A DEVICEFOR REDUCING THETIMEFOR MEASURINGON A CABLE

TECHNICAL FIELD The present invention relates to measuring on cable in connection with cable laying. The invention especially relates to laying of submarine cables . The invention especially relates to fibre optical cables but is also applicable to electrical cables. The invention further relates to a device for utilization at cable pulling where strong forces are involved.

PRIOR ART At laying of cables there is required that certificate regarding the quality of the cable is issued. This is made by that the end of the cable that is located and "moored" on land is opened and the ends of the fibres/wires are connected to measuring instrument. After the connection current measurements are performed and the quality of the cable is determined, whereupon a guaranteed electrical quality of the cable can be promised. The measurements are performed. To perform cable pullings it is previously known to fasten different types of hauling ropes to the cables before the pulling is started. It is further known to connect so called single-ended cable grips to the end of the cable and fasten the hauling rope to this. The single- ended cable grip is at that designed in such a way that it at pulling tightens round the sheath of the cable. An acceptable hold is at that achieved as long as the quality of strength of the single-ended cable grips is not exceeded. At pulling of cables in harder environments such as laying of submarine cables, the strains can be considerable due to currents and other circumstances .

DESCRIPTION OF THE INVENTION

TECHNICAL PROBLEM

At laying of submarine cables there is a need for measuring the cable at the "hand over"-point on land. The technology which is utilized implies that measuring instrument is connected to the cable when one of its ends has been "moored" on land. The procedure is time-consuming and expensive since the cable ship with crew is principally inactive during the measuring. At laying of submarine cable, steps shall further be taken to prevent water from coming into the cable, which reduces or spoils the cable ^' s fit for use. At pulling of cable it is further necessary that a hauling rope can be fastened to the cable. For this purpose there are different arrangements, for instance single-ended cable grips, which can be thread on to the end of the cable. These single-ended cable grips, however, are intended for pulling of cable in ducts on land where there is no problems with the humidity. At laying of cables in sea/lakes and waterlogged areas the tensile strain are in certain cases considerable. One cannot take for granted that it is possible to utilize single-ended cable grips on these occasions .

THE SOLUTION

The present invention relates to a device which can be used at for instance laying of submarine cable from cable ships. The device includes a splicing section towards the cable, and a section for connection of measuring device. In the splicing section the fibres/wires of the cable are connected. The fibres/wires are further connected to the measurement section, in which a contact unit for connections is arranged. At the "place of delivery" the measurement connection section is opened, at which measuring instrument can be connected and the quality of the cable can be determined.

The invention relates to a device at cable, which cable includes a number of fibres/wires. The cable is mounted in one in the device arranged splicing device. The fibres/wires are further connected in the splicing device. A connection device for measuring equipment is connected to the splicing device. The fibres/wires are connected to the splicing device.

The invention consequently relates to a device for reduction of measuring time at "delivery" of the cable at its end point. For this purpose the fibres/wires of the cable are connected to the device. The connection is made pre-asse bled. To the device a measuring equipment further can be connected. By the measuring equipment after that the measuring of the fibres/wires is made, at which a time is saved corresponding to the arranging of the cable and connection of the fibres/wires to the measuring device.

The device further is constructed in a tight design which resists liquids and/or gases. It further resists compressive stress. The device consequently makes it possible to lower down the end of the cable into waterlogged areas without the cable being effected. In the device fastening devices are further arranged, to which hauling rope, wire or the like can be connected. By means of the hauling rope the cable after that can be pulled in different environments such as sea/lakes, swamps, ducts etc.

The device further can be opened for access to connection device for the measuring equipment. The measuring devices can be of different kinds, for instance contact units which have been adapted to the characteristics of the fibres/wires.

When the device has ful illed its purpose, it is removed from the ca le, to be reused on another occasion. The connection of the device is allowed to be made on one hand at the manufacturing of the cable, and on the other

during transport to the place of the cable laying. The tranport can for instance relate to a trip with cable laying ship to a point where laying of the cable shall start, or during laying of cable to the end which is left on the ship.

The fibres/wires of the cable can be optical or electrical and principally intended for transmission of information. The device includes a splicing box to which the fibres/wires of the cable are connected and in which the tightening devices for the holding of the cable have been arranged. A measurement connection device is further arranged in the device in line with the splicing box. The measurement connection device includes a connection contact unit for connection of the measuring equipment. The fastening device and the device are further arranged to allow tensile strains of at least 10 000s of kp. With present cables and conditions at sea are in many cases required that both cable and pulling devices shall carry strains of at least 40 000 kp. The device is utilized at laying of cables from ships . Further, the arrangement shall allow that the end of the cable in its entirety is lowered down into water at pulling to land. The device further can be used at pulling in waterlogged areas or under other special conditions where special demands are required.

ADVANTAGES

The present invention allows that connection of measurement connections can be made to a cable before the cable is laid. At laying of submarine cable, consequently connection of the measuring equipment to the cable can be prepared while on the way at sea on the cable ship, or at utilization of other transport means, alternatively at manufacturing of the cable. The construction further allows enclosure of the end of the cable to which the measuring euqip ent shall be connected. By the device being made in a

tight construction the cable can be allowed to be lowered down into water during the pulling of the cable. The incorporation of a hold for hauling rope, wire or the like, further allows that the device can be used for pulling of said cable to the delivery point on land. The encapsulation consequently is waterproof and so the cable can be lowered down into the sea from the ship and after that by means of a rope, wire or the like be pulled ashore. The effective time the ship can be utilized for laying of cable is increased as well because the measuring time is reduced corresponding to the time the connection of the measurement connection requires. The invention also can be used in connection with other laying of cables, for instance in ducts where the pre-assembling of the measurement connection can be time-saving. The construction of the device further allows that hauling rope, or corresponding, easily can be fastened to the device for pulling of cable in different connections. The construction further has the advantage that the connection of the fibres in the cable to the connection device for the measuring equipment can be made in an environment which is "operation-friendly", and not under uncontrolled environmental conditions . This guarantees that the measuring results will be correct. The invention consequently gives a reduced time at the measuring of the cable, and the time for transport of the cable to the end of the laying of the cable can be effectively utilized.

