1. Field of the Invention
The invention relates to a hand-operated stamp comprising a partially open-pored printing plate which is displaceable against a spring force from a resting position, in which it is retracted in a housing, into a printing position by means of an actuating unit, said printing plate resting on an ink storage member so as to receive stamping ink therefrom, said ink storage member being mounted in a retaining means which at least partially encloses the former.
Furthermore, the invention relates to an ink storage member unit for storing stamping ink for a partially open-pored printing plate of such a pre-inked stamp, comprising an ink storage member mounted in a retaining means enclosing the latter.
2. The Prior Art
Hand-operated stamps as initially mentioned are commonly termed pre-inked stamps. The stamping ink required for generating the stamping imprints is stored in the storage member which transfers the stamping ink to the stamping plate. The storage member may be based on the most varying technologies, such as a salt-washout process, a gel-system or a method using a foamed material (foamed vinyl material), yet the gel system has proved to be particularly advantageous. It is, however, also possible to integrate printing plate and storage member in one single element which contains the stamping ink to be imprinted (cf. e.g. U.S. Pat. No. 6,360,661 B1), yet in that case the production is comparatively complex.
In a more recent method, the so-called flash system, in an open-pored foamed material, such as, e.g., EVA (ethylene vinyl acetate), in those areas where no stamping imprint is to be made, a closing of the pores of the open-pored material is caused, so as to produce a unique printing plate, by short-term exposures (“flash”—in particular with the help of xenon lamps); on the other hand, in those areas in which a stamping imprint is to be made, the pores of the printing plate will remain open. In order to apply the desired image for the stamping imprint to the stamping plate blanks, previously cut EVA plates are inserted in an exposing device, i.e. together with a film which has the desired stamp imprint image which, e.g., has been made by means of a computer. By a single or repeated flash-like illumination, the printing plate is produced. For its operation, this EVA printing plate must then be supplied with stamping ink, for which the storage member, in particular the foamed PVA material (pre-)inked with the stamping ink is used.
Usually, such storage members are provided in bag packages. When the storage member, i.e. the pre-inked PVA material, is removed from the package and inserted in the stamp, this as a rule is not possible without soiling: Already when cutting open the package, the cutting tool (scissors, e.g.) is soiled by stamping ink, and subsequently, such soiling is also unavoidable for tweezers or a similar tool which will be used for removing the PVA material from the package and inserting it in the stamp housing.
DE 2 152 324 A describes a hand stamp having a porous stamping block and a storage member within a frame in a retaining means. What is disadvantageous here is the refilling of ink, since complete refilling of the storage member is only possible after a removal of the handle and a cover area with a protective film, since the filling piece is configured to be at the center.
From WO 02/28658 A, a hand-operated stamp is known which has a pre-inked, single-piece stamping plate arranged in a retaining means. What is disadvantageous here i.a. is that there is no storage member separate from the printing plate and that when exchanging the stamping plate which, at the same time, is the storage member, the types on the new stamping plate need to be produced anew.
In U.S. Pat. No. 5,855,170 A, a refillable stamp is disclosed in which a stamping plate, a cotton layer and a storage member are introduced in a retaining element. The retaining element is snapped in with an actuating part and displaceable relative to a housing. For refilling ink, the retaining element has two filling sockets. What is disadvantageous with this stamp is that mounting of the stamping plate together with the storage member will cause soiling, as mentioned before.
From U.S. Pat. No. 4,676,162 A, a stamp with a simple rubber stamping plate is known. In this case, the stamping plate is retained in a mount by means of a frame that has snap-in elements. Actuation is effected via a handle which—against the force of a spring—moves the mount with the stamping plate downwards within the stamp housing via a piston so as to produce a stamp imprint on a substrate. A disadvantage is that this stamp cannot be refilled, for which reason the entire stamp, and the stamping plate, respectively, must be exchanged when the stamping ink has been used up.
In U.S. Pat. No. 6,302,022 B1 a hand-operated stamp is shown which is to be considered to be the closest prior art, wherein a storage member is retained in a retaining means together with a stamping plate. These two parts are releasably interconnected via two separate, lateral, spring-mounted snap fasteners. For refilling ink, the latter is supplied via openings in a cover of the retention means. This stamp has, above all, the disadvantage of a complex fastening construction and, associated therewith, an expensive and cost-intensive production wherein, moreover, its handling during the refilling of ink (stamping ink) is cumbersome.
