CN205818681U - The dismantled and assembled assembly of single-piece for the ink loop of continuous inkjet printers - Google Patents

Abstract

This utility model relates to the dismantled and assembled assembly of the single-piece (270) in a kind of ink loop for continuous inkjet printers, goes up at least one block of plate (273a) of extension including substantially flat shape and in plane (XY), is appointed as the first pump of compression pump and is appointed as the second pump of recovery pump；Stream control attachment means, on the one hand at first fluid entrance (271₁), the first pump and first fluid outlet (271₂Between), on the other hand at second fluid entrance (271₃), the second pump and second fluid outlet (271₄Stream flow control is realized between)；At least one connecting element (275a), it is fastened to described plate (273a), and including being designated as the surface of connection surface and a plurality of pipeline, entrance and exit occurs on said surface, connection surface is basically perpendicular to plate (273a), axis through the fluid stream of entrance and exit is parallel to plane (XY), and a plurality of pipeline passes plate to connect entrance and exit.

Description

The dismantled and assembled assembly of single-piece for the ink loop of continuous inkjet printers

Technical field

The present invention relates to continuous inkjet (continuous ink jet, CIJ) printer field.

The invention still further relates to the framework (layout in ink loop) of entry level continuous inkjet (CIJ) printer, to be become Originally minimize.

The invention still further relates to a kind of for extending the membrane pump device with the functional domain of temperature.

Background technology

Continuous inkjet (CIJ) printer such as slug shape code or directly the most on a production line and with height The various Industry Code that handling capacity uses on food by date and marked product field are known.Also find this kind of printing Machine has been developed the potential value of graphic printing technology in some ornamental field.

These printers have several typical sub-component as shown in Figure 1.

First, printhead 1, described printhead passes through generally relative to the main body off-center of printer 3, described printhead Flexible umbilical 2 is connected to described printer, and described flexible umbilical is by the fluid power of the required operation being used for printhead and electrical connecting wires Collecting together, provide motility for printhead, described motility beneficially carries out integrated on a production line.

The main body (also referred to as control station or rack) of printer 3 generally comprises three sub-components:

-ink loop 4 in control station bottom (region 4'), described ink loop makes on the one hand can be with stable Ink is provided printhead with suitable quality by pressure, and on the other hand can manage the ink stream being not used in printing；

-it being positioned at the controller 5 in control station top (region 5'), described controller can manage the order of action and hold Row processes, and described process can activate the difference in functionality of ink loop and printhead；

-interface 6, described interface provides printer perform device and inform the operation of printer for operator.

In other words, rack includes two sub-components: for electronic device in top, power supply and operator interface therewith, Being ink loop in bottom, the ink of nominal mass is fed to printhead and under negative pressure by described ink loop under stress For being reclaimed the ink not having to use by printhead.

Fig. 2 schematically shows the printhead 1 of continuous inkjet (CIJ) printer.Described printhead includes drop formation Device 60, is supplied to described droplet generator by the electrically conductive ink of ink loop 4 supercharging.

This maker can release at least one continuous print stream by the small hole size of referred to as nozzle.In periodic excitation system Under the effect of system (not shown), described circulation is changed to the drop of the rule of series of identical size, described periodic excitation system It is positioned at the upstream of jet expansion.When drop 7 is not used in printing, it is towards gutter 62, and drop is reclaimed by described gutter, to pass through Ink loop 4 recycles untapped ink.Make it possible to according to finger along banishing the equipment 61 (charging and deflecting electrode) put Order makes liquid droplet charged and deflects in electric field Ed.The most described drop deviates its track normally sprayed from droplet generator.With Deviate from gutter in the drop 9 printed and be deposited on base material 8 to be printed.

This description is applicable to be referred to as binary deflection or the continuous inkjet (CIJ) deflecting continuous jet printer prints more Machine.Binary continuous jet print (CIJ) printer has multiple flow equipped with printhead, the droplet generator of described printhead, stream Each drop direction can be only oriented towards two paths: prints path or reclaims path.Deflect in continuous jet printer, from one more Dropping liquid drips to next, and each drop of sub-thread stream (or a few septum femorale intermedium open stream) can be deflected by corresponding different control instruction On each path, it is achieved that be scanned print area along the direction of deflection, that treats that print area is scanned is another One direction is covered by the relative motion of printhead with base material 8 to be printed.Generally carry out arranging so that the two by element Direction is substantially vertical.

First the ink loop of continuous inkjet printers makes it possible to ink and the most molten under controlled pressure Agent is fed to the droplet generator of printhead 1, and can generate negative pressure, described negative pressure for by be not used in the fluid of printing from Printhead is returned.

Described ink loop can also manage consumptive material (being allocated ink and the solvent from deposit portion) and to oil The quality (viscosity/concentration) of ink is controlled and keeps.

Finally, other function association in user comfort level and be responsible for some attended operation automation equipment, with Guarantee no matter can carry out identical operation under the conditions of how using.These functions include with solvent clean printhead (drop Maker, nozzle, gutter), to preventive maintenance auxiliary such as changing parts (filter, pump) with finite lifetime etc Help.

These different functions have diverse purpose and technology requirement.Described function is by the controller 5 of printer Activating and sort, described controller is the most complicated, and described function quantity is the most, it is complicated to be more.

Some existing printer designs in modular fashion, extremely to contribute to safeguarding machine, described Safeguard by certain module quickly being changed and not using special instrument to operate.These are in complexity or many Or constituting functional sub-component less, one or more elements of described functional sub-component are the parts with finite lifetime (such as wearing terrain) or the parts (blocking of such as filter) reduced with use time performance.Generally, this solution The strict realization of the function for being performed by module adds extra cost, because being necessary for structure, electricity that module provides autonomous Adapter, hydro-joining component, possibly self sealss, to avoid fluid during changing module and other parts various to flow out, If it is the most optional to there is not described various miscellaneous part in the theory of module.

The example of modularized equipment gives in Fig. 1 of file WO 2012066356.The fluid power embodied wherein returns Road act as replaceable module (being labeled as 50,60 in this Fig. 1).This loop is extremely complex, employs substantial amounts of parts, especially It is that described loop employs a lot of self-sealing connectors (73), enabling in the moment separated, the main body from ink loop will Module (50 and 60) is isolated, and therefore avoids fluid to flow out.

In other words, the appearance as the complex modules of removable unit creates high-tech complexity and therefore produces Incompatible extra cost.

At present, it is simple to safeguard that the cost that result in machinery increases.Block fluid the phase of parts that is connected to each other Location is caused with fluid because gravity flows out the restriction being associated.

More generally useful, for providing bigger users'comfort and more and more professional performance (to make it possible to place to user Manage more and more implacable application program), existing printer is just sought to increase to beat for the precision and quantity of parts The complexity of print machine.

Another example is given in application WO 2009049135.

According to the another aspect of known machinery, convection cell carries out the flowing of forced circulation and convection cell and is controlled (close/open pipeline, shunting) is to implement costly function, especially for the problem of operational reliability.Generally, Described function is implemented on pump and electromagnetic valve or valve, is transported to ink and possible solvent pressure print to specifically ensure that Head, generate the negative pressure for reclaiming and be derived from printhead cleaning or by ink or solvent in ink loop at one defeated Deliver at another.

According to the another aspect of known machinery, gear pump technology is used for carrying out ink by most described machineries Pressure carries and is used for generating negative recovery in some cases and presses.From the technical point of view, these high-performance and high power capacity Pump is fit closely.Particularly, described pump can process thorny ink and described pump has the longer life-span.But, this A little pumps are much more expensive.

Generally, it is contemplated that substantial amounts of hydrodynamic component will be implemented, it is known that the ink loop of machinery remains the unit of costliness Part.

Therefore create the problem realizing the whole of ink loop or partial function, print in continuous inkjet (CIJ) type In machine, with lower cost and decrease parts quantity while ensure that minimum reliability.Therefore especially for all As managed consumptive material and/or controlling the quality with holding ink and/or the function with solvent clean printhead etc, seek to realize to the greatest extent Possible minimum parts.

Especially, problem is to reduce the quantity of hydrodynamic component and simplify being connected with each other of these parts.However, it is necessary to protect The satisfaction of card user, it means that the trial of this minimizing number of components does not affect performance or reliability.

Being associated with known machinery now, another problem is the demand to high-quality operator.Such as, dimension Repairing order-checking may be the most complicated.

It is thus desirable to printer is suitable to operate through the operator of a small amount of training.

