EP0891263B1 - Ink writing implement - Google Patents

Abstract

PCT No. PCT/EP97/01597 Sec. 371 Date May 18, 1998 Sec. 102(e) Date May 18, 1998 PCT Filed Apr. 1, 1997 PCT Pub. No. WO97/37860 PCT Pub. Date Oct. 16, 1997An ink writing implement having a writing tip, an ink reservoir and a housing component enclosing the ink reservoir, includes a molded, ink delivery unit having a plurality of disc-shaped walls, a plurality of ring-shaped pressure compensation chambers, a flat area, an ink feed channel formed by the flat area, and a parting plane extending through the flat area.

Description

The invention relates to an ink writing device according to Preamble of claim 1.

Such ink pens are well known (e.g. DE-A-1 461 628, DD-A-0 151 561). The annular pressure equalization chambers Shaped bodies having capillary dimensions of such Ink pens are injection molded in a jaw mold made which has two mold halves, each in Half of the form of sheet metal packages held from thin-walled sheet metal lamellae are, for example, have a thickness of 0.10 mm to 1.0 mm can. In addition, the laminated core is one of the mold halves an axially extending longitudinal plate provided in the peripheral region provided by the axially in the molded body to be produced running, capillary ink guide channel, approximately in the form of a Flattening (DE-A-3 429 031) is formed from which in operation Ink enters the annular pressure equalization chamber when Overpressure occurs inside the ink pen.

To be continuous over the entire circumference by means of the jaw shape Pressure equalization chambers of essentially constant width train so that a large volume for the intake of excess Ink is obtained, it is required that the individual sheets of the sheet packs of the two mold halves at Close the mold in alignment and not axially are offset from each other. Only when aligned achieved that an annular pressure equalization chamber continuous connection of essentially constant dimension of one side of the ink guide channel around the circumference of the shaped body to the other side of the ink guide channel. Such however, alignment is due to the large number of extremely thin-walled sheets of the sheet packs only with large Effort to achieve. Usually there is always a certain axial misalignment, so that the two belong together Sheets of the two mold halves when closing the jaw mold in the mold parting plane are slightly axially offset from each other. This then results in the molded part in the area of the parting plane a narrowing or even interruption of annular pressure compensation chambers and thus a reduction in the chamber volume, in in any case, an influence on the function.

It is also already known (WO 94/08798), the molded body of a Ink writing device made of two separately manufactured body elements put together, separating the two Elements runs through the ink guide channel, which is half of one part of the body and the other half of the other Partial body is formed.

The object of the invention is a writing instrument according to the preamble of claim 1 to improve in that without significant Manufacturing effort is achieved that the annular pressure compensation chambers of the molded body over practically their entire Circumference have a constant width.

To solve this problem, a writing instrument according to the preamble of claim 1 designed according to the invention such that the Shaped body to form the ink guide channel an axially extending Has flattening and that the mold parting plane extends through this flattening.

Deviating from the known structure of the shaped body of the writing instrument the mold parting plane lies in the writing instrument according to the invention not offset by 90 ° to the radii through the center of the Ink guide channel, but in the plane of such radii, the Ink guide channel formed by flattening the molded body becomes. The formation of the ink guide channel by flattening makes it possible in the mold halves to match the jaw shape radially inwardly projecting areas to be formed in the Close the jaw shape together and open the Cheek mold after performing the injection molding process and Do not hinder ejection of the molded article produced. The annular pressure equalization chambers are covered by sheets of Sheet packets formed in the mold halves, each of which one side of the flat to diametrically flat extend opposite side of the molded body, so that the Sheets of the two mold halves on this opposite side collide. If there is a certain axial offset of the Sheet metal results, so this does not reduce the volume of the annular pressure equalization chambers, even if this on the Flattening opposite side not at all with each other stay in contact. Since each mold half is a half forms such a pressure compensation chamber and each of these halves in connection with the flattening forming the ink guide channel stands, there is a connection of the entire pressure compensation chamber with the ink guide channel, without a possible Interruption in the course of the pressure compensation chamber at the Ink guide channel opposite side to a volume reduction would lead.

The flattening can be in the area of a formed in the molded body Partition wall that interrupts the annular spaces in the circumferential direction, the flattening being a width at least equal to that Thickness of the partition in its radially outer area has a sufficient connection between the ink guide and the to obtain annular pressure compensation chambers. Preferably the mold parting line runs through the middle of the partition and the middle of the flattening.

The areas of the disc-shaped areas opposite the flattening Walls of the molded body can form the air duct be flattened. The front end of the air duct can on one in connection with the ambient air standing annulus end.

