EP0821373A1 - Plastic composite insulator with spiral skirt and its manufacturing method - Google Patents

Abstract

The isolator (1) has a trunk (2) with a glass fibre reinforced plastics core (3), enclosed by an outer mantle (5). The outer mantle comprises a screening sleeve (4) when attached to a helical screen (6) around its outside. The sleeve is formed in one piece without any joins and has a smooth outer surface. The helical screen has a convex curvature on its upper surface and corrugations or ribs on its lower surface.

Description

The invention relates to a plastic composite insulator, the trunk of one fiber-reinforced plastic core and around this core the jacket of a Contains shield cover, the shield cover made of the jacket and at least an umbrella running spirally around the trunk is formed.

High voltage insulators for overhead lines have been out for a long time ceramic, electrically insulating materials such as porcelain or glass produced. In addition, isolators gain a soul from a fiber and Plastic-containing composite material and a plastic cover contain increasing importance because they are characterized by a number of Characterize advantages, in addition to a lower weight improved mechanical resistance to projectiles Firearms count. The shield covers of such composite insulators are included usually with a larger number approximately perpendicular to the trunk running, plate-shaped umbrellas.

Composite insulators have compared to conventional insulators made of glass or Porcelain has the advantage that it has excellent insulation properties when Use in areas with heavily polluted atmospheres as they are largely dirt-repellent and partly also dirt encapsulate isolating. That is why composite insulators are used Umbrellas made of silicone rubber are increasingly used to existing Overhead lines with electrical insulation problems arising from atmospheric Impurities result in toughening up by using the conventional Porcelain or glass insulators against composite insulators with a Screen cover made of silicone rubber replaced.

For many applications, high-voltage insulators are used in composite construction used with plate-shaped screens, especially for overhead lines. The The manufacture of composite insulators is generally known. You can for example according to DE-C2-27 46 870 can be produced by a resin-impregnated glass fiber core (GRP = glass fiber reinforced plastic) Extrusion is encased in silicone rubber and individually prefabricated plate-shaped umbrellas with radial preload on an encased Glass fiber core pushed on and vulcanized together with the covering will. The creepage distance required for isolator operation can be, above all can be obtained by the number and diameter of the screens. The joint between the cladding enveloping the glass fiber core, i.e. the The surface of the trunk, and the recess in the plate-shaped shades this is a potential defect if the production process is not certain is mastered and the joints are not closed tightly.

DE-A1-42 02 653 teaches a method for producing a composite insulator by injection molding an umbrella sleeve around a core to create gaps between the Avoid coat and the plate-shaped shades of an umbrella cover, and a device for injection molding these insulators.

High-voltage insulators are known which have spiral shields: SU 659382 describes a method for producing a Porcelain high-voltage insulator, made with the help of an extruder rotating disc, which contains an opening for the ceramic mass spiral ribs are formed; Details of the rotating disc are not specified. CH-A5-640 666 teaches a composite insulator spiral umbrellas, in which a prefabricated rib-shaped Elastomer profile tape is wound around a GRP core and vulcanized. According to CA-A1-2,046,682, a similar rib-shaped elastomer profile strip should be used with a parallelogram cross section for the jacket around one insulating core such as a GRP pipe is wound and vulcanized. According to EP-B1-0 161 265, a thin, screen-forming, helical silicone rubber band formed on a plate, lifted off and wrapped around a GRP core and glued; This method has some shortcomings: due to the manufacturing process, it is not possible apply the shielding tape in such a way that no shielding deformation occurs. The nylon thread in the area of the umbrella root cannot cope with this problem solve because this thread rather leads to destructive glow discharges can come in the thread / screen interface. The adhesive for attaching the Shielding tape on the GFK core also serves, according to the patent specification, for the GFK core in to protect the spaces between the screens; this extremely thin layer seems but not being able to offer secure protection, especially not when Occurrence of partial electric arcs on the insulator surface. Which due to the small screen thickness, the short adhesive joint is also one Weak point because it is very vulnerable to breakdown.

The above-mentioned manufacturing processes for plastic composite insulators lead to joints or / and seams and thus easily to electrical engineering Impairment. They also have the disadvantage that a particularly large number Operations are required for manufacturing and therefore regarding Working hours and energy use are extremely cost-intensive.