According on the other hand, ink loop includes considerable fluid power, water power parts, sensor etc..It is true that Modern printer has and becomes increasingly complex in a large number and accurate function.(pump, electromagnetic valve, self sealss connect, filter hydrodynamic component Device, various sensor) it is provided or determines that size is to meet quality, reliability, performance and the level to user's service.And tie up Protective function is the severe loss factor of parts, because what described maintenance function was often carried out automatically.

Therefore also need to ink loop framework the quantity of parts minimized, ensure good performance and reliability water simultaneously Flat and the convenience of the maintenance that can quickly get involved, the risk minimization that will pollute, and above can be by without specific training The operator of instruction perform.

The problem also creating the framework of the fluid (solvent, ink) finding the ink loop for regulating printer.This The quantity of parts should also can be minimized by kind of framework, and make it possible for less expensive parts and ensure good performance simultaneously With reliability level.

Summary of the invention

Present invention firstly relates to a kind of for by the equipment of ink and solvent supply to the printhead of ink-jet printer or return Road, described equipment or loop include:

-at least one first liquid reservoir, second liquid reservoir and in described first liquid reservoir gather come from The device of the ink stream of the recovery of the gutter of print head, described second liquid reservoir is different from described first liquid reservoir, described first storage Liquid utensil has first liquid to export, for first fluid is transported to printhead, described second liquid reservoir from this first liquid reservoir There is second liquid outlet, for second fluid is transported to printhead from this second liquid reservoir；

-select device, for optionally described first outlet and/or described second outlet being connected to common pump, institute State pump for the ink and/or solvent for being transported to printhead is pressurizeed.

This kind of loop makes it possible to only use single pump to pump two kinds of fluids, and on the one hand the two fluid is ink, And be on the other hand solvent.For optionally the first outlet and/or the second outlet being connected to share the device of force (forcing) pump Including such as valve, described valve is associated with each liquid reservoir and operates by opening or closing, and produces stream or incites somebody to action Selected fluid is transported to described common pump.

At least one can be provided to prevent equipment, for preventing equipment to be shared described in ink loop and solvent circuit, institute State and prevent equipment for preventing from the ink of single pump and/or the pressure oscillation of solvent or fluctuating.Preferably, this preventing sets The standby device including constituting check-valves, to prevent ink and/or solvent from circulating described common pump.

This supply equipment or loop can include that at least one the 3rd liquid reservoir, described 3rd liquid reservoir are provided with the 3rd and go out Mouthful, described selection device make it possible to optionally by described first outlet and/or second outlet and/or the 3rd outlet be connected to Described common pump.

Pressure transducer can be provided, be transported to the ink of printhead and/or the pressure of solvent for measuring.

May also provide for using the viscosity selecting device according to pressure measuring value adjustment ink.Such as, it is possible to provide dress Put for according to the force value measured or the device of the solvent of pressure change at least one amount of interpolation (one quantity).

Preferably, the described amount of solvent take into account ink by the dilution of solvent.

Also being preferably, described device makes it possible to alternately add the solvent of multiple amount with ink, with can be to solvent Mix with ink.

In order to adjust the interpolation of solvent, described equipment can farther include (to be such as included in 0.1cc for calculating fundamental quantity And between 1cc) solvent to the number of times of described transport pump and/or frequency and for possibly with the frequency calculated and ink Alternately by the device of the solvent delivery of this amount to described pump.Therefore, the amount of solvent is to be incremented by conveying with little fundamental quantity, this Sample can mix with the ink of conveying between the fundamental quantity of solvent.

Equipment according to the present invention can advantageously comprise in the downstream of described pump:

-first passage, described first passage for by ink and/or solvent supply to printhead, this first passage may Ground includes preventing equipment；

-the second service duct, described second service duct is for printhead and being parallel to the first confession by solvent supply Answer passage.

" downstream " is used to mean from described liquid reservoir to described printhead " in the direction of fluid ".

Can provide the device of for example, three-way valve with according to fluid select in described two service ducts or another Bar.Such as, described second channel can be ad hoc preserved for the circulation of solvent and by the operation with solvent clean loop Period uses.

In addition can provide for the device being applied to by operating pressure in described common pump, such as, include at least one return Pipeline and possibly for preventing the equipment of pressure oscillation or fluctuating, described return duct is arranged to from described common pump The point of trip, from least one lead to said two liquid reservoir for the pipeline supplying printhead one, described return duct Including it being flowed the device forming limited part.When described equipment includes two service ducts, it can be described two passes Each provides this return duct, and described return duct is provided with the device forming limited part.

Can provide for detecting the device of the obstruction of described limited part.

Can provide for adjusting the device of the speed of described pump, such as these devices according to given force value can be with The mode of point (dichotomy) is run to adjust the speed of described pump.

Finally, it is possible to provide for the device performing to remove to the air being likely to be present in described supply equipment.

The invention still further relates to a kind of for by ink and solvent supply to the method for the printhead of ink-jet printer, described side Method includes using equipment as described above or loop.

The invention still further relates to a kind of for the method by ink and solvent supply to the printhead of ink-jet printer, described side Method includes:

-from the first liquid reservoir and the second liquid reservoir, ink or solvent are extracted respectively, described first liquid reservoir accommodates Ink, described second liquid reservoir is different from described first liquid reservoir and accommodates solvent, use common pump for ink and/or Solvent pressurizes, and the stream reclaiming ink of the gutter from printhead is transported to have described the first of first fluid outlet Liquid reservoir；

-use described common pump by ink and/or solvent delivery to described printhead.

Therefore, use single pump to pump solvent and/or ink and to be transported to printhead.

Stream at the exit of described common pump, ink and/or solvent is transported to for preventing ink and/or solvent The device of pressure oscillation.

The pressure of the ink and/or solvent that are transported to printhead can be performed measurement.The viscosity of ink can be according to described oil Ink pressure measuring value is adjusted.Such as, a certain amount of solvent is added to conveying according to the force value measured or pressure change Stream to the ink of printhead.

The described amount of solvent take into account ink by the dilution of solvent.

Can be with ink alternately by the solvent delivery of multiple amounts to printhead, solvent and ink can be mixed Close.Therefore, the amount of solvent can be to be incremented by conveying with little fundamental quantity, so can and carry between the fundamental quantity of solvent Ink mix.

To this end, the solvent of the fundamental quantity number of times to transport pump and/or frequency can be calculated, and can be possibly to calculate The frequency gone out and ink alternately by the solvent delivery of this amount to described pump.Advantageously, add to ink loop volume, energy The solvent of enough fundamental quantities carrying out in the upstream of printhead mixing creates the change relatively less than 1% or glutinous on viscosity Create on degree less than nominal viscosity 1% change.Such as, the fundamental quantity of the solvent added is included in 0.1 cubic centimetre And between 1 cubic centimetre.

For guaranteeing the optimum circulation of ink and/or solvent, select in the downstream of described pump:

-first passage, described first passage is used for supplying printhead, for ink and/or solvent delivery being beaten to described Print head；

-or the second service duct, described second service duct is for printhead and being parallel to first by solvent supply Service duct.

According to advantageous embodiment, the speed of described pump adjusts according to specified value.This makes it possible to for supplying The delay of various element is considered, such as the equipment preventing pressure to change on the circuit of printhead.

The invention still further relates to the dismantled and assembled assembly of single-piece in a kind of ink loop for continuous inkjet printers, described single-piece Dismantled and assembled assembly includes at least one block of plate, the first pump and the second pump, shape that described at least one block of plate is substantially flat and In the upper extension of plane (XY), described first pump is appointed as compression pump, and described second pump is appointed as recovery pump；

-stream control attachment means, with one side between first fluid entrance, the first pump and first fluid export, Yi Jiling On the one hand between second fluid entrance, the second pump and second fluid export, realize stream flow control；

-at least one connecting element, at least one connecting element described is fastened to, protrudes from described plate the most simultaneously, and And described at least one connecting element surface of including being designated as connection surface and a plurality of pipeline, described entrance and exit occurs On said surface, this connection surface is basically perpendicular to described plate, and passes the axle of the stream of the fluid of described entrance and exit Line is parallel to described plane (XY), and described a plurality of pipeline passes described plate, to connect described entrance and exit.

This assembly is usable in or is combined in the supply equipment in as described above or the application or loop, or Transfer and be provided with maybe using other loop of the dismantled and assembled assembly of single-piece to combine.

At least one in described first pump and the second pump can be membrane pump.

Described connecting element can include for being installed on ink loop period guiding described assembly translation at described assembly Device.

According to embodiment, described connecting element includes the groove with " u "-shaped profile, and described entrance and exit occurs in and defines On the surface of the bottom of described " u "-shaped.

