DE1729091C3 - Device for extrusion presses for the continuous production of tubular plastic products reinforced with an embedded helical reinforcement - Google Patents

Description

4. Apparatus according to claim 1, 2 or 3, The object is achieved in that at a gekennzeicnnet characterized in that the screw device of the type mentioned above linear channel (9) is open and encompasses the mandrel over part of its length conical sleeve is provided in the feed direction of the molding compound, which has a helical widening Inner surface (8) of the sleeve (7) be 40-shaped channel through which the reinforcement finds. displaceable with the aid of a feed device i »i.

It is advantageous if the feed device is made from

a driven pair of rollers that unwinds the reinforcement from the supply reels.
45 It is beneficial if the pair of rollers on one

The invention relates to a device driven star wheel together m ^; t the same around for extrusion for continuous production the axis of the dome is rotatably arranged and of with an embedded helical if the sleeve from the same star wheel in one of the reinforcement reinforced tubular products direction for pushing the reinforcement through bus plastics with a to the extrusion press the helical channel oppositely closed ring nozzle can be set in rotation with a direction of rotation th through a mandrel.
And a jacket limited annulus and with on It is useful if the helical of a rotatable disc arranged supply reel-shaped channel is open and in front of the reinforcement and with a reinforcement feed direction of the molding compound tangentially widening tangentially into the annulus, with the 55 inner surface of the sleeve is located.
Washer circumferential insertion sleeve. In the drawing is an embodiment of the

There are shown devices for extrusion to the con-subject of the invention. It shows

continuous production of with an embedded Fig. 1 a vertical section through the inven-

B helical reinforcement reinforced device according to the invention,

Known certificates from plastics, the 60 F i g. Figure 2 is a right plan view of the pre-plastic and the helical reinforcement direction according to Fig. 1,

at the same time through a Jüse with a in this one Fig. 3 shows a section along the line HI-III according to

set thorn are pressed (USSR author- F i g. I and

Schein 115 290, U.S. Patent 2,800,683, German F i g. 4 shows a section along the line IV-IV according to FIG

see interpretation document 1 046 868). 65 F i g. 3 (the mandrel not shown).

The device does not have one in the drawing

Ratsspulen withdrawn and shown in the extrusion device screw press, on the flange 1

tangentially introduced reinforcement is fastened by a forming head 2, which consists of a

3 4

House 3 consists of the flange 1 of the sleeve 7 is through the star wheel 11, with the

Screw press connected by means of screws 4 it is connected by a pin 30, in rotation

from an annular nozzle 5, which is also offset on the housing 3, the rotational movement of the direction to

of the forming head 2 is attached and from one by pushing the reinforcement 29 through the channel 9

bounded by a mandrel 6 and a jacket, is opposite in Ge 5.

house 3 located annulus consists. The pair of rollers 15 and 16 rotates because it is on

In the housing 3 a sleeve 7 is arranged the star wheel 11 is attached, together with it around the

between the housing 3 and the ring nozzle 5 geometric axis of the dome 6. In this way

is located and the mandrel 6 is on part of its rotational movement with that of the sleeve 7 syn-

Length includes. _{10 chrO} nized. " _N.

The inside of the sleeve 7 has a conical shape. When the reinforcement 29 is pushed through the The inner surface 8 is on, whereby the clear channel 9 becomes a helical groove all over the cross-sectional surface the sleeve 7 generated in the direction of advance of a certain pitch. Since the channel 9 is on the molding compound expanded. The conical becomes conical in the feed direction of the molding compound wciternden inner surface 8 is an open helical 15 expanding inner surface 8, which is more helical Channel 9 arranged. benlinienformige reinforcement at the exit from the

The housing 3 of the forming head 2 is practically free of further deformations on a sleeve 7

[Jiger 10 arranged a driven star wheel 11, and also has a diameter that

which carries a wreath 12 on which the supply reels 13 are larger than that of the dome 6.

upd 14 for the reinforcement. 20 At the same time as the screw joint

The supply reels 13 and 14 are placed on the shaped shape of the reinforcement with the help of the rim that they can rotate around the geometric axis (not shown in the drawing) worm of the dome 6. press the molding compound through the ring nozzle 5 g ^ -

l £ in driven roller pair 15 and 16, which presses. Because the diameter of the helix

for unwinding the reinforcement from the supply 25 is larger than the diameter of the dome 6, the

Coils 13 and 14 is used, lies on the helical reinforcement in the wall

driven star wheel 11 bearing axles 17 and 18 of the product fully embedded,

and rotates together with the driven During the operation of the device one serves

Star wheel around the geometric axis of the dome 6. B. the supply reel 13, in addition.

