NL193204C - Cable entry device. - Google Patents

Description

1 193204

Cable entry device

The invention relates to a cable insertion device for inserting a cable into a cable tube, comprising a transport device with two conveyors with mutually parallel and mutually directed treads which together define a gap, the distance between the treads being so with the diameter of the cable to be introduced corresponds to a cable introduced between the treads being propelled by a working transport device, and in line with the transport device a pressure section provided with a cable entrance through which a cable is guided in the section, a cable outlet to be connected to a cable tube and a compressed air inlet for feeding compressed air through the pressure section into the cable conduit to propel a piston to be attached to the end of the cable and propelling the cable. A conveyor in such an apparatus is, for example, a belt conveyor, in which a conveyor belt is tensioned by rollers and the tread is formed by the part of the conveyor belt moved in the conveying direction, or a roller conveyor, in which a cable is carried along by an assembly of successive roll. The tread in a roller conveyor is defined by the interface between two consecutive rollers on the side of the rollers along which a cable is transported. At least one roller is drivable in the transport device in a cable feeder.

Such an apparatus is known from EP-A-0.292.037, which is used, for example, to introduce fiber optic cables into a protective cable tube.

When such a device is used, first a cable is led back out through the transport device and through the pressure section via the exit of that section, after which the cable end is connected to a piston fitting in the cable tube. Then the piston and the associated cable end are introduced into the cable tube, which is then connected to the outlet of the pressure section. The introduction of the cable into the cable conduit then takes place by starting the conveyor and introducing compressed air via the pressure section into the cable conduit closed by the piston. Thus, the cable is introduced as a result of the combined action of pushing by the conveyor and pulling by the air-actuated piston, under normal conditions the pulling force exerted by the piston is always greater than the pushing force exerted by the conveyor.

The known cable entry device is used for inputting one cable each consisting of relatively stiff material. An example of such a rigid cable is a fiber optic cable reinforced with a steel cable, in which bundles of glass fibers are arranged around a central reinforcing cable, held together by a cable skin.

The known cable entry device is less suitable for introducing cables of relatively flexible material, such as for instance newer types of fiber optic cable which are provided with plastic instead of steel reinforcement cables. The known input device is also not suitable for the introduction of several cables at the same time.

The object of the invention is to provide a cable entry device which is suitable for the introduction of cables of relatively flexible material. The object is furthermore to provide an device which is suitable for the introduction of more than one cable at the same time.

This object is achieved according to the invention with a cable entry device which is characterized by signaling means for signaling a difference in the transport speed of a cable at the exit of the transport device and the entrance of the pressure section.

With such a device, the occurrence of bends in a cable is signaled in a timely manner, when, for example, when a cable is introduced, for a certain reason it would bump somewhere in the cable duct or in the pressure section or when the pressure in the pressure section and the associated sections cable conduit would drop out or become too low, with the pressing force exerted by the conveyors on the cable greater than the tensile force exerted by the piston in the conduit, which could lead to damage and in any case progression of insertion into the conduit would prevent.

In an exemplary embodiment of a cable entry device with such signaling means, these comprise a channel situated between the transport device and the pressure section for guiding a cable to be transported therethrough, which channel comprises a contract element which is movable in transport device between a first free position, the element being free is of the cable and a second signaling position where the element is in contact with the cable.

Preferably, the channel has a first U-shape in cross-section and the contact element has a 55 second U-shape, the length of the legs of which is at least equal to the diameter of the cable, the U-shapes facing in opposite directions and the legs of the second U-shape are enclosed at least in part by those of the first and the contact element is provided with a stop which activates a switch in the signaling 193204 2 position. For example, the activated switch switches off the transport device and triggers an alarm if necessary.

When a cable introduced by means of such an input device gets stuck in the cable tube or in the pressure section, it will be pressed in the channel against one of the walls of the U-profile of the contact element under the influence of the pressing force 5 exerted by the transport device, on which this contact element is then carried along by the cable for some distance in the transport direction until the stop on the contact element activates the switch and the transport device is switched off. Thus, in the event of any hitches when inserting a cable, the insertion is almost immediately stopped, so that damage to the cable or the equipment can be prevented.

In a further exemplary embodiment, the cable entry of the pressure section according to the invention has such a form that at the same time at least two cables are transversely fixed transversely and freely movable in the longitudinal direction, and the width of the treads with the sum of the diameters of the cables to be entered correspond.

By fixing the cables to be fed in at the entrance of the pressure section in the transverse direction and by supplying the cables with a transport device with sufficiently wide conveyors, each cable being pressed by the two running surfaces of the transport device, the cables are achieved cannot swing in the relatively short distance between the pressure section and the transport device, which prevents stuttering in the supply and the risk of damage to the cables.

In an exemplary embodiment of a cable entry device according to the invention, the cable entry 20 of the pressure section comprises at least two parallel bores in line with the gap formed by the running surfaces of the conveyors. For example, these bores are spatially separated from each other, which in fact is a three-hole entrance, or may be so close to each other that the bores touch or even merge, effectively creating one entry opening is profiled such that the cables introduced thereby are circumferentially enclosed therein.

In such an apparatus it is possible to insert the cables between the conveyors in such a way that a cable extends from the conveyor in a straight line in the direction of the respective bore in the pressure section, which is important for a continuous progress of entering.

The reliability and ease of operation of the device are further enhanced when it is characterized by conductors extending in transport direction in the slit formed by the running surfaces for positioning a cable to be carried by the transporting device in transverse direction in transverse direction. The shape and position of the conductors in the longitudinal direction are determined, inter alia, by the dimensions and number of the cables to be introduced.

