GB2264065A - Fencing blade - Google Patents

Abstract

A fencing blade comprises a substantially planar elongate strip having at least a portion thereof shaped to be nonplanar in cross-section. In a preferred embodiment of the invention, a foil or sabre type blade is made from a planar, tapering, elongate steel billet pressed into a 'U' or 'V' shape along substantially two thirds of its length, the deformation being greater and more pronounced towards the handle end and becoming less so toward the tip end, the remaining one third of the blade being left flat. The complete blade may be formed of separate tang/shoulder and blade sections, which may be releasably or permanently connected together. <IMAGE>

Description

FENCING BLADE The present invention relates to the field of fencing blades, and in particular to improvements in blades used in the sport of fencing.

Prior art fencing blades are forged down from a single piece large diameter billet and are manufactured to ensure a degree of stiffness along their length between predetermined minimum and maximum limits.

A typical prior art fencing blade used in the sport of fencing has a handle end (the tang) formed into a 6mm diameter round section followed by a short square section approximately 6.25mm x 6.25mm. The tang is machined to take a hand guard, a handle and a nut or pommel that holds these parts onto the tang. The square part of the tang is formed to become a shoulder against which the guard is locked. The shoulder region is approximately lOOmm2in square cross-section nearest the tang and, over a distance of generally between 30 and lOOmm, tapers down to a cross-sectional area of approximately 36mm2. Then begins the working part of the blade, which tapers down to the tip to a crosssectional area of between 7mm2 and 12mm2. This basic layout is common to all three types of blades presently used for fencing, namely pees, foils and sabres.Terms commonly used to identify areas of the blade are, starting from the handle end, Tang (soie), Shoulder (talon), Strong (forte), Middle (moyenne), Weak (foible) and Tip (point).

As mentioned above, prior art fencing blades are made from single piece billets which are machined or worked to provide tang, shoulder and working part.

However, even starting from a tapered billet, considerable wastage may occur in shaping the blade such that the cross-sectional area along the length of the blade reduces from shoulder to tip at the required rate and is of the required form. The different types of prior art blade each have a different cross-sectional form. The prior art method of manufacture is both timeconsuming and requiring of skilled workmanship. Thus, prior art blades are relatively expensive to produce.

It is therefore desired to provide an improved design of blade being both quick and easy to manufacture. Further, a blade having similar characteristics to prior art blades in respect of meeting all of the imposed rigidity requirements is sought.

According to the present invention there is provided a blade, particularly for fencing, comprising a substantially planar elongate strip having at least a portion thereof shaped to be non-planar in crosssection.

Calculation and experimentation has shown that, surprisingly, a blade can be made from a substantially flat or planar blank bent along part, parts or all of its length, thereby increasing the rigidity of at least a portion of the blade compared with its flat (unformed) state. In particular, a fencing blade may be made which satisfies all of the technical requirements, regarding length, weight, rigidity and the like, from time to time in force in respect of blades used in the sport of fencing. Factors affecting the characteristics of a blade are the thickness of the blank, the material used, the width and the amount and shape of deformation.

In the simplest, preferred, form of the invention, the blank is of substantially constant thickness. The blank may be cut from a flat or planar sheet or strip of suitable material or made by any other suitable technique. The thickness of the blank remains substantially constant after shaping, but the profile of the blank or blade is altered to increase rigidity over a selected portion thereof.

A blade according to this invention has many advantages. Firstly, the blade is easier and less expensive to manufacture than those of the prior art ,and with less wastage. Secondly, the blade is lighter.

Thirdly, the blade is less stressed for a given bend than a prior art type blade, thus lasting longer before failure. Other advantages of the present invention will become apparent from the remaining description.

Preferably, the flat blank is shaped, for example by being forged, pressed into a mould or other suitable technique, such that at least a portion thereof is curved, 'V'-shaped, 'U'-shaped, dished, ridged or angled in cross-section, or any other suitable shape. In particular, a simple 'U' or 'V' shape along some or all of the blade, preferably becoming gradually less pronounced from the handle end of the blade to towards the tip end, produces a satisfactory blade. The shaping may be constant over a particular portion or may vary according to design along the length of the blade.

Complicated geometries may be used but such tend to be more difficult to design and form.

In a first particular embodiment, an entire blade is made from a single substantially planar blank, wherein the tang and shoulder region are formed by folding and pressing a portion of the blank and the working part of the blade is shaped to have at least one non-planar section.

In a second embodiment, a complete blade is formed from two separately manufactured parts. A tang, shoulder and shoulder region (forte) are formed, for example by casting or drop forging and subsequent machining, as one section. The shoulder region (forte) is designed to receive a separately manufactured blade portion formed by shaping a flat blank. The joint may be readily separable to allow an alternative or replacement blade to be fitted to the shoulder region, for example using screws or a nut and bolt arrangement, or may be permanent, for example by braising, welding or gluing.

Preferably, a blank having linearly tapering sides is used. However, a blank with curved or nonlinear edges may equally be used. The advantage of nonlinearly tapering edges being that the change in the degree of flexibility of the blade along its length may vary non-linearly and thus, if desired, allow greater design freedom in producing a blade with desired characteristics. Such a non-linearly tapering blank is formed by, for example, punching or laser cutting a blank from a flat sheet.

A variety of materials may be used to form a suitable blade. In addition to conventional carbon steels, a blade may be made from Maraging steel, composite steel such as Paul steel, or any other suitable material, including plastics material or composite sheet. A suitable composite sheet consists of two metal outer layers of, for example, Maraging steel, aluminium or titanium, and a central layer of a plastics material, for example a prepregnated plastic fibre such as carbon fibre. After cutting and forming, the composite may be finished by heat setting the plastics material layer if required, or by leaving such to cure.

