奥地利专利AT516816A1 EMBOSSING TEMPLE AND PRESSURE PLATE HOLDER FOR THE EMBOSSING TEMPLE

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引用文献

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优先权

专利摘要:
The invention relates to an embossing stamp (1), comprising at least one main body (2) in which on one side a receiving device (3) for receiving a printing plate holder (5) and on another side of an actuator (4) is arranged, and the actuating device ( 4) is designed such that it acts directly or indirectly on the receiving device (3), in particular on the printing plate holder (5), wherein in the base body (2) an axis of rotation (6) of the actuating device (4) is arranged, characterized in that the insertable printing plate holder (5) has a receiving element (20), preferably with a stamping ornament (21), and in the receiving element (20) at least one positioning recess (22) for inserting positioning elements (23), such as letters, symbols, and / or Elements, is arranged. Furthermore, the invention also includes a printing plate holder (5), receiving element (20) and a positioning elements (23).
公开号:AT516816A1
申请号:T50065/2015
申请日:2015-01-29
公开日:2016-08-15
发明作者:
申请人:Trodat Gmbh；
IPC主号:

专利说明:

Embossing stamp and printing plate holder for the embossing stamp
The invention relates to an embossing die, a printing plate holder, a receiving elements and a positioning element, as described in the claims 1, 10, 14 and 10.
There are already embossing dies or so-called embossing pliers known that are used to produce a relief representation without color on document / paper or photo. The document / paper or photo is positioned between two sealing plates. Subsequently, the embossing forceps is compressed so that a relief is formed on the document / paper or photo by the seals arranged in the embossing forceps. There are a number of applications for the dies or embossing pliers. They give documents, certificates, brochures, invitations, business cards, etc., or even napkins an exclusive look. Many produce their own invitations and create monograms and designs. Another aspect is the increased security against counterfeiting, so that appropriate seals are designed, manufactured and applied for companies, notaries, organizations, architects or engineers.
For example, from DE 20 2011 100 743 U a stamping die is generally known, which comprises a base body (base), an actuating device (pressing lever) and a printing plate holder (embossing unit). In this case, the actuating device is rotatably connected via a rotation axis with the base, wherein the actuating device is designed such that it acts directly in a receiving device arranged in the base. The actuator is thereby formed from a lever which is divided into two force arms. For embossing, the object to be embossed (paper) is inserted into the printing plate holder, which is positioned in the receiving device on the base body, in which case the user exerts on the actuating device downward pressing force P1 on the first end of the actuator. Thus, it follows that the first force arm is formed from the distance between the first downward pressure force P1 and the rotational axis. In this case, when turning the actuator down a second pressure force P2 is applied, wherein the distance between the second downward pressure force P2 and the axis of rotation corresponds to the second force arm. The moment of force of the first pressing force P1 and the moment of force of the second pressing force P2 are identical.
In addition, from DE 20 2011 100 743 U1 an embossing die is known which comprises a base body (base), an actuating device (pressing lever) and a printing plate holder (embossing unit). In this case, the actuating device is rotatably connected via an axis of rotation with the base, wherein the actuating device is designed such that it now acts indirectly via a contact pressure element which is mounted on the actuating device and on the base body, arranged on a base receiving device.
The BR 8404986 A shows an embossing die, which in turn is formed from a base body with a receiving device, an actuating device in the form of a lever and a printing plate holder. The lever is mounted via a rotation axis above the receiving device in the base body. The main body is formed of two separate plate-shaped side walls, which are connected to each other via spacers, spacers, screw, etc. For this purpose, corresponding recesses, slots, bores or the like are in the plate-shaped side walls. available. The actuating device, in particular the one-piece lever formed, is rotatably mounted between the two plate-shaped side walls via a continuous axis. The parts of the embossing stamp are made of metal, so that they can withstand high pressure forces.
A disadvantage of the aforementioned documents that in all embossing pliers or dies appropriate printing plates are produced from a metallic material, which are then used in the printing plate holder, so that no adjustment options, except the entire exchange of the printing plate holder or the entire printing plates are given ,