DESCRIPTION OF FIGURES

Figure 1 shows the embodiment of the invention in a submarine embodiment.

DETAILED EMBODIMENT In the following the invention is described on the basis of the figures and the terms in them. The present invention

relates to a device which is fastened to one of the ends of a cable. The fibres/wires in the cable are connected in the device. Further, the sheath of the cable is braced to the device by a tightening procedure. The connection of the device to the cable is made under controlled environmental conditions, for instance at a factory, during transport to the place of laying, or the like. The device is made in a tight design at which the cable is allowed to be lowered down into water without further measures needed to be taken. The device further can be opened, at which connections or measuring equipment are accessible. Measuring of the cable after that can be made. The invention relates to a device which can be used at for instance laying of submarine cable from cable ship. The device includes a splicing section towards the cable, and a measurement connection section. In the splicing section the fibres/wires of the cable are connected. The fibres/wires are further connected to the measurement section in which a connection contact unit is arranged. At the place of delivery the measurement connection section is opened, at which measurement instrument can be connected and the quality of the cable can be determined.

The invention relates to a device at cable, which cable includes a number of fibres/wires . The cable is mounted in one in the device arranged splicing device. The fibres/wires are further connected in the splicing device. A connection device for measuring equipment is connected to the splicing device. The fibres/wires are connected to the splicing device. A cable, K, shall be laid in sea/lake from ship, in ducts, trough rough terrain, for instance marshy areas. In connection with transport of the cable, in connection with the fetching of cable from stock, at the maufacturing of the cable etc, a device, 1, is mounted to at least one of the ends of the cable. The device includes a fastening device, 2, which for instance is designed as a loop. To the

fastening device a rope, wire, cable etc is connected. The rope, wire, cable etc is brought to the place where the cable, K, shall have one of its end points. At laying in sea/lake or waterlogged areas, the end of the cable is allowed to be under the surface of the water. This because the device, 1, is waterproof and that the fastening of the cable to the device is "liquidproof". At the bringing ashore of the cable, K, from ship, the cable is lowered down into the water and the rope, wire, cable etc is brought ashore with a smaller landing boat, for instance a dingy belonging to the ship. The cable after that is pulled to intended place by means of "muscle power", winches of different kinds etc. Because the cable, Kl, may be subject to strong forces, for instance currents, big depths etc, all parts of the system must endure forces amounting to at least 40 000 kp. Strong forces also shall be possible to be carried by the system at pulling of the cable through rough terrain, type marshes. In these cases the cable is normally not subject to any forces from streaming water, but earth layers through which the cable is pulled excert a "sucking" force which effects the pulling of the cable. In this latter case, means of assistance may be required to be arranged along the path of the cable pulling to secure that the cable pulling will succeed, and that the cable will not be damaged. The means of assistance on one hand can be arranged to prevent the cable from sinking down into the mud, and on the other be intended to give pulling aid to the cable. When the cable end has reached its final destination the device, 1, is opened by an opening device, L, at which connection device, I, for measuring device, M, is exposed. The connection devices, which consist of connection strip, contact unit or the like, are connected to the measuring device, after which the different fibres/wires of the cable are measured. The measurings are entered in books and constitute a confirmation of the quality of the cable. The

device after that is removed from the cable by the latter being cut with, for instance, a sawing device. The removal of the device, 1, can be made immediately, or on a later occasion, for instance in connection with splicing with a cable rom the opposite direction. No matter when the device is removed from the cable, the rests of the cable are removed from the device either during transport to next laying place for new cable, or at central place. The device after that can be used again for mounting on new cable. By the suggested invention possibility is given to connect the device, 1, under controlled conditions. This will increase the probability that the cable is handed over in best condition, at the same time as the work with the measuring of the quality of the cable is reduced to a minimum. In connection with laying of submarine cable it is necessary that the cable laying ship does not wait for the performance of the measuring, but has the possibility to head towards next mission while the measurings are completed. When the measurings have been completed, the measuring staff can by fast boat go to the ship, at which expensive time can be saved.

The device, 1, is arranged with fastening device, Kl, which tightens round the sheathing and/or the reinforcement of the cable sheathing. For the fastening the cable core is separated from the sheathing parts. The fastening device, Kl, can be designed in different ways, at which one is that the sheathing is laid over a back, over which two against each other conical rings are tigthened. The rings are fastened against each other with bolting or the like. The fibres/wires of the cable, 3, are connected in usual way to connection fibres/wires, 4, in the device. The fibres/wires, 3, are led via a hollow in the part of the device where the main part of the connection fibres/wires have been placed. The connection fibres/wires are arranged in loop to make it easy to take out in connection with the splicing work. The other ends of the connection

fibres/wires are connected to connection block or the like.

Over this part of the device there is an opening device arranged, which is opened in connection with the measuring of the cable. In the front end of the device there is also the fastening device arranged. This consists, for instance, of a loop to which hauling rope or the like can be fastened in connection with the pulling of the end of the cable to its destination.

The invention is not restricted to the above described embodiment but may be subject to modifications within the frame of the underlying patent claims and idea of invention.