RU2094297C1 - Towing hawse - Google Patents

Abstract

FIELD: shipbuilding. SUBSTANCE: towing hawse includes stationary horizontal roller, chock with wrapper and two vertical stationary rollers on base of chock forming hawse port. Additional vertical roller is mounted on intersecting vertical and horizontal axles and its vertical axis lies in plane of symmetry of chock and horizontal roller for dividing the hawse port into two parts. Additional vertical roller is provided with counterweight secured on lower portion of its vertical axle, stop and drive for turn of roller about its horizontal axle. Sectional wrapper of chock consists of three articulated links for motion of each of them. Side links of wrapper are mounted for turn about axes of vertical rollers in horizontal plane through maximum angle of 90 deg; center link is mounted for vertical motion about any horizontal axis of articulations of links. Links of wrapper are provided with retainers. EFFECT: enhanced reliability. 2 cl, 2 dwg

Description

 The invention relates to shipbuilding, in particular to a towing claw device.

 Known towing lock, containing a stationary horizontal roll, a bale bar with a hinged basting and two vertical stationary pulleys forming a window of a clus (Handbook of ship devices. T. 2. Towing, rescue and cargo devices. L. Shipbuilding, 1975, S. 46- 47, Fig. 1.34). This device is selected as the closest analogue of the invention.

 Known towing gateway has a number of disadvantages that worsen its operating conditions. A gateway window of this design does not allow the passage of the tow rope with a bracket, hook, chains, which leads to additional operations when towing (first, the connecting nodes of the tow line must be pushed overboard, and then pulled through the window of the closure). And this, in turn, leads to a loss in towing time and excessive fuel consumption. In addition, in cases where two tow lines are used to tow two objects, there is a mutual intersection and abrasion of the tow cables, which makes it impossible to tow two objects simultaneously.

 The technical result of the invention is to improve the operating conditions of the towing clutch by speeding up and simplifying the operation of towing ships, reducing energy consumption and enabling the simultaneous towing of two objects.

 It is achieved by the fact that the towing claw containing a stationary horizontal roll, a bale bar with a hinged basting and two vertical stationary rolls on the base of the bale bar forming a window of a clus is equipped with an additional vertical roller assembled on mutually intersecting vertical and horizontal axes and installed with its vertical axis in the plane of symmetry of the bale bar and horizontal roll with the possibility of dividing the window of the clouse into two parts, with an additional vertical roll provided a counterweight mounted on the lower part of its vertical axis, a stopper and a drive to ensure the rotation of the roll around its horizontal axis, and the outline of the bale bar is made up of three interconnected links with the possibility of moving each link.

In addition, the lateral basting links are mounted with the possibility of rotation around the axes of the vertical rolls in a horizontal plane to a maximum angle of 90 ^° , and its middle link is mounted with the possibility of vertical movement around either of the two horizontal axes of the articulations of the links, and the basting links are provided with locks.

 In FIG. 1 depicts a towing lock, view of the stern; in FIG. 2, section AA in FIG. one.

 The towing lock (Fig. 1) contains a stationary horizontal roll 1, bale bar 2 with hinged basting 3 and two vertical stationary rollers 4, 5, located on the base 6 of the bale bar 2 and forming a window 7 of the clouse, for example, with dimensions of 770x400 mm vertical roll 8.

 The horizontal roll 1 is made of cast steel and is designed to protect the tow rope 9 and the base 6 of the bale bar 2 from abrasion.

 The bale bar 2 has a cast steel body 10 welded to the foundation 11. The hinge 3 is made up of three links, two lateral 12, 13 and the middle link 14. These links are interconnected by two fingers 15, 16 equipped with sorlini 17, 18 and fixing heads 19, 20.

The lateral links 12, 13 of the basting 3 are located on the common vertical axes 21, 22 with the rollers 4, 5 and are made with the possibility of rotation only in the direction of the bow of the vessel around the axes 21, 22 in the horizontal plane to a maximum angle of 90 ^o .

 The middle link 14 of the basting 3, connected to the side links 12, 13 by means of the fingers 15, 16, is made with the possibility of vertical rotation around either of the two fingers. To rotate the middle link 14 of the basting 3 around the finger 15, the finger 16 must be removed and inserted into the eyes 23 made in the housing 10 of the strap 2.

 On the lateral links 12, 13, loops 24, 25 are installed for locking them with hooks 26, 27 in the tilted position and bolts 28, 29 for locking in the tilted state of the middle link 14.

 An additional vertical roll 8 (Figs. 1 and 2) is assembled on mutually intersecting vertical 30 and horizontal 31 axes and is mounted with its vertical axis 30 in the plane of symmetry of the bale bar 2 and horizontal roll 1 with the possibility of dividing the window 7 of the clouse into two parts 32, 33.

 The base 6 of the bale bar 2 is elongated compared to the standard bale bar and is, for example, 2395 mm. The distance between the axes 21, 22 of the vertical rosels 4, 5 is also increased, while the window 7 of the clusz is made with dimensions of 770x440 mm.