The invention was therefore based on the object of composite insulators higher functional reliability and better electrical characteristics as well at the same time a cheaper alternative to the production of such To provide composite insulators.

The object is achieved by a Plastic composite insulator containing a trunk and at least one shield and caps, in which the trunk has a fiber-reinforced plastic core and around this core contains a jacket of an umbrella cover and in which the Umbrella cover from the jacket and at least one spiral around the trunk current screen is formed, which is characterized in that the Umbrella cover is formed in one piece and without joints

The object is also achieved according to the invention by two methods for Production of such a plastic composite insulator in connection with the associated devices.

Surprisingly, it was found that the production of the composite insulators according to the invention contrary to the assessment of the professional world can be done much easier. It also showed that pollution of the insulator is lower and dirt could be washed off more easily than with comparable composite insulators with plate-shaped shields.

The plastic core of the composite insulators according to the invention can be made with fibers be reinforced from a low-alkali glass. It can in particular be cylindrical, be bulbous or conical and thus gives the basic shape of the trunk. The plastic core can be a solid rod or a hollow body be, preferably in the form of a tube or a hollow cone.

A silicone rubber is preferably used as the material for the shield cover, whose Shore A hardness is more than 40, in particular 60 to 90. Therefor can preferably HTV rubber (HTV = hot-temperature crosslinking) be used. The shield cover can contain rubber, which is used for increased Temperature - usually 50 ° C to 200 ° C - is vulcanizable, in particular EPDM (terpolymer of ethylene, propylene and a diene with which unsaturated part of the diene on the side chain) or / and EPM (ethylene-propylene copolymer), Polyvinyldimethylsiloxane and fillers, preferably with Crosslinked with the help of peroxides, or more generally polyorganodimethylsiloxanes. Other types of suitable HTV silicone rubbers include MQ, FMQ, PMQ and VMQ according to DIN ISO 1629. The shield cover usually has a smooth surface without longitudinal seams and without transverse seams. A particularly smooth surface is due to less tendency to soiling and preferable to better insulation. The coat is preferably of im essentially of the same thickness or contoured with ribs, grooves or waves - preferably spiraling so that water can drain off well. The The top of the spiral-shaped shades is usually shaped convexly the underside of the spiral-shaped shades is often concave. The Underside of the spiral shields can be a curl or at least one Have rib or at least one groove that help creep paths too lengthen, stiffen the umbrellas and running water, which is also dirt can transport away, distract. These screen contours can also be radial be routed to the trunk or to the outside. As a rule, they are Transitions between the surface of the screens and the surface of the Sheath rounded or with a very small distance between two screens from one screen continuously rounded to the next screen. The tendon of the Cutting the top of the shields in the longitudinal direction of the insulator Cross-sectional area usually makes an angle with the longitudinal direction L. α from 30 ° to 80 °. The spiral screens can be to the side Caps have outlets in which the projection of the screens usually decreases continuously until it starts to form on the trunk. A exemplary embodiment shows at least one spiral screen, which in middle area of the trunk is interrupted and laterally from this Interruption spouts or in the area of interruption a reduced Projection. Other designs can be characterized by that they lead at least one spiral screen, which with one over the Length varying screen cross section is provided or that at least one spiral screen only at a greater distance from a cap with a Spout is formed. The composite insulator can have at least two spiral Have screens that have a different screen cross-section demonstrate. It can be dense at least in one area of the trunk Sequence of screen sections in longitudinal section - similar to a comb - be equipped. The distance of the screen sections in a longitudinal section can, for example, due to the changed angle of inclination or a larger number of spiral umbrellas, along the length of the trunk vary. Simply by increasing the speed of rotation of the Rotating device on the mouthpiece or the rotating device for the plastic core can very easily compress the screen sections and Reduction of the angle of inclination of the screens and thus an extension of the crawl can be made. The angle of inclination can be so be varied so that a revolution of a spiral screen by 360 ° one Gradient height in the longitudinal direction L from 10 mm to well over 1000 mm corresponds. In addition, especially if all spiral screens are formed only at a somewhat greater distance from the cap, on Strunk at least at one end of the trunk one or more plate-shaped umbrellas molded or applied.

