DE10000434C2 - quill - Google Patents

Description

The present invention relates to a pen made of metal, with a Free end tapered spring body and a spring tip, the spring body essentially by rolling, punching and pressing or bending one metallic strip material is formed.

Nibs for fountain pens are well known in practice. there in a simple embodiment, it is pen nibs steel in which the spring tip is formed as an integral part. The feather tip is usually slotted to a center hole. From DE-GM 17 47 344 nibs are known which taper towards the free end of the spring body and various slot shapes to achieve special elasticity sen.

Furthermore, it is known to be made of spring steel or gold or a gold alloy manufactured nibs with a special nib, the Pen tip is welded on. The spring tip usually consists of a Metal alloy containing osmium, iridium and / or ruthenium and is in shape small balls provided, these balls by resistance welding be attached to the front of the spring body. Then the feather is slit, honed and usually also polished. DE-PS 975 050 describes this Background a corrosion-resistant, naturally hard and abrasion-resistant alloy Zirconium and / or titanium base, for the manufacture of feather tips. US 205 13 37 in this context generally mentions precious metals as excellent suitable materials for the production of spring bodies. In particular, the US 186 99 50 the use of platinum for coating a pen.

Especially in the area of fine writing instruments, including in the area of fine fountain pens efforts are made to convey the value character of the writing instrument turn. In this respect, a gold alloy is often used to manufacture the nib used. The formation of alloys is particularly problematic since gold is inherently extremely ductile and actually acts as a spring material - with the required mechanical properties - not suitable. Besides, gold is just we little abrasion-resistant, so that besides an irreversible deformation there is also the danger increased wear occurs.

The present invention is therefore based on the object of a pen Generic type to develop and develop such that they have a high Resistance to irreversible deformations and therefore little wear having.

The above task is ge by the features of claim 1 solves. Thereafter, a generic pen is characterized in that the spring body is made of a platinum or titanium-nickel alloy, the Alloy includes nickel with a nickel content between 4 and 20 wt .-%.

According to the invention, it has been recognized that high resistance to irreversible Avoid sensitive deformations and wear and tear that you can use a platinum or titanium nickel alloy to make the writing feather used. The mechanical properties of a are also suitable Platinum or titanium-nickel alloy especially for the production of a pen the, regardless of the specific design of the pen. In Ver just like gold, the platinum or titanium-nickel alloy is essentially resistant to abrasion ger and also has better "spring properties". According to the invention is the material used to manufacture the nib an alloy with nickel, the nickel content being between 4 and 20% by weight wearing.

In concrete terms, a platinum or titanium-nickel alloy could advantageously be used Use 10 to 20 wt .-% nickel, with a nickel content of 10 wt .-% as has highlighted particularly suitable.

Furthermore, it is advantageous that a band is used to manufacture the spring body material from the above materials is used, which a Has an initial thickness of about 0.5 mm. The strip material is deformed by rolling, the deformation taking place in such a way that the spring tip is thicker than the spring body towards the shaft end. Sufficient mechanical properties are there guaranteed by, a cold hardening of the mate by the rolling process rials and thus an increase in the yield strength.  

It has already been mentioned at the beginning that the spring tip is an integral part of the Can be spring body. Such configurations are particularly in the case of steel springs known. With the classic use of a gefer made of gold or gold alloy The spring is usually the tip of the spring by resistance welding with the Fe the body connected, the spring tip made of a special metal alloy consists. This nib is initially made spherical and connected to the spring body by resistance welding.

The alloys of the spring body and are very particularly advantageous the spring tip - consisting of platinum or titanium-nickel alloys - in such a way coordinated with each other that during resistance welding in the boundary layer forms an adhesion-promoting alloy. Binary and ternary sy systems arise, whereby when selecting the alloys the corresponding additions status diagrams can be consulted. In any case, make sure that the Wi resistance welding a sufficient boundary layer for sufficient adhesion arises between the spring tip and the spring body, namely by special Selection of the alloys on the one hand the spring body and on the other hand the spring top. Given the material of the spring tip, the alloy of the spring can be modify body to favor the formation of the appropriate boundary layer gene.

There are now several ways to teach the present invention advantageous to design and develop. On the one hand, this is based on the claims subordinate to claim 1, on the other hand to the successor Explanation of an embodiment of the invention with reference to the drawing to refer to. In conjunction with the explanation of the preferred embodiment example of the invention with reference to the drawings will also be in general preferred refinements and developments of teaching explained. In the drawing shows

Fig. 1 in a plan view an embodiment of an inventive platinum-nickel spring,

Fig. 2 shows the object of Fig. 1 in a side view

Fig. 3 shows the object of Fig. 1 in section along the line AA and

Fig. 4 is a plan view of a platinum-nickel spring board which has been punched out of a strip material.

Figs. 1 to 3 show an embodiment of the invention, the Schreibfe that the tip 2 includes a tapering down towards the free end the spring body 1 and a Fe. The spring tip 2 is welded to the spring body 1 and slotted from the tip to a center hole 3 . The ink required for writing passes from the center hole 3 via capillary action to the nib 2 .

Fig. 3 shows particularly clearly that the pen or the spring body 1 is designed ge arched, namely in adaptation to the front region of the ink guide system of a fountain pen, not shown.

Fig. 4 shows a platinum-nickel spring plate, namely the spring body 1 after punching out the strip material consisting of a platinum-nickel alloy. To bring the board into the shape shown in FIGS. 1 to 3, the spring body 1 is pressed or shaped with the aid of a bending punch and die. Thereafter, the spring tip, not shown in FIG. 4, is attached by resistance welding as shown in FIGS. 1 and 3.

Finally, it should be particularly pointed out that this is about the very special material selection in the manufacture of the nib or the spring body 1 . In this respect, the platinum or titanium-nickel alloys are particularly suitable for the production of the spring body 1 , conventional spring tips - consisting of metal alloys containing osmium, iridium and ruthenium - being used. For better adhesion between the spring tip 2 and the Fe derkörper 1 , the platinum or titanium-nickel alloys can be adjusted by modifying their alloy components.

Claims (4)

1. nib made of metal, with a tapered towards the free end of the spring body ( 1 ) and a spring tip ( 2 ), the spring body ( 1 ) being formed in wesentli chen by rolling, punching and pressing or bending a metallic strip material, thereby characterized in that the spring body ( 1 ) is made of a platinum alloy or a titanium alloy, the alloy comprising nickel with a nickel content between 4 and 20% by weight. 2. Pen according to claim 1, characterized in that the nickel part is 10 wt .-%. 3. nib according to claim 1 or 2, characterized in that the Tape material has an initial thickness of about 0.5 mm. 4. Nib according to one of claims 1 to 3, characterized in that the strip material is rolled such that the spring tip ( 2 ) is thicker than the spring body ( 1 ) towards the shaft end.