DE4102283C1 - Mfg. concrete pipes with inner plastics lining - which is applied as open ring with overlapping ends secured by spreaders - Google Patents

Abstract

The (reinforced) concrete pipe mfr. with inner plastics lining involves a cylindrical upright shuttering to form a casting space between it and the inside core. The core is run out downwards in the removal stage. The plastics liner (5) is inserted as an open ring to overlap at the ends. During the shuttering removal from the still green pipe (4), spreaders are inserted in the pipe interior as the core (2) is being run out to hold the plastics liner in place until the concrete has set. The overlapped end of the liner is finally welded shut, once the spreaders have been withdrawn. ADVANTAGE - Complete sealing of the mfd. pipe without the liner loosening.

Description

The invention relates to a method for producing elongated hollow bodies, in particular pipes, made of concrete or Reinforced concrete with an inner lining made of a plastic jacket according to the preamble of claim 1 and a spreading element for performing this method.  

In a known method of the preamble of claim 1 specified type (DE 38 15 843 A1) uses a cylindrical upright formwork form, in which between one with the Plastic shell provided inner mold core and an outer mold shell a molding space is formed, in which the concrete is introduced. For reasons the economy and to reduce the mold park hold, shapes are used in which the inner Mold core at a time when the fresh concrete stable, but not yet fully hardened, lowered becomes; the still fresh pipe is then together with the outer molded jacket lifted off and for the further Setting time set aside. After starting the Core and the provision of a new outer shell the formwork is ready to work again.

With larger diameters and around a certain bond between the plastic jacket and the Obtaining concrete bodies, it is known for Use liner sheeting on the back with undercut bars, knobs or the like are provided (DE 85 05 653 U1). Usually this is Foil sheet before installation in the formwork to a closed coat welded (US 28 16 323).

Especially with non-circular cross-sections, such as. B. Egg profile tubes, has been shown that when the film web was welded beforehand to a closed jacket, which is placed over the mandrel, the jacket on the mandrel not always snug, even folds. Also can cause deformation of a welded plastic jacket due to temperature differences his full concern on Affect core. This can cause it to shake when shaken come that the vibrating energy is not always evenly  Transfer the mandrel to the concrete body, but not the concrete body is compacted perfectly in all areas. Another one Problem is that during welding and installation the film due to the resulting deformations often Tensions in the plastic jacket result. When stripping restoring forces are awakened, so that the danger there is that the plastic jacket in individual places detaches from the not yet fully hardened concrete body.

Against this background, the object of the invention based on specifying a method of the type mentioned at the beginning, according to which also under Use of immediate demoulding, i.e. the demoulding of set but not yet fully hardened Hollow body a complete compression of the concrete body ensured and a possible loosening of the Plastic jacket from fresh concrete is avoided.

According to the invention this object is achieved by the characterizing part of claim 1 specified Features solved.

Advantageous further developments of the method result from the Subclaims, 2 to 4.

The fact that the plastic jacket before installation in the Formwork not welded to a closed ring, but as more open, only overlapping at the ends Ring is installed, the film lies during insertion of concrete and shaking on the mandrel loosely. she can therefore as a result of what is exerted by the concrete hydraulic pressure under the influence of the vibrating energy of the Adjust the shape of the core well. This makes it snug, so that the vibrating energy is also transferred correctly. The subsequent manufacture of the seal can be done by Welding the lap joint from the inside accordingly carefully and above all controllable  respectively. The weld seam does not become an external one afterwards Subject to more forces.

Even if there is a risk that the Plastic jacket of the not yet fully hardened Fresh concrete is already diminished by this, but can still certain tensions arise from the fact that the film the installation in the pipe one from their delivery condition different form was given. This danger will increase after Invention eliminated in that in the course of lowering the the plastic shell supporting mold core expansion elements be built in, this function until the final Take over hardening of the concrete.

A spreading element for carrying out the method is specified in claims 5 to 7.

The invention will now be described with reference to the drawing explained. It shows

Fig. 1 shows a longitudinal section through a formwork form,

Fig. 2 is a cross section along the line II-II in Fig. 1,

Fig. 3 shows a detail III in Fig. 2 on a larger scale and

Fig. 4 is a plan view of an expansion ring.

In Fig. 1, a formwork form for producing an egg profile tube made of concrete is shown only schematically in its essential parts. The mold consists of an outer mold shell 1 made of steel and an inner, rigid mold core 2 , between which a mold space 3 is formed. In the situation shown, there is still fresh concrete pipe 4 in the mold space 3 , which is provided on the inside with a plastic jacket 5 . A situation is shown in which the mandrel is lowered in the direction of arrow 6 . As a result, the concrete pipe 4 is free and can be lifted up together with the outer shell 1 .