In modification, described connecting element constitutes the cantilever (or gusset) defined by first surface, described entrance Occur on the first surface with the second surface exporting and carrying described plate.

Described plate may make up part casing or shell, the first pump, the second pump and stream control described in described casing or away Attachment means.Described plate can be removable relative to described casing.Described plate and casing can include connecting elements, with can Described casing is opened and closed by described plate.

Each of described fluid intake and outlet can include the end being provided with the pipeline of anti-leak seal.

This assembly can include that at least one is for the first element being fastened on ink loop by described assembly.

Described connecting element can be removable relative to described plate.According to an embodiment, described connecting element bag Include the second element for fastening against described plate.

Can provide for being fastened on assembly the device on ink loop.

The invention still further relates to ink in a kind of ink loop for preventing continuous inkjet printers pressure fluctuation or The equipment of change, this equipment such as can use or be combined in the supply equipment in as described above or the application or return Lu Zhong, or then combine with other loop being provided with preventing equipment.

Described prevent equipment to include at least one enters the entrance of the ink of this equipment, and at least one leaves this equipment The outlet of ink, for preventing the device of the pressure oscillation of ink and constituting the device of check-valves and be arranged in described equipment Portion.

According to special embodiment, the device constituting check-valves includes barrier film, and described barrier film is in the pressure for preventing ink Export described in the effect lower seal of the device of fluctuation.

Advantageously, described barrier film also can constitute leakproof seal at the periphery of described equipment.

Such as, described equipment includes internal volume, described internal volume portion ground defined by described barrier film and partly by Surface is defined, and occurs that ink inlet and outlet, described outlet are provided with week edge on said surface, and described barrier film is against described week Along pressure-bearing under the effect preventing device.

Advantageously, pins position is in described entrance, described to keep barrier film to leave when exporting described in described diaphragm seal Entrance a certain distance.

Pressure oscillation can be delivered to be arranged in barrier film and the rigid element between the device prevented by described barrier film.

The invention still further relates to a kind of ink-jet printer, described ink-jet printer includes for supplying ink defined as above And/or the equipment of solvent, and/or perform method defined as above, and/or include dismantled and assembled group of single-piece defined as above Part.

Accompanying drawing explanation

Fig. 1 shows the structure of known printer；

Fig. 2 shows the structure of the printhead of known continuous inkjet (CIJ) type printer；

Fig. 3 A to Fig. 3 E shows the example of the embodiment of the supply loop according to the present invention；

Fig. 4 A to Fig. 4 D shows modification or other example of the embodiment of the supply loop according to the present invention；

Fig. 5 A and Fig. 5 B shows the curve of the change of the pressure following temperature of ink；

Fig. 6 schematically shows solvent alternately to be added with what fundamental quantity and ink were carried out；

Fig. 7 show according to the present invention for the equipment preventing pressure to change；

Fig. 8 A to Fig. 8 C and Fig. 9 shows the aspect of the embodiment of the removable sections according to the present invention or module；

Figure 10 shows the removable sections being arranged in printing device according to the present invention；

Figure 11 A to Figure 11 B, Figure 12 A to Figure 12 D and Figure 13 show the another of the removable sections according to the present invention or module The aspect of one embodiment.

Detailed description of the invention

According to the example of the embodiment illustrated in figure 3 a, include for accommodating first according to the stream control loop 10 of the present invention First liquid reservoir 11 of fluid and for accommodating the second liquid reservoir 12 of second fluid.

According to application, first fluid is ink, second fluid be such as methyl ethyl ketone (Methyl Ethyl Ketone, MEK) solvent of class.In another embodiment, second fluid is with the ink of solvent dilution.

Hereinafter, will quote without distinction to first fluid or to ink and to second fluid or to solvent (but It is that the latter can also be the ink of dilution once；The following description be given about solvent is generally also applied to dilution Ink).

When described liquid short supply, stream control loop can be used or more simply use hands, topple over corresponding liquid Body be injected in liquid reservoir 11,12 and/or another in.In each of these liquid reservoirs, it is possible to provide device 13, 15, for measuring the liquid level of the liquid that liquid reservoir is accommodated.This device is described in such as WO 2011/076810.

Each in these liquid reservoirs is provided with outlet 11 by its fluid accommodated₁、12₁。

Opening or closing of this outlet can use valve 21,22 to regulate respectively: each in these valves is opened Long or the short persistent period defines the amount of the liquid extracted from corresponding liquid reservoir, and the amount of described fluid is the situation of pressure Function with the output flow speed of these valves.

The liquid of extraction is transported to single pump 24 by each in the two outlet, and described single pump is for two kinds of liquid It is shared, therefore the most in succession or alternately or simultaneously will can open or close state according to valve 21,22 The pumping ink from liquid reservoir 11 and the solvent from liquid reservoir 12.Single pipeline 23 in the downstream of valve therefore can be in the future It is transported to pump 24 from the fluid of two liquid reservoirs.Especially, the solvent of liquid reservoir 12 is pumped by this pump 24, and is not passed through storage Liquid device 11 is to mix with oil pump therein；Described solvent can not mixedly be transported to printhead with ink, or when from liquid reservoir Mix with ink when extracting in 12.

According to particular embodiment, pipeline 21₁(respectively 22₁) outlet of liquid reservoir 11 (respectively with 12) is connected to The entrance of valve 21 (respectively 22), and pipeline 21₂(respectively 22₂) outlet of described valve is connected to entering of pipeline 23 Mouthful.

Known system uses pump to every kind of fluid, therefore for each liquid reservoir: then have the pump for pumping solvent, And for pumping the pump of ink.The pump making it possible to pump ink was constantly called during the printing stage.On the other hand, The pump of conveying solvent runs in the way of the most lasting, because only some stage in the use of machinery (such as regulates ink Viscosity, the execution operation being completely or partially carried out or cleaning to loop) solvent must be carried.At the place illustrated In loop in the scope of the invention, for two kinds of fluids share single pump 24 will with in known systems use, with The rule that the pump of pumping ink is identical is run, and i.e. actually runs continuously during the printing stage.Therefore, although use In two kinds of fluids of pumping, but described single pump is more called unlike the pump being only used for pumping ink in known systems Many.

Single pipe 25 in the exit of pump 24 then makes it possible to the fluid of pumping is transported to printhead, preferably warp Device 26 or damper or " anti-pulsation " device is prevented, enabling suppression is by pump 24 by be advantageously arranged in pump 24 exit The pressure oscillation of fluid that causes of operation or fluctuating, and can be by these fluctuations or rise and fall and be reduced to several millibars (mb).By In pump 24, such as, by utilizing opening and closing of the valve of this pump, the flow of fluid can change near average, described average Can between 2 bars and 6 bars, and near described average fluctuation can be +/-1 bar.This fluctuating be probably important and for The operation of continuous inkjet (CIJ) printer is very can not be compatible.It is true that liquid droplet charged system is in certain of pumping signal group Self is synchronized from the moment of injection flow separation by phase place relative to drop.But, this moment is for given jet velocity And limit；The change in jet velocity caused by static appreciable pressure fluctuations will periodically make to divide compared to drop From the hot line job lock-out of moment, this will upset the path of described drop and therefore upset print quality.Device 26 makes Can eliminate or limit these impacts.This device 26 is described in such as WO 2014/154830.It should be noted that Be, as shown in Fig. 3 D and Fig. 3 E, two such prevent device 26 can arranged in series, or more complicated according to shown in Fig. 3 D Framework, may be arranged in the different piece of the pipeline for supplying printhead.Detailed to the example of the embodiment of device 26 Be given in being described below.

The outlet of device 26 can be provided with the device 28 constituting check-valves；In modification, as explained further on, they are certainly Body can be integrated with the device 26 of this return valve function.

Device 28 makes it possible to stop any ink and returns to device 26, shared pipeline 25 and arrive pump 24.At printer In the case of shut-down, by return to device 26 and/or pump 24 and stop work whole duration will remain in these structures Ink in the middle of part can affect the function (by bonding and/or block pumps or device 26) of described component, is especially using face In the case of material ink, the pigment of described pigment ink would tend to be deposited in described component.

Fluid can use one or more pipeline 29 to be transported to printhead 50 afterwards.One or more filters 42 can be The arranged downstream of device 26,28 is in the path of fluid.

