EP2790887A1

EP2790887A1 - Winding method for the production of a rotationally symmetric, tube-like hollow body preform, device and method for the production of a device for producing same

Info

Publication number: EP2790887A1
Application number: EP12809189.9A
Authority: EP
Inventors: Thomas Seufert; Ingo Bork
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2011-12-16
Filing date: 2012-12-13
Publication date: 2014-10-22
Also published as: JP2015505753A; US20140352873A1; DE102011121987A1; WO2013087775A1

Abstract

Winding method for the production of a rotationally symmetric, tube-like hollow body preform, device (10) for the production of a rotationally symmetric, tube-like hollow body preform and a method for the production of a device for producing a rotationally symmetric, tube-like hollow body preform, wherein reinforcing fibres soaked with a resin are wound in a winding process on a rotatably driven winding core (1) having an outside diameter corresponding to the inside diameter of the hollow body preform and wherein the hollow body preform is removed from the winding core after a subsequent hardening of the hollow body preform by means of supplied heat. For the winding process and/or hardening of the hollow body preform, the outside diameter of the winding core corresponds to the inside diameter of the hollow body preform to be produced, wherein the outside diameter of the winding core is reduced to a smaller outside diameter for the removal of the hollow body preform from the winding core.

Description

Winding method for producing a rotationally symmetrical, tubular hollow body molding, apparatus for producing a rotationally symmetrical, tubular hollow body molding and method for producing a device for producing a rotationally symmetrical, tubular hollow body molding

description

The invention relates to a winding method for producing a rotationally symmetrical tubular Hohlkorperformlings, an apparatus for producing a rotationally symmetrical tubular Hohlkorperformlings and to a method for producing a device for producing a rotationally symmetrical tubular hollow body molding, wherein impregnated with a resin reinforcing fibers in a winding operation a rotatably driven winding core are wound whose outer diameter corresponds to the inner diameter of the Hohlkörperform- lings and wherein after a subsequent hardening of the hollow body molding by means of heat supply of the hollow body molding is withdrawn from the winding core.

With such winding methods, an inner diameter of the hollow body molding automatically sets after curing of the hollow body molding. This is directly influenced by the curing temperature, the laminate structure of the hollow body molding, the thermal expansion of the winding core, fiber and matrix material, matrix shrinkage and so on. As a result, an inner diameter of the hollow body molding can not be produced or is very difficult to produce within close tolerances (for example H6). A special adaptation of the winding core may have to be carried out after every change, e.g. in the laminate construction, fiber and matrix material or curing cycle.

The object of the invention is therefore a winding method for producing a rotationally symmetrical, tubular hollow body molding, an apparatus for producing a rotationally symmetrical, tubular hollow body molding and a method for producing a device for producing a rotationally symmetrical tubular hollow body molding, by means of which hollow bodies can be produced in a simple manner, which can be produced reproducibly with an inner diameter with high tolerance accuracy.

This object is achieved in a winding method for producing a rotationally symmetrical, tubular hollow body molding, wherein impregnated with a resin reinforcing fibers are wound in a winding operation on a rotatably driven winding core whose outer diameter corresponds to the inner diameter of the hollow body molding and wherein after a subsequent hardening of the hollow body molding by means of heat supply of the hollow body molding is deducted from the winding core, thereby achieved that the outer diameter of the winding core for winding and / or curing of the hollow body molding has a the inner diameter of the hollow body molding corresponding outer diameter which is reduced to remove the hollow body molding of the winding core to a smaller outer diameter.

This process makes demolding after curing easy and reliable.

Since the risk of damage to the outer surface of the winding core is low, the risk of damage to the inner surface of the hollow body is low, so that hollow body within close tolerances such. H6 can be reproducibly manufactured.

In addition, a long service life of the winding core is achieved, thereby

Downtimes for replacement of the hub are greatly reduced.