The object of the invention is therefore to provide an embossing die and a printing plate holder, in which an individualization of the impression is possible. At the same time, the aforementioned disadvantages should be avoided.
The object of the invention is achieved by an embossing stamp in which the insertable printing plate holder preferably has a receiving element with a stamping ornament, and in the receiving element at least one positioning recess for inserting positioning elements, such as letters, symbols, and / or elements, is arranged.
It is advantageous here that an impression generated by the die can be individually adapted to his own needs. It is also possible that at any time a change of the impression can be made by the user simply exchanges the positioning elements. Thus, it is possible for the first time that individualization can be carried out in such paper perforations in a simple and cost-effective manner.
According to a particular feature of the invention, the base body and / or the actuator are formed in a modular manner, are formed in the side walls at least partially by plates which are positioned and secured to each other via half shells and / or connecting means, wherein the side walls of the base body and / or the actuating device preferably made of a metal plate, carbon plate or aluminum plate and the half-shells and / or connecting means are preferably formed of plastic and are formed in one or more parts. This ensures that a very stable and cost-effective design of the embossing device, in particular of the embossing stamp is created.
According to a further embodiment, the receiving element with the printing plate holder, which is designed as a hybrid structure and in which a stamping plate of plastic and a guide band made of elastic material or plastic, in particular a high performance plastics with elastic and Abreibarmen properties is formed connected. This ensures that differently customizable printing plate holder can be used in the die.
According to one feature, the receiving element made of a plastic, for example, from a 3D printer, formed and preferably attached via an adhesive film to the printing plate holder, in particular arranged in the embossing plate recording plates. This ensures that
According to a special feature, means, in particular snap connections, for fastening the insertable positioning elements are arranged in the positioning recesses of the receiving elements. This achieves in an advantageous manner that a secure and stable hold of the positioning is achieved in the Positionierausnehmung. Thus, it is also ensured that during transport of the stamping die and the printing plate holder falling out of the positioning is prevented.
According to one feature, a plurality of positioning elements are releasably secured to a support frame. There is a possibility that the user can use his initial initials for customization.
According to a special feature, each letter of the alphabet and preferably special characters are preferably arranged on the holding frame. Thus, the user can select from a plurality of position elements, so that a high individualization is possible.
According to another feature, a removal aid for easier removal of the positioning of the positioning recordings is arranged in the printing plate holder or in the die itself. This achieves in an advantageous manner that a simple and fast way to exchange the usable positioning elements is present. In particular, this is advantageous if the positioning are to be exchanged very often, as used for example for child stamping dies in the form of a toy.
According to a special feature, the positioning elements, in particular the positive and negative printouts, have different characteristics. This is achieved in an advantageous manner that in the respective receiving element not the wrong positioning can be used, as they do not fit into the positioning recording.
Furthermore, the object is achieved by a printing plate holder, in which a receiving element is preferably arranged with a stamping ornament in the stamping plate receptacle and in the receiving element at least one positioning recess for inserting positioning elements, such as letters, symbols, and / or elements, is arranged.
The advantage here is that for the first time there is the possibility that a user can make an individualization and thus can produce different impressions according to his wishes.
According to an advantageous feature, the receiving element is made of a plastic, for example of a 3D printer, is formed and preferably attached via an adhesive film to the printing plate holder, in particular arranged in the embossing plate recording plates. As a result, very different receiving elements can be produced in a simple form. Furthermore, any positional elements can be made by using a 3D printer.
According to a further particular feature, means, in particular snap connections, for fastening the insertable positioning elements are arranged in the positioning recesses of the receiving elements. This achieves in an advantageous manner that an exact positioning and a good grip of the positioning is achieved.
According to a further feature is in the printing plate holder or in the stamper itself a removal aid to facilitate removal of the positioning of the
