DE3003620A1 - Antistatic (tubular) film or tube prepn. - by extruding resin contg. antistatic agent and simultaneously treating with water - Google Patents

Abstract

Antistatic tubes, films etc. are prepd. by extruding a resin, e.g. polyethylene, polypropylene or polystyrene contg. an antistatic agent such as fatty acid esters during which water esp. in the form of a mist and/or steam is directed at the moulding in measured amts. Both interior and exterior surfaces of the mouldings are made antistatic. The moulding is made antistatic during extrusion and not after lengthy storage in the presence of moisture, which only make the outer surface antistatic. The prod. can be used for bags and sacks.

Description

Method and apparatus for manufacturing

of hoses, webs or the like.

Description The invention relates to a method according to the The preamble of claim 1 and a device according to the preamble of Claim 7.

When processing plastics, there are sometimes material-related factors Trouble. Injection molded parts and foils, e.g. made of polyolefins or polystyrene, can be electrically charged by external mechanical influences. The consequences are that charged surfaces adhere to each other (stick together) and that foreign matter can be attracted, e.g. dust, lint, bits of paper and the like However, areas are particularly bothered when discharges take place, which is not uncommon entails a high risk of explosion.

This can be remedied on the surface of plastic objects a hygroscopic coating is applied, e.g. by spraying with a liquid Antistatic agent or by rinsing in water containing surfactants. Even after drying stays on Surface film that conducts better electrically than the inside of the material, so that charges that occur are distributed or dissipated over a large area will. But this is only for a limited time of a few days or weeks effective.

That is why antistatic agents are used for the so-called internal finishing of plastics have been developed, which are embedded in the carrier material. It is about to hygroscopic agents, e.g. polar aliphatic compounds with hydroxyl and Amine groups that slowly migrate to the surface and absorb water. Depending on The carrier material and its wall thickness become the surface resistance in one Area that opens up certain possible uses of the finished product target.

Just like beX plastics with a certain electrical conductivity However, according to the state of the art, constancy of the material properties cannot be achieved, at least not with regard to the surface resistance. Also as far as foil materials If internal anti-static equipment is used, there are still great dangers before a] 1.etn when handling dust, powdery goods and the like.

in connection with plastic films, e.g. when filling in suitable Bags and sacks. Because in order to be effective, the previous requires antistatic Equipment a constant air humidity at least for a longer period of time, which can only be supplied on the outer surfaces. The internal surfaces of waste can therefore charge themselves unhindered, and the slightest spark can then be the most devastating Have an impact.

It is therefore an important object of the invention to overcome one of the disadvantages of the prior art in terms of economic process management effective antistatic treatment for extruded plastic products too to be achieved on critical inner surfaces and to ensure this over the long term.

According to claim 1, the invention provides that during extrusion Water is fed in finely divided form in a metered amount, in particular in the form of Nebel and / or DemrDf.

This measure produces very remarkable results in an amazingly simple way Progress. It has been shown that the supply of water at the moment of Shaping the desired antistatic properties of the plastic product causes when the antistatic is finely distributed on its surface (s) with the supplied water connects. In addition, with the method according to the invention no significant additional effort connected, because the supply of Water in liquid and / or vapor form can be done with the cheapest means, preferably according to claim 7 using - also commercially available - metering pumps and nozzles. According to the invention, these can easily be attached to or in the area of the existing device attached, preferably on the extrusion tool (extrusion head).

It is particularly advantageous if, according to claim 2, during the pulling process an extrusion hose water is introduced into its interior, what after Embodiment of claim 3 can be done in that the water is injected or sprayed on and / or atomized. It can be seen that in this way the required, in general A very small amount of water can be brought onto those surfaces from the outset at which later use, for example with material flow, charges through dielectric shift could arise. The anti-static equipment straight also the inner surfaces of hoses, pipes and the like, as well as those made from them Objects such as bags, sacks, etc. are included in the production according to the invention Security from the beginning and permanently effective.

The measure of claim 4 is extremely simple.

By supplying the water in the form of moist air, can it to the surfaces to be treated in the finest distribution with normal operating materials be brought to the are mostly necessary or available anyway. A preferred application of the invention is therefore the blown film process, whereby a film tube is continuously cast out of an extnider head, inflated with air, is laid flat and wound up.

The embodiment according to claim 5 and 8 provides that @ that water is fed through the extrusion head along with supporting air, preferably concentric to a Ri ring nozzle. It turns out that this results in the water supply @Particularly elegant and evenly done.

According to claim 6, a further development of the invention consists in the supply of water on the inner and outer surfaces of the extruded material, i.e. on both sides or on all sides, # 80 that it is antistatic all around from the start.

further features, details and advantages of the invention result from the following description of an embodiment bracelet of the drawing, the only figure of which is the Duroll conduct of the process using a suitable, in Partial sectional view of the drawn device schematically verans.chaulicbt.

