EP2814674A1 - Dispositif d'impression - Google Patents
Dispositif d'impressionInfo
- Publication number
- EP2814674A1 EP2814674A1 EP13766276.3A EP13766276A EP2814674A1 EP 2814674 A1 EP2814674 A1 EP 2814674A1 EP 13766276 A EP13766276 A EP 13766276A EP 2814674 A1 EP2814674 A1 EP 2814674A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- printing device
- reservoir
- main side
- base body
- cover
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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- 239000011148 porous material Substances 0.000 claims 1
- 238000007641 inkjet printing Methods 0.000 abstract description 8
- 239000000976 ink Substances 0.000 description 108
- 238000004891 communication Methods 0.000 description 74
- CSCPPACGZOOCGX-UHFFFAOYSA-N Acetone Chemical compound CC(C)=O CSCPPACGZOOCGX-UHFFFAOYSA-N 0.000 description 24
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- YXFVVABEGXRONW-UHFFFAOYSA-N Toluene Chemical compound CC1=CC=CC=C1 YXFVVABEGXRONW-UHFFFAOYSA-N 0.000 description 15
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- CWYNVVGOOAEACU-UHFFFAOYSA-N Fe2+ Chemical compound [Fe+2] CWYNVVGOOAEACU-UHFFFAOYSA-N 0.000 description 2
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- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 description 1
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/1752—Mounting within the printer
Definitions
- the invention relates to a printing device according to the preamble of claim 1 and claim 22.
- Such storage containers are preferably storage containers for operating fluids of the printing device, in particular ink reservoir and / or solvent reservoir.
- reservoirs are used with a dimensionally stable outer body, which have in their interior at least one shape-variable storage body, usually in the form of a bag, which contracts during a removal of the corresponding operating fluid, for example, during ink withdrawal.
- the outer body also often have other elements, such as electronic circuits and
- Memory devices via which information, for example, on the current filling level of the reservoir and / or a kind of content and / or
- Manufacturer information and / or a date of manufacture, etc. can be replaced with the printing device.
- this data can be written updated in this memory. This makes it possible
- said outer body frequently, in particular at
- Printing equipment in the office sector and / or labeling systems in the industrial sector additional facilities on, for example, electronic and / or fluidic devices, such as ink filters and / or nozzles with associated control devices, so that the outer body in conjunction with these additional facilities is a functioning pressure module, which can be operated for example via external electrical control signals.
- additional facilities on, for example, electronic and / or fluidic devices, such as ink filters and / or nozzles with associated control devices, so that the outer body in conjunction with these additional facilities is a functioning pressure module, which can be operated for example via external electrical control signals.
- such a pressure module has a considerable complexity, whereby both manufacturing costs and operating costs are relatively high, since usually after emptying of the reservoir and in particular of the storage body, the complete print module is replaced and disposed of.
- Reservoir in even simpler design have only a container that is either designed as dimensionally stable body and when emptying requires additional facilities for ventilation or designed as non-dimensionally stable body, such as a bag that requires a corresponding elaborately designed recording device for its support.
- Machine control of the printing device is usually carried out via electrical contacts, via which the power supply of the electrical device to the reservoir and the data transfer between the reservoir and the control system of the printer.
- the receiving device for the reservoir for example, a Row of contact pins, which come in an insertion and fixing of the reservoir in the receiving device with corresponding contact surfaces on the reservoir in connection, whereby the electrical contacts come about.
- inks and solvents used for industrial applications are sometimes very aggressive or have high adhesion
- Reservoir must be made with a sufficient contact force, by means of which the contact surfaces are pressed together. This can be impaired in particular by wear.
- a storage container of a printing device wherein the reservoir has at least one opening and wherein at least one of the opening facing surface element of an outer side of the reservoir has a pointing in a first direction surface normal and wherein the
- Storage container has at least one data module, the at least one transmitting and / or receiving unit for contactless communication with at least one
- a printing device is further known, wherein the printing device has at least two receiving devices for receiving a respective storage container and wherein the printing device at least one
- the at least one communication module has at least one transmitting and / or receiving unit, which is suitable for a contactless data transmission between this transmitting and / or receiving unit and each at least one data module of a reservoir and wherein the
- Printing device has at least one line system.
- EP 1 060 895 A1 discloses a storage container of a printing device, wherein the storage container has at least one data module which has at least one transmitting and / or receiving unit for contactless communication with at least one communication module of a printing device.
- Continuous ink jet printers have an operating principle in which an ink to be printed from a storage container, for example by means of a
- Removed negative pressure and preferably via pumps with positive pressure in a preferably located in a print head pressure chamber is promoted, which has at least one nozzle on a side facing an object to be printed on. From the at least one nozzle ink initially emerges as a continuous ink jet, which decays into individual drops.
- at least one modulation element is attached to the pressure chamber, for example, which generates pressure fluctuations in the exiting ink jet, so that after leaving the nozzle after a short time in breaks a defined distance into individual similar drops of ink.
- the size of the ink drops depends, for example, on the applied modulation frequency, the
- Nozzle diameter and the pressure generated by the pump can be set within the limits set by the combination of the aforementioned parameters for the system. Just before the tearing off of the ink drops from the leaked
- the ink droplets are each provided with an individual electrical charge, the height of the charge preferably depends on the desired impact position on the object to be printed.
- the ink has an electrical
- the charging electrode is electrically held at ground potential.
- the charging electrode has no mechanical contact with the ink jet. If an ink drop now breaks off the ink jet while it is in the field region of the charging electrode, the electrical charges which have moved through the influence in the drops remain in the ink jet
- Conductivity of the ink is according to the level of the applied charging voltage. With a change in the charging voltage, the amount of charge on each drop can thus also be changed.
- the electrically charged ink drops subsequently enter the electrostatic field of a plate capacitor and, depending on their individual charge, are more or less deflected from their rectilinear trajectory and fly off the electrostatic field at a certain angle dependent on their charge their original trajectory continues.
- different impact positions can be selected on a surface to be labeled with individual ink droplets, where in this
- the inks used for this purpose have certain required or desired
- Solvents are used for example methyl ethyl ketone, alcohols, acetone or generally organic solvents. Due to the principle, it is so that even in the non-printing operating state ink drops from the said nozzle emerge and only after a certain distance in the ink jet print head on the
- Trap pipe are returned to the ink circuit.
- the ink droplets are exposed to the ambient air, losing some of their solvent due to the volatility of the solvent mentioned and used in the ink.
- the ink jet printer continuously decreases the proportion of solvent in the ink circulation in the ink circuit, resulting in an increase in the viscosity of the ink and thus malfunction or failure of the printer.
- the ink is continuously or at regular intervals or as needed fed a certain amount of solvent from a dedicated reservoir. This happens, for example, by timed a specific
- Solvent amount is supplied to the ink system or via a
- Viscosity measurement is supplied as needed a certain amount of solvent.
- different pumps and / or valves and / or filters and / or measuring devices are provided in the ink system, which must be brought into different contact with each other as needed. There is therefore a need for extensive tubing between these facilities
- the respective devices such as pumps and / or valves and / or filters and / or measuring devices are mounted on at least one base plate or mounting plate.
- a tubing of the individual devices with each other is usually made by means of respective hose connections, which requires a considerable amount of time in the production.
- the tubing of each device is prone to error, which can lead to a considerable rework.
- Inkjet printer can lead.
- a printing device which has a line, wherein the printing device has a main body which has a first and a second main side and wherein the main body has two passages, the one Connect channel to the second main side of the body and where a
- Ink reservoir on the second main side of the at least one base body connected to one of the two passages of the at least one channel and / or connectable.
- pressure fluctuations can occur due to inserted pumps, which can adversely affect, for example, discharge behavior of operating fluids, such as ink ejected from an ink jet printhead. This is due to the fact that in the
- Inkjet printhead should prevail as constant pressure conditions to ensure a smooth operation. As a rule, however, the pressure fluctuations can continue from the corresponding pump to one end of the line system, for example to at least one print head.
- the invention has for its object to provide a printing device.