Positioning shots arranged. This ensures that a simple removal of the positioning elements for a quick change is possible.
Furthermore, the object of the invention is achieved by a receiving element in which at least one positioning recess is arranged for insertion of positioning elements.
The advantage here is that this creates a simple possibility in which an individualization of such a sealing press is possible.
According to a further feature, the receiving element is made of plastic, in particular of a 3D printer. This ensures that a cost-effective production is possible. Furthermore, this achieves a very individual degree of individualization.
According to a particular feature, the receiving element and the positioning elements on means for positioning, in particular a snap-on connections, on. This advantageously achieves that thereby a secure hold and a correct positioning is achieved.
The object of the invention is also achieved a positioning, in which the positioning of plastic is formed. The advantage here is that a very cost-effective and flexible production possible.
According to a further feature, the insertable positioning elements are arranged positively and negatively (mirror-inverted) in a holding frame. As a result, it is advantageously achieved that a very high impression quality is achieved.
According to a particular feature, the positioning elements have means for fastening in a positioning recess in a receiving element.
For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
Show it:
1 is a perspective view of a stamping die with inserted printing plate holder.
A perspective view of the printing plate holder, in a simplified, schematic representation;
3 shows a side view of the printing plate holder, in a simplified, schematic representation;
4 is a perspective view of a positioning receptacle and an associated positioning, simplified, schematic representation;
5 is a plan view of a Flalterahmen for the positioning, in a simplified, schematic representation;
Fig. 6 shows an embodiment of a sectional view through the pressure plate and the receiving element, in a simplified, schematic representation.
By way of introduction, it should be noted that in the various embodiments, the same parts are provided with the same reference numerals, wherein the disclosures contained in the entire description can be mutatis mutandis to identical parts with the same reference numerals. The positional information contained in the description, such as, for example, above, below, to the side, etc., are related to the immediately described and illustrated figure and are to be transferred analogously to the new situation in the event of a change of position.
1 to 5, an embossing stamp 1 or a so-called embossing pliers for the production of relief images (not shown) on documents, paper or photos, etc. is shown, wherein the formation of the relief representations takes place without color. For the formation of relief images to be possible, it is necessary that the embossing stamp 1 exerts high pressures on the document, paper or photo, etc., so that it must have a very robust construction. This is achieved in that the embossing stamp 1 is constructed, for example, from a plastic-metal combination in plate construction.
The embossing stamp 1 comprises a base body 2 in which on one side a receiving device 3 and on the opposite side an actuating device 4 is arranged. The actuating device 4 acts directly or indirectly on the receiving device 3, in particular on a printing plate holder 5 arranged therein, that is, upon actuation of the actuating device 4, ie in a pressing / embossing process, the printing plate holder 5 is pressed together. In order for such a pressing process / embossing process is possible, the actuating device 4 is mounted via a rotation axis 6 in the base body 2 or the axis of rotation 6 of the actuator 4 is arranged on the base body 2.
The actuating device 4, in particular a lever 7, in the exemplary embodiment has two plate-shaped side walls 8, 9, which are positioned or held by a handle element 10 at a defined distance. To form the lever 7, the grip element 10 and the side walls 8, 9 are simply plugged together. Preferably, the side walls 8, 9 are formed of metal and the handle member 10 made of plastic. This ensures that very high forces can be exerted on the lever 7 and at the same slipping is avoided by a non-slip or non-slip plastic.
The main body 2 of the embossing stamp 1 is like the actuator 4, in particular the lever 7, also modular, in particular in plate design, formed and in turn consists of several individual parts together. In this case, a plastic-metal combination for the main body 2 is also formed in order to achieve a very high rigidity at very low weight. In the illustrated embodiment according to FIGS. 1 to 5, side walls 11, 12 of the main body 2 are each formed by a plate which is positioned, fixed and held in relation to one another via half shells 13 and / or connecting means (not visible). The side walls 8,9,11,12 of the main body 2 as well as the actuator 4 are formed of a metal plate or carbon plate or aluminum plate, etc., for this purpose, preferably materials are used which have a high rigidity or flexural strength and load capacity, so the user can exert as much force on the die 1 during a pressing operation, without this deformed. Also, the production of the individual parts is considerably simplified, since no bending processes need to be performed any more. The individual parts, in particular the side walls 8, 9, 11, 12, the half shells 13 and the grip element 10, are preferably produced by a stamping or cutting process and by injection molding.