It is further possible to adapt a blade according to the present invention for use as an 'electric' blade, by attachment of a wire or wires to the working part of the blade. A gap is left between the tang and the working part of the blade such that the wire or wires can be brought out at the tang.

A preferred embodiment of the present invention will now be described with reference to the accompanying drawings in which: Fig. 1 is a plan view of a prior art blade; Fig. 2 is a cross-sectional view of various points along the blade of Fig. 1; Fig. 3 is a plan view of an unformed blank used in a preferred embodiment of the present invention; Fig. 4 is a side view of the blank of Fig. 3; Fig. 5 is a plan view of a blade in accordance with a preferred embodiment of the present invention; Fig. 6 is a side view of the blade of Fig. 5; Fig. 7 is a cross-sectional view of the marked points along the blade of Fig. 5; Fig. 8 is a plan view of an alternate preferred embodiment of the present invention; Fig. 9 is a side view of the blade of Fig. 8;and Fig. 10 is a cross-sectional view of the marked points along the blade of Fig. 8.

With reference to Figs. 1 and 2 of the drawings, a prior art fencing blade 1 is shown, this blade being forged in the traditional manner from a single billet to form the tang 2, shoulder 3, shoulder region (forte) 4, working part of the blade 5 and tip portion 6.

With reference to Figs. 3 to 10 of the drawings, it can be seen that the preferred embodiments of the present invention differ significantly from the prior art type blade.

A plan and side view of a suitably profiled blank 30 as may be used in the preferred embodiments of the present invention is shown in Figs. 3 and 4 of the drawings. This blank is cut on a guillotine from a constant thickness sheet.

Referring now to Figs. 5, 6 and 7 of the drawings, a blade 10 having characteristics similar to prior art types known as 'Sabre' and 'Foil' blades is shown. The working portion 11 of the blade 10 is formed from a linearly tapered blank of the type shown in Figs.

3 and 4. The blank is cut from 2.3mm sheet maraging steel such as RVRH 32 grade. Alternatively, carbon steel such as EN45, EN47 or EN19 grade may be used. The blank is 850mm long, 4.2mm by 2.3mm at one end and 12mm by 2.3mm at the other end.

The blank is forged or pressed until the first approximately 630mm, i.e. the first two thirds starting at the widest end, is shaped into a shallow 'U'-shape.

The radius of curvature at the widest end 15 is approximately 2mm and becomes progressively less pronounced down to about 1.5mm two thirds of the way along the blank. The remaining third of the blank, about 230mm, is left flat and unformed. The tip 12 is blunted, and the working part 11 fixed by its widest (handle) end 15 to the shoulder region 14 of a separate tang, shoulder and shoulder region section 13 by braising. In this embodiment, the working part 11 is fitted into the cupped shoulder region 14. A guard, handle grip, and pommel (not shown) may be fitted in order to form a complete weapon.

A blade 20 having similar characteristics to a prior art tepee type blade is shown in Figs. 8, 9 and 10.

The working part 21 of the blade 20 is made by shaping substantially the entire length of a linearly tapering blank into a shallow 'U' or 'V'-shape.

The requirements for an tepee type blade are best achieved by using a starting blank between 1.2mm and 1.4mm thick, tapering from substantially 20mm in width at one end to 6.5mm at the other. The blank used is substantially as the blank 30 shown in Figs. 3 and 4.

The best material is again maraging steel such as RVRH 32 grade, though carbon steels may be used. The blank is shaped to have a cross-sectional radius of curvature of substantially 1.5mm toward the tip end 22, e.g. cross sections DD and EE of Fig. 10, becoming more 'V'-shaped where the working part 21 and the shoulder region 24 of the blade are joined at CC.

In this embodiment, the working part 21 of the blade fits over the shoulder region 24. The separate tang, shoulder and shoulder region 23 is drop forged or cast and machined. For a permanent joint, the two parts are braised together. For a releaseable joint, a hole (not shown) is drilled through the working part and the shoulder region, for example at CC, and a nut and bolt arrangement (not shown) used to secure these two parts together.

Claims (10)

1. A fencing blade comprising a substantially planar elongate strip having at least a portion thereof shaped to be non-planar in cross-section.

2. A blade as claimed in claim 1 wherein the portion of the blade which is non-planar in crosssection is angled, curved, dished, ridged, 'U'-shaped, 'V'-shaped, or any combination thereof.

3. A blade as claimed in claim 2, wherein the blade further comprises a separate tang and shoulder region, and wherein the shoulder region is shaped to secureably receive one end of the elongate strip.

4. A blade as claimed in claim 3, further comprising securing means for releaseably securing the elongate strip to the shoulder region.

5. A blade as claimed in any preceding claim, wherein the elongate strip is of uniform thickness along substantially its entire length.

6. A blade as claimed in claim 5, wherein the elongate strip tapers in width along its substantive length.

7. A blade as claimed in claim 6, wherein the elongate strip is shaped to be cross-sectionally nonplanar along substantially its entire length.

8. A blade as claimed in claim 6, wherein the elongate strip is shaped to be cross-sectionally nonplanar along substantially two thirds of its length.

9. A fencing blade comprising two main parts in which an integral tang and shoulder region (forte) is one part and a blade formed from a billet consisting of an elongate tapered strip cut from a sheet or strip of constant thickness is the other part, wherein the blade is shaped to be dished, 'U'-shaped or 'V'-shaped or otherwise non planar in cross section for at least a portion of its working length.

10. A blade substantially as hereinbefore described, with reference to Figs. 3 to 10 of the accompanying drawings.