- a preferred printing device which has at least one line system, wherein the printing device has at least one main body having a first main side and a second main side and wherein the at least one base body has at least two passages each having at least one channel with the second main side of the at least one Connect body and at least one
- the at least one base body in each case directly and / or connected via at least one intermediate connecting line with at least one of the at least two passages of the at least one channel and / or connectable and wherein the at least one main body has on its first main side at least two channels in each case by at least one line of the at least one line delimited by the at least one base body on the one hand and at least one cover and / or at least one sealing element on the other hand
- At least one further component of the at least one line system is arranged and / or arranged on the second main side of the at least one base body and wherein the at least one further component at the same time connected to at least two passages arranged and / or can be arranged, each having different the at least two channels are assigned, has in particular the advantage that the printing device is inexpensive and easy to make and operate service, for example because that
- the at least one base body not only defines and forms the line system, but also provides a connection system, which furthermore serves as a receiving plate and / or mounting body or
- Mounting plate for fluidic devices and / or other facilities can serve.
- the base body can serve as a mounting body for at least one sheet metal housing, which is preferably folded away and thus, for example, the base body accessible from three sides accessible.
- a further advantage is preferably that a predefined, fixed, structurally optimized line system is present through the at least one channel in the base body, that is less susceptible to errors than a system of hoses. There are no elastic lines necessary that could become brittle and / or leaking.
- the at least one cover is reversible, so in particular releasably connected to the at least one base body. This ensures that the
- Line system can be made accessible for maintenance purposes, for example.
- the at least one channel is covered by at least one sealing element, thereby a line is determined, which does not require contact with the at least one cover.
- a further advantage of a pressure device in which the at least one main body has on its first main side at least one compensating recess through which at least one, bounded by the at least one base body on the one hand and the at least one cover and / or the at least one sealing element on the other hand
- Compensation volume of the at least one conduit system is fixed and that the compensating volume is connected via at least one passage to the second main side of the at least one base body and that a limited by the at least one compensating volume volume by compression and / or decompression of at least one damping body is changeable, is that caused by at least one pump pulsations of pressure within a working fluid can be attenuated and / or reduced and / or avoided entirely within the conduit system.
- This preferably ensures constant pressure conditions at an outlet of the line system, for example on a print head, in particular
- Inkjet printhead This can improve the quality of printed products.
- the at least one cover and / or the at least one sealing element is designed to be at least partially flexible in an area bounding the compensating volume and / or that on one of the compensating volume
- the at least one damping body is arranged and / or the at least one damping body is formed reversibly deformable and / or at least one damping body between the at least one sealing element and the at least one cover is arranged the advantage of a particularly simple and therefore cost effective but effective construction of the pipe system.
- the compensation volume is designed as a compensation line and is connected to at least two passages and / or the
- Compensation volume is connected via at least two passages with the second main side of the body, which have different sized cross-sectional areas, offers the advantage that the damping takes place within a flowed through in one direction portion of the conduit system, so that the working fluid therein is continuously replaced and / or By throttling an improvement of the effect of the damping body and / or a laminar flow behind the compensation volume can be achieved.
- the advantages which can preferably be achieved with the invention are preferably that the preferred storage container can be manufactured and handled very simply and inexpensively and is prone to errors.
- the advantage of arranged and / or used transmitting and / or receiving devices is that a contactless exchange of signals and / or data is possible between a pressure device and the reservoir, essentially insensitive to contamination.
- a contactless exchange of signals and / or data between a reservoir and an external communication device is possible.
- Such an exchange of signals and / or data is preferably encrypted and therefore insensitive to external interference and protected against manipulation.
- Reservoir is that the reservoir a production and / or a Mounting position with lower precision allowed, as if it had contact surfaces for electrical contacts.
- An advantage of a preferred storage container is that after emptying the storage container can be refilled and / or reused, in particular because at least one data module of the storage container can be newly described with data.
- a preferred reservoir of a pressure device which has at least one opening, wherein at least one of the opening opposite surface element of an outer side of the reservoir having a facing in a first direction surface normal and wherein the reservoir by applying a negative pressure to an interior of the reservoir from a first operating state in a wherein the outer body of the reservoir in the second operating state has a different shape than in the first operating state and wherein the direction of the surface normal of the at least one surface element of the outside of the reservoir in the second operating state of a direction of the surface normal of the at least one Surface element of the outside of the
- Reservoir in the first operating state deviates by more than 60 °, in particular has the advantage that on this surface element, a data module and / or a marker can be arranged, the or in each of the two
- Operating states can be read and / or written and / or read.
- a preferred storage container of a printing device which has at least one opening and at least one outer body, wherein at least the outer body of the
- Reservoir at least partially from a mixture of a HDPE (High Density Polyethylene), ie a polyethylene with a density between 0.94 g / cm A 3 and
- a preferred reservoir of a printing device having at least one data module having at least one transmitting and / or receiving unit for contactless communication with at least one communication module of a printing device, wherein the reservoir by applying a negative pressure to an interior of the reservoir from a first operating state in a second operating state can be transferred and wherein an outer body of the reservoir in the second
- Operating state has a different shape than in the first operating state, in particular has the advantage that the reservoir is inexpensive to produce, easy to handle and yet is suitable for data exchange with the printing device.
- a preferred printing device which has at least two receiving devices for receiving in each case a storage container, wherein the printing device has at least one communication module and wherein the at least one communication module has at least one transmitting and / or receiving unit, which leads to a contactless data transmission between this transmitting and / or receiving unit and in each case at least one data module of a storage container is suitable and wherein each of the at least two receiving devices has at least one coupling element and wherein the at least two coupling elements via at least one conduit system for Operating fluids communicate with each other and with at least one inkjet printhead, in particular has the advantage that can be prevented by appropriate data adjustment that mismatched
- Preference is therefore particularly a storage container of a printing device having at least one data module are stored on the data that can be read by at least one communication module of a printing device, wherein the data stored on the at least one data module information about
- Reservoir contained operating fluid are set.
- this offers the advantage that the printing device is always set correctly, regardless of operators. This reduces a probability of failure and thus costs due to downtime. For example, in a change of components of an ink from one delivery to the next, the operator does not have to be informed about new necessary settings of the printing device, but the corresponding settings are performed automatically without errors by the printing device.
- this is shown in a preferred method for operating a printing device, wherein at least one storage container having at least one data module is inserted into a receiving device of the printing device and wherein data is read from the at least one data module of the at least one storage container by means of at least one communication module of the printing device and wherein a machine control checks on the basis of at least the read-out data settings of the printing device and / or changes settings of the printing device as a function of the data read out.
- the at least one data module preferably contains information about how often the storage container has already been inserted into a printing device. It can then be estimated, for example, how much a cover of an opening has already been damaged and whether further insertion of the storage container into the same or another pressure device is permitted without the risk of leakage.
- the at least one data module is arranged on one of the at least one opening of the storage container opposite side of the reservoir, so that communication means of the printing device and recording devices of the printing device can be arranged spatially separated from each other. This prevents dangers that would result if electronics were located near possible exit points of operating fluids.
- the at least one data module preferably contains information about how much liquid has already been taken from the storage container. Preferably, this is the only information that can be written by a normal user, while all other information can only be read by a normal user but written and read by a manufacturer. This guarantees comfortable and safe operation for the user and flexibility for the manufacturer. Embodiments of the invention are illustrated in the drawings and will be described in more detail below.
- Fig. 1 is a schematic representation of a storage container in a first
- Fig. 2 is a schematic representation of the reservoir in the first
- Fig. 3 is a schematic representation of the reservoir in the first
- Fig. 4 is a schematic representation of the reservoir in the first
- FIG. 5 is a schematic sectional view of the storage container in the second operating state along the section line V-V in FIG. 9;
- FIG. 6 is a schematic sectional view of the storage container in the second operating state along the section line VI-VI in FIG. 9;
- Fig. 7 is a schematic representation of the reservoir in the second
- Fig. 8 is a schematic representation of the storage container in the second
- FIG. 9 is a schematic sectional view of the storage container in the second operating state along the section line IX-IX in FIG. 5;
- FIG. 10 shows a schematic representation of an embodiment of the storage container with formations in a side view
- Fig. 1 1 is a schematic representation of an embodiment of the reservoir with moldings in a side view
- FIG. 12 shows a schematic representation of an embodiment of the storage container with formations in a side view
- Fig. 13 is a schematic illustration of a printing device
- Fig. 14 is a schematic representation of a cover of a main body of
- Fig. 15 is a schematic representation of the cover of the main body of
- Fig. 16 is a schematic representation of the cover of the main body of
- 17 is a schematic representation of the main body of the printing device in a perspective view obliquely from below;
- Fig. 18 is a schematic representation of the main body of the printing device in a view from above;
- Fig. 19 is a schematic sectional view of the main body with at least two channels, wherein a reservoir is shown in dashed lines and partially wherein at least one further component of the conduit system and a connecting line are indicated.