If the winding core has the smaller outer diameter for the winding process and is increased to harden to the outer diameter corresponding to the inner diameter of the hollow body molding to be produced, then according to Winding process and before hardening the reinforcing fibers stretched and thus introduced a favorable residual stress for a subsequent internal pressure load of the Hohlkörperform- lings. If the outer diameter corresponding to the inner diameter of the hollow body molding to be produced is regulated to a specific outer diameter during the process, then for example the thermal expansion of the in particular metallic winding core during the heat application during hardening can be taken into account.

This can, for example, depend on a particular one

Expander force curve to increase the outer diameter of the winding core done, which corresponds to the curing temperature. By widening the outer diameter of the winding core, the inner diameter of the hollow body molding can be set exactly, wherein this is slightly larger than the expected thermal expansion of the winding core.

After curing and cooling, a gap is created between the winding core and the hollow body molding, which can be used for easy demoulding.

The resulting gap is usually larger than in a conventional

Deformation process, so that the demolding is much easier and more reliable, extends the life of the winding core and the risk of damaging the inner surface of the hollow body molding is lower.

If a container or a hydraulic accumulator or a hydraulic cylinder or a pipe is produced by the winding process, these components receive a low weight at high load capacity. They can therefore be used advantageously in mobile hydraulics, as storage for vehicles with hydraulic drive and for hydraulic hybrid vehicles. With regard to an apparatus for producing a rotationally symmetrical, tubular hollow body molding, with a rotatably drivable winding core on the central region impregnated with resin reinforcing fibers are wound in a winding process to a hollow body molding, the object is achieved in that the winding core in the area to be wrapped by the reinforcing fibers is formed as a tube-like hollow body with an elastically deformable wall, the interior of which is filled with a hydraulic fluid and by applying a certain pressure in its outer diameter from a smaller outer ßendurchmesser to an inner diameter of the hollow body molding corresponding outer diameter corresponding expandable.

This can be done by pressurization or pressure relief in a simple manner, increasing or reducing the outer diameter of the winding core, which can be performed by the device, the aforementioned winding method and its advantages can be achieved.

By controlling the pressure in the filled with hydraulic fluid interior of the tubular hollow body of the winding core, the outer diameter of the winding core despite its thermal expansion during the heat treatment during curing can be kept constant and thus a high tolerance of the inner diameter of the hollow body molding can be reproduced.

For pressure supply, the winding core can have a feed line which leads from the outside to the interior of the tubular hollow body and via which the interior of the tubular hollow body can be pressurized, the feed line preferably extending coaxially through the winding core.

In an advantageous embodiment, the winding core has two winding pegs arranged coaxially with one another at a distance, the spacing between the winding pegs being enclosed by a winding tube forming the region to be wrapped around is, with its axial ends firmly and tightly connected to the mutually facing axial ends of the winding pins and whose interior forms the filled with hydraulic fluid interior. But the winding core may also have a one-piece winding pin, which is enclosed by a winding tube forming the region to be wrapped with a radial distance, wherein the annular space formed by the radial distance between the winding pin and the winding tube forms the interior filled with hydraulic fluid.

For good mold release, advantageously, the winding tube has a larger outer diameter than the axially adjoining areas of the winding pin or. The object is for a method for producing a device for producing a rotationally symmetrical, tubular hollow body molding, with a rotatably drivable winding core, impregnated on the central region with resin impregnated reinforcing fibers in a winding process to a hollow body molding and in its to be wrapped by the reinforcing fibers area as tubular hollow body is formed with an elastically deformable wall, the interior of which is filled with a hydraulic fluid and expandable by applying a certain pressure in its outer diameter of a smaller outer diameter to an outer diameter corresponding to the inner diameter of the hollow body molding produced, achieved in that the interior of the hollow body is subjected to a certain pressure and thereby the outer diameter of the region to be wrapped around the tubular hollow body by elastic deformation of its ela deformable wall is extended from a smaller outer diameter than the inner diameter of the hollow body molding to be produced to a larger outer diameter than the inner diameter of the hollow body molding to be produced and that while maintaining the pressurization, the radially encircling lateral surface of the tubular hollow body Body is reduced by material removal on a the inner diameter of the hollow body molding corresponding outer diameter.