The plastic core can have a length of between 10 cm and 8 m and thus prescribes approximately the length of the entire insulator. Except at the ends of the outlets, the spiral-shaped screens can have an outreach perpendicular to the stem from the surface of the jacket of 5 to 100 mm, in particular 10 to 70 mm, particularly preferably 15 to 40 mm. The distance between two screen sections in the longitudinal direction L, measured near the surface of the jacket, can be 5 to 1000 mm, in particular 10 to 500 mm, particularly preferably 20 to 100 mm.
The straightness deviation of an essentially straight line on the surface of the dish cover is usually not more than 0.5 mm, preferably not more than 0.3 mm, in particular not more than 0.1 mm.

The shield construction according to the invention offers further advantages: Silicone rubber is known to be an expensive material because of the silicone synthesis starting from pure silicon. Isolator constructions with plate-shaped screens made of silicone rubber are therefore geared to the use of materials minimize, which leads to thin screens. Thin shades made of silicone rubber, in particular those with a larger projection may be mechanically unstable, she tend to deform during storage and transportation and can too easily damaged mechanically. By choosing a suitable one Screen cross-section in connection with the angle of inclination and if necessary using grooves, ribs or corrugations on the underside of the screen can the screens with the same or even larger creepage distance with a smaller throat than plate-shaped umbrellas and win the stiffening effect of the contour on the underside of the screen for this soft flexible material has a significant degree of mechanical Stability. The material used for the umbrellas with grooves, ribs or corrugations is small and is largely due to the creepage distance gained compensated, since an extension of the creepage distance with flat plate-shaped or spiral-shaped umbrellas only achieved by increasing the diameter can be squared into the material calculation.

The composite insulators according to the invention have neither joints nor usually seams. At such seams, usually one perpendicular to the A standing membrane that runs in the longitudinal direction of the insulator dirt particles can accumulate locally and electrotechnically disruptive. The curved and inclined spiral screens are This is particularly advantageous when it is raining because the rainwater does not follow the spiral runs down, but is deflected outwards due to the shape of the umbrella and drains.

It is known that all types of high voltage insulators in operation visible electrical discharges and partial arcing can occur. This Discharges are very intense and especially at the voltage end of the insulator in the area of the trunk between the cap and the first behind the screen following the cap is energetic. Observations have shown that these discharges preferentially on the trunk and on the areas near the trunk of the underside of the screen occur. The discharge intensity along the The longitudinal axis of the insulator decreases with increasing distance from live conductor. Also with plastic composite insulators plate-shaped umbrellas can be between the cap and the first succeeding Umbrella - especially in areas with high air pollution - discharges occur, the erosions in the shield cover and in severe cases destruction of the isolators. The plate-shaped screen acts as a barrier that the Leakage of discharges towards the earth side of the insulator prevented.

In the plastic composite insulator according to the invention, the only spiral Has screens, the discharges can continue to move along the trunk, whereby their intensity subsides. There are no large local ones Current densities that can cause erosion.

According to the invention, a large proportion of rubber can be saved in the production of plastic composite insulators in comparison with a conventional plastic composite insulator of the same length and the same creepage distance. In general, savings of around 40% can be expected. The following table compares the corresponding data for two different types of composite insulators according to the prior art and according to the invention; the weight data apply to a discontinuous production in which the end of the trunk is not completely covered with a jacket: Composite insulator type Umbrellas Overall length Crawl Weight umbrella cover Weight saving 30/3 (168) 430 3 plate screens 430 mm 550 mm 730 g - 1 spiral umbrella with 11.25 turns 430 mm 550 mm 319 g 56% 30/2 (168) 405 2 plate screens 405 mm 405 mm 520 g - 1 spiral umbrella with 7.5 turns 405 mm 405 mm 234 g 55%

The composite insulators according to the invention can be produced using the following methods getting produced:

This is a method for producing a composite plastic insulator characterized in that an adhesive on a fiber-reinforced plastic core is applied that the pretreated plastic core in an extruder or in a piston press that has a quill head with a rotatable one Have mouthpiece is introduced that the transport speed of the Plastic core with the speed of rotation of the rotatable mouthpiece is coupled that the mass for the manufacture of the shield cover around pre-treated plastic core compacted around and by the rotatable Mouthpiece is pressed so that the pretreated plastic core in Longitudinal direction with a one-piece shield cover made of jacket and shield / shields is provided in the form of one or more spirals. In addition, the Plastic core rotating in an extruder or in a piston press be introduced, the transport speed of the plastic core with its rotational speed can be coupled.