- the at least one line system 27 is in particular at least one liquid line system 27 and / or at least one line system 27 for operating fluids.
- the at least one line system 27 preferably serves to transport at least one operating fluid of the pressure device 21.
- Such operating fluid is, for example, at least one ink and / or at least one solvent.
- an ink refers in particular to a printing ink which is preferably suitable for use in an inkjet printing device 21. Unless contradictions arise, this is generally understood to mean a printing ink.
- the at least one line system 27 is preferably at least one line system 27 of at least one inking unit of the printing device 21 and / or at least one ink conduit system 27 and / or at least one ink conduit system 27 and / or at least one
- the at least one ink preferably contains at least one solvent, for example water and / or an organic solvent.
- the at least one line system 27 preferably has at least one line 31.
- the at least one line 31 of the conduit system 27 is preferably connected to at least one storage container 01 and / or connectable.
- the at least one storage container 01 is in particular at least one storage container 01 for at least one operating fluid of the pressure device 01.
- the at least one storage container 01 is preferably as an ink reservoir 01 and / or as Solvent reservoir 01 formed. Therefore, in the following of at least one reservoir 01 the speech, including always at least one
- Ink reservoir 01 and / or at least one solvent reservoir 01 is to be understood.
- the at least one storage container 01 is a storage container
- the printing device 21 preferably has at least one receiving device 22 for the at least one detachable and / or removable and preferably exchangeable storage container 01.
- the printing device 21 has at least one
- Inkjet printhead 24 which is also preferably connected to the at least one conduit system 27, for example via at least one
- the storage container 01 preferably has at least one outer body 02.
- the at least one outer body preferably has at least one outer body 02.
- the reservoir 01 is preferably the at least part of the reservoir 01, which in a
- the at least one outer body 02 may consist of several components, but is preferably formed in one piece. Of the
- Reservoir 01 preferably has at least one and more preferably exactly one opening 03.
- the storage container 01 is preferably filled via the at least one opening 03 and / or emptied.
- Each opening 03 is preferably preferably closed and / or closed by means of a closure 04.
- Closure 04 is designed, for example, as a press-on closure 04, but preferably as a twist-lock 04.
- the closure 04 preferably has at least one flexible region which can be pierced relatively easily by means of a pointed object, for example a coupling element 26 designed as a needle 26.
- a pointed object for example a coupling element 26 designed as a needle 26.
- the storage container 01 can be connected, for example, to the printing device 21.
- This flexible region is made for example of a rubber and / or an elastomer and / or designed as a sealing element.
- the storage container 01 initially no opening 03 until the at least one outer body 02, for example by means of a pointed object, for example a needle 26 is pierced.
- the reservoir 01 has at least one and preferably exactly one interior 06.
- the at least one interior 06 is limited by means of the outer body 02 and the at least one closure 04 and in particular delimited from an outer space.
- the outer body 02 is formed single-walled. This means that the outer body 02 preferably defines the inner space 06 both with its inner side, and also forms the outer side of the reservoir 01 with its outer side.
- the reservoir 01 is at least partially and further preferably formed completely single-walled.
- Reservoir 01 has at least one surface element 08 an outer side of the
- the at least one surface element 08 of the at least one opening 03 is independent of an operating state of the storage container 01 and in particular in each operating state of the storage container 01 opposite. If, in the following, an operating state of the storage container 01 is mentioned, this is to be understood in particular as a form of the storage container 01, which is preferably made of the pressure conditions in the interior 06 and / or outside of the
- the outer body 02 of the reservoir 01 and more preferably the entire reservoir 01 is at least partially formed from at least one reversibly deformable material.
- at least the outer body 02 of the reservoir 01 and more preferably the entire reservoir 01 is at least partially formed from at least one reversibly deformable material.
- Reservoir 01 formed from this at least one reversibly deformable material.
- This at least one material is preferably a plastic.
- a preferred one Material is for example a mixture of a HDPE (high density polyethylene, ie a polyethylene with a preferred density between 0.94 grams per
- a mixing ratio of HDPE to LDPE is on the one hand 1 to 4 and on the other hand 4 to 1.
- a proportion of the HDPE in the mixture is preferably between 20% and 80% and a proportion of the LDPE preferably between 80% and 20%. lies.
- the mixing ratio of HDPE to LDPE is 1 to 1.
- the proportions of HDPE and LDPE add up to 100%.
- the material can also alternatively or additionally PPE
- the storage container 01 preferably has non-zero dimensions in each operating state in three orthogonally aligned spatial directions.
- the storage container 01 has a height which is between 5 cm and 50 cm, more preferably between 10 cm and 30 cm and even more preferably between 15 cm and 25 cm.
- the storage container 01 has a width which is between 5 cm and 30 cm, more preferably between 7 cm and 20 cm and even more preferably between 9 cm and 15 cm.
- the reservoir 01 has a depth which is between 5 cm and 30 cm, more preferably between 7 cm and 20 cm and even more preferably between 9 cm and 15 cm.
- height, width and depth are each orthogonal to each other.
- Operating fluid such as an ink and / or a solvent is preferably by applying a negative pressure to the at least one opening 03 of the
- Reservoir 01 removable. Since the reservoir 01 preferably no
- the reservoir 01 preferably pulls through Negative pressure related withdrawal of liquid together. This is preferably done in an at least substantially controlled and / or predetermined manner, which is predetermined by the shape and the material of the reservoir 01.
- Reservoir 01 is a formed by the interior space 06 can be reduced.
- the interior 06 of the reservoir 01 has in a first operating state of the
- Reservoir 01 in particular in a first form of the reservoir 01, a first volume.
- the reservoir 01 is preferably undeformed as long as it is in the first operating state.
- the first operating state is preferably given, for example, when at least one opening 03 of the storage container 01 is unlocked and / or when pressure compensation between the interior 06 of the storage container 01 and an environment is possible and / or given.
- the reservoir 01 at least in the first operating state apart from the at least one opening 03 and the at least one closure 04 has a shape which substantially corresponds to a cuboid or a cylinder or a cone or a sphere.
- the reservoir 01 on at least one of its outer sides and preferably at least on two opposite outer sides of formations 09, which are formed for example in the form of ribs 09 and / or thickening 09 and / or thinners 09. More preferably, these protrusions 09 are arranged on each corresponding outer side in at least two rows, between which a predetermined bending line 1 1 runs.
- a shape and / or a sequence is preferably determined in which the reservoir 01, when it is emptied, contracts from the first operating state into another, in particular a second, operating state. In particular, stands out the
- Reservoir 01 thus preferably characterized in that the reservoir 01 has at least one outer side at least two protrusions 09 which are spatially separated from each other on the at least one outer side and between each other At least one area formed as a predetermined bending line 1 1 area surrounded at least from two sides.
- the at least one predetermined bending line 11 preferably extends parallel to the direction B of the surface normal of the at least one surface element 08 and / or to alignment of a direction A, in particular normal direction A of the at least one data module 07 at least in the first operating state and more preferably in each operating state ,
- the interior 06 of the reservoir 01 has in further operating states of the reservoir 01 volumes which differ from the first volume and in particular are smaller than the first volume.
- the interior 06 of the reservoir 01 in at least a second operating state, a second
- the second volume is preferably at most 25% of the first volume. More preferably, the second volume is at most 10% of the first volume. Still more preferably, the second volume is at most 5% of the first volume. Still more preferably, the second volume is at most 2% of the first volume.
- the reservoir 01 can be transferred from the first operating state into the second operating state by applying a negative pressure to the interior 06 of the reservoir 01.
- the at least one, preferably the at least one opening 03 opposite surface element 08 of the outside of the reservoir 01 preferably has a pointing in a first direction B surface normal.
- a first direction B of the surface normal of the at least one surface element 08 of the outside of the storage container 01 deviates in the second operating state from a direction B of FIG.
- Reservoir 01 in the first operating state by at most 60 °, more preferably at most 45 °, even more preferably at most 30 ° and even more preferably at most 15 ° from.
- the storage container 01 preferably has at least one and more preferably exactly one data module 07, more preferably at least one data module 07, which has at least one transmitting and / or receiving unit for contactless, in particular wireless communication with at least one communication module 28 of the printing device 21.
- Contactless is to be understood in particular as meaning that there is no physical contact.