However, in order to be able to carry out an embossing process at all, it is necessary for the printing plate holder 5 with printing plates 14 arranged therein to be inserted into the embossing stamp 1, as better seen in FIGS. 2 and 3. The printing plate holder 5 comprises an upper and lower embossing plate holder 15, 16 which are connected to each other via a guide belt 17. The pressure plate holder 5 may be formed in one piece from plastic, in particular a high-performance plastic, wherein a metallic insert for the action of the lever 7 of the embossing die 1 is arranged on the preferably upper embossing plate holder 15. Preference is given here as a plastic, especially high performance plastics called PEEK, PPS, PSU, PES, PTFE, etc., is used, of course, other non-mentioned plastics can be used, especially if they have similar properties. Preferably, however, the printing plate holder 5 is formed as a hybrid structure, in which the embossing plate holder 15, 16 made of plastic and the guide belt 17 is formed of resilient material. The width of the guide strip 17 is designed such that this fit into a gap 18 between the two side walls 11, 12 of the base body 2. Preferably, the embossing plate holder 15, 16 and the corresponding pressure plates 14 are round and project laterally from both sides of the base body 2. If you introduce the pressure plate holder 5 in the receiving device 3, the predetermined slide track of the receiving device 3 in the base body 2 is designed such that the both embossing plate recordings 15, 16 are pressed together slightly and simultaneously push the lever 7 upwards. This ensures that after an embossing process at the termination of the application of force to the lever 7, this is automatically pushed back by the pressure plate holder 5 back to the starting position and immediately a new embossing process can be performed. Basically, it can therefore be said that when operating the lever 7, so when performing a
Embossing process, the lever 7 presses on the top of the embossing plate 15 and this is thus pressed down in the direction of the second embossing plate 16, whereby the relief 19 shown on the printing plates 14 is pressed into the inserted document, paper or photo, etc.
According to the invention, it is now provided that the insertable printing plate holder 5 has a receiving element 20, as better seen in FIG. 4, with a stamping ornament 21, and in the receiving element 20 at least one positioning recess 22 for inserting positioning elements 23, such as letters, symbols, and / or Elements, is arranged. In this case, a pressure plate 24, preferably made of metal, as shown in FIG. 3, is preferably first inserted into the stamping plate receptacles 15, 16, to which the receiving element 20 is subsequently fastened. It is thus achieved that the flexible, individually adaptable receiving element 20 has a small thickness 25 and can thus be produced inexpensively. Of course, it would be possible that receiving element 23 form such that the pressure plate 24 can be omitted and only a correspondingly thick receiving element 23 is used.
So that a high degree of individualization is made possible, the receiving element 20 is formed from a plastic, for example from a 3D printer, and is preferably fastened via an adhesive film 26 to the printing plate holder 5, in particular to printing plates 24 arranged in the embossing plate receptacle 15, 16. Thus, the user can create on a computer his desired relief 19 for the receiving element 20 and then simply print out via a 3D printer, whereupon after curing of the printed receiving element 20, this is adhered to the printing plates 24. In this case, a positive and a negative expression 27, 28 of the receiving element 20 (see FIG. 4) is automatically created and printed during printing of the receiving element 20 or by the software, which must be positioned accordingly.
In the embodiment shown in FIGS. 1 to 5, the adhesive film 26 is applied over the entire surface of the printing plate 24, so that they also in the field of