Possibly, pressure transducer 36 makes it possible to detect the pressure change of the fluid being supplied to printhead.Pump 24 with And the measured value of the pressure in the loop in the downstream of device 26 reflects the pressure in printhead, and permit a determination that loop In pressure change (the most also can determine that in printhead).The measured value of this pressure will make it possible to indirectly detect ink In the concentration change of solvent.Advantageously, the pressure for nominal jet velocity (such as 20 metre per second (m/s)) has been detected.For this The pressure detected of same datum speed compares with reference pressure.In the absence of a solvent, compare for offsetting The potential amount of the solvent that must add in the deviation of this theory measured value is derived out from which.Pressure is detected Can at regular intervals (be such as included between 5 and 10 minutes, according to machinery phase run depending on) perform, This time interval can be different, depend on printer whether startup stage, or in lasting printing mechanism.Selected institute State time interval so that detect lack solvent after add the solvent of ink to can be equal before upper once pressure measxurement Mix with described ink evenly.

Sensor 36 is preferentially arranged in printhead 50, but for bulky reason, may be arranged at as shown in Figure 3A On pipeline 29.

Additionally provide the loop for ink being returned to ink liquid reservoir 11 not used during printing.

Therefore, use pump 64 that the ink reclaimed in gutter 51 is passed through one or more pipeline 58,60,61 and possibility Ground is pumped by pump 54.Filter 59 may be arranged in this return path, because fluid will return to ink liquid reservoir 11, with Recycle during the printing stage afterwards.The pipeline 56 of printhead it is connected to via valve 52, and in pump 64 and potential mistake The pipeline 58 rejoined in the upstream of filter 59 can be used for the stage being cleaned printhead 50 or cleaning.

In system described above, only used two pumps 24,64, one for by ink and/or solvent delivery To printhead, another is for returning to ink liquid reservoir 11 by untapped ink.Additionally, because pump 24 and " anti-pulsation " set Standby 26 is shared for two ink with solvent circuit, which results in the economy on the device in this loop and thus Cost on economy.

As described below, the group of two pumps 24,64 can be combined in module 270,270a (such as below and Described in Fig. 8 A to Figure 13), described module can be dismantled by the remainder from loop, therefore, it is possible to and change rapidly simultaneously The group of two pumps.

Preferably, each in these pumps is membrane pump, such as described in file WO 2014/154830 's.Should recall, this pump performance is characterised by that the network of curve, described curve give according to for being supplied to Pressure that the flow of the different electric power of motor obtains or negative pressure, give showing of these curves in Fig. 4 of aforesaid file Example.In other words, the network of curve defines the feature that the pressure of the flow with membrane pump shows.For given command voltage The rotary speed of pump (the described command voltage define), pump characteristics is decreasing function, and described decreasing function is from corresponding zero delivery Maximum pressure until the zero pressure of corresponding maximum stream flow (the most freely flowing).

Can provide for being set in pressure the device in certain value on supply line 29, this will make it possible to set pump The flow of 24, especially in the case of described pump is membrane pump.These devices can include backward channel or pipeline 71.Pass through This pipeline, in pipeline 29, the segment fluid flow of circulation is extracted, and this fluid is transported to liquid reservoir 11.This return is led to Road is provided with limited part 73, and described limited part reduces the cross section of the pipeline at fluid circulation place partly, and this makes it possible to defeated The fluid delivering to printhead pressurizes.Advantageously, this limited part is single limited part, i.e. be the single thing in stream keyholed back plate road Or locally narrowing thing, the length in described stream keyholed back plate road is approximately less than its diameter, or considers during its diameter it is less, and described Stream keyholed back plate road creates the loss of flood peak insensitive to the viscosity by its fluid.Single limited part is that convection current keyholed back plate road is carried out Narrowing of local, length L in described stream keyholed back plate road is less less than its diameter d or in view of its diameter d.Advantageously, L/d ≤1/2；According to several examples, L/D is included between 1/4 and 1/2 (such as D=0.3mm and L=0.1mm).Can be by making L/ D is more than 1 and can reach the limited part that 10 (in other words, 1≤L/D≤10) realize having single behavior.Single limited part Flow Q depends on the pressure differential Δ P of its boundary, relational expression Δ P=Rh (ρ) × Q², wherein Rh is flowed friction, described hydraulic pressure Resistance depends on the density p of fluid, but is not dependent on its viscosity.Here, limited part 73 includes the hole of the most a diameter of 0.3mm.

The control to pressure can be realized by the device in addition to backward channel with the combination of limited part.

Including such as processor or microprocessor or computer and/or electrically or electronically circuit (for example, programmable type) Device 3, enabling control and/or the various Hydrodynamic units of drive circuit, especially open and/or close valve 21,22 (such as to perform solvent is carried out one or many interpolation), pump 24 is manipulated, valve 52,54 is opened and/or Close.Described device also allows for storage and/or processes from liquid level sensor 13,15 and the number of pressure transducer 36 According to, and/or can determine the blocking of pump 24.Described device is hence in so that (the oil of the liquid supply to loop can be controlled or manipulate Ink and/or solvent) and recovery to the mixture from the ink of printhead and solvent.The most therefore to described device It is programmed.These devices or these control devices that constitute controller are disposed in the 5' part of system or control station.This A little devices also can make it possible to print command is sent to printhead.

As in Fig. 3 B Yu 3C, in figure 3 a, the loop element of the part constituting umbilical 19 is represented by dotted lines: here, Described dotted line is the part of pipeline 29 and pipeline 56,58.

Apparatus described above only includes two pumps and two liquid reservoirs.

Extra liquid reservoir is not had in the downstream of pump 24.The part in stream control loop performs from two liquid reservoirs 11 With the mixing of two kinds of liquid of 12 pumpings, two kinds of fluids flow in described stream control loop, and described stream control loop is: pipeline 23, 25, pump 24 and " anti-pulsation " equipment 26.

Another example of embodiment illustrates in figure 3b, and described example includes all units being described about figure formerly Part, described all elements will the most here be again described with.In this embodiment, for example, valve, be preferably three-way solenoid valve Device 30 be disposed in the downstream of device 28, enabling select:

-pass through to be used for supplying the first passage 32 of printhead by the mixture of first liquid or first liquid and second liquid It is supplied to printhead 50；

-or only second liquid is supplied to printhead 50 by being used for supplying the second channel 34 of printhead；Therefore, it is possible to To not include or include hardly that the cleaning solvent of a small amount of ink is transported to printhead.

Starter 30 can be carried out with the fluid (using device 3) pumped by pump 24.

First passage can be provided with pressure transducer 36, uses the liquid of described pressure transducer detectable supply printhead Pressure changes.As previously noted, in a preferred manner, described pressure transducer may be arranged in printhead 50, but by In the reason that volume is excessive, described pressure transducer can be located on supply line 32.The function of this sensor with above for figure The function that 3A has described that is identical.

In two passes every can be provided with the device for filtering the liquid carried: therefore passage 32 can be provided with Filter device 31,42, and passage 34 is provided with defecator 44.

Printhead can be provided with valve 46,48, can pass through first passage 32 or second channel 34 respectively to described printing Head is supplied.The opening and closing of these valves can be Tong Bu with the opening and closing of valve 30, but this is not necessarily.

In passage 32,34 each includes one or more pipeline, described one or more assembling pipe joint 30 He Printhead 50, comprises potential element (especially filter) as described above simultaneously.

In this embodiment, device 28 makes it possible to avoid ink to be introduced in the parts in the loop that two kinds of fluids share (device 26, shared pipeline 25 and pump 24).Therefore, during cleaning or wash phase, it is pumped into upstream molten of check-valves 28 Agent will be protected from the return of any ink, and can be transported to pipeline 34 and not polluted by ink.

Another example of embodiment illustrates in fig. 3 c, described example include relevant with figure formerly be described all Element, described all elements will the most here be again described with.

Additionally, can be to each offer backward channel in passage 32,34 or pipeline 72,74.By this pipeline, follow respectively Ring is extracted to the part of the liquid in passage 32,34, and this liquid is delivered back into the liquid reservoir 11,12 of correspondence.This returns Returning passage and be provided with limited part 76,78, described limited part reduces the cross section of the pipeline of correspondence partly, and this makes it possible to conveying Liquid to printhead pressurizes.Described limited part is preferably single limited part, and the characteristic of described single limited part is Cross described above.

According to the example of embodiment, each of which in limited part 76,78 includes the hole such as with 0.3mm diameter.

These backward channels 72,74 ensure that the Partial security of system: when such as due to the risk of printhead 50 blocking Occur pressure to raise, then will no longer can be guided by backward channel 72 through the fluid of printhead flowing.