 The roller 8 is provided with a counterweight 34 and a stopper 35. The counterweight 34 is mounted on the lower part of the vertical axis 30 with a pin 36 and is equipped with a bracket 37. The stopper 35 is made, for example, in the form of a finger. The stopper 35 is necessary for fixing the roller 8 in a horizontal position (Fig. 2) and a vertical position (Fig. 1).

 In FIG. 1 and 2 show one of the options for using the drive necessary to rotate the roll 8 around its horizontal axis 31 - cable.

 The structure of the executive cable drive includes two ropes 38, 39, made, for example, of kapron material with a circumference of 40 mm. The root ends of these ropes are fixed to the bracket 37.

 Using the rope 33 can be carried out rotation of the roller 8 from a horizontal position (Fig. 2) to a vertical position (Fig. 1).

 The return of the roller 8 from vertical to horizontal can be carried out using a rope 39, passed through three guide blocks 40 and one malgoger 41.

 Cable drive control can be carried out manually regardless of the ship’s energy sources and using the mechanisms of ship’s devices (spiers, rotating stands, bollards, etc.).

 Ropes 38, 39 during turns additionally perform the function of shock absorbers. Inoperative, both ropes 38, 39 are laid on ducks 42 located on the foundation 11.

 On the ship in the plane of rotation of the roll 8, a fence is provided in order to comply with safety requirements.

 In FIG. 1 it is shown that externally the outlines of the bale strap 2 and the outline 3 of the towing closet are organically inscribed in the enclosing arch 43 mounted on the bulwark 44. The smooth outlines will not impede the free transfer of the towing cable 9 from side to side when the latter is outside the clus (on top of it ), which is necessary during maneuvers.

 This towing lock is designed for installation on large sea tugs, lifeguards for towing in a long tug in one or two objects in a towed way.

 In maritime practice, there are many situations for using a towing clutch, but such operations as receiving, feeding and giving the towing rope remain unchanged. When this occurs, the change in the length of the tow rope 9.

 The tow line is integral. It includes any of the known mounts for the towed object (mount to anchor chains, half drag, etc.). This fastening is closed by a triangular link. The next component is a shock absorber (insert from a chain or from a synthetic rope), and then a tow rope 9, which is mounted on a towed vessel.

 For example, a triangular docking link is selected. Depending on weather conditions and the location of this operation, the optimal solutions for towing cable 9 are selected. One of them is considered. Basting 3 on bale bar 2 is closed. The rotary roller 8 is in a horizontal position. With the help of a conductor, the triangular link and part of the fastening are drawn through the clue and taken to the stop. A connection is made to tow cable 9 and a tow line connects the tow object to the tow. At the same time, if the tugboat needs maneuverability at this moment, basting 3 can be opened and the towing line over the basting 3. To do this, turn the towing head 19 of finger 15, which will allow the latter to be removed and put into the eye 23, then you can use the hole that is located in the middle link 14 of the basting 3 and swing the link 14 into a vertical position, locking it with a bolt 29.

 After turning the side link 12 and locking it with the hook 26, it is necessary to open the middle link 14 with the bolt 29 and release it to the position of natural sagging.

 Basting 3 is closed in the reverse order. Then, in order to bring tow cable 9 into the lock, when it is on top of mark 3, you need to combine the necessary maneuvers of the tug and the operation to open mark 3. When the tow cable 9 in the lock, fix its position in window 7 using the rotary roller 8. To change the position 8, it is necessary with the locking finger 35 to remove the fixation and remove the ropes 38 and 39 from the ducks 42. Working simultaneously with the ropes 38 and 39 (the rope 38 is pulled and the rope 39 is spent), the roller is brought into a vertical position and its position is fixed with the locking finger 35. Free to ropes seedlings 38 and 39 placed on the 42 ducks.

 To carry out the docking operation with the second towed object, additional tugboats will be needed, and operations with the towed clue will be repeated.

 When towing on long ropes, the maneuverability of the towing line deteriorates, so in narrow places and restricted areas you have to switch to towing on a short cable 9.

 And this means the inevitable pull-ups, and then the picking of the cable 9. At the same time, the opening, closing operations of basting 3, and turning of the roller 8 are excluded. Consequently, the time required for expensive towing operations is significantly reduced. This means that fuel consumption is significantly reduced. When towing one object, it is possible to use alternately the left or the right part of the window 7 of the clus, which will allow to extend the operational period of the clus elements until the current repair.

Claims (2)

 1. A towing claw containing a stationary horizontal roll, a bale bar with a hinged basting and two vertical stationary rolls on the base of the bale bar, forming a clus window, characterized in that it is equipped with an additional vertical roller mounted on mutually intersecting vertical and horizontal axes and installed by vertical axis in the plane of symmetry of the bale bar and horizontal roll with the possibility of dividing the window of the clouse into two parts, with an additional vertical roll equipped with a counterweight mounted on the lower part of its vertical axis, a stopper and a drive to ensure rotation of the roll around its horizontal axis, and the outline of the bale bar is made up of three interconnected links with the possibility of moving each link. 2. The cluez according to claim 1, characterized in that the lateral basting links are mounted with the possibility of rotation around the axes of the vertical rolls in the horizontal plane to a maximum angle of 90 ^o , and its middle link is installed with the possibility of vertical movement around either of the two horizontal axes of the joints of the links, wherein the basting links are provided with locks.

Images