Another method for producing a composite plastic insulator an adhesive is applied to a fiber-reinforced plastic core, the plastic core thus pretreated in an extruder or in a Piston press, which have a quill head with a mouthpiece, rotating is introduced, the transport speed of the plastic core with its rotational speed is coupled and the mass for producing the Shield cover around the pretreated plastic core compressed and through the mouthpiece opening is pressed so that the pretreated one Plastic core in the longitudinal direction with a one-piece shield cover made of jacket and screen / screens is provided in the form of one or more spirals.

Here, the adhesive can be on the plastic core before wrapping Mass can be applied by spraying, spreading or dipping. The Adhesive usually serves as an aid to vulcanization and can be applied Base silane can be used. It can be used as a liquid film of e.g. about 1 µm Starch can be applied to the plastic core.

The processes can be continuous or discontinuous, with constant or changing speed. The speed of the Rotating devices or the transport device can be used within wide limits be varied, however care should be taken to ensure that it is not due to being too high Speed to shear between the coated Plastic core and the rubber mass comes, otherwise otherwise in particular Umbrellas can be torn off. When manufacturing, the size can or / and the shape of the opening of a mouthpiece during extrusion be changed using an extruder or piston press, especially if one suitable means for changing the opening is provided; for example, the spiral shields can be used laterally towards the caps Spouts are pressed. The ends of the spiral screens can, however also bevelled, rounded or to the side towards the caps towards the spouts be processed. The ends of the spiral screens can also simply cut off, with a slight rounding of the edges is advantageous. In the manufacture of the insulators according to the invention is too note that the quill head is completely and without extrusion Air pockets are filled with mass and the mass for the shield cover without Air pockets are expelled. The manufacturing process for the stalk is in essentially completed in that the plastic core with the Umbrella cover is connected by vulcanization. Vulcanizing can be behind the quill head in a heating section. It should be noted here that the outer area of the plastic core has a sufficient temperature reached for vulcanization. It has been shown that the use of a Adhesive can be very conducive to the result of vulcanization because such a chemical connection between the two parts to be vulcanized together without bubbles and without gaps can be. Water can accumulate in bubbles or crevices, resulting in one electrical impairment, primarily due to glow discharges, can lead. Glow discharges can lead to arcing, which can damage the insulator can destroy.

The composite insulators of the present invention can be made using the following Devices are manufactured:

An apparatus for producing an inventive Plastic composite insulator comprises an extruder or a piston press, one Quill head, a mouthpiece with opening and a transport device for the Plastic core and is characterized in that the mouthpiece with a Rotary device is equipped. Another device for producing a Plastic composite insulator according to the invention contains an extruder or a Piston press, a quill head, a mouthpiece with opening and one Transport device for the plastic core, the transport device with a rotating device for the plastic core. The mouthpiece can contain a profile disc, which is spring-loaded, and contains one Opening, which is preferably arranged in a profiled disc. The opening can a circular arranged centrally to the transport axis of the plastic core Have recess that in at least one approximately cone-shaped Expansion in the radial or angled direction passes. The opening can at least one constriction in the region of the approximately cone-shaped expansion or at least one second extension branching off from this extension exhibit. It can be provided with a device with which the opening be changed in size and / or shape during operation can. The circular recess of the opening can have a diameter have at least 0.2 mm larger than the diameter of the Plastic core at the appropriate point when transporting through the Opening.

The profile tool used to shape the shield cover can be so simple to be built on customer requests regarding shank and umbrella design can be reacted quickly, flexibly and inexpensively and not expensive Tools specifically for a type must be provided.

The composite high-voltage insulator according to the invention Manufacturing method and the associated device should be exemplified with reference to four drawings are illustrated:

Figure 1 shows a section of an inventive Plastic composite insulators. The middle section of the insulator 1 contains one Strunk 2 and a screen 6 wound around it in a spiral. The trunk 2 contains a fiber-reinforced plastic core 3, which is made of epoxy resin Glass fibers can consist of "endless" and cylindrical cores are arranged axially parallel, and a shield cover 4: The plastic core 3 encased by a seamlessly shaped layer of the jacket 5, which without joints in passes the spiral screen 6. A section of Figure 1 is as Drawn longitudinal section in which the tendon of the top of the screens in Longitudinal direction of the insulator intersecting cross-sectional area with the In the longitudinal direction, an angle α of 30 ° to 80 °, preferably of 40 ° to 70 °, includes. The cross section of a screen 17 can be clearly seen here. The Transitions from the top 7 or the bottom 8 of the spiral screen 6 in the surface of the jacket 9 can be sharp, but preferably be rounded 10 or 11, in particular with a radius of 0.1 up to 12 mm. Figure 1 shows an example of an insulator according to the invention constant diameters, with a cylindrical stem 2 without a cavity and with a single spiral wound screen 6 of constant Cross-section. Alternatively, several screens can be the same or different cross sections or screens with ribs, grooves or corrugations 14 different orientation and arrangement can be used. Figure 1 also does not show the trunk ends 16 with the outlets 15 of the screens and not the caps 19, which are usually designed as metal fittings. The Caps are used to transfer the tensile force from the plastic core 3 to the Insulator suspension or mounting shown. The cap can e.g. out Steel, cast iron or other metallic materials exist and through radial compression may be connected to the end of the plastic core 3. In addition, the distance between two screen sections 12 and Outreach of the screen 13 shown.

Figure 2 shows a device 20 for producing the Plastic composite insulator 1 in the area of an extruder 21. The mass 24 for the manufacture of the shield cover 4 is through the extruder 21 in the Quill head 22 promoted. The device for the adhesive order 37, the Transport device 26 for the plastic core 3 with the anti-rotation device 36, the quill head 22 with the rotatable mouthpiece 23 and the heating section 35 for vulcanizing the shield cover are arranged axially that the Plastic core 3 are guided centrally through corresponding recesses can. The mouthpiece 23 is driven by the drive 33 and 34.

Figure 3 shows a partial section of the outlet end of the quill head 22 and the rotatable mouthpiece 23 again. In the middle of the quill head 22 and in The plastic core 3 is guided through a short distance from the sleeve 43 in order to which the mass 24 for the shield cover 4 behind the sleeve 43 and through the Gap 45 of the approximately circular recess 30 between the plastic core 3 and edge of the opening 25 and through the extension 31 and possibly through a second extension 32 pressed and in the form of jacket 5 and spiral screen 6 is formed. The mouthpiece 23 is about that Ball bearing 41 rotatably mounted around the quill head 22. The profile disc 29 with the opening 25 is over with the housing of the rotatable mouthpiece 23 Screws 38 and compression springs 39 connected. The cross section of the opening 25 specifies the cross section of the shield cover 4 formed there. The interior of the Quill head 22 is between the profile plate 29 and the housing of the mouthpiece 23 by a sealing and sliding ring 40, which can advantageously be made of PTFE, sealed. The tightening torque must be the same for all screws 38, so that the pressure on the profile plate and the sealing and sliding ring 40 over the the entire scope is distributed approximately equally. The tightening torque must be like this be high that during operation no mass 24 in the area of the sealing and sliding ring 40 can emerge, but a correct rotation of the mouthpiece 23 is guaranteed. A precise torque setting, a compensation of the Deformation of the sealing and sliding ring 40 and thus an uninterrupted Contact between the profile plate 29 and the sealing and sliding ring 40 is done via this the compression springs 39 reached. In this way, a reliable Achieve sealing. The adhesive applied to the plastic core 3 becomes not shown in any of the figures.

FIG. 4 illustrates different ones on the left with several partial representations Profile discs 29 of a rotatable mouthpiece 23 with different shaped openings 25 having circular recesses 30 which in approximately cone-shaped extensions 31 in the radial or angled direction pass over and be curved or straight as required can. In addition, second extensions 32 can be made from the extensions 31 Branch off to the side to form ribs or corrugations 14. The professional disc 29 can via mounting holes 46 with the housing of the rotatable Mouthpiece 23 are connected. A device that the opening 25 resized and / or reshaped during extrusion not shown here. The change in the opening 25 can be done via the Extrusion time for an insulator should be even, e.g. around the stalk conical, or briefly, e.g. to To produce cross ribs. To the right of the partial representations of the various profiled disks 29 Longitudinal sections of the trunk 2 made of plastic core 3 and Sheath 5 and represented by the spiral screen 6, which means of the openings 25 shown on the left can be obtained.