It is an object of the invention to remedy this situation and to provide a hand-operated stamp, and a storage member unit, respectively, as initially mentioned, where not only the risk of soiling is avoided when removing the storage member from a package and inserting it in the stamp housing and such removal and insertion is possible by means of simple manipulations, but it is also rendered possible in a most simple manner to remove a storage member from the stamp again after its stamping ink has been used up, such as for re-impregnating or, in particular, also for the purpose of exchanging said storage member. On the other hand, it shall also be possible to re-impregnate the storage member with stamping ink in situ, i.e. in a state inserted in the housing of the stamp. In this case, the design of the stamp shall be simple and require as few individual parts as possible.
To achieve this object, the invention provides for a hand-operated stamp as well as a storage member unit as defined in the independent claims. Advantageous embodiments and further developments are indicated in the dependent claims.
In the present hand-operated stamp, the ink storage member which, e.g., is made of PVA material (PVA—polyvinyl acetate), or of PE material (PE—polyethylene) is arranged in a trough-shaped retaining means which encloses or embraces the storage member and by means of which the storage member can be manipulated without soiling. The storage member unit comprised of storage member and retaining means thus can be removed from the package (which then may preferably be box-type) and inserted in a stamp housing without having to directly touch the storage material itself. It is particularly suitable if the retaining means encloses the storage member possibly on all sides, apart from its side facing the printing plate, and the retaining means, therefore, preferably is formed by a trough-shaped cassette. To keep the printing plate against the storage member—in the retaining means—in the completely mounted state, a coupling member is preferably provided on the retaining means; this coupling member may, e.g., be closed all around, i.e. be ring-shaped (wherein by ring shape a rectangular, closed shape, seen in top view, is to be understood). For coupling the printing plate to the storage member, the coupling member may extend over the printing plate at least in areas thereof. On the other hand, it may be provided for the coupling member to releasably latch with the retaining means, in particular the cassette.
A releasable connection by snapping in or latching is also provided between the retaining means and the actuating unit of the hand-operated stamp, i.e. via the connecting element; in particular, the connecting element may have two latching legs extending through an opening on the upper side of the stamp housing, which latching legs may be brought into engagement with latching projections in a latching depression (e.g. with under-cut walls) in the retaining means, such as in a bottom wall of the cassette. To simplify production, on the one hand, and assembling, or also disassembling, respectively, with a view to exchanging the storage member, on the other hand, it is, moreover, suitable if the connecting element is connected to an outer handle member of the actuating unit by latching or by snapping engagement, respectively.
The design with the latching legs may, furthermore, be advantageously used such that apart of the housing supporting a compression spring is arranged between the latching legs, the compression spring, on the other hand, being supported on an oppositely arranged region of the actuating unit or of the connecting part, respectively.
The latching legs may, moreover, be used with particular advantage for further functions. Thus, during pre-mounting of the actuating unit on the housing, before the ink storage unit is attached, the latching legs can latch the actuating means with the housing, and for this purpose it may be provided that, in a pre-mounting position, the latching legs engage behind the rim of the opening on the upper side of the housing by means of latching projections so as to connect the actuating unit with the housing. A further, particularly advantageous function in the sense of an ejection of a storage unit can be obtained if the latching legs include a control surface co-operating with the rim of the opening on the upper side of the housing, wherein the latching legs, when moving inwards into the housing interior beyond the stroke provided when making a stamp imprint, are resiliently deflected by the control surface so as to release the retaining means. In order to allow such inward movement of the latching legs to beyond the normal printing stroke, it may be necessary to remove the handle part before, i.e. if it is provided for the handle part to delimit the downward stroke by its lower rim, when making the imprint, by the rim abutting on a shoulder of the housing of the stamp.
In order to allow for a simple refilling of the stamping ink into the storage member, the trough-shaped retaining means is provided with at least one ink refilling opening in the bottom wall of the trough. For distributing the stamping ink as quickly as possible over the storage member during a refilling procedure, it is also advantageous if groove-shaped channels radially extending in the bottom wall of the trough follow upon the ink refilling opening so as to distribute the ink over the storage member. Furthermore, the at least one filling socket is formed in the retaining means oriented towards the ink refilling opening. The filling socket can then facilitate refilling of the stamping ink like a filling hopper. On the other hand, an advantageous usage of the filling socket is also provided in that ink cartridges (spare cartridges) can be stored therein.
In pre-inked stamps and in flash-stamps, respectively, mostly an oil-based stamping ink is used which dries quickly and, consequently, may also quickly dry out. To counteract this, a cover cap releasably closing the lower opening of the housing may be associated with the housing, the cover preferably being latched with the housing.
