GB2215903A - Electrical cable manufacture - Google Patents

Abstract

A polyol-water mixture is applied over the polymeric insulation of the or each conductor core of an electrical cable prior to extruding the polymeric sheath of the cable thereover such that the polymeric sheath is prevented from adhering to the polymeric insulation. The polyol may be glycerol on polythylene or polypropylene glycol. Preferred ratios of polyol: water are specified, self-regulating spraying apparatus are disclosed (Figures 1 & 2).

Description

ELECTRICAL CABLE MANUFACTURE This invention relates to electrical cable manufacture, and more particularly is concerned with a method of manufacturing an electrical cable comprising a polymeric sheath extruded over at least ore conductor core provided with polymeric insulation.

When a polymeric sheath is extruded over a conductor core provided wjthj polymeric nisuationt?' material of the sheath is prone to adhere to the material of the insulation, thus making consequent stripping of the sheath from the insulation difficult.

Examples of electrical cables comprising a polymeric sheath extruded over conductor cores provided with polymeric insulation include flat twin core cable utilised in house wiring and appliance leads which may comprise two or three cores.

As will be appreciated, it is desirable for the sheath to be readily strippable from the insulated cores without damaging the insulation in order for connections to be made. Conventionally, the insulated cores have been dusted with talc or chalk prior to the extruded sheath being applied over them in order to prevent the sheath adhering to the insulation.

However, the use'of talc or chalk in this manner gives rise to dust and health hazards. Furthermore, typically the talc or chalk is applied to the insulation by the insulated cores being passed through a bed of the talc or chalk and this has been found to be unreliable since furrowing may occur in the bed so that the whole of the outer periphery of the insulated core does not become covered with the talc or chalk, and blockages in the supply of chalk or talc to the bed also occur. Furthermore, the abovementioned known operation is not susceptible to use at high throughput speeds, nor is it adaptable for automation.

According to the present invention there is provided a method of manufacturing an electrical cable comprising a polymeric sheath extruded over at least one conductor core provided with polymeric insulation, said method including applying a polyol-water mixture over the polymeric insulation of the or each conductor core prior to extruding the polymeric sheath thereover such that the polymeric sheath is prevented from adhering to the polymeric insulation.

The invention includes an electrical cable comprising a polymeric sheath extruded over at least one conductor core provided with polymeric material when made by a method as defined in the last preceding paragraph.

The invention also includes apparatus for use in a method as defined in the last but one preceding paragraph and comprising at least one spray unit, the or each spray unit having a through-passage fe t least one conductor covered with polymeric insulaticn and provided with spray means arranged for spraying a polyol-water mixture onto the polymeric insulation cf the or each conductor during its passage through tle spray unit.

Thus, in the preferred method;-the'. po.iy1- jt r mixture is sprayed onto the polymeric insulation.

The mixture may comprise from two to six, or preferably three to five parts polyol to one part water by volume. In a preferred embodiment the mixture comprises substantially four parts polyol to one part water by volume.

The method may include utilising compressed air to atomise the mixture being sprayed onto the polymeric insulation.

The method may comprise supplying water and polyol from separate supplies thereof to a container, supplying the resulting mixture from said container to at least one spray unit for spraying the mixture onto the polymeric insulation of at least one conductor core, monitoring the supply of mixture from the container to provide an indication of the volume ratio of polyol to water thereof, and adjusting at least one of the supplies of polyol and water to the container to maintain said indication within two predetermined limits.

The viscosity or the density of the supply of mixture from the container may be monitored to provide the above-mentioned indication.

The method preferably includes collecting the residual sprayed mixture at the or each spray unit and returning this collected residual sprayed mixture to the container.

The polyol used in the method may comprise glycerol, polyethylene glycol, or polypropylene glycol.

The spray means of the or each spray unit of the apparatus may comprise at least two spray nozzles directed towards the through-passage thereof for spraying said mixture over the entire outer surface of the insulation of the or each conductor as it passes through said through-passage. Each of said spray nozzles may have an inlet for said mixture and an inlet for compressed air and is arranged to produce an atomised spray of said mixture.

The apparatus advantageously comprises a container for containing a quantity of said mixture, separate means for supplying said container with water and polyol, means for supplying the mixture of water and polyol from the container to the or each spray unit, means for monitoring the supply of mixture frcm the container to provide a signal indicative of tle volume ratio of polyol to water thereof, and means responsive to said signal for adjusting at least ozie of said supplies of polyol and water to the container to maintain said volume ratio within predetermind limits The monitoring means- maw comprise means responsive to the viscosity or the density of te mixture.