Basically, the shape and size of the opening 25 determines the cross section the shield cover 4. The resulting shield cross section 17 is in this plastic, not yet vulcanized material but not with the shape of the Opening 25 identical. This production usually results in more or less inclined and curved spiral screen 6. This screen 6 receives usually a shape in which it is thicker closer to the trunk 2 and to the edge of the Screen 6 becomes thinner. The change in the speed of rotation can Similar opening 25 to a differently shaped screen cross section 17th to lead. In the partial representations a to d, different variants of the Opening 25 and the resulting screen cross sections 17 are shown. With simple means, therefore, the number, size and shape of the spiral Umbrellas 6 are affected.

The invention has been exemplified above using a high-voltage insulator for overhead lines, on the manufacturing process and on the basis of manufacturing required device explained in more detail. Of course, one composite insulator according to the invention as a high voltage or as a housing for electrical apparatus, in particular in outdoor applications, are used, where the most diverse areas of application come into question. The invention can also be used advantageously in cases where conventional Insulators of a specified height in atmospheric pollution areas cause electrical problems with flashovers. With the help of the invention Insulators can be built whose creepage distance remains the same Height can be adapted to the atmospheric conditions.

Claims (36)

Plastic composite insulator (1) containing a shank (2) and at least an umbrella and caps (19), in which the trunk is a fiber-reinforced Plastic core (3) and around this core a jacket (5) Contains shield cover (4) and in which the shield cover from the jacket and at least one screen (6) running spirally around the trunk is formed is characterized in that the shield cover in one piece and without joints is shaped. Plastic composite insulator according to claim 1, characterized in that its umbrella cover (4) has a smooth surface without longitudinal seams and without Has cross seams. Plastic composite insulator according to claim 1 or 2, characterized characterized in that the top (7) of the spiral screens (6) convex is shaped. Plastic composite insulator according to one of claims 1 to 3, characterized characterized in that the underside (8) of the spiral screens (6) is concave is shaped. Plastic composite insulator according to one of claims 1 to 4, characterized characterized in that the underside (8) of the spiral screens (6) a Corrugation or at least one rib or at least one groove. Plastic composite insulator according to one of claims 1 to 5, characterized characterized in that the tendon of the top of the screens in the longitudinal direction (L) intersecting cross-sectional area with the longitudinal direction (L) an angle α from 30 ° to 80 °. Plastic composite insulator according to one of claims 1 to 6, characterized characterized in that the plastic core with fibers made of low-alkali glass is reinforced. Plastic composite insulator according to one of claims 1 to 7, characterized characterized in that the shield cover (4) contains rubber, which is used at elevated Temperature is vulcanizable. Plastic composite insulator according to one of claims 1 to 8, characterized characterized in that the spiral screens (6) laterally towards caps (19) Have outlets (15). Plastic composite insulator according to one of claims 1 to 9, characterized characterized in that at least one spiral screen (6) in the middle Area of the stalk (2) is interrupted and laterally from this interruption Spouts (15) or a reduced radius in the area of the interruption (13). Plastic composite insulator according to one of claims 1 to 10, characterized characterized in that at least one spiral screen (6) with an over the length-varying screen cross-section (17) is provided. Plastic composite insulator according to one of claims 1 to 11, characterized characterized in that only at a greater distance from a cap (19) at least one spiral screen (6) with an outlet (15) is formed. Plastic composite insulator according to one of claims 1 to 12, characterized characterized in that it has at least two spiral screens (6) which show a different screen cross-section (17). Plastic composite insulator according to one of claims 1 to 13, characterized characterized in that it has at least in one area of the shank (2) with a dense sequence of screen sections in longitudinal section - similar to a comb - Is provided. Plastic composite insulator according to one of claims 1 to 14, characterized characterized in that at least one end of the trunk (16) at least one plate-shaped screen (18) is molded or applied. Plastic composite insulator according to one of claims 1 to 15, characterized characterized in that the spiral screens (6) - except at the ends of the Outlets (15) - an outreach (13) perpendicular to the stem (2) from the surface of the jacket (9) from 5 to 100 mm, in particular from 10 to 70 mm, particularly preferably have from 15 to 40 mm. Plastic composite insulator according to one of claims 1 to 16, characterized characterized in that the distance (12) between two screen sections in Longitudinal direction L near the surface of the jacket measured 5 to 1000 mm, is in particular 10 to 