As can be seen above all from Fig. 3, the plastic jacket 5 consists of a film sheet 7 , which is provided on the back for better anchoring in concrete with T-shaped webs 8 . In order to form the plastic jacket 5 , the film web 7 , after it has been brought into the appropriate shape, is butted at the ends 9 , 10 by covering. In order to be able to better handle the film jacket before and during its installation in the formwork form, it is recommended that the two ends 9 and 10 mechanically, for. B. by wire loops that can be guided through the webs 8 to secure against gaping. A provisional seal can be achieved by covering the joint 11 with an adhesive tape. The plastic jacket prepared in this way is introduced into the formwork mold, ie placed over the inner mold core 2 , and then the concrete is introduced.

In the situation shown in FIG. 1, it is also shown how expansion elements in the form of expansion rings 12 are installed from above as the mold core 2 is lowered. Depending on the length of the tube or the height of the shape, three expansion rings 12 a, b and c are provided here. The top expansion ring 12 a is already set; the two further expansion rings 12 b and 12 c are still loose on the mandrel 2 ; they are also set with the further sinking of the mandrel 2 .

Such an expansion ring 12 is shown in plan view in FIG. 4. The expansion ring 12 consists of a band 13 , z. B. made of aluminum, which was brought into a shape matching the inner contour of the concrete tube 4 . The band 13 forms an open ring; the two ends 14 and 15 are at a short distance from one another; the space is bridged by a spindle 16 which is articulated to two bearing brackets 17 . By actuating the spindle 16 , the circumference of the expansion ring 12 can be changed in the sense of widening or narrowing.

At the start of demoulding, the expansion rings 12 required to the length of the tube 4 are placed on top of the mandrel 2 and slowly lowered with it. In the course of lowering, the individual expansion rings 12 are activated by actuating the spindle 16 ; they lay on the inside of the plastic jacket 5 and fix it in its position. Since the plastic jacket 5 has sufficient rigidity, in particular in the longitudinal direction of the tube, if only because of the webs 8 , it is sufficient if the expansion rings 12 are provided at intervals from one another.

In the case of pipes with a walkable cross section, the expansion rings are activated by a worker standing on the mandrel 2 lowering into the cavity and activating the expansion rings 12 from this position. By inserting a ladder, the worker can easily get out of the pipe. The welding work for the final sealing of the jacket can also be carried out directly by hand. In the case of pipes that cannot be walked on, it is conceivable to construct the expansion rings so that they can be clamped from the outside, and to use robots for welding.

Claims (7)

1.Procedure for producing elongated hollow bodies, in particular pipes, from concrete or reinforced concrete with an inner lining made of a plastic jacket in a cylindrical upright formwork mold with a mold space formed between an inner mold core and an outer mold jacket, in which the plastic jacket is first applied to the mold core, the concrete is then introduced into the mold space and finally lowered to remove the form from the mold core, characterized in that the plastic jacket ( 5 ) is installed as an open ring which overlaps at the ends, so that when the formwork has been set, the set but not yet complete hardened hollow body ( 4 ) in the course of lowering the mandrel ( 2 ) into the interior of the hollow body ( 4 ) expansion elements ( 12 ) to secure the position of the plastic casing ( 5 ) until the concrete hardens and that after removing the expansion elements ( 12 ) the lap joint d it plastic jacket ( 5 ) z. B. is finally sealed by welding. 2. The method according to claim 1, characterized in that the overlap joint before the installation of the plastic jacket ( 5 ) mechanically, for. B. is secured by wire loops, gaping apart. 3. The method according to claim 1 or 2, characterized in that the lap joint before the installation of the plastic jacket ( 5 ) provisionally, for. B. is sealed by adhesive tape. 4. The method according to any one of claims 1 to 3, characterized in that rings are used as spreading elements ( 12 ) which are installed one after the other in the course of lowering the mandrel ( 2 ). 5. Spreading element for performing the method according to any one of claims 1 to 4, characterized by an adapted in shape to the inner cross section of the hollow body open ring ( 13 ) which is variable in circumference by means of an expansion member arranged between its ends. 6. Spreading element according to claim 5, characterized in that a spindle ( 16 ) is provided as the expansion member. 7. Spreading element according to claim 6, characterized in that the spindle ( 16 ) at the ends ( 14 , 15 ) of the ring ( 13 ) is articulated.