arises on the load side. The relationship between S ^ and Sg results in can be derived from the formula for belt drives as follows:

S ₁ «S ₂ χ

509811/0072

The required cable tensile force S ₂ is exerted on the cable 14 by the pulling device 10 in the present case. For this purpose, at least the groove 13a facing the Sp end 14b of the rope on the drum 11, if necessary also the preceding groove 13b on the drum 12, is designed in a special way so that there is increased friction on the rope 14 here acts. This in turn generates the required tensile force S «.

In the embodiment of FIGS. 3 and 4, spherical knobs 18 and 19 are in the relevant cable grooves arranged. Preferably, there are two rows of knobs 18 and 19, which are on both sides of the longitudinal center plane 20 of the relevant groove 13a and 13b are arranged in the circumferential direction at intervals from one another. The distance between the knobs 18 and 19 from the longitudinal center plane 20 is preferably 45 °. The groove bottom 21 is formed here in the shape of a circular arc, while the flanks 22 and 23 have such a distance from each other that the rope 14 at the bottom of the groove with the Knobs 18 and 19 is engaged.

FIG. 5 shows an alternative in which an increased friction is exerted on the cable 14 by frictional connection. The groove 13a or 13b is formed here with a circular arc-shaped groove bottom 21 with a smaller spacing of the flanks 22 and 23 from one another, so that the groove forms a keyway profile. The distance between the flanks 22 and 23 from one another is smaller, at least in the vicinity of the groove bottom 21, than the diameter of the rope 14. This is thereby carried by the flanks 22 and 23. The converging flanks 22 and 23 exert an increased contact pressure on the rope, whereby - similar to a V-belt drive - the friction is increased. In practice, an appropriate public

509811/0072

Angle of inclination oC of the flanks 22 and 23 are 30 °. This embodiment can be used in particular when the rope 14 used has an approximately constant diameter over the length of the rope taken up by the groove 13a or 13b.

In addition to or instead of the measures discussed above for generating the tensile force S ₂ , a pressure device in the form of a pressure roller 25 loaded by compression spring 24 can be used. Such a pressure roller 25 is expediently provided at least in the area of the Sp-side groove 13a. It presses the rope 14 against the groove bottom 21 and thereby generates the desired friction for the rope. The pressing force of the pressure roller 25 is preferably 100-150 kg.

The drive of the pulling device 10 is designed so that the drum 11 via a drive shaft 26 by an in a motor arranged in a housing 27 is driven, in the illustrated embodiment in a clockwise direction. The drive is transmitted from the drum 11 to the drum 12 through friction wheels 28 and 29 as well as 30 and 31. These Friction wheels 28..31 are pressed against one another by the rope 14 as a result of the wrapping of the drums 11 and 12. In addition, however, an additional pressing force is generated by a special device.

The drums 11 and 12 are in the area of the friction wheels 30 and 31 remote from the housing by a tie rod 32 connected with each other. One end of the tie rod is hinged to the bearing block 33 of the drum 11. The other end of the tie rod 32 is in a sleeve

509811/0072

like guide 34 held longitudinally displaceable. A compression spring is supported on the side remote from the bearing block 33 35 on the guide 34. The other end of the compression spring rests on a support plate 36 at the end of the tie rod 32. The guide 34 for the tie rod 32 and for supporting the compression spring 35 is in turn connected to the axis via an arm 37 38 of the drum 12 connected.

anti-twist

The compression spring 35 transmits a contact pressure to the relative to the tie rod 32 movable by a given bias Guide 34. This contact pressure is over the. Arm 37 on the axis 38 and thus transferred to the drum 12, which is now is pressed with the friction wheels 29 and 31 against the friction wheels 28 and 30.

The additional pressing force of the compression spring 35, which is arranged only on one side of the drums 11 and 12, is applied the distant friction wheels 28 and 29 are transmitted by a special connecting linkage. The drum 12 is mounted movably for this purpose, with the aid of pendulum supports 39 and 40, which are connected to the ends of the axle 38 are connected. The pendulum supports 39 and 40 are attached to a foundation with pivot bearings 41 and 42. The drum 12 is mounted on the axle 38 with pivot bearings 43 and 44. The end of the axis 38 facing the pendulum support 39 is Connected via a pivot bearing 45 to the pendulum support 39, while the opposite end of the axis 38 is rigid the pendulum support 40 is connected.

