The present invention relates to a pen part and may in particular apply to the formation of at least one part of a pen from among a cap and a pen body. It also relates to a method for manufacturing such a pen part.
The term “pen”, short for writing pen, in the present application means an accessory for writing in the broad sense. The invention thus covers in particular ballpoint pens, ink pens, felt pens or graphite pencils.
There exists a very wide range of pens available on the market. In particular, the prices and qualities of pens are especially variable. With the most luxury pens, they generally comprise a body on which the writing tip is situated and a cap attached to the body so as to close the pen.
Such pens are in general in the form of a main elongate element that can be assimilated geometrically to a tube, for example made from plastics or metal material. An end piece is normally attached to the distal end of this elongate element so as to cap the body of the pen. At the opposite end, a head is generally attached, a head at the end of which the writing tip projects. This assembly is hollow so as to receive all or part of the writing means and in particular a cartridge connected to the writing tip. In the context of a graphite pencil, the hollow part may serve to store a plurality of leads.
The parts indicated above are assembled and generally the elongate tube and the head are screwed together. A cap may be attached according to circumstances and itself have an internal cavity allowing part of the body of the pen to pass from the writing tip and protecting it.
Despite the very wide diversity of appearances that current pens have, it turns out that they generally always meet the design indicated above. In such a context, it is to difficult to produce novel aesthetic effects in relation to those already known.
Furthermore, the tubular design of the pen bodies and caps generally limits the methods that can be used for manufacture thereof and the materials that can be used.
One object of the present invention is to solve all or some of the drawbacks of the techniques known up to the present time.
A first aspect of embodiments of the invention relates to a pen part comprising a hollow tube having an external surface and further having an internal wall which delimits a cavity. Advantageously, it is characterised wherein the hollow tube comprises a stone sleeve an external surface thereof forms at least partially the external surface of the hollow tube, and a lining element an external surface thereof is applied to an internal surface of the sleeve.
Another aspect of the invention is a pen comprising at least one pen part according to the invention.
Another aspect of embodiments of the invention relates to a manufacturing method comprising a step for forming the hollow tube, characterised in that the step of forming the hollow tube comprises, preferably successively:
Other features, aims and advantages of the present invention will emerge from a reading of the following detailed description and with regard to the accompanying drawings given by way of non-limitative examples, and wherein:
Before going into details of embodiments of the invention, in particular to the illustrated references of the figures, various options are introduced below, either individually, or in all combinations thereof:
One aspect of the invention relates to a pen part. This pen part may for example take to the form of a cap as illustrated in
In an example embodiment, a pen is formed by the combination of such a body 1 and such a cap 2, although this is not limitative.
In the example shown in
As indicated previously, the invention does not make any assumption about the writing technology used. The example shown with a tip, of the ballpoint tip type, and a cartridge 6 is therefore purely indicative. According to one aspect of the invention, the internal cavity defined in the body 1 and allowing for example the housing of a cartridge 6, an ink reservoir or leads may be defined at least partly by a hollow tube which, in the illustration, is in the form of a hollow cylindrical portion. According to the invention, at least part of this hollow tube is produced from a mineral material consisting of stone.
The invention does not make any assumption as to the nature of the stone that can be used according to the present invention, but it is obvious that the visual aspects can be varied according to the type of stone used.
Thus the hollow tube of the invention comprises a sleeve 8 produced from stone and, as presented by
By way of illustration, it should be noted that the stone sleeve 8 may be a cylinder with circular internal and/or external cross section and the thickness of which is substantially equal to 2 mm. A stone casing can thus be formed that is both strong and sufficiently thin not to excessively increase the weight of the pen. With regard to the lining element 9, it can be produced from a cylindrical element with a circular internal and/or external cross section and/or with a thickness preferably less than 1 mm and advantageously less than 0.5 mm.
The assembly thus formed is, as indicated previously, coherent and interdependent. The lining element 9 can be held in contact with the sleeve 8 by force fitting with a slightly tight fit. Alternatively or additionally, additional fastening means may be provided, for example by means of adhesive bonding.
The hollow tube thus made forms a part that can serve for manual gripping by a user. This part cooperates with other members of the body 1 of the pen. Thus, in the example in
At the other end, the tube cooperates, in the example illustrated, with a coupling 10 that can itself be secured to the tube by means of the lining element 9 at a front assembly zone 12 by means of which the lining element 9 and the coupling 10 cooperate as before by screwing or by adhesive bonding.
In the example, the coupling 10 cooperates itself opposite to its connection with the front assembly zone 12 with as head 11 constituting here a tapered part leading towards the tip of the pen and at which generally the ends of the fingers of the user are applied. In this assembly, a cavity is present so as to enable a writing means to be housed, for example a cartridge 6. At the end of the head 11, an emerging passage enables the writing tip 7 to emerge from the writing means.