Even the blocking of the part of limited part 76 all can be detected by the rising of pressure in loop, such as, work as pressure When arriving a few bar, then during for example, 4 bar.Sensor 36 makes it possible to detect this exception, or the most described exception is by motor Speed reduce highlighted.In the case of detecting this exception, described exception can be by with signal teaching process Personnel, and/or machine can be stopped.

Additionally, in the case of pump 24 is membrane pump, limited part 76,78 makes it possible to set the pressure at described delivery side of pump Power, one of operational factor of the most such pump of described pressure (as illustrated by the most hereinbefore).

When ink via pump 24 and passage 32 be transported to about 90% to the 96% of printhead 50, such as ink via Passage 72 returns, and 10% to 4% is transferred to printhead.In view of backward channel 74, when via passage 34, solvent delivery being arrived During printhead 50, identical ratio is also applied for described solvent.These ratios are explained by the low discharge in printhead 50.

In Fig. 3 B and 3C, umbilical 19 includes part service duct 32,34 and section of tubing 56,58.

In Fig. 3 D with 3E, embody the structure similar to the structure of Fig. 3 C, but the device for preventing be doubled:

-in fig. 3d, it is shown that two are used for equipment 26a, the 26b prevented, and described equipment is connected on the oil of supply loop In the part that ink and solvent share, in the upstream of valve 28 with device 30；

-in fig. 3e, it is shown that two are used for equipment 26a, the 26b prevented, but one carries out cloth as in Fig. 3 C Putting, in the upstream of valve 28 with device 30, and another is disposed on pipeline 32, in the downstream of device 30.This configuration is by thing In fact proving rational, the described fact is pulse to ink to perform to prevent ratio to prevent more important to the pulsation execution of solvent.

Two can be used on according in other loop structure of the present invention for equipment 26a, 26b of preventing, especially for use in In the structure of Fig. 3 A, 3B or 4A, (for this two width figure, two equipment 26a, 26b can be in the upstreams of valve 28, or one can be at this The upstream of valve, and another is in the downstream of device 30).

In the embodiment having been described above, at least one part of solvent circuit is identical with ink pressure conveying loop 's.

Single pump 24 makes it possible to ink and/or required solvent supply to printhead.The solvent of liquid reservoir 12 is by this Pump 24 pumps, and not by liquid reservoir 11 to mix with ink wherein；Solvent can not mix with ink or to mix with ink Mode be transported to printhead, the described mode mixed with ink makes described solvent be extracted from liquid reservoir 12, afterwards right Mix in the element in the stream control loop that two kinds of liquid share, described element i.e. pipeline 23,25, pump 24, prevent equipment 26. Described equipment only includes two pumps and two liquid reservoirs, does not has extra liquid reservoir in the downstream of pump 24.

Modification or the other embodiments of apparatus described above will hereinafter be said specifically referring to Fig. 4 A to Fig. 4 D Bright.

According to the first modification, outside two liquid reservoirs 11,12, additionally provide one or more extra liquid reservoir.

3rd liquid reservoir is different from the 3rd liquid of first liquid and second liquid for accommodating.According to example, described 3rd liquid reservoir accommodates the ink of dilution, and another two liquid reservoir accommodates solvent and undiluted ink respectively.Preferably, to this The dilution that ink in liquid reservoir 12a is carried out keeps stable in time.

When described liquid short supply, stream control loop can be used or more simply use hands, topple over corresponding liquid Body is injected in the 3rd liquid reservoir.

This modification illustrates in Figure 4 A, and described modification relates to the structure of Fig. 3 C, but described modification could be applicable to reference to figure Structure described by 3A and Fig. 3 B.In this modification, it is provided that include exporting 12a₁Extra liquid reservoir 12a, described outlet Open or close valve 22a can be used to regulate.The liquid extracted from this liquid reservoir is transported to pump by this outlet and this valve 24, therefore described pump is shared for all liq and can be the most in succession or alternately or concurrently according to not With the open mode of valve pump from one or more liquid reservoir 11,12, the liquid of 12a.List in different valve downstream Individual pipeline 23 makes it possible to the liquid from one or more liquid reservoirs is transported to pump 24.

Can provide for measuring the device 15a of liquid level in the 3rd liquid reservoir.The example of this device is at file WO Be given in 2011/076810.

Valve 22a can be controlled by device 3 or drive, and described device 3 also can gather and process from liquid level sensor 15a's Data.

In this modification, as in the example having described that before, system uses single pump to all of liquid.Above Described in advantage be therefore applicable to this modification.

According to another modification illustrated in figure 4b, such as, use one or more air compressor 24a to different Liquid reservoir pressurizes, and this makes it possible to do not use pump 24 or the most do not use anti-pulsation equipment 26.The change illustrated in figure 4b Type relates to the structure of Fig. 3 B, it is possible to relate to reference to the structure described by Fig. 3 A or Fig. 4 A, but use compressor substituted device 24, 26。

The parts then shared at two kinds of liquid in stream control loop, i.e. perform the mixing of two kinds of liquid in pipeline 25.Set now Liquid reservoir 11 is returned to for only including single pump 64, described pump to make it possible to the ink being not used for printing.

Another embodiment illustrates in figure 4 c, labelling identical with the labelling of figure before in figure 4 c refer to identical or Corresponding element.

Specifically, such as, with air compressor, two liquid reservoirs 11,12 are pressurizeed, and do not using the situation of pump 24 Lower said two liquid reservoir is connected to supply line 29.The liquid reservoir 12 being provided to accommodate solvent can at any point 29a even Receiving pipeline 29, described any point can be located at far downstream relative to liquid reservoir 11 and valve 21.

In the modification of this Fig. 4 C, described modification illustrates in fig. 4d, and liquid reservoir 12 is connected to printhead 50 so that can be straight Connect execution and solvent is injected in the upstream of the nozzle of printhead printhead 50.

The every kind of ink wherein used in ink-jet printer can be associated with characteristic curve C, described characteristic curve C for spray The geometric properties in the ink loop of mouth, printhead and printer and for given jet velocity V_jet(such as 20m/s) is given Pressure (such as at nozzle exit) variation with temperature.The schematic example of this curve C is given in fig. 5.

More particularly, such as pressure at nozzle is the following result adding sum:

The dynamic pressure (Section 1) of-injection, the speed of described injection is constant and is controlled；

-fix-head loss (Section 2), the loss of described fix-head relates to the viscosity of ink；

-single the loss of flood peak (Section 3), the described single loss of flood peak relates to the density of ink.

Therefore, it is possible to write out the period in droplet formation by the pressure of the nozzle adding and obtaining of above three:

(1)

Wherein:

-ρ (T) is the density of ink, with kg/m³Represent；

-μ (T) is the viscosity of ink, represents with Pa.s；

-L_nozzleFor the length (or degree of depth) of nozzle, represent with m；

-R_nozzleFor the radius of nozzle, represent with m；

-K is the characteristic coefficient (or singularity (singularity) coefficient) in ink loop, and described characteristic coefficient can pass through Experiment determines or adjusts during calibrating；Described characteristic coefficient does not has unit.

If it should be pointed out that, the pressure considered is not the pressure at nozzle, but be positioned at away from described nozzle At a certain distance from point at pressure, such as in the upstream of umbilical 19, such as the situation of the sensor 36 of Fig. 3 A to Fig. 4 D, by will Pressure term adds above formula to will obtain similar formula, and described pressure term is corresponding between control station 3 and printhead 1 Difference in height.The pressure term of this interpolation can be stored in the parameter in printer, selects institute when operator assess difference in height State parameter.Pressure then continues to reflect the pressure at nozzle, or alternatively represents the pressure at described nozzle.

From the point of view of the visual angle of industry, it is difficult to ensure the geometry to printer and/or the preservation of mechanical parameter.Former for this Cause, for having to the ink loop of fixed structure, is preferably carried out calibration, returns from having a mutually isostructural ink to eliminate Road is to another variable geometry and/or mechanical tolerance；Or, along with ink loop parts over time (such as Parts between sensor and nozzle), or the change of the electronic unit along with controller, it may be necessary to may be the most calibrated The machine crossed is calibrated.

This calibration makes it possible to perform correction, and described correction is by coming again according to pressure differential moving reference curve C Positioning described datum curve C, described pressure differential is equal to the difference between this curve C and the point of the actual motion under base condition (during demarcating the size of printhead (especially during demarcating the size of excitation) the nominal jet velocity that limited) and And in view of the characteristic of ink, curve C is given for described characteristic, and especially given concentration or viscosity.For Given temperature and nominal jet velocity, by least one pressure measuring value in ink loop (such as at nozzle or At another point in loop) obtain actual motion point, it is given for described nominal jet velocity curve C.For this mesh Used pressure transducer 36.Pressure measuring value will provide the embodiment of the viscosity of used ink, and this directly reflects The concentration of the ink used (or, more precisely, it is dilution ratio).Can be performed concentration by monitoring pasting parameter Control or constraint, described pasting parameter is the direct embodiment of the quality of ink.