The pressing force of the compression spring 35 is transmitted to the axis 38 via the arm 37 rigidly connected to the latter. Through this the friction wheel 31 is pressed directly against the friction wheel 30. At the same time, this pressing force on the axis 38, which

509811/0072

to the extent that acts as a torsion bar, transferred to the opposite friction wheel 29, which thereby with the same force is pressed against the friction wheel 28. A relatively simple construction with only one compression spring 35 manages, thus enables the friction wheels to be pressed evenly against one another without causing undesirable loads the foundations are coming.

509811/0072

Claims (12)

Expectations 1. Device for mooring and mooring ships, • with a pulling device consisting of two grooved drums for pulling in and unplugging a rope and with a stowing device for receiving the (sp) rope end that runs from the pulling device and is remote from the load side, onto the one Tensile force S _{2 is} exerted, characterized in that the Sp tensile force is exerted by the traction device (10) on the S ₂ end (14b) of the rope (14). 2. Device according to claim 1, characterized in that on the Sp side of the pulling device (10) there is increased friction on the S _? -End (14b) of the rope (14) acts, preferably through the special design of one or more rope grooves (13a, 13b) of the drums (11, 12). 3. Device according to claim 1 or 2, characterized in that one or more of the Sp side facing rope grooves (13a, 13b) are formed as a keyway profile by inclined flanks (22, 23), the distance between the flanks (22, 23) from one another at least in the vicinity of the groove base (21) is smaller than the diameter of the rope (14). 4. Device according to claim 1 or 2, characterized in that one or more of the Sp side facing Cable grooves (13a, 13b) in the area of the support of the cable (14) with a surface that increases the friction, in particular Knobs (18, 19), studs, etc. are provided. 509811/0072 5. Device according to claim 4 and one of the further claims, characterized in that two rows hemispherical knobs (18, 19) at a distance from the longitudinal center plane (20) of the rope groove (13a, 13b) and to both Sides of the same with the spacing of the knobs (18, 19) in the circumferential direction are arranged. 6. Device according to one of claims 1-5, characterized in that the rope (14) by external pressing force, in particular by at least one spring-loaded pressure roller (25) against the bearing surface in the groove (13a, 13b) is pressed. 7. Device according to one of claims 1-6, characterized in that the rope end running on the Sp side (14b) can be received by a storage device. 8. Device according to claim 7, characterized in that the storage device consists of a collecting basket (16) in which the cable (14) can be guided through a cable guide tube (17) ending approximately in the longitudinal center axis of the collecting basket (16). 9. Device according to one of claims 1-8, wherein one of the drums is driven from the outside and its drive Transferred via pairs of friction wheels to the other drum and the friction wheels additionally pressed against one another by spring force are, characterized in that the friction wheels (28, 29, 30, 31) are connected to one another by tie rods (32) are, which by springs (35), in particular compression springs, under tension in the sense of pressing the friction wheels against one another (28..31) are held. 10. Device according to claim 9, characterized in that 50981 1/0072 that only a pair of friction wheels, in particular the pair of friction wheels (30, 31) remote from the drive side can be pressed against one another by a spring-loaded tie rod (32), the contact pressure being exerted by the friction wheels (30, 31) can be transferred to the adjacent friction wheels (28, 29) by means of a connecting rod (37, 38). 11. Device according to claim 10, characterized in that the directly driven friction wheels (28, 30) fixed mounted and the friction wheels (29, 31) to be pressed against them are movable, in particular mounted on pendulum supports (39, 40) The contact pressure of the compression spring (35) assigned to the pair of friction wheels (30, 31) is applied via a torsion bar Axis (38) of the drum (12) can be transmitted. 12. Device according to claim 11, characterized in that the pressing force of the compression spring (35) on one the tie rod (32) slidable guide (34) can be transferred, which is connected to the axle (38) via a rigid lever (37) is, the spring (35) facing end of the axis (38) via a pivot bearing (45) with the associated Pendulum support (39) is connected. For the applicant; Meissner & Bolte patent attorneys Bremen, August 17, 1973 Applicant: Friedrich Kocks GmbH 28 Bremen Richard-Dunkel-Strasse 55 509811/0072