In a particularly preferred embodiment, the Writing tip through an in an axial through hole of the Shaped body used wick or liquid guide educated.

Figur 1

zeigt im Schnitt ein Schreibgerät.

Figur 2

zeigt in einer Seitenansicht den Formkörper des Schreibgerätes aus Figur 1.

Figur 3

zeigt einen Schnitt entlang der Linie III-III aus Figur 2.

Figur 4

zeigt einen Schnitt entlang der Linie IV-IV aus Figur 2.

Figur 5

zeigt einen Schnitt entlang der Linie V-V aus Figur 2.

Figur 6

zeigt einen Schnitt entlang der Linie VI-VI aus Figur 2.

Figur 7

zeigt in einer Darstellung gemäß Figur 6 ein anderes Ausführungsbeispiel.

The invention is explained in more detail below with reference to figures showing an embodiment.

Figure 1

shows on average a writing instrument.

Figure 2

shows a side view of the molded body of the writing instrument of Figure 1.

Figure 3

shows a section along the line III-III of Figure 2.

Figure 4

shows a section along the line IV-IV of Figure 2.

Figure 5

shows a section along the line VV of Figure 2.

Figure 6

shows a section along the line VI-VI of Figure 2.

Figure 7

shows in a representation according to Figure 6 another embodiment.

The writing instrument shown has a protruding writing tip 1, the front end of a wick or liquid guide 2 is formed, which is in an axial through hole 4 of a molded body 3 to be described and protrudes at the rear end. At the front end is the wick or liquid guide 2 is jammed in the front Section 5 of the molded body 3 held. The molded body 3 is seated in a holder shaft 20, the rear closed end, in the protruding end of the wick or liquid body 2 protrudes with free writing fluid, preferably ink, which may also contain micro-color particles. This writing fluid is used in the usual way a wick body 2 through its capillary structures formed in the body from the rear end to the writing tip 1 and is at Use of a non-porous liquid guide body 2 in the surface of which has capillary channels to the writing tip 1 guided.

The molded body 3 has in the usual manner in the circumferential direction running circular pressure equalization chambers 13 capillary Dimension limited by lateral disk-shaped walls 12 are and their chamber width, as is also known, from behind increases forward.

The wall of the molded body 3, the axial through hole 4th for receiving the wick or liquid guide body 2, extends in the area of the annular pressure compensation chambers 13 radially forming an axially extending partition 9 outside up to one formed on the disk-shaped walls 12 Flattening 10, whereby, as can be seen in particular in FIG. 6 is, the partition 9 and the flat 10 in the center with respect to Level 25 lie and the flat 10 is wider than that Partition 9. The flat 10 forms together with the enveloping Holder shaft 20 has a capillary ink guide channel 11 (FIG 1), the axially from the rear flange 8 of the molded body to a lying in front of the annular pressure equalization chambers 13 disc-shaped wall 14, which may be the front Boundary wall of the front pressure compensation chamber can be. How can be easily recognized, the flattening 10 or that of the ink guide channel 11 formed together with the holder shaft 20 with all circumferential annular pressure equalization chambers 13 connected, on both sides of the Partition 9. The rest of the flange 8, as in Figure 6 indicated, at a depth corresponding to the flattening 10 and in Circumferential direction interrupted over half the width of the flat 10. With the molded body 3 inserted in the holder shaft 20 therefore lies the flange 8 with most of its circumference forms a seal on the inner surface of the holder shaft 20 however, in the area of the interruption of the flange 8, a narrow, capillary connection between the writing fluid reservoir 21 and the annular pressure equalization chambers 13.

On the side of the molded body opposite the flat 10 3 is a flat 15 of the disk-shaped walls 12 available, by the inserted in the holder shaft 20 Shaped body 3, an air duct 16 is formed, which one formed between disc-shaped walls 14 and 18 Annulus 17 and another, through a disc-shaped Partition 19 interrupted annular space and an axial groove 7 in the effecting front clamping of the molded body 3 in the holder shaft 20 Section 6 of the molded body 3 in connection with the ambient air stands.

By interrupting the rear flange 8 of the molded body 3, the capillary ink guide channel 11 with the with it connected annular, capillary pressure compensation chambers 13 and the air duct connected to the ambient air 16 a conventional pressure compensation system is formed. Arises in the interior of the writing instrument, especially in the Writing fluid reservoir 21 becomes a pressure increase Writing fluid through the tight break in the back Flange 8 in the area of the rear annular pressure compensation chamber pressed and from there enters the ink guide channel 11, in which they are filled with additional annular pressure equalization chambers 13 is shifted forward until balance is restored. When writing fluid is removed only the liquid in the pressure compensation chambers 13 "prescribed".