Positioning recesses 22 is present. The user can now separate a positioning element 23 from a holding frame 29 (see FIG. 5) and insert it into the positioning recess 22. The positioning recess 22 is designed such that two individual positioning elements 23 or a double positioning element 23 can be inserted, for which purpose a kind of separating web 30 is arranged in the middle region of the positioning recess 22, so that an exact positioning of two individual positioning elements 23 is provided. For the individual positioning elements 23, letters are preferably formed as a relief 19, whereas in the case of the double positioning elements 23, symbols such as a heart, a like, etc. are arranged, ie several positioning elements 23 are detachably fastened to a holding frame 29 and on the holding frame 29 preferably each letter of the alphabet and preferably special characters are arranged. Preferably, two such holding frames 29 are attached to such an individualizable stamp 1, since positive and negative positioning elements 23 are again required for an embossing operation with high stamping quality. It should be noted that, as known from the prior art, the positive engage in the negative into one another and thus in a stamping process in a paper, cardboard, etc. corresponding perforations are formed with very high quality.
So that an exact alignment of the positive and negative positioning elements 23 is achieved, the positioning element 23 is first inserted into the positioning recess 22 of the positioning element 20 and fastened in the lower embossing plate holder 16. Subsequently, on the positioning elements 23, the corresponding counterpart, so at positive positioning element 23, the negative positioning 23, whereupon by squeezing the embossing pliers 1, the applied positioning 23 is accurately positioned and fixed in the receiving recess 22 of the receiving element 20 in the upper embossing plate recording 15. With such a procedure, a very high relief quality is achieved since an automatic precise alignment of the usable positioning elements 23 takes place.
So that the positive 27 and negative 28 positioning elements 23 can not be mistakenly inserted into the inverted receiving element 20, it is provided that they have different characteristics 32. For example, an angular, preferably in 45 °, expression 32 for the positive 27 positioning, whereas in the negative 28 a rounded expression 32 is arranged.
FIG. 6 shows a plan view of an exemplary embodiment in which means 31, in particular snap connections, for fastening the deployable positioning elements 23 are arranged in the positioning recesses 22 of the receiving elements 20. Such means 31 may be of any desired design and are intended to support the rapid replacement and positioning of the positioning element 23. In this case, the adhesive film 26 in the region of the positioning recess 22 can be dispensed with.
In Fig. 7, an embodiment is shown, in which the pressure plate 24 is also formed of plastic. The pressure plates 24 in this case has latching openings 33, in which a arranged on the rear side of the receiving element 20 locking pin 34 can be inserted, that is, the receiving element 20 is simply plugged onto the pressure plate 24, wherein the locking pin 34 engages in the latching opening 33 and a secure Halt guaranteed. The locking pin 34 is automatically created in the creation of the receiving element 20 on the opposite side of the relief 19.
Furthermore, a removal aid 35 is arranged for easier removal of the positioning elements. The removal aid 35 may be formed, for example, by a simple rocker 36, which is pivoted by actuating a push button 36 and thus lifts the positioning elements 23 positioned in the positioning recess 22 out of the receiving elements 20. It can therefore be said that a removal aid 35 is arranged in the printing plate holder 5 or in the embossing stamp 1 itself for easier removal of the positioning elements 23 from the positioning recesses 22.
In principle, it is possible that the positioning elements 23 are used without adhesive film 26 and without means 31 in the positioning receptacle 22, wherein the fixation is then formed exclusively by friction, ie as a friction connection. It is also possible for the production to be carried out by injection molding instead of printing or in combination. For example, the receiving element 20 by a 3D expression for the highest possible individualization of the formation of the embossing ornament 21 done, whereas the positioning elements 23 in injection molding as a mass product is manufactured as inexpensively as here the degree of individualization is not needed.
In the illustrated embodiments, therefore, a so-called typo-seal is shown, in which an individual adaptation takes place by selecting a wide variety of symbols or letters, which are easy to use and interchangeable. In this case, a plurality of different positive and negative symbols, in particular positioning elements 23, are shown, which are releasably secured in a non-necessarily existing holding frame 29 and in a freely selectable or without provided embossing ornament 21 centering or receiving element 20, can be used the centering frame or receiving element 21 is fastened in a sealing press or embossing stamp 1, in particular in a Tay holder or printing plate holder 5.
For the sake of order, it should finally be pointed out that for a better understanding of the construction of the system 1 and its components or their components, they have been shown partially unevenly and / or enlarged and / or reduced in size.
Furthermore, individual features or combinations of features from the illustrated and described different embodiments may form separate, inventive or inventive solutions.