In an apparatus of which the pressure section is provided with three bores 35 arranged in a plane next to each other for the simultaneous insertion of three cables, the conductors consist, for example, of two strips arranged on either side of the slit at a mutual distance slightly greater than the sum of the diameters of the three cables. When such an apparatus is used for the introduction of only two cables, the transport device is provided, for example, in the center of the gap between the two treads with a third conductor, which in cross-section has the shape of a square with a side 40, for example, slightly smaller. is the diameter of a cable. In such a transport device, the cables to be transported are pressed in a cross-section on two sides by the running surfaces of the conveyors and bounded on two other sides by the guides.

In an exemplary embodiment, the channel comprises a window, so that the course of the input process at a location between the transport device and the printing section can also be followed visually.

The possibilities for monitoring the input process are further expanded when the cable input device according to the invention comprises a pressure gauge connected to the pressure section.

The pressure on a piston inserted into the cable tube is equal to the pressure in the pressure section, less the pressure drop across the portion of the cable tube between the piston and the pressure section. When a cable tube with a sufficiently wide cross-section is used, this pressure drop will be relatively small, so that the pressure in the pressure section is a good measure of the pressure on the piston and thus of the tensile force exerted on the cable connected to that piston. A pressure gauge connected to the pressure section therefore provides the. possibility to detect changes in the tensile force occurring in the inserted cable.

The ease of operation is further increased in an exemplary embodiment, which is characterized by a measuring device for measuring the length of cable introduced into the cable conduit. The latter embodiment is particularly advantageous in situations where cable introduced into a cable tube would irrevocably bump. By reading the entered length on the measuring device in such a situation, if one knows the course of the cable conduit, the location of the beginning of the introduced cable can be

Claims (9)

1. Cable entry device for inserting a cable into a cable conduit, comprising a transport device with two conveyors with mutually parallel and mutually facing treads defining a gap together, the distance between the treads being the diameter of the cable to be fed agrees that a cable introduced between the treads is propelled by a working transport device, and in line with the transport device a pressure section provided with a cable inlet through which a cable is guided in the section, a cable outlet to be connected to a cable tube and a compressed air inlet for compressed air through the pressure section into the cable tube in order to propel a piston to be attached to the end of the cable, to carry along the cable, characterized by signaling means for detecting a difference in the transport speed of a cable at the exit of the transport device and the entrance of signal the pressure section. Cable entry device according to claim 1, characterized in that the signaling means comprise a channel located between the transport device and the pressure section for guiding a cable to be transported therethrough, which channel comprises a contact element which is movable in transport direction between a first free position wherein the element is free from the cable and a second signaling position where the element is in contact with the cable. Cable entry device according to claim 2, characterized in that the channel has a first U-shape in cross-section and the contact element has a second U-shape, the length of the legs of which is slightly greater than the diameter of the cable, and wherein the U-shapes are oriented in opposite directions and the legs of the second U-shape are enclosed at least partly by those of the first and the contact element is provided with a stop which activates a switch in the signaling position. 3 193204 locate the conduit. The invention will be further elucidated hereinbelow on the basis of exemplary embodiments with reference to the drawing. Cable entry device according to claim 2 or 3, characterized in that the channel comprises a window. Cable entry device according to any one of the preceding claims, characterized in that the cable entry of the pressure section has such a form that at the same time at least two cables are transversely fixed in the transverse direction and freely displaceable in the longitudinal direction, and the width of the treads correspond to the sum of the diameters of the cables to be entered. In the drawing: figure 1 shows a perspective view of a part of a cable entry device according to the invention, with a first conveyor 1 driven by a drive roller 2. Not shown is a second conveyor above and parallel to the tread 9 of the first conveyor belt 1. The input device further comprises a divisible pressure section, the lower part 3 of which is shown with 10 bores 4 through which cables (in this case a maximum of three) can be fed into the pressure section, a cable outlet 5 in which a cable tube can be laid and a compressed air inlet 7 for the supply of compressed air. The leakage of compressed air through the cable outlet 5 can be prevented by sliding an O-ring around the cable tube, which falls into O-ring groove 6 of the cable outlet 5. Dowel pins 8 in the lower part of the pressure section 3, which correspond to holes in the upper part of the pressure section (not shown), facilitate combining the two halves of the pressure section. By means of guides 10 above the running surface 9 of the first conveyor belt 1 at a mutual distance slightly greater than the sum of the diameters of the cables to be fed in, the cables are bounded in transverse direction, so that the cables lie close enough to one another without contact with the side walls to pass the U-shaped channel 11. In the channel 11 a U-shaped contact element 12 is also included. If, for any reason, during the introduction of the cables, the pushing force exerted by the transport device on one or more cables would become greater than the tensile force exerted by the piston connected to the cables (not shown), the cables in question will channel 11 bends are formed, so that the cables make contact with the walls of the contact element 12, on which the contact element 12 is carried in the transport direction until it buttes against cover 13, at which moment stop 15 activates a switch 14. With the switch 14, for example, the drive of drive roller 2 is switched off and an alarm signal is switched on. The introduction of the cables can be followed visually through a transparent cover 16 at the end of the channel 11. 30 Conclusions Cable entry device according to claim 5, characterized in that the cable entry comprises at least two 193204 4 parallel bores in line with the gap defined by the conveyors' running surfaces. Cable entry device according to claim 5 or 6, characterized by conductors extending in the direction of transport in the gap defined by the running surfaces for positioning a cable to be carried by the transporting device in transverse direction between said running surfaces. Cable entry device according to one of the preceding claims, characterized in that it comprises a pressure gauge connected to the pressure section. Cable entry device according to any one of the preceding claims, characterized by a measuring device for measuring the length of cable introduced into the cable tube. Hereby 1 sheet drawing