Furthermore, the stamp housing may comprise anti-slip safety elements on its lower side which in each case will lie on the substrate to be stamped.
For a storage and delivery of the ink storage member unit, before the stamping plate is attached, it is suitable if the coupling member is attached, e.g. by friction fit, on that side of the retaining means that is opposite the opening for the attachment of the printing plate.
In the following, the invention will be explained in more detail by way of particularly preferred exemplary embodiments illustrated in the drawings, without, however, being restricted to such embodiments. In detail,
In
As is particularly visible from
For securing its position, the connecting part 6 projects into corresponding depressions 13 of the handle part 5 by means of the rim 12 of the trough portion 7, cf. in particular
Between the latching legs 14, 15, a helical compression spring 19 is arranged which rests in the region of a centering projection 21 in the housing upper side 20, on the one hand, and on a retaining projection 22 on the inner side of the connecting part 6, on the other hand. This compression spring 19 presses the two components, actuating unit 3 and housing 2, asunder so that the latching projections 16 in the pre-mounted position according to
From the pre-mounted position according to
In the arrangement of the storage member unit 23 for delivery according to
In the resting position of the hand-operated stamp 1 illustrated in
In detail, when actuating the hand-operated stamp 1, the force exerted on the handle part 5 is transmitted to the cassette 24 via the trough portion 7 and, thus, also via the connecting part 6, the latching legs 14, 15 serving this purpose, on the one hand, yet also sockets 40, 41, on the other hand, which engage in step-shaped refilling openings 42, 43 of the cassette 24 when the storage member unit 23 has been mounted. These sockets 40, 41 may be used as refilling sockets for refilling stamping ink into the storage member 25—with the handle part 5 removed—apart from the fact that they also serve for transmitting force during the actuation of the stamp.
The refilling openings 42, 43 may, e.g., be circular, and on the lower side of the opening rims 44, groove-shaped channels 45 are formed which are radially arranged or arranged in star-shape, which channels facilitate the distribution of stamping ink over the storage member 25 during the refilling of said stamping ink.
The printing position of the stamp 1 is shown in
If, starting out from the position according to
The embodiment of the present hand-operated stamp 1 as illustrated in
Finally, it can be seen from
The individual components of the hand-operated stamp 1 described preferably are made of a synthetic material. In particular, the cassette 24 may, e.g., be made of a thermoplastic, such as, in particular, ABS, whereas the ring-shaped coupling member 26 may be made of POM or of polycarbonate, yet optionally also of ABS. The storage member is, e.g., of foamed PVA or PE material, the latter being preferred since in case of an impression, an elastic deformation and a return to its original state will occur, whereas PVA material impressions will last; the printing plate 27 is, in particular, made of foamed EVA material whose pores, on the printing side, in those areas, where no imprint shall be made, have been closed by the so-called flash method by welding during light exposure, as has been described.
Number | Date | Country | Kind |
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A 101/2006 | Jan 2006 | AT | national |
This application claims priority under 35 U.S.C. 120 and under 35 U.S.C. 121, and is a Division of U.S. patent application Ser. No. 12/087,911 filed Sep. 9, 2008 which is the National Stage of PCT/AT2007/000025 filed on Jan. 22, 2007, which claims priority under 35 U.S.C. §119 of Austrian Application No. A 101/2006 filed on Jan. 20, 2006. The international application under PCT article 21(2) was not published in English.
Number | Name | Date | Kind |
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2314828 | Humphries | Mar 1943 | A |
3832947 | Funahashi | Sep 1974 | A |
4676162 | Phipps, Sr. et al. | Jun 1987 | A |
5855170 | Shih | Jan 1999 | A |
6047639 | Shih | Apr 2000 | A |
6189450 | Shih | Feb 2001 | B1 |
6302022 | Shih | Oct 2001 | B1 |
6360661 | Cheung | Mar 2002 | B1 |
6526882 | Shih | Mar 2003 | B1 |
20050061175 | Sculler | Mar 2005 | A1 |
20050132912 | Petersen | Jun 2005 | A1 |
Number | Date | Country |
---|---|---|
21 52 324 | Jun 1972 | DE |
0 934 832 | Aug 1999 | EP |
WO 0228658 | Apr 2002 | WO |
Entry |
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International Search Report from PCT/AT2007/000025 dated Mar. 7, 2007. |
International Preliminary Report on Patentablility from PCT/AT2007/000025 dated Oct. 9, 2008. |
Number | Date | Country | |
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20120006214 A1 | Jan 2012 | US |
Number | Date | Country | |
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Parent | 12087911 | US | |
Child | 13199927 | US |