500 mm, particularly preferably 20 to 100 mm. Plastic composite insulator according to one of claims 1 to 17, characterized characterized in that the plastic core is cylindrical, bulbous or is conical. Plastic composite insulator according to one of claims 1 to 18, characterized characterized in that the plastic core is a solid rod or a hollow body. Process for producing a composite plastic insulator according to a of claims 1 to 19, characterized in that on one fiber-reinforced plastic core (3) an adhesive is applied that the so pretreated plastic core in an extruder (21) or in a piston press, which have a quill head (22) with a rotatable mouthpiece (23), is introduced that the transport speed of the plastic core with the Rotational speed of the rotatable mouthpiece is coupled to the mass (24) for the manufacture of the shield cover (4) around the pretreated plastic core is compressed around and pressed through the rotatable mouthpiece, so that the Pretreated plastic core in the longitudinal direction with a one-piece shield cover made of jacket and screen / screens in the form of one or more spirals becomes. Process for producing a composite plastic insulator according to a of claims 1 to 19, characterized in that on one fiber-reinforced plastic core (3) an adhesive is applied that the so pretreated plastic core in an extruder (21) or in a piston press, which have a quill head (22) with a mouthpiece (23a), rotating is introduced that the transport speed of the plastic core with its rotational speed is coupled to the mass (24) for manufacture the shield cover (4) compacted around the pretreated plastic core and is pressed through the opening (25) of the mouthpiece so that the Pretreated plastic core in the longitudinal direction with a one-piece shield cover made of jacket and screen / screens in the form of one or more spirals becomes. Process for producing a plastic composite insulator according to Claim 20, characterized in that the plastic core (3) in one Extruder (21) or is rotatably inserted in a piston press and that the Transport speed of the plastic core with its speed of rotation is coupled. Process for producing a plastic composite insulator according to Claim 20 or 21, characterized in that an adhesive on the Plastic core (3) before encasing with mass (24) by spraying, Brushing or dipping is applied. Process for producing a composite plastic insulator according to a of claims 20 to 22, characterized in that an adhesive based Silane is used. Process for producing a composite plastic insulator according to a of claims 20 to 23, characterized in that the size or / and Shape of the opening (25) of a mouthpiece (23, 23a) during extrusion is changed. Process for producing a composite plastic insulator according to a of claims 20 to 24, characterized in that the spiral Umbrellas are pressed laterally towards the caps (19) with outlets (15). Process for producing a composite plastic insulator according to a of claims 20 to 24, characterized in that the ends of the spiral screens laterally towards the caps (19) towards outlets (15) beveled, rounded or machined. Process for producing a composite plastic insulator according to a of claims 20 to 26, characterized in that the plastic core with the shield cover is connected by vulcanization. Device (20) for producing a plastic composite insulator according to one of claims 1 to 19, an extruder (21) or a piston press, a quill head (22), a mouthpiece (23 or 23a) with an opening (25) and one Contains transport device (26) for the plastic core, thereby characterized in that the mouthpiece is equipped with a rotating device (27) is. Device (20) for producing a plastic composite insulator according to one of claims 1 to 19, an extruder (21) or a piston press, a quill head (22), a mouthpiece (23 or 23a) with an opening (25) and one Contains transport device (26) for the plastic core, thereby characterized in that the transport device with a rotating device (27a) is equipped for the plastic core. Device according to claim 28 or 29, characterized in that the mouthpiece (23 or 23a) has a profile disk (29) which is spring-mounted, with opening (25) contains. Device according to one of claims 28 to 30, characterized characterized in that the opening one to the transport axis of the plastic core has a centrally arranged circular recess (30) which in at least one approximately conical extension (31) in radial or angled direction. Apparatus according to claim 31, characterized in that the opening (25) at least one in the region of the approximately cone-shaped extension (31) Narrowing or at least one second branching off from this extension Has extension (32). Device according to one of claims 30 to 32, characterized characterized in that the opening (25) is provided with a device (28), with the opening during operation in size and / or in shape can be changed. Device according to one of claims 31 to 33, characterized characterized in that the circular recess (30) of the opening (25) one Has diameter that is at least 0.2 mm larger than the diameter of the plastic core at the appropriate point when transported through the Opening. Use of a plastic composite insulator according to one of the claims 1 to 19 as a high-voltage insulator or as a housing for electrical apparatus, especially in outdoor applications.

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