- the at least data module 07 preferably has a normal direction A.
- the normal direction A is preferably a direction of the strongest reception and / or transmission power of the at least one receiver and / or the at least one transmitter of the at least one data module 07.
- the normal direction A of the at least one data module 07 is also called the transmission direction A of the at least one data module 07.
- the normal direction A of the at least one data module 07 is a direction A which is orthogonal to a surface of the at least one data module 07 which has a largest surface area of all surfaces of the at least one data module 07.
- An orientation of the normal direction A of the at least one data module 07 is not necessarily, but preferably in each
- An orientation of the normal direction A in the second operating state preferably deviates from an orientation of the normal direction A of FIG at least one data module 07 in the first operating state by at most 60 °, more preferably at most 45 °, even more preferably at most 30 ° and even more preferably at most 15 °.
- the at least one data module 07 is arranged on one side of the storage container 01 opposite the at least one opening 03.
- At least one data module 07 data are preferably stored, which are preferably by means of the at least one communication module 28 of the printing device 21 can be read, further preferably wirelessly readable.
- data are preferably contactless, in particular wirelessly between the at least one data module 07 and corresponding devices, for example the at least one
- the at least one data module 07 is preferably designed as an RFID module 07 (radio frequency identification module) and / or as an optical data module 07.
- the at least one data module 07 preferably has at least one data memory, in particular memory and at least one transmitting unit, in particular a transmitter and at least one receiving unit, in particular a receiver.
- the at least one data module 07 preferably has at least one processor element for processing data.
- the at least one transmitting unit and the at least one receiving unit are preferably designed as a combined transmitting and / or receiving unit, in particular in the case of an RFID module 07.
- the at least one transmitting unit and / or the at least one receiving unit and / or the at least one transmitting and / or receiving unit is preferably designed as at least one antenna, more preferably in the form of at least one
- Conductor loop and more preferably in the form of at least one conductor coil with multiple turns.
- the data module 07 is at least readable. In particular, therefore, data from the at least one memory of the at least one data module 07 is contactless, in particular wirelessly to at least one reading device, for example the at least one Communication module 28 of the printing device 21 transferable.
- the data module 07 is preferably writable. In particular, therefore, data from at least one
- Transmission device for example, the at least one communication module 28 of the printing device 21 from contactless, in particular wirelessly transferable to the at least one data module 07 and in particular in the at least one memory of at least one data module and / or data in the at least one memory of at least one data module 07 means at least one transmitting device,
- the at least one communication module 28 of the printing device 21 changeable.
- the at least one data module 07 has at least one repeatedly contactlessly writable and readable memory.
- the at least one receiver also energy contactless, in particular wirelessly transferable to the at least one data module 07.
- the at least one data module 07 preferably has at least one
- Energy source which is preferably rechargeable, but may be formed in an alternative form as a non-rechargeable energy source.
- the at least one energy source is designed, for example, as at least one capacitor and / or at least one accumulator.
- the at least one surface element 08 carries the outside of the
- the alignment of the normal direction A of the at least one data module 07 and / or the direction B of the surface normal of the at least one data module 07-bearing surface element 08 of the outside of the reservoir 01 always order at most 60 °, more preferably at most 45 °, even more preferably at most 30 ° and even more preferably at most 15 ° from the Alignment of the normal direction A of the at least one data module 07 and / or from the direction B of the surface normal of this at least one data module 07 bearing surface element 08 of the outside of the reservoir 01 at balanced with the ambient pressure in the interior space 06 of the reservoir 01 from.
- a marking for example in the form of a barcode on the at least one
- Surface element 08 may be arranged. Due to the guaranteed alignment of the
- a center of gravity and / or a geometric center of the at least one data module 07 differs in the second operating state by preferably at least 0.1 cm, more preferably by at least 0.5 cm and even more preferably by at least 1 cm from the center of gravity and / or geometric center of the at least one data module 07 in the first operating state.
- the focus here is to be understood as the physical center of gravity of the at least one data module 07.
- the geometric center means a point which corresponds to the physical center of gravity at constant density of the at least one data module 07.
- the center of gravity and / or the geometric center of the at least one data module 07 in the second operating state preferably deviates by at most 15 cm, more preferably at most 10 cm, even more preferably at most 5 cm and even more preferably at most 2 cm from the center of gravity and / or the geometric center of the at least one data module 07 in the first operating state.
- a layer of at least one point of the at least one data module 07-bearing surface element 08 of the outer side of the reservoir 01 in the second operating state preferably by at most 15 cm, more preferably at most 10 cm, even more preferably at most 5 cm and still more preferably at most 2 cm from a position of this at least one point of this the at least one data module 07 bearing surface element 08 of the outside of the reservoir 01 deviates in the first operating state.
- the at least one surface element 08 carrying at least one data module 07 preferably executes during a transition of the storage container 01 from the first
- Operating state preferably a limited translational movement and more preferably no significant or even more preferably no rotational
- the at least one data module 07 is preferred on which the at least one
- the at least one data module 07 is adhesively or preferably non-detachably adhered to the storage container 01 by means of an adhesive bond and / or is detachable or preferably insoluble in the material of the container
- Reservoir 01 is fully or partially integrated, in particular melted and / or releasably or non-detachably completely or partially embedded in a potting compound and / or adhesive.
- the potting compound and / or adhesive is preferably fixed to the reservoir 01, in particular undetachably connected.
- the at least one data module 07 is formed dust-tight and / or liquid-tight.
- the at least one data module 07 is dust-tight and liquid-tightly encapsulated by means of an encapsulation, wherein more preferably the encapsulation is resistant to solvents.
- the encapsulation is preferably resistant to acetone (also called propanone or dimethyl ketone) and / or alcohols and / or MEK (also called butanone or methyl ethyl ketone) and / or toluene (also called methylbenzene) and / or organic solvents.
- the encapsulation of the at least one data module 07 is preferably resistant to inorganic and / or organic acids and / or inorganic and / or organic alkalis.
- Due to the at least partial formation of the reservoir 01 from the at least one reversibly deformable material of the reservoir 01 is preferably transferred from the second operating state and / or another operating state back into the first operating state.
- This is possible, on the one hand, in that the storage container 01 located in the second or other operating state is returned to the first operating state, for example after removal of the closure 04, by applying an overpressure or due to pressure being equalized by removal of the closure 04 automatically transferred back to the first operating state.
- Preference is given to a deflated and in the first
- Operating state transferred reservoir 01 again filled with at least one liquid, such as an ink and / or a solvent and reused.
- the reservoir 01 allows a method for emptying the replaceable
- Surface element 08 deviates in the first operating state by at most 60 °, preferably at most 45 °, more preferably at most 30 ° and even more preferably at most 15 °.
- the normal direction A of the at least one data module 07 of the storage container 01 in the first operating state, the first orientation and in the second operating state, the orientation of the normal direction A of the at least one data module 07 in the first operating state by at most 60 °, preferably at most 45 °, more preferably at most 30 ° and even more preferably at most 15 ° deviates. More preferably, the orientation of the normal direction A of the at least one data module 07 deviates during the transition from the first
- the volume of the interior 06 of the storage container 01 is preferably reduced from the first volume to the second volume and / or the center of gravity and / or the geometric center of the at least one data module 07 and / or or the at least one surface element 08 is moved by preferably at least 0.1 cm.
- Volume is reduced by at least 25%, more preferably by at least 50% and even more preferably by at least 75%.
- At least in the first operating state of the storage container 01 at least one signal without contact, in particular wirelessly transmitted from the at least one data module 07 of the reservoir 01 to at least one communication module 28 of the printing device 21 and / or at least in the second operating state of the reservoir 01 at least one signal contactless, in particular wirelessly transmitted from the at least one data module 07 of the reservoir 01 to at least one and more preferably the same communication module 28 of the printing device 21.
- the data stored on the at least one data module 07 preferably contain information about settings which are to be set on the pressure device 21 when using the operating fluid contained in the reservoir 01.
- the data stored on the at least one data module 07 contains
- the corresponding settings are preferably made in the form of ranges with limit values.
- the data stored on the at least one data module 07 preferably further contains information on whether an ink or a solvent in the
- Reservoir 01 is included and / or in which receiving device 22 of the
- Reservoir 01 are read out and wherein the machine control on the basis of at least read data settings of the printing device 21 checks and / or depending on the data read settings of
- Printing device 21 changed.
