NL1013355C2 - Reel for winding up wire or cable, especially glass fibre cable, has winding arm axle moved in axial direction during wind up - Google Patents

Abstract

During wind-up, the axle joined to the winding arm is moved in an axial direction. The reel comprises a fixed core and a drum section made from round tubing, which are mounted in a frame. A winding arm is used to rotate the reel in order to wind-up cable on either the left or right side. The drum is capable of winding up 4-10 km length of cable.

Description

Device for winding (fiber optic) cable.

The invention relates to a device for winding cables or wires in which the reel consisting of a solid core and a drum section made of round tube which is fixedly mounted on a frame. The whole can be placed on a mobile frame for transport. A wrapping arm that is put in rotating direction, both clockwise and counterclockwise, winds the cable around the reel. In order to obtain a so-called "neat" rinsing of the cable, the shaft, which is connected to the winding arm, is moved in axial direction during the winding. The reel drum can, depending on the thickness of the cable, 4 to Include cable length of 10 kilometers. Due to this manner of winding, winding can be started at any desired location along the length of the cable and the end of the cable can always be used immediately for further transport.

Such a winding method is already known in the form of the casting reel which is used in fishing. The same system is also used to shorten telephone cables in the home. However, this finding makes it possible to also wind cables of larger dimensions, starting from any point on this cable, on a reel.

The object of the invention is to make superfluous so-called superfluous during the laying of (fiber optic) cables. Inserting (fiber optic) cables into the ground preferably takes place in the largest possible lengths. The only limitation to this is the device that pushes the cables 25 into the ground. It is currently possible to insert a maximum of one kilometer of cable into the ground. If one wants to bring a total of seven kilometers of cable into the ground, an extra six kilometers will have to be carried through. When one is at the end of one kilometer, the cable comes out of the ground again and will have to be temporarily stored and then the next 30 kilometers, of the remaining six, will be brought into the ground. The problem here is that when winding on a normal reel, the end of the cable is in the middle and thus cannot be transported further. With the current method, the cable is therefore unreeled from the reel and laid on the ground in large 8-shaped loops, the so-called 'eight'. When the aforementioned six kilometers of cable lie in its entirety on the ground, the end of the cable has been reached and the cable is ready for further tram sport into the ground. The device for winding cables is aimed at precisely fulfilling the task of to take over the service 101 3355 2 in such a way that, firstly, it can be cleaner (sand-free), secondly faster and thirdly space-saving compared to the previously mentioned manual mode.

The invention will be explained in more detail below with reference to an illustrative embodiment of the construction and operation according to the invention, shown in the figures.

Fig. 1 shows a schematic oblique rear view of the device according to the invention, showing only the essence and the details not coming out.

Fig. 2 shows the mechanism necessary to impart the required movements to the device according to the invention.

Fig. 3 shows a side view of the device with the working method indicated by the invention.

The device consists of a reel shown in fig. 1, which is built up from a drum (1) and two cheeks (2) constructed from tubular profile. In these cheeks (2) there are two pieces of lockable openings (3) at the front, which are intended to lay the (glass fiber) cable (10) directly on the drum (1) without this cable being able to get in the way for the winding mechanism. Drum (1) and cheeks (2) with openings (3) are rigidly connected to the underlying beam construction (4). The reel has a hole on both sides in the middle with a slide bearing (5). These bearings support the drive shaft (6). Perpendicular to the drive shaft (6) is the winding arm (7) on which one side a sliding counterweight (8) is placed and on the other side a fork (9) with the guide wheel (10) therein. for the cable (11). Also on the wheel side of the wrapping arm (7) there is an opening guide block (12) for the cable.

The device also consists of a transmission mechanism shown in Fig. 2. In addition to the transmission of the rotary movement of the wrapping arm, this mechanism also ensures the axial movement of this arm. This axial movement must be adjustable according to the thickness of the cable, as the number of passages that fit on the reel the thinner the cable. The rotary movement is initiated by means of the hand-driven crank which is rigidly connected to a hollow shaft (13). There is also a gear wheel on this hollow shaft (13) on which a motor drive can be placed. At the end of the hollow shaft (13) is the coil (14) which consists of two discs with kokex profiles in between. The coil (14) is connected to the rigidly arranged reel (len2) by means of a double bearing (15).

101 3355 3

Through this bearing runs again a hollow shaft on which there is a gear (16), which is rigidly connected to the reel. This gear (16) is connected by means of a chain transmission to a gear (17) on a short shaft (18) is equipped with a movable double gear (20), which can be aligned with one of the seven plastic gears (19), which are different in size, by moving along the short axis (18). this second short shaft (20) has a sprocket (21) which is connected by means of a chain transmission to the same sprocket (22) which is located on a shaft (23) on which wire 10 is placed in two directions and over which a bush ( 24), with a guide, moving comb. Such a system is already known under the name "walking nut". At both ends of the shaft, the left and right wires are connected to each other, causing conductor in the sleeve (24) to switch from one wire to the other and thus, without changing the direction of rotation, 15 in opposite aixial direction. The advantage of this is that the axial movement remains linear at all times and changes directly from a forward to a backward direction. Since this movement is transmitted directly, by means of a rigid connection of the sleeve (24) to the drive shaft (4), by means of a clamping sleeve (25), this drive shaft (4) is both axially moved and rotated. In this way, the transmissions of the plastic gears to the movable double gear have become decisive for the ratio of the number of rotations per axial axis movement. The hollow shaft which provides the drive for the whole is itself supported by bearings (26) on a second beam construction (27) which is integral with the construction under the reel. The reason for this shaft being hollow is the fact that the driving shaft (6), which moves in axial direction, moves through this shaft.

The device method shown in Figure 3 is as follows: The cable emerges from the ground and is wound on a "normal" reel.

When the desired length is on this reel, the cable is placed by means of the opening in the cheek asm the drum on the reel of the device and brought over the guide wheel, the guide block to be opened and a centering point to be opened. Thereafter the core winding on the device begins by hand or motor drive. If the total length (fiber optic) cable is wound on the reel, the end of the cable is available to be put back into the ground. At the end of the unwinding, the cable can be removed from the device via all openable points.

1013355

Claims (2)

1. The device for winding long lengths (glass fiber) cable or wire, wherein the reel, which consists of a solid core and a drum part made of round tube, is fixedly mounted on a frame. The reel can be filled, either clockwise or counterclockwise, by means of a wrapping arm which is set in rotating direction. In order to obtain a so-called "neat" spool of the cable, the shaft, which is connected to the winding arm, is moved in axial direction during the winding. Due to this way of winding, winding can be started at any desired location along the length of the cable and the end of the cable can always be used immediately for further transport. 2. The device for winding (fiber optic) cables is aimed at taking over the task of retention (or a comparable method) in such a way that it is firstly cleaner (sand-free), secondly faster and thirdly space-saving can be done compared to the previously mentioned manual mode. 1013355