权利要求:
Claims (19)
[1]
1. embossing punch (1), comprising at least one base body (2) in which on one side a receiving device (3) for receiving a printing plate holder (5) and on another side an actuating device (4) is arranged, and the actuating device (4) is formed such that it acts directly or indirectly on the receiving device (3), in particular on the printing plate holder (5), wherein in the base body (2) an axis of rotation (6) of the actuating device (4) is arranged, characterized in that the usable printing plate holder (5) has a receiving element (20), preferably with a stamping ornament (21), and in the receiving element (20) at least one positioning recess (22) for inserting positioning elements (23), such as letters, symbols, and / or elements, is arranged.
[2]
2. embossing punch (1) according to claim 1, characterized in that the base body (2) and / or the actuating device (4) are designed like a module, are formed in the side walls (8, 9, 11, 12) at least partially by plates, the half-shells (13) and / or connecting means are positioned and fastened to each other, wherein the side walls (8, 9, 11, 12) of the base body (2) and / or the actuating device (4) preferably of a metal plate, carbon plate or aluminum plate and the half shells (13) and / or connecting means are preferably formed from plastic and are formed in one or more parts.
[3]
3. stamp (1) according to claims 1 or 2, characterized in that the receiving element (20) with the printing plate holder (5), which is designed as a hybrid structure and in which a stamping plate (15, 16) made of plastic and a guide strip (17) is made of resilient material or of plastic, in particular a high-performance plastics with elastic and abrasion-poor properties, is formed.
[4]
4. embossing punch (1) according to one of the preceding claims 1 to 3, characterized in that the receiving element (20) made of a plastic, for example, from a 3D printer, formed and preferably via an adhesive film (26) with the printing plate holder (5 ), in particular with in the embossing plate receiving (15, 16) arranged printing plates (24) is fixed.
[5]
5. embossing punch (1) according to any one of the preceding claims 1 to 4, characterized in that in the Positionierausnehmungen (22) of the receiving elements (20) means (31), in particular snap-in connections, for attaching the insertable positioning elements (23) are arranged.
[6]
6. stamp (1) according to one of the preceding claims 1 to 5, characterized in that a plurality of positioning elements (23) are releasably attached to a holding frame (29).
[7]
7. embossing stamp (1) according to any one of the preceding claims 1 to 6, characterized in that on the holding frame (29) preferably each letter of the alphabet and preferably special characters are arranged.
[8]
8. embossing punch (1) according to one of the preceding claims 1 to 7, characterized in that in the printing plate holder (5) or in the die (1) itself a removal aid (35) for easier removal of the positioning elements (23) from the Positionieraufnahmen (22 ) is arranged.
[9]
9. embossing punch (1) according to one of the preceding claims 1 to 7, characterized in that the positioning elements (23), in particular the positive and negative printouts (27, 28), different forms (32).
[10]
10. printing plate holder (5) for an embossing stamp (1) comprising at least one upper and lower embossing plate receptacle (15, 16), which are connected to each other via a guide strip (17), characterized in that a receiving element (20) preferably with a stamping ornament (21) is arranged in the embossing plate receptacle (15, 16) and in the receiving element (20) at least one positioning recess (22) for inserting positioning elements (23), such as letters, symbols, and / or elements, is arranged.
[11]
11. printing plate holder (5) according to claim 10, characterized in that the receiving element (20) made of a plastic, for example, from a 3D printer, is formed and preferably via an adhesive film (26) with the printing plate holder (5), in particular with in the embossing plate receiving (15, 16) arranged pressure plates (24) is fixed.
[12]
12. printing plate holder (5) according to claim 10 or 11, characterized in that in the Positionierausnehmungen (22) of the receiving elements (20) means (31), in particular snap-in connections, for attaching the insertable positioning elements (23) are arranged.
[13]
13. printing plate holder (5) according to any one of the preceding claims 10 to 12, characterized in that in the printing plate holder (5) or in the stamper itself a removal aid (35) for easier removal of the positioning elements (23) from the positioning receptacles (22) is arranged ,
[14]
14. receiving element (20) for an embossing punch (1) according to claims 1 to 9 and / or a printing plate holder (5) according to claims 10 to 13, characterized in that at least one positioning recess (22) for insertion of positioning elements (23) is arranged.
[15]
15. receiving element (20) according to claim 14, characterized in that the receiving element (20) made of plastic, in particular of a 3D printer is formed.
[16]
16. receiving element (20) according to claim 14 or 15, characterized in that the receiving element (20) and the positioning elements (23) means (31) for positioning, in particular a snap-in connections comprises.
[17]
17. Positioning elements (23) for an embossing punch (1) according to claims 1 to 9 and / or a printing plate holder (5) according to claims 10 to 13, and / or a receiving element (20) according to claims 14 to 16, characterized in that the positioning elements (23) are made of plastic.
[18]
18. Positioning elements (23) according to claim 17, characterized in that the insertable positioning elements (23) are arranged positively and negatively (mirror-inverted) in a holding frame (29).
[19]
19. Positioning elements (23) according to claim 17 or 18, characterized in that the positioning elements (23) has means (31) for fastening in a positioning recess (22) in a receiving element (20).

