DE3503779A1 - Measuring tape of fibre-reinforced plastic - Google Patents

Abstract

The invention relates to the scale of a measuring tape. The aim of the invention is to reduce measuring uncertainty occurring in use of the measuring tape under production conditions, while retaining in principle its advantageous properties in use. The object of the invention is to develop a measuring tape of fibre-reinforced plastic which has comparable strength parameters to measuring tapes of high-strength steel, has a drastically reduced weight and is distinguished by a linear temperature coefficient = 0. According to the invention this object is achieved by employing as reinforcing fibres with a proportion by volume of 10...75% carbon and/or aramid fibres of which the linear temperature coefficient parallel to the fibre longitudinal axis is negative, in such a way that their fibre orientation angle, referred to the longitudinal direction of the measuring tape, lies in the range of 0...90 DEG . The said fibres, in particular the preferred high-modular and high-strength carbon fibres, can in this case be used in special fibre laminates or with other fibre types, usually glass fibres, in mixed laminates.

Description

Measuring tape made of fiber-reinforced plastic

The invention relates to a flexible material measure in the form of a well-known measuring tape, whose graduation carrier is made of high-power laser-amplified Plast is made. It is irrelevant for the application of the invention whether the MaD embodiment actually through a classic division or modern electrically and / or optically scannable markings is formed.

The application of the invention is particularly useful when largely maintaining the advantages of the measuring tape (including high insensitivity against external influences, easy handling, low measurement effort, lower Maintenance requirement) the measurement uncertainty in comparison to conventional measuring tape measurements should be reduced significantly.

In addition to the long-proven measuring tapes made of steel and the measuring tapes made of various types of conventional textile fabrics, but only the lower ones Sufficient accuracy requirements, measuring tapes have been in use for some time of oriented glass fibers known CDD - AP 30 900). These measuring tapes have opposite Ribbons that have a fabric insert have the advantage of an extremely small Extensibility, since the glass threads extending in the longitudinal direction of the tape do not like in the fabric, they are undulated by weft threads, but are arranged in a perfectly straight line. The known glass fiber measuring tapes are designed so that the adjacent Glass threads on all sides with a spray or dip process Plastic jacket covered or on both sides with plastic films that are welded together are covered.

Despite the above The fiberglass measuring tapes achieved improvements Far from the favorable elongation values of the steel measuring tapes. Especially that for Plastwerkstoffe led to typical time- and load-dependent material behavior to the fact that these bands due to the relative large elongation error or the measurement uncertainty caused thereby practically not enforced to the extent hoped for to have. In addition, also with regard to measurements under production conditions occurring temperature errors compared to steel strips due to the differences in the length-temperature coefficient between the test object and the standard is partially sustainable Deterioration occurs.

Furthermore, DE-OS 29 50 580 a measuring tape from a tape-like Plastic layer known in which cut fibers, preferably glass or carbon fibers, be added as a filler to increase the tear strength; as proposed Asbestos or metal fibers can also be used for this. Otherwise take six in the transverse center of the measuring tape symmetrically arranged tension members made of analog Fiber materials account for the majority of the tensile stresses that occur during measurement on. The fibers used as filling material are introduced into the plastic layer in such a way that that they are preferred in this with locally approximately equal proportional distribution are arranged unaligned to the longitudinal direction of the band. Be independent of the fiber type so-called long-cut fibers, in which the ratio of length to diameter between 50: 4 and 150: 1 is used. The proposal according to DE-OS 29 50 580 is thus aimed at achieving a longitudinal tensile strength that is locally the same everywhere with a simultaneous increase in the transverse rigidity of the measuring tape. The one so strived for Improvement of the performance properties, namely the service life, of plastic measuring tapes however, leads to a serious increase in the measurement uncertainty as a result unknown expansion and temperature errors.

It is characteristic of the use of fiber-reinforced plastic that that excellent mechanical properties only if they are oriented in the direction of stress Fibers are provided. A load deviating therefrom consequently leads to a loss of properties; this affects the considerable proportion of fibers used as filler, whereby Considerable differences between individual bands are still to be expected here. As a result, and in particular due to the stresses that occur between tension members, Filling and matrix material that lead to an uncontrollable "achievement" lead, significant errors occur due to stretching of the tape. In parallel it leads the misaligned arrangement of the fibers used as filler means that the Long-term temperature coefficients even of similar bands scatter considerably and temperature errors occur as a result. In any case, the achievable depends The length-temperature coefficient of the plastic matrix increases the temperature error compared to measuring with a steel tape.