Furthermore, the or each spray unit of the apparatus advantageously comprises means for collecting residual sprayed mixture, and the apparatus further comprises means for returning the residual sprayed mixture collected in the collecting means to the container.

In order that the invention may be well understood, two embodiments thereof, which are given by way of example only, will now be described with reference to the accompanying drawings, in which: Figure 1 is a schematic illustration of apparatus for spraying a polyol-water mixture over the polymeric insulation of at least one conductor core; and Figure 2 is a schematic illustration of similar apparatus for spraying a polyol-water mixture over the polymeric insulation of at least three conductor cores.

Referring first to Figure 1, the apparatus illustrated comprises a spray unit 10 having a through-passage 12 for at least one conductor covered with polymeric insulation. The through-passage extends normally to the plane of Figure 1 and the spray unit is provided with spray means arranged for spraying a polyol-water mixture onto the polymeric insulation of the or each conductor during its passage through the spray unit. As illustrated, the spray means comprise two spray nozzles 14 directed towards the through-passage for spraying the mixture over the entire outer surface of the insulation of the or each conductor as it passes through the through-passage 12. It will however be appreciated that more than two such spray nozzles may be provided.

Each spray nozzle has an inlet 16 for the mixture of polyol-water and an inlet 18 for compressed air and is arranged to produce an atomised spray of the mixture.

The apparatus includes a container 20 for containing a quantity of the polyol-water mixture. A conduit 22 connects the container 20 via a control valve 24 and monitoring unit 26 to a pump 28 of the spray unit. The pump 28 is pneumatically operated and connected to a compressed air supply by conduits 30 and 32 The conduit 30 also supplies compressed air to further conduits 34 and 36 which are connected to each spray nozzle 14, the conduit 34 being connected to the compressed air inlet 18 and the conduit 36 being connected to an inlet 38 of a pneumatically operated valve arrangement of each nozzle.In th conduit 30 upstream of the conduits 32, 34 and 35 there sss provided in line a pressure limiting switch 40, a solenoid operated valve A2 and filter 44. ~ThE pressure limiting switch is set to limit the air pressure to a predetermined value, for example 80 psi.

A spray control valve 46 is provided in the conduit 34 to enable the amount of air being supplied to each nozzle to be controlled. For example this spray control valve may have four operating conditions and is switchable between those conditions to provide four different spray patterns from the nozzle 12.

A conduit 48 is connected to the outlet 50 of the pump 28 and via two branches 52 and 54 to the respective mixture inlets 16 of the two nozzles. Each branch 52 and 54 includes a filter 56 and a flow sensor 58.

The spray unit 10 also includes a collection tank 60 disposed in the unit to collect residual sprayed mixture, i.e. mixture which has been sprayed by the nozzles but does not leave the spray unit on the polymeric insulation. This residual mixture is redirected via conduit 62, filter 64 and pump 66 to the mixture container 20. The collection tank 60 is provided with respective low and high level limit switches 68 and 70. These limit switches control operation of the pump 66 and can also be utilised to provide alarm signals. Thus, a signal from the low level limit switch 68 can be arranged to provide an alarm indicating that the quantity of mixture in the apparatus has fallen below a predetermined level and that further mixture has to be added to the collection tank.An alarm signal from the high level limit can be used to indicate that the amount of further mixture added has brought the quantity in the system to a predetermined maximum amount.

In order to operate the above described apparatus, the solenoid valve 42 is actuated to supply compressed air to the pump 28 to drive the same, to the pneumatically controlled valve of each nozzle 12 to actuate those nozzles and to the air inlets 18 of the nozzles. The pump 28 pumps mixture from the container 20 to the two nozzles 14 where the mixture is atomised by the compressed air and sprayed onto the insulation of a conductor core passing through the through-passage 12 of the spray unit. Residual sprayed mixture is collected in the collection tank and returned by pump 66 to the container 20.

The monitoring unit 26 monitors the supply of mixture from the container 20 to provide an indication of the volume ratio of the polyol to water of the mixture. The monitoring unit may for example monitor the viscosity of the supply of mixture or alternatively the density of this supply to provide an indication of its volume ratio. The volume ratio of polyol to water in the system 4 i Ilustrated, in 1 can be adjusted by adding either polyol or water to the collection tank 60.