This gives the winding core under the real conditions of use corresponding conditions and thus with high dimensional accuracy its larger outer diameter, which determines the inner diameter of the hollow body molding.

In production use, only an exact pressurization with the specific pressure has to take place in order to expand the elastically deformable wall of the winding core with high dimensional accuracy to the larger outer diameter.

Embodiments of the invention are illustrated in the drawings and will be described in more detail below. Show it

1 shows a first embodiment of a winding core in longitudinal section with a schematic representation of a pressure supply device and

2 shows a second embodiment of a winding core in longitudinal section.

The winding cores 1, 1 'shown in the figures are part of a winding device for carrying out a winding process for the production of hollow body moldings as fiber composite components. In this method, resin impregnated with a particular resin resin reinforcing fibers are wound on the about an axis of rotation 8 rotatably driven winding core.

The winding core 1 shown in FIG. 1 has two coaxial winding pins 2, 2 'arranged at a distance 3 from one another. At the radially peripheral lateral surfaces of the mutually facing end portions of the winding pins 2, 2 'are open to the mutually facing free ends open radially circumferential grooves 4, 4'. A winding tube 5 belonging to the winding core 1 is bridged into the grooves 4, 4 'so as to be tightly inserted in the grooves 4, 4, wherein the outer diameter of the winding tube is larger than the outer diameter of the winding pins 2, 2'.

Starting from the mutually facing end sides, coaxial base bores 6, 6 'are formed in the winding pins 2, 2', which together with the space 3 enclosed by the winding tube 5 form an interior space 7 filled with a hydraulic fluid.

From the outer end side, a feed line 9 leading to the inner space 7 is coaxially formed in the winding pin 2.

A pressure supply device 10 has a hydraulic pump 1 1, which sucks hydraulic fluid from a container 12 and via an electrically operable 2/2-way valve 13, a hydraulic quick coupling 15 with check valve 14 and a hydraulic rotary feedthrough 16 leads to the outwardly opening end of the supply line 9 and connected to this.

At the leading of the hydraulic pump 1 1 to the 2/2-way valve 13 portion of the supply line 9, an electrical pressure relief valve 17 is connected.

The interior space 7 acting hydraulic pressure, which may be, for example, in the order of 200 bar, when it is switched by the 2/2-way valve 13 is applied by the hydraulic pump 1 1 and adjusted by the pressure relief valve 17. The pressure limiting valve 17 and thus the pressure acting on the interior 7 can either be a pressure characteristic which is stored in an electronic unit, not shown, and which corresponds to the curing temperature, drive through or it can be used directly as a reference variable of the control by the pressure relief valve 7, the curing temperature.

The hydraulic quick coupling 15 serves to disconnect the winding core 1 possibly also under internal pressure from the pressure supply.

The winding core V illustrated in FIG. 2 has a rotationally symmetrical, in reality multi-part, winding pin 18, which in its region to be wrapped by the reinforcing fibers has a radially encircling annular groove 19 which is enclosed at a radial distance by a winding tube 20 belonging to the winding core 1 ' is.

About seals 21, the winding tube 20 is sealed at its axial ends relative to the bottom of the annular groove 19, whereby between the bottom of the annular groove 19 and the winding tube 20 is sealed to the outside, filled with a hydraulic fluid annulus 22 is formed.

From the one end side of the winding pin 18, a supply line 9 leads to the annular space 22, to which a pressure supply device 10 according to Figure 1 or a differently constructed pressure supply device can be connected.

According to FIG. 1, the annular space 22 can be pressurized by the pressure supply device and thereby the outer diameter of the winding tube 20 can be elastically expanded from a reduced outer diameter to a larger outer diameter corresponding to the inner diameter of the hollow body molding to be produced, and can also be regulated as a function of the curing temperature.