A blow head, denoted as a whole by 10, with a blow head outer part 13 is enclosed by an electrical heater 12. He has a snail connection 14 and a feed channel 1 G for the extrusion compound. The Strangpreßmas se flows around after passing through the feed channel 16, the mandrel lower part 18 and then flows through on it the channels arranged in the radius. Then the molding compound flows through UDI subsequent mandrel top 20 and occurs in a tapering or widening Opening - the so-called nozzle gap. A ring 26 placed on the die head holds the entire blow head 10 down to the lower part by means of anchor bolts. A cooling ring 24 has the task of supplying channels 22 on the dash-dotted line Drawn paths of cooling air to the outer surface, which is formed into a tube after the exit to blow the molding compound and bring it from viscous to rigid form.

Laterally (as drawn) or axially or in a different shape and Offset lines - from the outside to the inside - an inside air connection 32 is provided, via a channel 34 through e.g. mandrel lower part 1E 'and mandrel upper part 20 or also opens out into a nozzle 36 by structurally different or similarly designed mandrel elements. In the exemplary embodiment shown, this sits concentrically with the annular gap 28.

With such a device or a similar device, the inventive Method carried out in such a way that through the feed channel 16 of the screw connection 14 on the flow paths indicated by thick lines from an extrusion molding compound (not shown) extruder in the annular space between mandrel 1 E, 20 and Housing 12 or hose head 26 is pressed. The mass occurs at the annular gap 28 relatively high speed, so that a molding 30 in the form of a Hose arises, which of the over the Elesnen-th 32, 34, 36 on the dashed Supporting air enriched with water is inflated along the paths shown will. Water is continuously added to this supporting air during hose production or supplied in amounts as described later in the application example. Take-off rollers 38 ensure, on the one hand, that the necessary overpressure is maintained in the molding 30 and on the other hand for the withdrawal of the hose web 40 produced to a (not shown) winding device.

The virtue of the method of the invention is that Moisture is brought to the surface of the extruded material that has just been created will. In the above-described exemplary embodiment, this already occurs during the hose generation Water in dosed quantities, finely divided in the form of mist and / or steam, to the Inner walls of the molding 30. Antistatic agents are therefore effective there, e.g. fatty acid esters, those made of poly compounds such as polyethylene, polypropylene or nolystyrene Extrusion are added. The ochlauchbahn running behind the take-off rollers 38 40 can therefore be handled at any time, e.g. opened again and from any Materials are flowed through without causing disruptive electrical charges.

The design of the blow head 10 is of secondary importance for the invention Meaning. It can be a deflection or quill head, a mandrel holder or A longitudinal slot head or a spiral mandrel or spiral distributor head. Conventional film blow heads with an inner tube and an enclosing tube are particularly favorable Coat through which the enriched with water. First support air is evenly distributed is feedable.

The method according to the invention can be used in the same way as with hollow profiles can also be used for flat material, provided that it is only ensured that dosed amounts of water, preferably in the form of mist and / or steam, on or behind the extrusion or Get the spray head onto the extruded material.

Expediently, one determines in the experiment the one for the processing of a given batch of plastic material required amount of water, e.g. packaging are unusable for some filling goods if there is moisture inside - for example a sack is present in excess.

In one embodiment, there was film material for 1000 m2 a requirement of only 165 cm3 of water, which was completely absorbed in the antistatic agent. In a long-term test, 23400 m2 of film were extruded, with 90 cm3 of water per Hour were added. The extruder output was around 550 m2 / h. The on thirty samples measured surface resistances were consistently in the range of 109 to 10 ohms.

All of the claims, the description and the drawing Details and advantages of the invention, including method steps as well as Constructive details and arrangements can be used both for themselves and in the various B: combinations are essential to the invention.

Claims (8)

Method and device for producing hoses, webs or the like. P a t e n t a n s p r ü c h e 1. Method for producing antistatic equipped hoses, tracks or the like. by extrusion of plastics, in particular poly compounds mixed with antistatic agents such as fatty acid esters, e.g. polyethylene, Polypropylene and polystyrene, indicated that during the Extrusion water is supplied finely divided in a metered amount, in particular in the form of mist and / or steam. 2. The method according to claim 1, characterized in that g e k e n n z e i c hn e t, that water is finely divided during the extrusion of a hose or pipe is introduced into his interior. 3. The method according to claim 1 or 2, characterized g e k e n nz e i c h n e t that the water is injected or sprayed on and / or atomized. 4. The method according to any one of claims 1 to 3, characterized g e k e n n notices that the water is supplied in the form of moist air. 5. The method at least according to claim 4, characterized in that g e k e n nz e i c h n e t that the water together with supporting air through the extrusion head is supplied, preferably concentrically to an annular nozzle. 6. The method according to at least one of claims 1 to 5, characterized it is not noted that the supply; of water on the internal and external surfaces of the extruded material. 7. Device for performing the method according to at least one of claims 1 to 6, using a glass, injection or extrusion head with connections for the supply of material to be molded as well as cooling and / or odex Support air, indicated that for the dosed admixture of water, in particular in the form of mist and / or steam, to the cooling or supporting air a metering device is available, namely one attached to the head (10) or upstream dosing pump with a Zers-tulier nozzle or the like. 8. The device according to claim 7, characterized in that g e k e n n z e i c hn e t, that the head (10) has at least one Kanp ?. (34) to the points that in an inside An annular gap (23) nnordinated nozzle (36) opens.