Referring now to Figure 2, there is illustrated an alternative apparatus which comprises more than one spray unit, wherein all of the spray units are provided with a common supply of polyol-water mixture.

In the apparatus illustrated, three such spray units are provided and are indicated by the reference numerals 10A, lOB and lOC. Each of these units is identical in construction to the spray unit 10 of the apparatus illustrated in Figure 1. Furthermore, each unit is provided with a conduit 62 from the collection tank thereof for returning residual mixture via a filter 64 and pump 66 to a mixture container.

However, in this case the container is common to the three spray units. This common container is referenced 72 and in addition to being provided with three inlets 74 for residual mixture from the spray units has separate inlets 76 and 78 for polyol and water. These inlets may be connected to a mixing jet or other mixing means diagrammatically illustrated at 80 to ensure that the polyol and water is thoroughly mixed as it enters the container. The polyol inlet 76 is connected to a supply of polyol, schematically illustrated as a drum 82 containing polyol, via a dosing pump 84. The water inlet 78 is connected to a demineralised water unit 86 which is arranged to be supplied with mains water through an inlet 88 and control valve 90, a dosing pump 92 being provided to control the supply of demineralised water from the unit 86 to the water inlet 78 of the container 72.

The mixture of polyol and water in the container 72 is supplied via a common conduit 94 and thereafter branch conduits 94A, 94B and 94C to the individual spray units. The common conduit 94 is provided with a stop valve 96 and also incorporates a monitoring unit 98 corresponding to the monitoring unit 26 provided in the apparatus illustrated in Figure 1. The monitoring unit 98 is connected via a signal transmitting line 100 to a control unit 102 to provide a signal to that unit indicative of the volume ratio of polyol to water thereof. The signal is used to control actuation of the dosing pumps 84 and 92,-which are connected to the control unit 102 by respective power lines 104 and 106, to maintain the volume ratio within predetermined limits.It will be appreciated that the apparatus illustrated in Figure 2, which provides automatic maintenance of the polyol to water volume ratio may incorporate only one spray unit although it is particularly advantageous to incorporate more than one spray unit in the apparatus.

It is also to bu understood that each eqgectl-vrt spray unit may be used to spray a single insulated conductor core passing through it or alternatively more than one insulated conductor core. Furthermore, it is to be understood that the sprayed conductor cores from the spray units may be fed into a common extruder for extruding polymeric insulation over those conductor cores, or into respective extruders such that the sprayed core or cores from each unit is fed into a different extruder.

Tests have established that by maintaining the volume ratio of the mixture between two and six parts polyol to one part water satisfactory results are obtained. It is believed that the polymeric sheath being extruded over the polymeric insulation is prevented from adhering to the polymeric insulation because the water of the mixture vaporises thus temporarily separating the sheath from the conductor core insulation as it is extruded over the conductor insulation, the glycerol acting to prevent adhesion between the sheath and core insulation subsequently.

It has been found that if the mixture contains too much water, blistering of the sheath occurs whereas if there is too little water, the sheath adheres to the core insulation. Best results have occurred with a volume ratio of from three to five parts polyol to one part water and accordingly if the mixture can be maintained at substantially four parts polyol to one part water by volume reliable results are assured.

Examples of polyols which may be used in the method are polyethylene glycol, polypropylene glycol and glycerol.

Claims (8)

CLAINS:

1. A method of manufacturing an electrical cable comprising a polymeric sheath extruded over at least one conductor core provided with polymeric insulation, said method including applying a polyol-water mixture over the polymeric insulation of the -or -each conductor core prior to extruding the polymeric sheath thereover such that the polymeric sheath is prevented from adhering to the polymeric insulation

2. A method as claimed in claim 1, wherein said polyol-water mixture is sprayed onto the polymeric insulation.

3. A method as claimed in claim 1 or 2, wherein said mixture comprises from two to six parts polyol to one part water by volume.

4. A method as claimed in claim 3, wherein said mixture comprises from three to five parts polyol to one part water by volume.

5. A method as claimed in claim 4, wherein said mixture comprises substantially four parts polyol to one part water by volume.

6. A method as claimed in any one of claims 2 to 5, including utilizing compressed air to atomize said mixture being sprayed onto said polymeric insulation.

7. A method as claimed in any one of the preceding claims, comprising supplying water and polyol from separate supplies thereof to a container, supplying the resulting mixture from said container to at least one spray unit for spraying the mixture onto the polymeric insulation of at least one conductor core, monitoring the supply of mixture from the container to provide an indication of the volume ratio of polyol to water thereof, and adjusting at least one of the supplies of polyol and water to the container to maintain said indication within two predetermined limits.

