NO161574B - AQUE SOLUTION FOR AA CLEANING ALUMINUM SURFACES AND USING IT. - Google Patents

Description

Procedure and device for extruding plastic hoses for subsequent blow molding or vacuum forming.

The present invention relates to a

method and device for use by

extrusion of plastic hoses in direct

connection to blow or vacuum forming.

By blow molding or vacuum forming

hoses are used as starting material which are extruded and formed into one or more using compressed air or vacuum

forms. The OBlock forms are placed immediately after the extruder, so that the forming

takes place while the plastic is still warm and

malleable. Since the extent of the form in the longitudinal direction can often be relatively large and

the extruded hose is usually relatively

thin-walled, it has so far been chosen to extrude the hoses in the vertical direction like this

that they hang down from the extruder and

down past the forms. Such a procedure

however, has a major disadvantage in that the weight of the extruded hose length has

tended to stretch the plastic straight

outside the extruder's ring nozzle so that one

has received a thinning of the hose. This has

then compensated with an adjustable nozzle

which as the hose runs out of

the extruder regulated the wall thickness so that

it kept getting thicker and thicker. It has

however, it turned out that snakes that have become

extruded according to this principle is easy

has become wavy and has gained uneven thickness.

To remedy this inconvenience would

it would have been reasonable to think about a horizontal one

extrusion of hose for this purpose.

Horizontal extrusion of both hose and

other subjects are of course generally known, but

you then have a cooling of the plastic right outside, the extruder nozzle. As previously mentioned, however, the plastic will be kept in its warm and malleable state until the blank covers the opening for the molds. A serious problem arises here. if a hose is normally extruded in a horizontal direction. A relatively thin-walled hose is not self-supporting in this state and will fold up if the shape has a certain extent in the longitudinal direction.

The present invention therefore aims at a method and devices which eliminate this problem so that with very simple measures, hoses can be extruded even with a very large diameter and thin wall thickness without the previously mentioned disadvantages occurring.

This is achieved according to the invention by the hose, which is extruded in a horizontal or substantially horizontal direction in a manner known per se, being guided from the extruder by means of a carrier which consists of one or more rods which can possibly be used when stretching the hose across of its longitudinal direction. The horizontally extruded hose hangs in or above this body. This will result in a thinning of the upper part of the hose, i.e. the part that is in contact with the carrier. This thinning can easily be compensated by the hose material being extruded thicker in this area by adjusting the ring nozzle.

A preferred embodiment of carrier organ-

net consists of one or more rods that extend inside the hose from the extruder outwards in a horizontal direction.

A very appropriate support

of the extruded plastic hose has been found to be to design the support member as at least two rods which are largely lig-

in the same plane and which is pulled forward through the core of the extruder head with co-

same speed as the hose, and with the help of which the hose length is led to the

it and below it are stretched in a transverse direction

gen.

If it is to be cast, e.g. a dob-

belt-walled hollow body, it can be

point-wise to flatten the hose horizontally

direction, and a feature of a particular implementation

of the invention is that the carrier consists of two rods that extend inside the

gene and which lie approximately in the same horizon

sontal plane and which diverges from extrud-

deren and outwards, so that the hose is flattened in the horizontal plane. Thereby, the hose will hang down in two arches and the mold is placed below and above the hose, so that it extrudes

that hose has already started to assume its correct shape before the blowing begins

nose. The lower shape will then have a concave shape and the upper end a convex shape.

Another embodiment of the invention is characterized by the fact that for carrying only

a rod is used, while the extent of

is conducted by a person located below or in-

led rod.

In the following, the invention shall

can be clarified in more detail by means of a drawing that is purely schematic and as shown

fig. 1 shows an extruder seen from the side.

Fig. 2 shows the same seen from the front, and Fig. 3 seen from above.

Fig. 4 shows, like fig. 2 extrusion

seen from the front, but with a different out-

shaping of the carrier or support member.

In connection with the extruder, it is on

the drawing shows mold parts for forming the extruded tube using blue-

sing or vacuum forming.

In the drawing, the extruder or injection molding machine is denoted by 1. With ring nozzle 2 from the extruder, a hose 3 with a large diameter and thin wall is extruded. The hose 3 is extruded onto a rod 4 which, according to the preceding, is then cooled down strongly or runs synchronously with the hose.

The hose can be stretched further by

a rod is inserted at the lower edge of the hose which extends the hose downwards from the support member 4. The molded parts 5 and 6 clamp

mes together over the hose 3 and air pres-

can be seen between the two next to each

others located the foils of the hose and press these out into the moulds.

In fig. 4 shows an arrangement of the support member which is particularly suitable for blowing double-walled hollow bodies. IN

in this case, the hose is stretched over the under-

the form and is guided down towards the form. Vacuum is applied in the sub-form, which pulls one hose half down towards the bottom

nen. When this hose part has arrived then

far down that it-approaches the bottom come-

more the upper form downwards and takes the upper part of the hose with it. The two serpent half-

In this way, the parts will not touch each

others and stick. When the top form half-

part has made contact and is locked to sub-

the shape, compressed air is placed between the two slan-

whole halves. The upper form is then a positive form as shown with a dotted line. An-

after forming, the excess material is cut

material on both sides of the mold away.

Claims (5)

1. Procedure for extruding plastic hoses for later blow molding or the like, especially intended for slan- ger with a large diameter and relatively small wall thickness, characterized in that the hose, which, as is known in and of itself, is sprayed out in a horizontal or substantially horizontal direction, is led from the extruder by means of a carrier which consists of one or more rods that are used when stretching the hose across the direction of extrusion. 2. Method according to claim 1, characterized in that the hose is extruded intermittently in suitable lengths and that the support means consists of at least two rods which lie mostly in the same plane and which are pulled forward through the core of the extruder head at the same speed as the hose and with which the hose length is guided to the molding point and below it is stretched sideways. 3. Method according to claim 1, characterized in that only one rod is used for support, while the extension is carried out with a rod lying underneath or introduced. 4. Device for carrying out the method according to claim 1, characterized in that the support means consists of at least two rods fixed during the extrusion over which the hose slides as sticking is prevented by cooling the rods, after which the support means is used as stated under claim 2. 5. Device for carrying out forward- . the method according to claim 1 or 2, characterized in that the support means consists of two rods which extend inside the hose and which lie approximately in the same horizontal plane and which diverge from the extruder outwards so that the hose becomes flattened and stretched in the horizontal plane, which bars can be arranged as indicated in claim 4.