- desired data for settings of the printing device 21 obtained from the data read out from the at least one data module 07 are compared with actual data for these settings of the printing device 21 and become corresponding at least one deviation from actual data and desired data Settings of the printing device 21 in
- the data read from the at least one data module 07 preferably contains information about settings of at least one ratio of ink and solvent to one another and / or
- the printing device 21 has at least one printing unit 23 and preferably several printing units 23.
- the at least one inkjet printhead 24 is preferably connected to the at least one line system 27 of the printing device 21 and / or connectable.
- the ducking device 21 has at least one receiving device 22 for at least one storage container 01 and preferably at least two
- the storage container 01 is preferably fixable and / or fixed in the at least one receiving device 22 by means of at least one fixing device 29.
- the at least one fixing device 29 may be part of the storage container 01, but is preferably part of the at least one receiving device 22.
- Each receiving device 22 preferably has at least one coupling element 26, by means of a liquid-tight connection between the interior 06 of the respective storage container 01 and the conduit system 27th the printing device 21 can be produced and / or manufactured.
- the coupling element 26 may, for example, have the form of a screw connection 26 and / or a needle 26 and / or a plug connection 26. By means of such a needle 26, the closure 04 and / or the
- Pressure device 21 and the interior 06 of the reservoir 01 is at least one operating fluid, preferably ink and / or solvent continuously or discontinuously removable from the reservoir 01 and the at least one conduit system 27 of the printing device 21 fed, in particular by means of a negative pressure of the reservoir 01 and in particular for promotion of the ink and / or solvent through the at least one ink jet printhead 24.
- At least one receiving device 22 and preferably each receiving device 22 of the printing device 21 is preferably associated with at least one communication module 28 and more preferably in each case a communication module 28. That at least one Communication module 28 preferably has at least one transmission and / or
- the at least one transmitting and / or receiving unit of the at least one communication module 28 is preferably designed as at least one antenna, more preferably in the form of at least one conductor loop and even more preferably in the form of at least one conductor coil with several turns.
- the at least one communication module 28 is preferably at least temporarily with the
- the at least one communication module 28 of a respective receiving device 22 and the at least one data module 07 of a storage container 01 received or to be received in the respective receiving device 22 data are contactless, in particular wirelessly exchangeable, at least in one direction (unidirectional) and preferably in both directions (bidirectional ).
- the at least one communication module 28 is formed dust-proof and / or liquid-tight. More preferably, the at least one communication module 28 is dustproof and
- liquid-tight encapsulated by means of an encapsulation wherein more preferably the
- Encapsulation is resistant to solvents.
- the encapsulation is preferably resistant to acetone (also called propanone or dimethyl ketone) and / or alcohols and / or MEK (also called butanone or methyl ethyl ketone) and / or toluene (also called methylbenzene) and / or other organic solvents.
- acetone also called propanone or dimethyl ketone
- MEK also called butanone or methyl ethyl ketone
- toluene also called methylbenzene
- Communication module 28 resistant to inorganic and / or organic acids and / or inorganic and / or organic alkalis.
- Each receiving device 22 and its associated at least one communication module 28 are preferably arranged aligned with respect to one another such that a storage container 01 connected to the respective receiving device 22
- each rectilinear connection of a coupling element 26 of a receiving device 22 with a communication module 28 of this receiving device 22 intersects a space region which is provided for a to be connected to the respective receiving device 22 reservoir 01 and / or from one to the respective Receiving device 22 connected reservoir 01 is taken.
- at least one and more preferably each receiving device 22 is characterized in that the at least one
- Coupling element 26 is disposed below the at least one communication module 28.
- storage containers 01 can then be arranged in such a receiving device 22 or have an opening 03 at one end and a data module 07 at an opposite end.
- Such reservoirs 01 preferably have the shape of a bottle, for example a cylindrical or cuboidal bottle, wherein a bottom surface of the bottle is equipped with the data module 07 and the bottle is inserted head-on into the respective receiving device 22 or is. For example, in this way it is ensured that, when the storage container 01 is inserted, at least one data module 07 of the storage container 01 receives the communication module 28 of the ink reservoir 01
- Receiving device 22 is arranged opposite.
- Communication module 28 of the receiving device 22 and the data module 07 of the reservoir 01 is less than a maximum usable range of signals that are sent from the at least one communication module 28 of the receiving device 22 and / or the at least one data module 07 of the reservoir 01 and / or received , Preferably, this maximum usable range is at least 10 cm, more preferably at least 50 cm, and even more preferably at least 100 cm.
- Radio signals is preferably between 10 MHz (ten megahertz) and 15 MHz (fifteen megahertz) , more preferably between 13 MHz (thirteen megahertz) and 14 MHz (fourteen
- communication between the at least one data module 07 of the storage container 01 and the at least one communication module 28 of the receiving device 22 takes place alternatively or additionally preferably via optical signals, in particular light signals.
- the at least one data module 07 and / or the at least one communication module 28 additionally or alternatively to at least one antenna preferably has at least one light-emitting component,
- the light used preferably has at least one wavelength which is in the ultraviolet range (1 nm to 380 nm, one nanometer to three hundred eighty nanometers) and / or in the visible range (380 nm to 780 nm, three hundred eighty nanometers to seven hundred eighty nanometers) and / or infrared range (780 nm to 1 mm, seven hundred eighty nanometers to one millimeter) of the electromagnetic spectrum lies or lie.
- the carrier frequency or wavelength of the exchanged between the at least one communication module 28 of the receiving device 22 and the at least one data module 07 of the reservoir 01 signals Regardless of the carrier frequency or wavelength of the exchanged between the at least one communication module 28 of the receiving device 22 and the at least one data module 07 of the reservoir 01 signals, the
- at least one corresponding key exists and more preferably there are several keys for encryption and / or decryption of the exchanged signals and / or the stored data.
- the one or more keys preferably give different rights and thus access
- Data module 07 and the at least one communication module 28 are exchanged, in which at least one data module 07 and / or encrypted in the at least one communication module 28 and / or in the machine control of the printing device 21 and / or decrypted and / or processed and / or stored.
- Such exchanged and / or stored data preferably contain information about a current state of the printing device 21 and / or about a type of operating fluid arranged in the reservoir 01, in particular ink and / or solvent and / or the type of ink used in the printing device 21 and / or via a consumption of the ink and / or a remaining stock of ink and / or solvent in the storage container 01 and / or via a
- the at least one data module 07 of the storage container 01 is able to exchange data and signals with at least one other than the at least one communication module 28 of the receiving device 22, for example an external communication module 28.
- the relevant data module 07 already relevant data supplied, for example, on the nature and amount of the contents of the reservoir 01 and specified by the contents of the reservoir 01 requirements of the
- Printing device 21 it is preferably possible that a data exchange takes place between the at least one data module 07 of the storage container 01 and the at least one external communication module 28 over a distance of more than 100 cm. In this way, for example, contents of deliveries of several storage containers 01 can be detected and checked at once in a simple manner,
- a second, different carrier frequency and / or wavelength and / or at least one other key is used than for the exchange of data and / or or signals between the at least one data module 07 and the at least one communication module 28 of
- Receiving device 22 of the printing device 21st The key or keys in turn preferably give different rights and thus access
- the at least one data module 07 with respect to its stored data by means of a corresponding key in an original state can be displaced and / or re-initialized.
- the printing device 21 has at least one and more preferably exactly one base body 32, which is further preferably designed as at least one base plate 32.
- the at least one base body 32 preferably serves as a mounting body 32.
- the at least one base plate 32 therefore preferably serves as a mounting plate 32. If a base plate 32 is described below, then a general base body 32 is meant at the same time insofar as there are no contradictions.
- the at least one main body 32 preferably has dimensions which are different from zero in three mutually orthogonal spatial directions.
- the at least one base plate 32 has a substantially plate-shaped, in particular preferably cuboid shape.
- the at least one base body 32 at least two, and preferably exactly two preferably opposite main sides 33; 44 on.
- the printing device 21 preferably has the at least one base body 32, which more preferably has a first main side 33 and a second main side 44, which preferably has the first main side 33 opposite.
- a minimum dimension of the at least one base plate 32 is orthogonal on at least one main side 33; 44 and preferably the at least two main sides 33; 44 of the at least one base plate.
- the at least two main sides 33; 44 the largest sides of the at least one base plate 32 relative to its surface.
- At least one, and more preferably exactly one, first main side 33 of the at least one main body 32 has at least one channel 34 and preferably a plurality of channels 34.