The object of the invention is to provide a measuring tape made of fiber-reinforced plastic to develop strength parameters that are comparable to measuring tapes made of high-strength steel has, has a drastically reduced mass and is characterized by a length-temperature coefficient «= 0. According to the invention this object is achieved in that with a Volume fraction of 10 ... 75% as reinforcing fibers carbon and / or aramid fibers, whose length-temperature coefficient is negative parallel to the longitudinal axis of the fiber, see above are used that their fiber orientation angle, based on the longitudinal direction of the measuring tape is in the range of 0 ... 900. The fibers mentioned, especially the preferred high-modulus and high-strength carbon fibers, can be used in special fiber laminates or for technological reasons or for protection against external mechanical influences used with other fiber types, mostly glass fibers, in so-called mixed laminates be. The well-known outstanding properties of carbon fibers under static and dynamic long-term loads are transferred to such mixed laminates, since they with their high modulus of elasticity compared to other fibers and especially compared to the Matrix material consisting of Bpoxld or polyester resin dominate.

The laminate structure according to the invention enables in in any case, with expert dimensioning, high specific strength values and the desired o (value of 0.

In the case of a miso laminate with the preferred total volume fraction From 50 ... 60 * these parameters become high-modulus with a mixture of approx. 30 ... 35% Carbon fibers and approx. 20 ... 25% glass fibers. Even more favorable strength values and also a 4 value of 0 for unidirectional laminates of a special fiber composite depending on the type of carbon or aramid fibers used with a fiber volume fraction achieved from about 20 ... 60 s; this structure is therefore necessary for the implementation of the Scale support according to the invention preferably used. There is a third possibility in the change in the fiber orientation or stress angle in the above. Limits. Such multilayer laminates with symmetrical ones are particularly suitable for this purpose Structure whose fiber orientation angle, based on the longitudinal direction of the measuring tape, in the individual layers is alternatively approx. + 450 or - 450.

The measuring tape according to the invention is thus independent of the detailed Structure of its plastmatrioes and structural details, inherent in that all reinforcement fibers of the pitch carrier are aligned and arranged tightly packed. The fibers will used in the form of rovings.

While with mixed laminates the sensitive carbon fibers through Predefined reinforcement material, mostly glass or iramid fibers against mechanical Protection from the outside, this is done with pure carbon fiber laminates by a special protective layer, which may also serve as the transverse reinforcement of the measuring tape is used. The protective layer is usually on both sides of the carbon fiber rovings and is extremely thin compared to this clay (overall 0.05 ... 0.3 laminate dioke).

For this purpose, glass fleece is preferably used, which is applied after the application is sanded to a minimum thickness; however, weft fiber-reinforced materials are also suitable Glass fabric or

Knitted fabrics, foils, plastic powders and varnishes. The measuring standard of the Measuring tape can be implicated in one or both protective layers. When using of glass fleece it is preferably in additionally applied foil, plastic powder or paint layers shown.

The advantage of the invention is that the application of the measuring tape under production conditions occurring measurement uncertainty with principle Retention of its advantageous use properties in a comparatively sustainable manner is decreased. In particular, it can be assumed in relation to steel measuring tapes that the error caused by the influence of temperature in the test of Components made of steel (half-life t = 5 h) due to the length-temperature coefficient # = O up to 20 * minimized and the error due to the sagging of the measuring tape due to its very good diet-related parameters can be reduced by about 95%; the possible Elongation errors would be about the same. The measurement uncertainty in the application of a measuring tape according to the invention (with otherwise the same design) under production conditions can consequently be reduced by around 50 * in the majority of applications will.

The invention is intended to follow on the basis of an exemplary embodiment are explained in more detail.

Fig. 1 shows as a cross section the schematic structure of the measuring tape; in Figure 2 the corresponding longitudinal section is shown in several planes.

The main component of the measuring tape according to the invention are in one Plastic matrix made of high-strength carbon fiber rovings embedded in epoxy resin 1. The Carbon fibers are dense packed and arranged unidirectionally; their proportion by volume in the entire plastic composite is approx. 60 *. The thermoset used Matrix is characterized by favorable adhesive properties and low shrinkage properties allows the highest possible fiber utilization.