8. Apparatus for use in the manufacture of an electric cable, substantially as hereinbefore described with reference to the accompanying drawings.

8. A method as claimed in claim 7, wherein the viscosity of the supply of mixture from the container is monitored to provide said indication.

9. A method as claimed in claim 7, wherein the density of the supply of mixture from the container is monitored to provide said indication.

10. A method as claimed in claim 7, 8 or 9, including collecting residual sprayed mixture at the or each spray unit and returning the collected residual sprayed mixture to said container.

11. A method as claimed in any one of the preceding claims wherein said polyol comprises glycerol, polyethylene glycol or polypropylene glycol.

12. Ag electrical cable compriinga pol..meric sheath extruded over at least one conductor core provided with polymeric material when made by a method as claimed in any one of the preceding claims.

13. Apparatus for use in a method as claimed in claim 1, comprising at least one spray unit, the or each spray unit having a through passage for at least one conductor covered with polymeric insulation and provided with spray means arranged for spraying a polyol-water mixture onto the polymeric insulation of the or each conductor during its passage through the spray unit.

14. Apparatus as claimed in claim 13, wherein the spray means of the or each spray unit comprises at least two spray nozzles directed towards the throughpassage thereof for spraying said mixture over the entire outer surface of the insulation of the or each conductor as it passes through said through-passage.

15. Apparatus as claimed in claim 14, wherein each of said spray nozzles has an inlet for said mixture and an inlet for compressed air and is arranged to produce an atomised spray of said mixture.

16. Apparatus as claimed in any one of claims 13 to 15, comprising a container for containing a quantity of said mixture, separate means for supplying said container with water and polyol, means for supplying the mixture of water and polyol from the container to the or each spray unit, means for monitoring the supply of mixture from the container to provide a signal indicative of the volume ratio of polyol to water thereof, and means responsive to said signal for adjusting at least one of said supplies of polyol and water to the container to maintain said volume ratio within predetermined limits.

17. Apparatus as claimed in claim 16, wherein said monitoring means comprise means responsive to the viscosity of the mixture.

18. Apparatus as claimed in claim 16, wherein said monitoring means comprise means responsive to the density of said mixture.

19. Apparatus as claimed in any one of claims 13 to 18, wherein the or each spray unit comprises means for collecting residual sprayed mixture, and said apparatus further comprises means for returning the residual sprayed mixture collected in said collecting means to the container.

20. Apparatus for use in the manufacture of an electric cable, substantially as hereinbefore described with reference to the accompanying drawings.

Amendments to the claims have been filed as follows CLAIMS:.

1. Apparatus for use in a method of manufacturing an electrical cable comprising a polymeric sheath extruded over at least one conductor core provided with polymeric insulation, comprising at least one spray unit, the or each spray unit having a through passage for at least one conductor covered with polymeric insulation and provided with spray means arranged for spraying a polyol-water mixture onto the polymeric insulation of the or each conductor during its passage through the spray unit.

2. Apparatus as claimed in claim 1, wherein the spray means of the or each spray unit comprises at least two spray nozzles directed towards the throughpassage thereof for spraying said mixture over the entire outer surface of the insulation of the or each conductor as it passes through said through-passage.

3. Apparatus as claimed in claim 2, wherein each of said spray nozzles has an inlet for said mixture and an inlet for compressed air and is arranged to produce an atomised spray of said mixture.

4. Apparatus as claimed in any one of claims 1 to 3, comprising a container for containing a quantity of said mixture, separate means for supplying said container with water and polyol; means for supplying the mixture of water and polyol from the container t the or each spray unit, means for monitoring the supply of mixture from the container to provide a signal: indicative of -the volume ratio of polyol to water thereof, and means responsive to said signal for adjusting at least one of said supplies of polyol and water to the container to maintain said Volume@ ratio within predetermined limits.

5. Apparatus as claimed in claim 4, wherein said monitoring means comprise means responsive to the viscosity of the mixture.

6. Apparatus as claimed in claim 4, wherein said monitoring means comprise means responsive to the density of said mixture.

7. Apparatus as claimed in any one of claims 1 to 6, wherein the or each spray unit comprises means for collecting residual sprayed mixture, and said apparatus further comprises means for returning the residual sprayed mixture collected in said collecting means to the container.