- the fixed channel 34 is open to the first main side 33 of the at least one base body 32.
- at least one cover 36 and / or at least one sealing element 39 is preferably arranged.
- the at least one channel 34 preferably forms together with at least one cover 36 arranged and / or arranged on the at least one main body 32 and / or with at least one sealing element 39 arranged and / or arranged on the at least one main body 32 at least one line 31 of the at least one line system 27.
- the at least one line 31 is preferably in a direction pointing from the second main side 44 of the at least one base body 32 to the first main side 33 of the at least one base body 32 through the at least one sealing element 39 and / or the at least one cover 36 is closed.
- the at least one channel 34 preferably extends parallel to the at least one first main side 33 over a length which is greater than a depth of the at least one channel 34, over which the at least one channel 34 extends orthogonal to this first main side 33.
- the length of the at least one channel 34 is at least three times as large, more preferably at least five times as large and even more preferably at least ten times as large as the depth of the at least one channel 34.
- a width of the at least one channel 34 preferably extends orthogonal to the Depth of the at least one channel 34 and orthogonal to the length of the at least one channel 34.
- the at least one channel 34 preferably has in three mutually orthogonal spatial directions of zero different
- the at least one channel 34 is bounded by the at least one base body 32 in five mutually orthogonal and / or parallel directions, in particular in and against the direction of its length and in and against the direction of its width and in the direction of its depth. Contrary to the direction of its depth, the at least one channel 34 is preferably bounded by the at least one cover 36 and more preferably at least partially by the at least one sealing element 39, more preferably exclusively by the at least one sealing element 39. In particular, the at least one channel 34 is without a sealing element 39 and without cover 36 to the first main side 33 of the at least one main body 32 toward open.
- the at least one cover 36 is preferably designed as at least one and more preferably as exactly one common cover plate 36, of which preferably at least two and more preferably all channels 34 of the at least one main body 32 are limited and / or delimitable.
- the at least one sealing element 39 is further preferred as at least one and further preferably designed as exactly one common sealing element 39, of which preferably at least two and more preferably all channels 34 of the at least one base body 32 are limited and / or delimitable.
- the at least one cover 36 is preferably dust-tight and liquid-tight connected to the at least one base body 32 and / or connectable.
- the at least one cover 36 is releasably connected, for example by means of at least one screw with the at least one base body 32 and / or connectable.
- At least two channels 34 are preferably arranged on the first main side 33 of the at least one main body 32, through which at least one line 31 of the at least one line bounded by the at least one main body 32 on the one hand and at least one cover 36 and / or at least one sealing element 39 on the other Line system 27 are fixed.
- the at least one sealing element 39 is arranged and / or can be arranged, for example, on the at least one main body 32 or on the at least one cover 36.
- the at least one sealing element 39 seals the at least one channel 34 preferably against an environment and / or against other channels 34.
- the at least one sealing element 39 is preferably a sealing element 39 common to all channels 34.
- the at least one sealing element 39 preferably consists of a flexible plastic material and / or an elastomer,
- the at least one sealing element 39 preferably has the shape of a recessed mat 39. Furthermore, the at least one sealing element 39 has no recesses and / or borders at least one
- a flexible coating 39 made of a plastic, in particular an elastomer and / or a rubber.
- Such a coating 39 is preferably applied to the at least one main body 32 and / or the at least one cover 36.
- the at least one main body 32 at least one passage 37 and preferably more and more preferably per channel 34 at least one and more preferably per channel 34 at least two passages 37.
- the at least one passage 37 represents a preferably flow-through connection of the at least one channel 34 with the second, remote from the at least one channel 34 main side 44 of the at least one base body 32.
- At least one preferably of at least one operating fluid and / or flow-through component 38 of the at least one
- Conduit 27 connected to the at least one passage 37 on the second, the at least one channel 34 facing away from main body 44 of the at least one base body 32 and / or arranged, more preferably with at least two passages 37 associated with the different channels 34.
- the at least one further component 38 of the at least one line system 27, which is preferably flowed through and / or flowed through by at least one operating fluid, is preferably arranged and / or can be arranged on the second main side 44 of the at least one base body 32 facing away from the at least two channels 34 and / or can be arranged at least one further component 38 of the at least one line system 27 is at the same time connected and / or can be arranged connected to at least two passages 37, which are each assigned to different ones of the at least two channels 34.
- the at least one passage 37 preferably has connections with which the at least one component 38 of the line system 37 can be connected, more preferably directly, ie without further intermediate components.
- the at least one main body 32 preferably has at least one and more preferably several Fixing aids 41, by means of which the at least one component 38 of the at least one conduit system 27 is attached to the at least one base body 32 and / or fastened.
- the at least one fastening aid 41 is designed, for example, as a screw 41 and / or as a bore 41 and / or as a thread 41 and / or as a clamp 41 and / or as a groove 41 and / or as a pin 41. At least a part of the fastening aids 41 is preferably provided for fastening further housing parts of the printing device 21.
- the at least one component 38 is designed, for example, as at least one valve 38 and / or at least one pump 38 and / or at least one filter element 38 and / or measuring device 38.
- at least one component 38 designed as a valve 38 is preferably arranged on the second main side 44 of the at least one main body 32 facing away from the at least one channel 34, such that a first connection of this at least one valve 38 is connected to a first passage 37 of a first channel 34 and that a second connection of this at least one valve 38 is connected to a second passage 37 of a second channel 34. In this way, the first and the second channel 34 are connected to each other and / or connectable via the at least one valve 38.
- a second passage 37 of the second channel 34 is connected to a designed as a pump 38 component 38, which is preferably also on the second, the at least one channel 34 opposite side of the at least one base body 32 is arranged. Then, the at least one valve 38 is arranged connected via the second channel 34 with the at least one pump 38.
- At least one ink reservoir 01 and / or at least one is preferred
- Main side 44 of at least one main body 32 each directly and / or via at least one intermediate connecting line 46 with at least one of at least two passages 37 of the at least one channel 34 connected and / or connectable.
- the at least one main body 32 preferably has the at least one
- the at least one main body 32 preferably has the at least one coupling element 26.
- the at least one base body 32 preferably has at least one and preferably a plurality of moldings for receiving the at least one component 38, which is designed, for example, as a pump 38 and / or valve 38 and / or filter element 38 and / or measuring device 38 and / or pressure compensation element.
- the at least one base body 32 preferably has at least one and preferably a plurality of formations for receiving at least one sensor and / or at least one electronic component 38 and / or at least one electronic assembly.
- the at least one base body 32 consists of at least one ink-resistant and / or solvent-resistant material, for example a material which is resistant to acetone (also called propanone or dimethyl ketone) and / or alcohols and / or MEK (also called butanone or methyl ethyl ketone) and / or toluene (also called methylbenzene) and / or organic
- acetone also called propanone or dimethyl ketone
- MEK also called butanone or methyl ethyl ketone
- toluene also called methylbenzene
- the at least one main body 32 at least of aluminum and / or steel and / or non-ferrous metal and / or of a metal alloy and / or plastic and / or glass fiber reinforced plastic and / or
- the at least one main body 32 is and / or is preferably produced in an injection molding process.
- the at least one base body 32 is and / or is preferably manufactured in one piece.
- the at least one cover 36 preferably consists at least of aluminum and / or steel and / or non-ferrous metal and / or of a metal alloy and / or plastic and / or glass-fiber-reinforced plastic and / or carbon-fiber-reinforced plastic.
- the at least one cover 36 is preferably produced in an injection molding process.
- the at least one cover 36 is releasably connected to the at least one Base body 32 connected and / or connectable, for example by means of at least one screw.
- the at least one cover 36 is inextricably connected to the at least one base body 32 and / or connectable, for example by means of at least one cohesive connection, in particular at least one
- the at least one cover 36 has at least one and more preferably a plurality of feet 42, which are designed as feet 42 of the printing device 21.
- the at least one cover 36 preferably has at least one base 42 of the printing device 21 on a side facing away from the at least one main body 32 and / or the at least one main body 32 has at least one base 42 of the printing device 21, in particular on the second main side 44.
- the at least one cover 36 is at the same time a bottom plate 36 of the printing device 21, in particular a bottom plate 36 of the printing device 21 carrying the printing device 21.