The pair of rollers 15 and 16 will wind up a supply of reinforcements from the star wheel 11 30. to

driven by an epicyclic gear 19 that is a purpose, while the reinforcement 29 of

Has ring gear 20, which is also unwound on the Ge of the supply reel 14, new type

housing 3 of the Foimkopfes 2 is placed. To the mation 29 wound onto the supply reel 13.

Toothed ring 20 rotates a gear 21, which is at the end of the reinforcement in a

The driven star wheel 11 is inserted on a shaft 22 into the opening 31 of the supply reel 13. the

is stored and the rotary movement on a gear 23 supply reel 13 is selected of the winding

transmits. This transfers the rotary movement to further reinforcement 29 through an independent drive

Via gears 24 and 25 to a gear 26, which sets movement that is not shown in the drawing.

sits on the axle 17 together with the roller J 5. is posed.

A gear 27 is rigidly attached to the roller 15, 40 being the Ardas located on the supply reel 14 the roller 16 drives via a gear 28, the mierung used up, so the end of the Arstarr is connected to the roller 16. with the end of the supply spool 13

The mode of operation of the device is as follows: wound reinforcement 29 connected. To the

When the driven star wheel 11 rotates, the reinforcement 29 from the supply reel 13 is wound over

is carried by the gearwheel 21, which is disengaged from the gear rim 20, the drive is switched off and the supply reel is switched off

rolls, the rotary movement via the gears 23, 24, 13 by pulling off the reinforcement 29 through the

25 and 26 on the roller 15, from which set in rotation via the toothed roller pair 15 and 16,

wheels 27 and 28 the rotary movement on the roller 16 The reinforcement 29 is on the supply reel 14 is transmitted further. The pair of rolls 15 and 16 are wound up in the same way as on the supply reel 13. winds the reinforcement 29 from the supply reel 14 50 Here, the end of the reinforcement is in a and pushes the reinforcement through the screw opening 32 of the supply reel 14, and the

linear channel 9th operation is repeated.

1 sheet of drawings

Claims (3)

ι 2 helical winding on the mandrel Patent claims: generated, and then the wound turns are together with the molding compound by the 1. Device for extrusion to the con-nozzle printed. Here the winding pitch depends continuous production of with a 5 from the pressure of the molding compound, through which the bedded helical reinforcement reinforcement windings drawn apart, Reinforced tubular artifacts. Such known arrangements are known from us substances with a disadvantage to the extrusion press that the inner surface of the manufactured closed ring nozzle with a cracked product and the reinforcement on the inner mandrel and a jacket limited annulus is exposed. It is also disadvantageous that the screw-type supply spools for the reinforcement and with a shaped slope of the reinforcement cannot be determined exactly one before the reinforcement tangentially into the annular space, so that the reinforcement unevenly introducing, revolving with the disk is moderately distributed over the length of the product. Insertion sleeve, characterized in that it is disadvantageous in such devices that a sleeve (7) encompassing the mandrel (6) is provided on part of its sleeve (7) which encompasses the length of the product as it runs off the mandrel, and which passes through the helical reinforcement helical channel (9) warps any residual stresses,
has, by means of which the reinforcement (29) can be displaced with the aid of the invention. 20 is based on a device for extrusion for 2. Device according to claim 1, characterized in that continuous production of indicates that the feeder unite from embedded helical reinforcement the reinforcement of the supply reels (13, strengthened tubular products made of plastics 14) unwinding, driven pair of rollers (15, where the pitch of the screw-16) consists. 25 linear reinforcement can be precisely defined at 3. Device according to claim 1 or 2, in which the helical reinforcement in characterized in that the pair of rollers (15. exiting from the through a mandrel and a 16) on a driven star wheel (11) to-coat limited annular space of the annular nozzle together with the same around the axis of the residual stresses that can be transferred to the plastic Domes (6) is rotatably arranged and that the 30 autodes, so that the existing plastic Sleeve (7) from the same star wheel (11) in liner material from destruction and cracks and spoilage Direction for pushing through the reinforcement formations is preserved, whereby the screw (29) through the helical channel (9) linear reinforcement not through cracks in the opposite direction of rotation in rotation concealing plastic layer are exposed is settable. 35 can.