Using pump 24 or use device 24a in the case of Fig. 4 B to Fig. 4 D, jet velocity can be in nominal jet velocity Upper holding is constant, and described pump makes it possible to from liquid reservoir 11, ink is transported to nozzle.Pump can form the parts of restraint device, institute State restraint device and include for measuring the sensor of jet velocity in printhead, the most such as at patent application PCT/EP2010/ Sensor described in 060942.

Therefore, in fig. 5, it is shown that measure point (Pm, T), described point of measuring results from: in given temperature, for choosing Fixed ink and at the pressure measuring value of nominal jet velocity (such as 20m/s), for described nominal jet velocity curve C be Give.

At same temperature, curve C give value P.Therefore, it is possible to obtain by initial curve C is carried out translation with value Pm P New curve C'.If measuring point to be positioned at the lower section of curve C, this difference is negative, if measuring point to be positioned at the top of curve C, this is poor Value is for just.This correction it is contemplated that the geometry in loop and/or the change of mechanical parameter or change.

Additionally, it will be seen that, according to above equation (1), the viscosity μ of ink substitutes into the first rank in Section 2. When the actual viscosity of the ink used is different from nominal viscosity, (nominal viscosity or theory are appointed as given viscosity Viscosity) effective formula will be the most invalid.But all to there may be viscosity poor to the most a collection of from a collection of ink.In other words, real The viscosity (visco_prod) of ink that is that border produces and that use likely differs from " theory ", has the oil of same composition composition The specified nominal viscosity of ink.

It is, therefore, appreciated that the curve C of Fig. 5 A, or even curve C', corresponding to being somebody's turn to do " theory " ink, and Do not correspond to the ink of actual production and use.

For considering that actual viscosity, compared to this skew of nominal viscosity, therefore can apply correction, described correction is Described curve C (or C'), described pressure differential (Diff_pressure) is reorientated according to pressure differential moving curve C (or C') And difference (visco_nominal (cP) visco_prod between actually used viscosity (visco_prod) and nominal viscosity (cP)) proportional:

Diff_pressure (mbar)=A* (visco_nominal (cP) visco_prod (cP))

In this formula, A is proportionality coefficient.

It is it desired to, in view of above-mentioned two correction, carry out moving curve according to by the pressure differential that two correction values are added together C:

Normal pressure (Standard pressure)-reference pressure (reference pressure)+pressure differential (Diff_ pressure)

By initial curve C is obtained new curve C carrying out translation equal to the value of this pressure differential ".

Therefore can perform correction, described correction is in view of actual production and the actual viscosity of the ink of use.

According to instruction above, for given ink and predetermined jet velocity value (such as 20m/s), for school As therefore it is contemplated that actual viscosity and the appointment of used ink in the method for equipment described herein or loop For the difference between theoretical viscosity, described in be appointed as the viscosity of theory be commonly used parameter.

Preferably, this method is additionally contemplates that correction (subtracting the difference of reference pressure equal to normal pressure), and described correction is examined Consider the geometry to the loop used and/or the change of mechanical parameter.

This correction can perform before starting actual printing, but, as in view of geometry and/or machinery ginseng The corrections of number change, be start printer and simultaneously creating be maintained at fixing speed (datum speed) injection it After.

Come real for performing the instruction of at least one in above-mentioned aligning step by controlling device 3 (also referred to as " controller ") Execute.Especially, these instructions by making it possible to the circulation of solvent measured value based on pressure Pm, can to store this measured Value, pressure differential Pm-P can be calculated and/or can calculate proportional to visco_nominal (cP) visco_prod (cP) Pressure differential.

The device 3 that controls having been described above can ensure that the data relevant to curve C (such as with nominal jet velocity pass The value (P, T) of connection to group) and/or result from the data of correction and store, according to have been described above, described correction It it is the correction of data with curvilinear correlation.The physically and/or chemically data relevant to actually used ink and especially institute State the viscosity (indicating with " visco-prod " above) of ink, be storable in the memorizer of these identical devices 3.

Several the curves such as corresponding to several ink of such as curve C, and/or several groups of data, can such as be stored in control In device 3 processed.Can be used for curve that is that inspection is stored or that selected in first step and/or being deposited before printer runs The effectiveness of data set that is that store up or that selected.If curve or data set do not store or select, if or stored Or curve or the data set selected does not corresponds to actually used ink, then trigger alarm to be modified.

Can be printed by printer after correction as described above, with benchmark or the speed of nominal formed oil Ink injection, it is possible to retrain to preferably reach to derive from curve C to the pressure of ink " pressure.

Once performing correction, described correction provides the datum curve C of the curve of such as Fig. 5 B_ref, described datum curve shows Go out the change of pressure following temperature.Described datum curve can be curve C' or C mentioned above " in one.At this song The both sides of line represent acceptable pressure oscillation boundary with dotted line, such as ± 225 millibars.

During the use of machine, the ink viscosity change used.

The measured value of the pressure change occurred in ink loop will make it possible to measure the change of this viscosity.It practice, As described above, at fixing temperature and fixing jet velocity, pressure change is basic and viscosity is changing into ratio.

The most at a given temperature, and for fixing jet velocity, can be evaluated whether the pressure change in loop.Pressure Force transducer 36 can be used for this purpose, and as described above, if implementing correction in advance, described pressure transducer is preferably Identical with the sensor for described correction.

The change of this pressure is by the change of instruction viscosity, and other parameter in loop, and especially jet velocity, be fixing 's.Beyond this relative to curve C_refDifference time (when described difference is timing), thus by solvent inject.

According to following relation, the value of pressure transducer with by datum curve C_refPressure difference value between specified value is Difference due to viscosity (or concentration):

(2)

When pressure is no longer the pressure of nozzle, but when the pressure of another point in loop, it may be considered that to extra The item (item of described extra stickiness such as results from umbilical etc.) of stickiness, but these in view of the pressure differential at nozzle are Negligible.This is especially when being placed on injection line when sensor, particularly in the feelings in the downstream of anti-pulsation equipment 26 Under condition.Sensor is on injection line, and the extra loss of flood peak is relatively low and considers self-correcting.

This relation (2) makes it possible to measure the mass change of ink.

In the first method of approximation, density changes little with temperature and controls jet velocity continuously, such as, use use The device of the ink extracted from main liquid reservoir in pumping (as noted, pump can form the parts of restraint device, described about Bundle device includes the sensor for measuring the jet velocity in printhead, the most such as at patent application PCT/EP2010/ Sensor described in 060942).

For guaranteeing good quality or the constant-quality of ink, the viscosity difference using pressure transducer to detect then can be passed through The ink that the volume of solvent adds loop to is modified.This volume can be described by considering that the coefficient of dilution calculates The coefficient of dilution is all specific for every kind of ink, and can be formulated with the following methods:

(3)C_d=(Δ μ/μ)/(Δ V_r/V_r)

Described formula represents the relative change of viscosity μ, and the change relatively of described viscosity μ results from the relative of the volume of ink Change V_r, this relative change such as results from the interpolation of solvent.

In the case of above with reference to the structure described by Fig. 3 A to Fig. 4 A, the amount of solvent to be added can such as result from Following relation (4), described relation (4) gives the duration T of opening of valve 22:

(4)

-A and B depends on the actual volume of ink, A=1000/ ink volume, and B=2290/ ink volume is (at liquid reservoir In 11) (these coefficients are fluid power coefficient)；

-for the nominal jet velocity of such as 20m/s, P_refEqual to the reference pressure at a temperature of nozzle, with millibar Represent；

-Δ P, equal to the difference between pressure and reference pressure, represents with millibar；

-Q is the delivery flow rate of pump 24, described delivery flow rate depend on liquid reservoir 11 and 12 each in the liquid of fluid Position, liquid level H of described fluid₁₁With H₁₂Schematically show in fig. 3 c.

It will be seen that, the amount of solvent to be added considers the shadow of the dilution of the viscosity to ink by the coefficient of dilution Ring.

But it is also the change of excessive jet velocity that excessive pressure change may result in, and therefore causes jet velocity Unstable.

The interpolation of solvent is carried out, to limit pressure change by a small amount of.In order to not disturb injection, seek pressure change limit System is to less than the 1% of reference pressure.Equation (2) makes it possible to that the change restriction of this pressure is converted into viscosity change and limits.Such as At nominal viscosity 10%.