类似技术:

公开号 | 公开日 | 专利标题

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AT43971B|1910-09-10|Jig for photographs and the like.

DE1652305C|1972-08-31|Hand embossing device

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WO2004028762A1|2004-04-08|Hole punch

DE2051782B|Device for producing embossed signs or the like

DE8217852U1|1982-10-21|Advertising trailer

同族专利:

公开号 | 公开日

WO2016118990A1|2016-08-04|

TW201702087A|2017-01-16|

US20180154684A1|2018-06-07|

EP3250393A1|2017-12-06|

CN107980025A|2018-05-01|

AT516816B1|2018-03-15|

TWM609412U|2021-03-21|

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US8522680B2|2008-10-07|2013-09-03|Faye Angevine|Apparatus for forming embossed and printed images|DE102016121496A1|2016-11-10|2018-05-17|Gerhard Rauch Ges.m.b.H.|Device and method for multifunctional foil embossing|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50065/2015A|AT516816B1|2015-01-29|2015-01-29|EMBOSSING TEMPLE AND PRESSURE PLATE HOLDER FOR THE EMBOSSING TEMPLE|ATA50065/2015A| AT516816B1|2015-01-29|2015-01-29|EMBOSSING TEMPLE AND PRESSURE PLATE HOLDER FOR THE EMBOSSING TEMPLE|

PCT/AT2016/050001| WO2016118990A1|2015-01-29|2016-01-04|Embossing stamp and pressure plate for the embossing stamp|

CN201680007702.XA| CN107980025A|2015-01-29|2016-01-04|Imprinter and the pressing plate holder for imprinter|

US15/546,477| US20180154684A1|2015-01-29|2016-01-04|Embossing stamp and printing plate holder for the embossing stamp|

EP16705704.1A| EP3250393A1|2015-01-29|2016-01-04|Embossing stamp and pressure plate for the embossing stamp|

TW105101288A| TW201702087A|2015-01-29|2016-01-15|Embossing stamp and pressure plate for the embossing stamp|

TW109214188U| TWM609412U|2015-01-29|2016-01-15|Embossing stamp, printing plate holder for the embossing stamp, receiving element and positioning element|

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