The invention may be in various external forms and the example illustrated is therefore purely indicative. However, it is possible for the head 11 to have an elongate cylindrical shape with an outside diameter less than that of the sleeve 8. The coupling 10 may for example make it possible to accommodate this difference in diameter and to have a conical connection portion.
The case thus described presents a pen part in the form of a body 1 incorporating the cooperation of a stone sleeve and a lining element.
As before, a sleeve 15 is formed from stone and cooperates with a lining element 16. The descriptive elements given for the example embodiment in
As in the previous case, the sleeve 15 is preferably entirely lined over its internal wall by the lining element 16 that is applied that is applied thereto.
This time, this portion producing a hollow tube cooperates with two other members at its ends. At a distal end, the tube thus formed is covered by an end piece 17 constituting a top plug at which a clip 18 may be formed conventionally. As before, a rear assembly zone 23 affords connection between the lining element 9 and the cover 17, for example by adhesive bonding or screwing. At the other end of the tube, a bottom finishing part may be produced in the form of a connector 19 that may itself be secured, for example by adhesive bonding or screwing, at a front assembly zone 22 with the lining element 9. The connector part 19 comprises a through hole making it possible to access an internal cavity 21 defined by the tube inside the internal surface of the lining element 16. As before, the composite design of the tube composed by a stone element and a lining element makes it possible to employ materials with a relatively high density (for example stone) with reasonable thicknesses so as to limit the weight of this part.
One of the aspects of the invention is the mechanical strength offered by the lining element 9 and the sleeve 8. Furthermore, the lining element 9 may be produced from metal material, which makes it possible to obtain as final surface state of the internal surface of the assembly that is generally of better quality that the surface state that can be obtained for stone worked with reasonable cost and risk of breakage. Thus the internal cavity delimited by the tube formed by the association of the lining element 9 and the sleeve 8 is superior to what would be obtained with a sleeve made from stone alone.
In this following context an example is given of a manufacturing method that can be used for producing such a part. An important step in the manufacture of the pen part is the production of the tube formed by the sleeve 8 and the lining element 9. To achieve this, one possibility consists of starting from a block of stone and producing therein a central through hole, for example with a hollow cylindrical shape. This passage may preferably be produced using a working technique at high pressure (generally at least 4000 bar) wherein a water jet and abrasive elements are applied to the block to be worked so as to produce accelerated erosion of the latter, affording piercing of the stone block. It is thus possible to produce an internal passage constituting the final internal surface of the sleeve 8. Preferably also working of the external surface of the stone block is carried out so as to form a—non-finished—external surface of the sleeve 8, preferably by water jet and abrasive elements also. Once at least the piercing of the internal surface of the sleeve 8 has been carried out, the lining element 9 is applied to said internal surface. The lining element 9 is for example a hollow metal tube, for example made from brass, advantageously made to measure. This assembly may take place with adhesive bonding or be simply carried out by force fitting, the relative dimensions of the passage in the stone block and the cylinder of the lining element being configured so as to allow a slightly tight fit in this case.
At this step, a block of stone is obtained having a central passage. It is then possible to proceed with the final formation of the external surface of the sleeve 8 up until then only smoothed by a finishing working of the outside of the stone block. We thus obtain a hollow mineral cylinder reinforced by a metal lining element 9.
The external finishing working of the sleeve (precise diameter and polishing) is preferably produced by means of the use of diamond tools that will be directly applied to the rotating sleeve, the rotation axis being provided by the lining element 9.
During at least some of these steps applied to the outside of the stone block, it is advantageous to use the lining element 9 as a reference element in the finishing machine. This is because, by virtue of the lining element 9, the invention has a stable reference element, the geometric tolerances and the surface state of which are high in order to allow cooperation, for example, with a fixing device of a finishing machine comprising a centring member around which the lining element 9 can be fixed. The external finishing is therefore indeed carried out in correspondence with the internal surface of the lining element.
At the end of these steps, a hollow tube is obtained wherein the sleeve 8 and the lining element 9 cooperate, with a surface state suitable both through the inside and the outside of the tube. Subsequent manufacturing phases may comprise the cuts at a right angle of the two ends of the mineral sleeves in order to coincide with the dimensions of the lining element 9.
The presence of screwing elements on the ends of the lining element 9 make it possible to cooperate with other members of the pen part in question, such as those indicated previously with reference to the covering pieces 17, connector 19, end piece 3 and coupling 10.
It should be noted that the potential final result is a tube formed from a stone sleeve 8 with a thickness of around 2 mm, and a length for example greater than 4 cm, which combats a consistent prejudice in the prior art according to which this type of working appears to be impossible using material such as stone.
Number | Date | Country | Kind |
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1552585 | Mar 2015 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/056675 | 3/24/2016 | WO | 00 |