The laminate is extremely thin on both sides due to glass fleece 2 covered, which in turn is coated by means of plastic powder so that an all-round wear-resistant protective layer is created. The plastic layer 3 is also very applied thinly so that the thickness s1 of the carbon fiber roving laminate 1 is very Much greater than the twofold sum of the thickness s2 (glass fleece) and s3 (plastic layer) is (s1 # 2s2 + 2s3).

Epoxy or acrylic resin is preferably used as the plastic powder.

Report on the result of the preliminary examination of novelty and the technical economist. Effectiveness like. GBL - SD 821 - To a), b): German-speaking LanderfondX DD DE CH G 01 B 1/00 109 917 2 844 066 not used 120 705 3 009 218 3/00 71 870 1 623 327 468 620 78 791 3 115 777 582 343 3/02 473 1 934 841 516 783 148 823 2 515 574 579 260 3/04 103 320 2 019 452 492 949 150 248 2 259 895 758 564 3/06 5 396 1 162 142 494 390 2 2 449 877 570 601 3/08 22 273 1 773 369 467 992 117 114 2 549 355 528 062 3/10 136 535 1 302 777 476 975 - 3 043 367 552 191 foreign language speakers Länlerfonds SU US FR GB G 01 B 3/00 257 764 not used not used 1 109 633 515 027 1 458 352 3/02 300 739 3 473 235 2 223 659 1 101 952 372 422 3 979 833 2 303 265 1 451 072 3/04 320 700 3 419 962 2 277 323 1 097 177 345 340 3 896 554 - 1 437 540 3/06 294 067 3 431 653 2 126 551 1 162 034 318 245 3 934 351 2 220 770 1 288 054 3/08 262 398 3 526 040 2 183 690 1 113 091 422 940 3 818 598 2 233 595 1 456 520 3/10 326 432 3 967 383 2 177 845 1 071 895 380 938 3 430 348 2 303 266 1 435 477 EP WO G 01 B 3/00 35 651 81/01740 71 739 3/02 not used not used 3/04 11 548 not used 3/06 not used not used 3/08 13 683 not used 3/10 9 823 87 497 83/00215 Re c): - Eunststoffrundschau, born in 1970 - 2/84 - VDI magazine 1962 - 9/84 - Kunststoffe 1970 - 76 - DRiXT specialist magazine 1970 - 2/84 - MICROTECNIC 1970 - 1983 - PLASTICS CONSULTANT 1970 - 76 - plastics and Rubber 1970 - 9/84 - Measurement technology 1970 - 83 - Technical measurement archive 1968 - 6/84 - Feingeräteteohnik 1970 - 11/84 To d): Except for those in the description of the invention The technical solutions shown are not measuring tapes made of high-performance fiber-reinforced Plast known that come close to the proposed solution. The one here and the one in the The solutions mentioned in the description thus include the known current status of the relevant Device developments.

Re e): The invention relates to the graduation carrier of a measuring tape, that either carries a classic line division or its tEßverbodung through modern electrically and / or optically scannable markings is formed.

To f): The invention makes a direct contribution to the urgent necessary further development for hand-held measuring devices for long lengths that are rough under Production conditions are applied. It supports in particular the Efforts to reduce uncertainties when measuring with measuring tapes; she is a direct contribution to the consistent implementation of the Austaisohbaues in Area of great lengths.

The invention is currently carried out in a laboratory and under production conditions tried.

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Claims (3)

Patent claims 1. Measuring tape made of fiber-reinforced plastic, marked in that carbon and / or aramid fibers are used as reinforcing fibers are whose orientation angle, based on the longitudinal direction of the measuring tape, im Range from 0 ... 900, the volume fraction of this grain is 10 ... 75% and its length-temperature coefficient is negative parallel to the longitudinal axis of the fiber. 2. Measuring tape according to claim 1, characterized in that the reinforcing fibers on one or both sides with a protective layer made of glass fleece, weft-reinforced Glass fabric or stitched fabric and / or film, plastic powder or lacquer are covered, the total thickness of which is 0.05 ... 0.3 laminate thickness. 3. measuring tape naoh claim 1 and 2, characterized in that the Material measure of the measuring tape in one or both Sohutzsohichten is implied.