Equation (3) then makes it possible to the change of described pressure limits the volume delta being converted into the solvent that can add volume Vr to Vr, will mix described volume delta Vr before being transported to printhead in described volume Vr.

Such as, for Cd=2.6

Then Δ Vr/Vr=3.2%.

Before being transferred in printhead, for the volume that can be blended wherein: V=10cc, then: Δ Vr= 0.3cc。

According to example, with in a small amount or basic volume is added, such as tens cubic centimetres with one cubic centimetre or several Between Li Fangli meter, the most such as between 0.1 cubic centimetre and 1 cubic centimetre, this speed making it possible to not disturb injection.

Given the flow of pump, open persistent period t for obtain the valve 22 of this amount_eDerived by it.More accurately, In view of the flow between liquid reservoir 11 and pipeline 23, and the flow of pump 24, it is determined that liquid reservoir 12 is being connected to pipeline Flow in the pipeline of 23, by pipeline 21₂With 22₂In pressure be thought of as equal (because these two pipelines are identical and all It is connected to same pipeline 23), these pressure are based on the height H in liquid reservoir 11 and 12₁₁And H₁₂And calculate.

Opened, by this, the above-mentioned duration T (s) that the persistent period divided and give the number of times opened of this valve 22.

According to example, calculate basic volume 0.19 cubic centimetre to obtain 0.20 li of Pascal of change of viscosity. the second (cps) change of the pressure near 12.96 millibars (described pressure changes the operation not disturbing printhead), it is.

It is known that the time of such as 15 seconds, at the end ink of described time and the solvent that added the most correctly Mixing.This incorporation time permits a determination that the persistent period t between the injection of twice a small amount of solvent_e。

Preferably, following facts is considered in the calculating of this incorporation time, above with reference to returning described by Fig. 3 A to Fig. 4 A In the case of road, device 26 and 31 advantageously facilitates ink with the mixing of the solvent added (if described loop comprises resistance Pressing down device 26, this is also the situation in another described loop).These are for preventing the device of pressure oscillation to comprise content Long-pending, ink and a small amount of added solvent can be mixed by described internal volume.Regardless of whether there is device 26, should also be as in addition Considering there may be the parts in loop, the parts in described loop can facilitate ink and the mixing of the solvent added.

Therefore, it is possible to carry out the most substantially adding of solvent, with compensate detect in the loop with continuous print pulses Pressure change, such as persistent period t_sWith cycle t_e+t_sPeriodic pulsation.Described week is shown in figure 6 with buttress shape The pulsation of phase property, when described pulsation is in level " 1 ", represents and carries solvent S, hold ink E between described conveying Row conveying.

According to an example:

-solvent be substantially added to 0.2 cubic centimetre；

-C_d=2.6；

-A=1.63 and B=3.74；

-V_added(referring to the cumulative volume of added solvent)=29 cubic centimetres；

-N_cycles(referring to the period that solvent is added)=144；

-Prefer=2.7 bar

-Δ P=50 millibar

In the case of above with reference to the structure described by Fig. 4 B to Fig. 4 D, explanation given above keeps effectively, institute State explanation given above relate to pressure change with viscosity change between associate, be and include formula (3).Therefore may be used Flow based on the effect resulting from compressor 24a sets up the formula similar to above formula (4), solvent to be added Amount preferably considers the impact of the dilution of the viscosity on ink by the coefficient of dilution.

The most again, it is also the change of excessive jet velocity that excessive pressure change may result in, and therefore causes The instability of jet velocity.For not disturbing described jet velocity (in view of ongoing printing), with a small amount of or with substantially The interpolation of volume is added, such as between tens cubic centimetres and one cubic centimetre or several cubic centimetres, the most such as, exist Between 0.1 cubic centimetre and 1 cubic centimetre.Calculate basic volume so that being added the least to the solvent of this volume Ground interference jet velocity, or so that described jet velocity carries out the change less than given limit value, such as jet velocity ± 1%.It is transported to the ink jet of print substrate the most hardly by the quality of ink and/or the change of the pressure of described ink More being disturbed, described change derives from the interpolation of solvent.

Given the flow of the effect coming from device 24a, open persistent period t for obtain the valve 22 of this amount_sBy It is derived.More accurately, it is determined that the stream in the pipeline that liquid reservoir 12 is connected to pipeline 25 (Fig. 4 B) or 29 (Fig. 4 C) Amount, simultaneously takes account of the flow between liquid reservoir 11 and pipeline 25 or 29, and the flow applied by device 24a, by pipeline 21₂With 22₂In pressure be thought of as equal (because these two pipelines be all connected to same pipeline 25).

Opened, by this, the above-mentioned duration T (s) that the persistent period divided and give the number of times opened of this valve 22.

Therefore, during printing, in one or more print substrate, such as, use different described hereinabove Equipment with the least amount, solvent can be added (also referred to as " micro-interpolation ")；Each micro-interpolation such as has less than several Cubic centimetre or the volume of even a cubic centimetre；Or alternatively, described volume be included in 5 cubic centimetres or 1 cubic centimetre with Between 0.01 cubic centimetre or 0.05 cubic centimetre.With time difference t_sIn turn performing this micro-interpolation, described time difference is preferred Ground performs the ability mixed in view of loop to ink with solvent.Such as, equipment of such as Fig. 3 A, Fig. 3 C or Fig. 4 A etc is used Equipment, for solvent is added having obtained in printhead the more preferably uniformity of mixing.On the whole, the persistent period t_sMay be included in part between second and several seconds, such as between 0.1 second and 1 second or 5 seconds.

Now the step of certain operational phase of the printer according to the present invention will be described.

Startup stage during, printhead 50 capable of washing.To this end, by solvent delivery to printhead, valve 22,48 and 52 Open, and start pump 24 and 64 (or device 24a and pump 64).Also valve 52 can be closed, in this case by printhead 50 Producing the injection stream of solvent, the injection stream of described solvent will clean gutter 51, and valve 54 is opened.

In the case of the equipment of Fig. 3 C (or Fig. 3 D to Fig. 4 A), if pressure raises until arriving several bars, such as 4 bars, The blocking of limited part 78 (or 76) can be detected.

If pressure drop is under the lower limit of range of operation, also fault can be informed with signal and/or system is stopped.

At the end of this cleaning step, valve 30 switches to, via service duct 32, ink is transported to printhead.Cause This, can pressurize to ink and be transported to printhead 50.

If not removing step, then air will remain in the loop, may cause pressure oscillation and therefore cause machine The operation troubles of device.Therefore pump 24 (or device 24a) and 64 can be used to perform the removing stage, such as preventing device to eliminate The air that in 26 and/or in the filter and/or in umbilical 19 residual exists.

For removing air, valve 30 switching is used for being transported to ink service duct 32.Pump 24 (or device 24a) is opened Dynamic so that ink by device 26, valve 30, filter 31,42, possibly limited part 76 and follows through umbilical 19 Ring.The air that may remain in potentially in these various elements is discharged the most from which.

According to another aspect, the speed of regulation pump is to reach the reference pressure provided by datum curve (Fig. 5 B).True On, the speed of pump can be depending on several parameters of such as viscosity and temperature etc.Additionally, due to the existence of device 26 introduces use In the delay weakening pressure oscillation.

For regulate the example of the method for pressure (or speed of motor) by point in the way of or in a repetitive fashion Run, to find the speed being suitable to reference pressure.

These steps especially make it possible in view of the effect preventing device 26 introducing delay.

When reaching reference pressure, the injection stream of ink can be produced by printhead 50.Pressure is kept by ink loop Or it is adjusted to reference value.

In the period starting injection stream, the speed of the motor of scalable pump 24.

As already explained, controlled pressing pressure is for the blocking of detection limit product 76.The most controlled pressing pressure is used for detecting Possible pressure reduces.If under certain limit value of described pressure drop the most such as 1.5 bar, can with signal inform fault and/or Printer can be stopped.

Finally, in order to ready or ready after the stopping of printing or machine to stopping, pump 24 is used (or device 24a), the pipeline shared for ink and solvent can be solvation (starting valve 22 afterwards).This makes it possible to Ink residue is avoided in loop and therefore to remain in pump 24 and/or damper 26.

The example of the embodiment of device 26 is described in detail now with reference to Fig. 7.This anti-pulsation equipment can example as used in all In loop described hereinabove, but can be also used in other stream flow control loop any, especially for ink-jet printer, In described ink-jet printer, the pressure change of fluid can become obvious.This another kind of loop is in such as WO 2014/154830 It is described.