- the at least one cover 36 has at least one and more preferably a plurality of fastening aids 41, by means of which, for example, the at least one
- the at least one fastening aid 41 is in turn designed, for example, as a screw 41 and / or as a bore 41 and / or as a thread 41 and / or as a clamp 41 and / or as a groove 41 and / or as a pin 41. At least a part of the fastening aids 41 is preferably provided for fastening further housing parts of the printing device 21.
- the first main side 33 of the at least one main body 32 preferably points downwards and has the second main side 44 of the at least one main body 44 upwards.
- the at least one cover 36 is arranged below the at least one base body 32.
- the at least one main body 32 and / or the at least one cover 36 preferably has at least one ventilation opening 43, so that a housing of the pressure device 21 can be flowed through for cooling air.
- a printing device 21 is preferred, wherein the printing device 21 has at least one line system 27 and wherein the printing device 21 has at least one main body 32, which has a first main side 33 and a second main side 44 opposite the first main side 33, and wherein the at least one main body 32 has at least two passages 37, each having at least one preferably on the first main side 33 of the at least one base body 32nd
- arranged channel 34 preferably flow-through connect to the second main side 44 of the at least one base body 32 and wherein at least one
- Base body 32 each directly and / or connected via at least one intermediate connecting line 46 with at least one of the at least two passages 37 of at least one channel 34 and / or connectable you are preferably on the first main page 33 of the at least one body 32 at least two channels 34 arranged are, by the at least one, by the at least one
- Line system 27 are fixed. Furthermore, at least one further component 38, through which at least one operating fluid flows and / or can flow, of the at least one conduit system 27 is preferably arranged on the second main side 44 of the at least one side facing away from the at least two channels 34
- the at least one component 38 is preferably fluidic with the at least two channels 34 connected and / or arranged connectable. This means that a working fluid can flow from one channel 34 through the component 38 into the other channel 34, at least when the component 38 is switched and / or operated accordingly.
- the at least two channels 34 are delimited from one another, for example by components of the base body 32 and / or the at least one sealing element 39.
- At least one compensation volume 49 is preferably arranged, which cooperates with at least one damping body 48 and thus compensates for pressure fluctuations.
- At least one compensating recess 34; 47 arranged by the at least one, limited by the at least one base body 32 on the one hand and the at least one cover 36 and / or the at least one sealing element 39 on the other
- Compensation volume 49 of the at least one conduit system 27 is fixed.
- the at least one compensating volume 49 is preferably part of the at least one
- the compensating volume 49 is connected via at least one passage 37 to the second main side 44 of the at least one main body 32.
- a volume bounded by the at least one compensating volume 49 is at least one by compression and / or decompression
- Damping body 48 variable, in particular enlargeable and / or reduced.
- the at least one cover 36 is arranged and / or attached to the at least one main body 32 and / or the damping body 48 abuts at least partially on the at least one cover 36 and / or on the at least one sealing element 39.
- the at least one damping body 48 is held in its position.
- a pressure device 21 preferably results, wherein the
- Pressure device 21 has at least one line system 27 and wherein the
- Printing device 21 has at least one base body 32 having a first main side 33 and a second main side 44 and wherein the at least one base body 32 has at least two passages 37, each connect at least one channel 34 with the second main side 44 of the at least one base body 32 and wherein at least one ink reservoir 01 and / or at least one
- Main side 44 of the at least one main body 32 each directly and / or connected via at least one intermediate connecting line 46 with at least one of the at least two passages 37 of the at least one channel 34 and / or connectable, characterized in that on the first main page 33 of the at least one Base 32 at least one compensation recess 34; 47 is arranged by the at least one, by the at least one base body 32 on the one hand and at least one cover 36 and / or at least one sealing element 39 on the other hand limited compensation volume 49 of the at least one conduit system 27 is fixed and that the compensation volume via at least one passage 37 with the second main side 44 of the at least one main body 32 is connected and that a limited by the at least one compensating volume 49 volume by compression and / or decompression of at least one damping body 48 is variable.
- the at least one cover 36 and / or the at least one sealing element 39 of the at least one damping body 48 is arranged on a side facing away from the compensating volume 49. Accordingly, the at least one
- Damping body 48 preferably disposed between the at least one sealing element 39 and the at least one cover 36.
- the at least one cover 36 and / or the at least one sealing element 39 is at least partially flexible in a region delimiting the compensating volume 49. This allows the preferably by means of the cover 36 and / or the sealing element 39 of the
- Compensation volume 49 delimited damping body 48 act damping, without being exposed to the arranged in the compensation volume 49 operating fluids and without forming a flow resistance.
- the at least one cover 36 is formed dimensionally stable and the at least one sealing element 39 is at least partially flexible, so that preferably the at least one arranged between the at least one cover 36 and the at least one sealing element 39 damping body 48 at a deformation of the at least one
- Sealing member 39 is pressed against the at least one cover 36 and is compressed.
- the at least one damping body 48 is designed as a passively deformable damping body 48.
- the at least one damping body 48 is compressible and elastic.
- Damping body 38 formed reversibly deformable and / or made of a porous and / or foamed material.
- Damper body 48 made of a foamed polyurethane.
- a polyurethane foam can be applied directly to the at least one sealing element 39 and / or the at least one cover 36.
- the compensation volume 49 is designed as a compensation chamber 49 and connected to exactly one passage 37.
- the compensation volume 49 is designed as a compensation line 49 and connected to at least two passages 37.
- the at least one damping volume 49 is a specially designed line 34 of the at least one conduit system 31. Then can
- the compensation volume 49 is connected via at least two passages 37 to the second main side 44 of the main body 32, which have different sized cross-sectional areas.
- a cross section of an outlet of the compensation volume 49 smaller than a cross section of an inlet of the compensation volume 49. This creates a
- Throttling and thus a back pressure, which ensures that pressure fluctuations at the inlet are converted into reversible deformations of at least one
- Damping body 48 and thus do not arrive or only to a lesser extent at the outlet. More preferably, the cross-sectional area of the inlet and / or the cross-sectional area of the outlet can be controlled or regulated. In particular, this causes a laminar flow behind the compensating volume 49.
- the at least one compensating volume 49 is also limited by the same at least one cover 36 and / or the same at least one sealing element 39.
- At least one ink reservoir 01 and at least one are preferred.
- Solvent reservoir 01 via the at least one conduit system 27 connected to each other and / or connectable.
- the at least one channel 34 to which the ink reservoir 01 and / or at least one solvent reservoir 01 and / or at least one ink jet print head 24 is connected is, for example, one of the at least two channels 34 to which the at least two passages 37 are assigned, with which the at least one further component 38, which is preferably flowed through and / or flowed through by at least one operating fluid, is arranged and / or can be arranged at the same time connected at the same time.
- the at least one channel 34, to which the ink reservoir 01 and / or at least one solvent reservoir 01 and / or at least one ink jet print head 24 is connected is an additional channel 34 of the conduit system 27.
- the printing device 21, in particular printing machine 21, preferably has the at least one, preferably at least partially fillable and / or filled with ink and / or solvent line system 27.
- the printing device 21 is preferably characterized in that the printing device 21 has the at least one base body 32, which has the first main side 33 and the second main side 33 opposite the first main side 33 and that on the first main side 33 of the at least one base body 32 a channel 34 is arranged, by means of which the at least one line 31 of the at least one line system 27 defined by the at least one main body 32 on the one hand and the at least one cover 36 is fixed, and in that the at least one main body 32 has the at least two passages 37, connect the at least one channel 34 each with the second main side 44 of the at least one base body 32.
- the printing device 21 is preferably characterized in that in particular at least in one
- Solvent reservoir 01 and / or at least one inkjet printhead 24 and / or at least one coupling element 26 on the second main side 44 of the at least one base body 32 each directly and / or via at least one intermediate, preferably flexible connecting line 46 with at least one of the at least two passages 37th the at least one channel 34 is connected and / or connectable.
- a preferably flexible connection line 46 between the base body 32 and the inkjet printhead 24 the inkjet printhead 24 can be arranged in different positions and used flexibly.
- At least one component 38 of the at least one line system 27 through which at least one operating fluid flows and / or can be arranged and / or arranged on the second main side 44 of the at least one base body 32 and at least one of the at least two passages 37 at least one channel 34 connected and / or connectable.
- the at least one main body 32 preferably has the at least one Fixing aid 41, by means of which at least one component 38 of the at least one conduit system 27 is attached to the at least one base body 32 and / or fastened.