In order to consume writing fluid in the writing fluid storage room 21 to ensure continuous pressure equalization, is the connection of the air duct 16 with the Ambient air is available so that when a negative pressure develops air in the writing fluid reservoir 21 through the axial groove 7, the annular space 17, the air duct 16 and the interruption in the circumference of the flange 8 in the writing fluid reservoir 21 is sucked.

As shown and explained, the molded body 3 has one Formation of the ink guide channel 11 serving flat 10, the on both sides of the partition 9 with the annular pressure compensation chambers 13 communicates. To make this Molded body, a jaw mold made of two mold halves is used, those in the closed state with their parting level in level 25 lies. Each of the mold halves thus contains laminated cores for formation of the annular pressure compensation chambers 13, which are in the parting plane 25 and on the partition 9 diametrically opposite Side collide. Even if it is in the investment area of Axial misalignment of individual sheet metal halves occurs when Injection molding of the molded body 3, based on Figure 6, both a complete one above and below the parting plane 25 half annular pressure equalization chamber 13 formed while due to the axial misalignment of the sheets, the annular Pressure compensation chamber 13 in the area diametrically opposite the Partition 9 may have a narrowing or interruption. However, this affects the receiving volume of the annular Pressure compensation chamber 13 is not, since this, again based on Figure 6, both over the upper portion of the flat 10 also over the lower portion of the flat 10 an unobstructed Has connection to the ink guide channel 11, so in this Enter the writing fluid unhindered in both circumferential directions can.

In the exemplary embodiment according to FIG. 7, the same or corresponding parts with the same reference numerals and additionally marked with '.

While in the embodiment shown in Figures 1 to 6 disk-shaped walls 12 in their circular areas same diameter as the circular area of flange 8 and the walls 18 and 19 and therefore in contact with the Stand inside surface of the holder shaft 20, the diameter is circular areas of the disk-shaped walls 12 'in the exemplary embodiment 7 somewhat smaller, so that they are in the slightly inserted into the holder shaft Distance from its inner surface, that is adjacent Pressure compensation chambers in their radially outer areas communicate with each other.

Claims (6)

1. Ink writing implement:

   with a writing tip (1) provided at the front end, which is fed with ink from an ink reservoir volume (21) behind it,

   with a pressure equilibrating system which is in communication with the ambient air,

   with a number of annular, preferably circular pressure equilibrating chambers (13) of capillary dimensions, separated from one another by disc-shaped walls (12; 12'),

   with a capillary ink duct (11) which connects the ink reservoir volume (21) with the pressure equilibrating chambers (13), and with an air through-flow duct (16) connected to the ink reservoir volume (21) and the ambient air, and

   with a tubular casing component (20) which encloses the pressure equilibrating chambers (13) and the ink duct (11) and whose inside surface covers the ink duct (11) radially on the outside,

   such that the disc-shaped walls (12; 12') and the ink duct (11) are part of a moulded body (3) made by injection moulding in a clamp mould consisting of two mould halves with sheet packs fitted in them to form the annular pressure equilibrating chambers (13), in which the mould parting plane (25; 25') can be seen,

   characterised in that
      the moulded body (3) has an axially extending flat area (10; 10') which forms the ink duct (11) and the mould parting plane (25; 25') extends through this flat area (10; 10').
2. Ink writing implement according to Claim 1,
   characterised in that
   the flat area (10; 10') is located in the area of a partition wall (9; 9') which interrupts the pressure equilibrating chambers (13) and has a width at least equal to the thickness of the radially outer area of the partition wall (9; 9').
3. Ink writing implement according to Claim 1,
   characterised in that
   the mould parting plane (25; 25') passes through the middle of the partition wall (9; 9') and the middle ofthe flat area (10; 10').
4. Ink writing implement according to any of Claims 1 to 3,
   characterised in that
   the area (15; 15') of the disc-shaped walls (12; 12') of the moulded body (3) opposite the flat area (10; 10') is flattened so as to form the air through-flow duct (16).
5. Ink writing implement according to Claim 4,
   characterised in that
   the front end of the air through-flow duct (16) ends in an annular space (17) which communicates with the ambient air.
6. Ink writing implement according to any of Claims 1 to 5,
   characterised in that
   the writing tip (1) is formed by a wick or liquid-conducting body (2) located in an axial through-hole (4; 4') in the moulded body (3).

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