Claims

claims

1 . Winding method for producing a rotationally symmetrical, tubular hollow body molding, wherein impregnated with a resin reinforcing fibers are wound in a winding operation on a rotatably driven winding core whose outer diameter corresponds to the inner diameter of the hollow body molding and wherein after a subsequent hardening of the hollow body molding by means of heat supply of the hollow body molding of the winding core is deducted,

characterized,

the outer diameter of the winding core (1, 1 ') for the winding process and / or for hardening the hollow body molding has an outer diameter corresponding to the inner diameter of the hollow body molding to be produced, which is reduced to a smaller outer diameter by the winding core (1, 1') in order to remove the hollow body molding ,

2. Winding method according to claim 1, characterized in that the winding core (1, 1 ') for the winding process has the smaller outer diameter and is increased to hardening on the inner diameter of the hollow body molding corresponding outer diameter.

3. Winding method according to one of the preceding claims, characterized in that the inner diameter of the hollow body molding corresponding outer diameter during the process is regulated to a certain outer diameter.

4. Winding method according to one of the preceding claims, characterized in that by the winding method, a container or a hydraulic accumulator or a hydraulic cylinder or a pipe is produced.

Apparatus for producing a rotationally symmetrical tubular hollow body, with a rotatably drivable winding core, on the central region of which resin-impregnated reinforcing fibers can be wound in a winding process to form a hollow body molding, characterized in that the winding core (1, 1 ') in which of Reinforcing fibers to be wrapped area as a tubular hollow body (%, 20) is formed with an elastically deformable wall whose interior (7, 22) filled with a hydraulic fluid and by applying a certain pressure in its outer diameter of a smaller outer diameter to an inner diameter of produced hollow body molding corresponding outer diameter is expandable.

Apparatus according to claim 5, characterized in that the winding core (1, 1 ') has a feed line (9) which leads from the outside to the interior (7, 22) of the tubular hollow body and over which the interior (7, 22) of the tubular Hollow body is pressurizable.

Device according to one of claims 5 and 6, characterized in that the winding core (1) has two coaxially spaced winding pins (2, 2 '), wherein the distance (3) between the winding pins (2, 2') of a winding tube (5) forming the region to be wrapped is enclosed, which with its axial ends is firmly and tightly connected to the mutually facing axial ends of the winding pins (2, 2 ') and whose interior (7) occupies the interior (7) filled with hydraulic fluid ).

Device according to one of claims 5 and 6, characterized in that the winding core (1 ') has a winding pin (18) which is surrounded by a winding tube forming the region to be wrapped with a radial distance, which by the radial Distance formed annular space (22) between the winding pin (18) and the winding tube (20) forms the filled with hydraulic fluid interior.

9. Device according to one of claims 5 to 8, characterized in that the winding tube (5, 20) has a larger outer diameter than the axially adjoining areas of the or the winding pins (2, 2 ', 18).

10.A method for producing an apparatus for producing a rotationally symmetrical, tubular hollow body molding, with a rotatably drivable winding core, on the central region impregnated with resin reinforcing fibers can be wound in a winding process to form a hollow body molding and in his- of the reinforcing fibers to be wrapped area as a tube Hollow body is formed with an elastically deformable wall, the interior of which is filled with a hydraulic fluid and expandable by applying a certain pressure in its outer diameter from a smaller outer diameter to an outer diameter corresponding to the inner diameter of the hollow body to be produced,

characterized,

that the interior (7, 22) of the hollow body is subjected to a certain pressure and thereby the outer diameter of the region of the tubular hollow body to be wrapped by elastic deformation of its elastically deformable wall of a smaller outer diameter than the inner diameter of the hollow body molding to a larger outer diameter is extended as the inner diameter of the hollow body molding to be produced and that, while maintaining the pressurization, the radially encircling lateral surface of the tubular hollow body is reduced by material removal to an outer diameter corresponding to the inner diameter of the hollow body molding to be produced.