- Reservoir 01 arranged on the second main side 44 and / or can be arranged and connected via at least one passage 37 to the at least one channel 34 and / or arranged connectable and / or can be arranged.
- the printing device 21 preferably has at least two receiving devices 22 for receiving a respective storage container 01, the printing device 21 comprising the at least one communication module 28 and more preferably at least two
- Communication modules 28 has at least one transmitting and / or receiving unit, which is a contactless data transmission between this send and / or
- Receiving unit and each at least one data module 07 of a reservoir 01 is suitable.
- Each of the at least two receiving devices 22 preferably has at least one coupling element 26 and the at least two coupling elements 26 communicate with each other and with at least one inkjet printhead 24, in particular in one for transporting at least one operating fluid, in particular ink and / or solvent suitable compound.
- each of the at least two receiving devices 22 has at least one such communication module 28.
- a container is for example a mixing chamber and / or a pressure equalization tank and / or an internal Storage container of the printing device 21.
- Printing device 21 is allowed. Before the data are read out of the at least two data modules 07 by means of the at least one communication module 28, the at least two storage containers 01 are preferably inserted into the printing device 21. In this way it is ensured that no unnecessary attempts are made to read out corresponding data from storage container 01 located only in the vicinity of the pressure device 21. Alternatively or additionally, it would also be possible for the data to be read from the at least two data modules 07 by means of the at least one communication module 28 before the at least two storage containers 01 are inserted into the printing device 21.
- a corresponding signal could be sent to an operator, so that, for example, in the case of a storage container 01 filled with a non-compatible operating fluid, this corresponding storage container 01 is not inserted into the receiving device 22 of the printing device 21 at all.
- Not compatible are, for example, an ink and an incompatible with this and / or in this solvent not included.
- the data is read out of the at least one data module 07 by means of at least one communication module 28 per storage container 01.
- a negative pressure to the at least two storage containers 01 is preferred at the earliest after the Check created.
- data stored in the at least one data module 07 is changed by means of the at least one communication module 28, in particular contactless.
- a meter can measure a taken amount of operating fluid and change corresponding information in the at least one data module 07, for example information about a fill level of the corresponding storage container 01
- a distance between the at least one data module 07 of the storage container 01 inserted into the receiving device 22 to the at least one communication module 28 is at most 15 cm, more preferably at most 10 cm and even more preferably at most 8 cm.
- mutual interference in the communication can be prevented.
- Printing device printing machine, inkjet printing device, inkjet printing machine
Landscapes
- Ink Jet (AREA)
Abstract
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE201210216881 DE102012216881A1 (de) | 2012-09-20 | 2012-09-20 | Druckeinrichtung |
PCT/EP2013/069594 WO2014044805A1 (fr) | 2012-09-20 | 2013-09-20 | Dispositif d'impression |
Publications (2)
Publication Number | Publication Date |
---|---|
EP2814674A1 true EP2814674A1 (fr) | 2014-12-24 |
EP2814674B1 EP2814674B1 (fr) | 2016-04-06 |
Family
ID=49231455
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP13766276.3A Active EP2814674B1 (fr) | 2012-09-20 | 2013-09-20 | Imprimante |
Country Status (6)
Country | Link |
---|---|
EP (1) | EP2814674B1 (fr) |
CN (1) | CN104768763B (fr) |
DE (1) | DE102012216881A1 (fr) |
ES (1) | ES2577307T3 (fr) |
PL (1) | PL2814674T3 (fr) |
WO (1) | WO2014044805A1 (fr) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102016217881A1 (de) * | 2016-09-19 | 2018-03-22 | Kba-Metronic Gmbh | Druckaggregat |
DE102019107643B3 (de) | 2019-03-26 | 2020-07-30 | Koenig & Bauer Ag | Vorrichtung und ein Verfahren zum Drucken eines Druckfluids mit mindestens einem Inkjet-Druckkopf mit mindestens einer Druckfluidzuführeinrichtung |
Family Cites Families (21)
Publication number | Priority date | Publication date | Assignee | Title |
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EP0086833A1 (fr) * | 1981-08-31 | 1983-08-31 | Beckman Instruments, Inc. | Systeme de stockage et de distribution d'un agent de reaction |
US5234130A (en) | 1991-03-22 | 1993-08-10 | Manhattan Products, Inc. | Dispensing package for a pourable material having a bottle, a pour-back spout and a closure |
US5903293A (en) * | 1996-05-20 | 1999-05-11 | Graphic Controls Corporation | Ink-jet bottle and valve system |
US20010013884A1 (en) | 1996-09-30 | 2001-08-16 | Richard G. Crystal | Ink jet cartridge refill system, kit, station, and method |
US6079823A (en) | 1997-07-23 | 2000-06-27 | Marconi Data Systems Inc. | Ink bottle with puncturable diaphragm closure |
US6938976B2 (en) | 1999-06-16 | 2005-09-06 | Eastman Kodak Company | Printer and method therefor adapted to sense data uniquely associated with a consumable loaded into the printer |
JP2001106217A (ja) | 1999-10-05 | 2001-04-17 | Toppan Printing Co Ltd | 粘稠液用ブロー成形ボトル |
EP1244558B1 (fr) * | 2000-10-23 | 2013-02-27 | Hewlett-Packard Industrial Printing Ltd. | Systeme ferme de distribution d'encre dote d'une commande de pression d'encre de la tete d'impression, et procede associe |
FR2816241B1 (fr) * | 2000-11-07 | 2003-03-28 | Segepar | Systeme anti-retour pour circuit d'alimentation en encre et cartouche d'encre |
US6467888B2 (en) * | 2001-02-21 | 2002-10-22 | Illinois Tool Works Inc. | Intelligent fluid delivery system for a fluid jet printing system |
US7370949B2 (en) * | 2002-02-28 | 2008-05-13 | Seiko Epson Corporation | Liquid supplying member, method of manufacturing the same, and liquid ejection apparatus incorporating the same |
US7178900B2 (en) | 2002-04-08 | 2007-02-20 | Creo Americas, Inc. | Printer fluid management system |
US7300138B2 (en) * | 2004-01-08 | 2007-11-27 | Eastman Kodak Company | Replaceable ink container for inkjet printer |
BRPI0502833A (pt) | 2005-07-13 | 2006-09-26 | Bdf Nivea Ltda | base antifurto |
JP4665747B2 (ja) * | 2005-12-16 | 2011-04-06 | ブラザー工業株式会社 | プレート積層構造及び液体吐出ヘッド |
JP2007260947A (ja) * | 2006-03-27 | 2007-10-11 | Seiko Epson Corp | 液体供給装置及び液体噴射装置 |
DE102006022477B4 (de) | 2006-05-13 | 2013-01-24 | Washtec Holding Gmbh | Kartusche |
JP4992338B2 (ja) * | 2006-08-11 | 2012-08-08 | セイコーエプソン株式会社 | 液体収容容器の製造方法 |
US20080186187A1 (en) | 2007-02-06 | 2008-08-07 | Christopher Alan Adkins | Ink tank having integrated rfid tag |
US8523334B2 (en) * | 2007-10-12 | 2013-09-03 | Videojet Technologies Inc. | Ink supply system |
JP5621560B2 (ja) * | 2010-12-03 | 2014-11-12 | 富士ゼロックス株式会社 | 緩衝装置、液体供給装置、及び液滴吐出装置 |
-
2012
- 2012-09-20 DE DE201210216881 patent/DE102012216881A1/de not_active Withdrawn
-
2013
- 2013-09-20 CN CN201380022550.7A patent/CN104768763B/zh active Active
- 2013-09-20 EP EP13766276.3A patent/EP2814674B1/fr active Active
- 2013-09-20 PL PL13766276.3T patent/PL2814674T3/pl unknown
- 2013-09-20 WO PCT/EP2013/069594 patent/WO2014044805A1/fr active Application Filing
- 2013-09-20 ES ES13766276.3T patent/ES2577307T3/es active Active
Non-Patent Citations (1)
Title |
---|
See references of WO2014044805A1 * |
Also Published As
Publication number | Publication date |
---|---|
PL2814674T3 (pl) | 2016-09-30 |
CN104768763B (zh) | 2016-04-20 |
DE102012216881A1 (de) | 2014-03-20 |
CN104768763A (zh) | 2015-07-08 |
EP2814674B1 (fr) | 2016-04-06 |
ES2577307T3 (es) | 2016-07-14 |
WO2014044805A1 (fr) | 2014-03-27 |
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