Device for applying marking tubes onto a cable

The invention claimed is: 1. A device for applying marking tubes onto cables, the device comprising: the marking tubes ( 2 , 2 a ), a marking zone ( 100 ) where a cable to be marked can be received and where a number of marking tubes ( 2 ) to be applied onto the cable to be marked can be released onto the cable to be marked, a driving mechanism for driving forward the cable to be marked along a driving axis ( 300 ), the device comprising: at least one buffer pipe ( 42 ) which can be arranged in a producing position in the marking zone where the at least one buffer pipe is aligned with the driving axis ( 300 ), the at least one buffer pipe having an inner diameter larger than the diameter of the cable ( 3 ) to be marked, whereby the cable to be marked ( 3 ) can run forward along the driving axis through the at least one buffer pipe ( 42 ) in the producing position, the at least one buffer pipe having an outer diameter less than the inner diameter of the marking tubes ( 2 ) to be applied, whereby the marking tubes to be applied can be threaded onto the at least one buffer pipe; and a pushing unit ( 6 ) configured for engaging and pushing forward along the driving axis at least one first marking tube ( 2 a ) of the marking tubes to be applied threaded on the at least one buffer pipe ( 42 ) until the first marking tube ( 2 a ) exits the buffer pipe and surrounds the cable to be marked ( 3 ), and then releasing the first marking tube ( 2 a ) onto the cable to be marked ( 3 ); wherein the marking tubes have a minimum length in an axial direction long enough for the marking tubes to wear a printed identification text, and wherein the at least one buffer pipe ( 42 ) has a length at least equal to the total length of the number of marking tubes to be applied on the at least one buffer pipe, whereby the at least one buffer pipe in the producing position can be loaded with the number of marking tubes ( 2 a - 2 g ); and further comprising: a preparing zone ( 200 ), apart from the marking zone ( 100 ), including: a preparing position for the buffer pipe where the buffer pipe is aligned with a preparing axis ( 400 ); a gripping unit ( 5 ) for loading a second buffer pipe ( 41 ) of the at least one buffer pipe in the preparing position with the marking tubes ( 2 ), the gripping unit being configured for picking up the marking tubes from a marking tube delivering slot ( 910 ), moving along the preparing axis until the picked up marking tubes totally engage the second buffer pipe placed in the preparing position, and then releasing the picked up marking tubes onto the second buffer pipe; and a shifting mechanism ( 4 , 304 ) for shifting the at least one buffer pipe between the producing position and the preparing position. 2. The device according to claim 1 , wherein the gripping unit ( 5 ) in the preparing zone ( 200 ) comprises a first opening head ( 51 ) with suction pads ( 52 ) and a second opening head ( 53 ) with squeezing jaws ( 54 ), the first and the second opening head being arranged on a tilting common mounting ( 55 ), the mounting being tilted to use alternatively the first or the second opening head. 3. The device according to claim 1 , wherein the preparing zone includes a printer ( 91 ) arranged upstream of the delivering slot ( 910 ). 4. The device according to claim 1 , wherein the marking tubes have various types differing in diameter and/or length and/or packaging, wherein the preparing zone comprises several delivering slots including said delivery slot, namely one said delivering slot for each type of the marking tubes, the gripping unit being configured to be translated between the preparing position and each of the delivering slots. 5. The device according to claim 4 , wherein the preparing zone includes several printers ( 91 - 93 ), each said delivering slot being fed by one of the several printers. 6. Method for applying marking tubes to cables, wherein the method uses a device according to claim 1 and wherein: said at least one buffer pipe ( 42 ) previously loaded with the marking tubes ( 2 ) needed is placed in the producing position; the cable ( 3 ) to be marked is pushed forward along the driving axis ( 300 ) through the at least one buffer pipe in the producing position ( 42 ); when a target point (P 1 ) on the cable to be marked reaches an exit end of the at least one buffer pipe ( 42 ), the first marking tube ( 2 a ) on the at least one buffer pipe is pushed forward along the driving axis ( 300 ) until the first marking tube ( 2 a ) exits the at least one buffer pipe and is released onto the cable to be marked; and the cable to be marked ( 3 ) is kept on running forward along the driving axis ( 300 ) and when a next target point on the cable reaches the exit end of the at least one buffer pipe, a new first marking tube ( 2 b ) on the at least one buffer pipe is pushed forward along the driving axis until the new first marking tube ( 2 b ) exits the at least one buffer pipe and is released onto the cable to be marked, and the method is repeated until all the marking tubes ( 2 a - 2 g ) initially loaded on the at least one buffer pipe ( 42 ) are thus applied onto the cable to be marked ( 3 ). 7. The device according to claim 1 , wherein the shifting mechanism comprises a carousel bearing the at least one buffer pipe. 8. The device according to claim 1 , further comprising a plurality of buffer pipes ( 41 - 44 ; 341 - 352 ) which include the at least one buffer pipe and the second buffer pipe and wherein the shifting mechanism is configured for positioning the buffer pipes in the preparing position and in the producing position. 9. The device according to claim 8 , wherein the plurality of buffer pipes comprises different outer diameters for receiving marking tubes with various diameters. 10. The device according to claim 9 , wherein the shifting mechanism comprises a carousel bearing the at least one buffer pipe. 11. The device according to claim 8 , wherein the plurality of buffer pipes comprises at least one long buffer pipe ( 41 ; 341 ) and at least one short buffer pipe ( 43 ; 343 ) having same outer diameters but different lengths for receiving different numbers of the marking tubes ( 2 ) comprising same diameters and/or for producing cables of various lengths. 12. The device according to claim 11 , to be used with the marking tubes having a first length, wherein the pushing unit ( 6 ) includes a first set of parallel and coplanar blades ( 6 a - 6 g ) extending on a first side of a shaft parallel to the driving axis ( 300 ), the blades being equally spaced apart from one another along the shaft with a first interval corresponding to the first length of the marking tubes ( 2 a - 2 g ), the shaft being rotated and translated such that the blades ( 6 a - 6 g ) are moved along the driving axis in a pilgrim step movement. 13. The device according to claim 9 , wherein the pushing unit includes a second set of parallel and coplanar blades ( 61 a - 61 c ) also borne by the shaft which bears the first set of blades but extending on a second side of the shaft, the second set of blades being also equally spaced apart from one another along the shaft with the first interval, the first set of blades having a number of blades corresponding to the number of marking tubes that can be threaded onto the longest of the buffer pipes ( 41 , 42 ) and the second set of blades having a number of blades corresponding to the number of marking tubes that can be threaded onto the shortest buffer pipe ( 43 , 44 ). 14. The device according to claim 12 , suitable for handling the marking tubes having