Looking up or overlook, this equipment 26 can have the shape of substantially circular shape or regular polygon.Described equipment bag Including two blocks of parallel plates 110,120, described two blocks of parallel plates are fitted together by device 112,122 at peripheral region, device 112,122 for example, one group screw threads or screw hole and screw, described one group of screw thread or screw hole and screw preferably uniformly divide Cloth is on the periphery of equipment.Every piece of these plates all can have the shape of above-mentioned substantially circular or regular polygon；In addition may be used See the polygonal shape (here for hexagon) of plate 120 in the figure 7.

Every block of plate includes inner surface 113,123, the described inner surface when two boards uses device 112,122 to assemble Periphery 113p or plane, lateral part are relative to each other.

The inner surface 113 of plate 110 is depression, the central surface of described inner surface or the middle body of described inner surface 113c is preferably plane, relatively low relative to the periphery 113p of described inner surface, and mid portion 113i gradually leads to from this periphery Middle body.The inner surface of plate 120 can also be depression, such as in the way of identical with the inner surface 113 of plate 110, to hold Receive partial spring 114.

Defining the volume 121 for accommodating fluid between the plates, described fluid enters via the first opening 124 (described first opening pass plate 110) and via the second opening 126 (described second opening is also through plate 110) and outlet connection This volume is left in portion 128.Accommodate volume be about several cubic centimetres, be such as included in one cubic centimetre with ten cubic centimetres it Between, the most for example, four cubic centimetres.

When described fluid is in cavity, helical spring 114 makes it possible to prevent the pressure of fluid to change.Can be utilized it It substitutes the device of spring and guarantees this function, the most substantial amounts of material with elastic characteristic or the gas being enclosed in cavity Bubble；For these other device, the structure of cavity can keep identical with structure as described above.In the case of spring, Its one end braces against the inwall 123 of plate 120.The other end of described spring is towards the inside of cavity.But pressure change is to pass through Stiff baseplate or lid 115 are transferred to described spring.This spring will make it possible to prevent pressure to change, and therefore equipment determines " anti- Pulsation " role.

Between this plate 115 and inside of cavity, be disposed with barrier film 116, described barrier film by the flexibility of such as elastomeric material or Flexible material is made.Preferably, this barrier film extended the whole surface of lid 115, and had been even more than the periphery of described lid, with Make to brace against the periphery 113p of base plate 110.This periphery can include sealing supporting surface 113j, when element 122 is by two boards 110,120 barrier films 116 when being maintained at confined state brace against and described seal supporting surface.Therefore, this barrier film 116 can be formed close Envelope is with the sealing guaranteeing equipment.

Defined by the central surface 113c of this barrier film 116 and plate 110 for accommodating the volume 121 of fluid, this surface shape Become the bottom accommodating volume.

Additionally, annular lip 126a is arranged around hole 126.This annular lip has relative to the bottom 113c accommodating volume Certain height.The top of described annular lip is flat so that barrier film 116 supports to arrive in propping up under the effect of spring 114 By described top.Additionally, pin 124a is positioned near hole 124.This pin has and the height of annular lip 126 relative to bottom 113c Identical height.Barrier film 116 will brace against the upper surface of this pin under the effect of spring 114.But, this pins position is in hole 124 Side, described Kong Ze stays open, and this even can brace against the upper surface of each element 126a, 124a at barrier film 116 Time introduce fluid into internal volume.

This configuration, the existence of barrier film 116 make it possible to what obstruction may return via element 128 from the downstream part in loop Fluid (and therefore described fluid can be circulated up with the side in opposite direction of the fluid of normal circulation in loop), described every Film braces against element 126a due to pressure, and described pressure depends on the characteristic of spring 114.Can be incorporated in equipment Before in volume, therefore this fluid must have enough pressure to rise barrier film 116.

On the other hand, the fluid in the downstream flowing to loop from liquid reservoir 11,12 can enter via hole 124, and described hole does not has Have and sealed by barrier film 116.Barrier film 116 can be pushed back by this fluid of the internal volume 121 of access arrangement the most under stress And compression spring 114, therefore absorption pressure is changed by this spring 114, and this fluid will flow through hole 126 afterwards, this hole 126 pressure effects based on the fluid on barrier film 116 are idle.Therefore, this fluid initially enter the inside of equipment and it After can rise barrier film 116 to discharge oral pore, and the usual direction flowing of the circulation with the fluid in loop.

Therefore the anti-pulsation equipment being so designed that includes or comprises device, and this device makes this anti-pulsation equipment only be able to ensure that Return the function of valve, prevent the pressure oscillation of the fluid entering this device via hole 124 simultaneously.As having been described above, several Anti-pulsation equipment can be series connection or chain type connection, to obtain bigger preventing.

The example of the embodiment of the pumpout module including two pumps 24,26 is described in detail now with reference to Fig. 8 A to Figure 13.

This pumpout module can use in equipment as described above.But this pumpout module can be independent of this equipment Realize, and can use in for other loop of ink-jet printer supply ink and solvent.

As seen by before, if two pumps 24,64 are heavy duty and machine to be ready to print the two pump be lasting Run.Therefore devising the maintenance module (or parts) including casing 270,270a, this casing accommodates basically or uniquely The hydro-joining portion 23,25,60,61 of the two pump and the two pump.The life-span of each pump is the most known.Therefore, it can will be to The fixed life-span is added on maintenance module itself.It is true that maintenance module can be swapped by the user of printer, such as each right Should be in the cycle in the basic life-span of module for the purpose prevented.

Below to including substantially parallel hexahedral casing 270, this module of 270a is demonstrated and describes.But this case Body can also be the plate not having other sidewall, such as compression pump 24 and recovery pump 64 be connected to plate 273,273a.At another In modification, plate 273,273a are associated with flexible wall, and therefore assembly is Guan Bi, and only plate 273,273a are firm.Have and close The embodiment of mould assembling body is favourable, because casing plays the role of the mechanical protection of the parts of this magazine ac.Under This embodiment is described by literary composition, but is particularly due to plate 273,273a for the essentially identical thing of their each holding Real, other embodiments can easily be derived by it.This plate 273,273a can be dismountable relative to casing；Figure 11A and Figure 13 shows the side member of this plate, and this side member is with lower limb 301₁、301₂Form, enabling to plate 273, 273a removably carries out fastening (such as by being clamped together) against casing, and this casing includes the element of correspondence, is V here Shape notch 302₁、302₂, it is used for accommodating described side member.Similar embodiment can be implemented for the casing of Fig. 8 A.As at figure In 11A, Figure 11 B and Figure 13 visible, casing and plate can include sideways expansion portion, and this sideways expansion portion includes these clamp devices (side member of the plate of lower limb form, and be the counter element of the casing of V-shaped groove mouth here).At Fig. 8 A to Figure 11 B, Tu13Zhong Each in show direct orthogonal reference point OXYZ, the upper surface of plate 273,273a and/or this plate prolongs on the plane xy Stretch.

Maintenance module has the compact connection interface being connected with the remainder in ink loop.This interface be provided with entrance and Outlet opening 271₁-271₄, this entrance and exit hole makes it possible to be collected entering of two pumping elements together in the module Mouth and outlet are connected to the entrance and exit of the remainder in ink loop.

This interface advantageously realizes with the form of at least one element or parts 275,275a, this at least one element or portion Part swells or projection relative to the upper surface of plate 273,273a and/or this plate.

This element or parts 275,275a can be dismountable relative to plate 273,273a；At Fig. 8 B to Fig. 8 C and figure Visible hole 291 in 11B, 12B, 12C₁-291₃, this hole make it possible for such as element or parts 275,275a for assembling Element or device 291₁-291₃Removably will such as pass through screw against plate 273, the corresponding element 275 of 273a, 275a Fix and fasten with casing.Therefore, it is possible to first element 275,275a are fastened against plate 273,273a, afterwards can The remainder of this plate with casing is assembled.As shown in Fig. 8 C and Figure 12 C, element 275,275a then include for being connected to The surface 275 of casing₁、275a₁, this element is provided with the device 261 for being fluidly coupled to pipeline 23,25,60,61₁-261₄。

In order to module to be connected to easily the remainder of equipment, entrance and exit hole 271₁-271₄It is arranged in flat On face, this plane is parallel to YZ plane and is perpendicular at least one part of upper surface of plate 273,273a and/or this plate XY extends plane, and/or is perpendicular to the plane for being connected to casing or surface 275₁、275a₁.This in Fig. 8 B and Figure 11 A more Show exactly, show the location of ingate 2711 and towards this Kong Yiji with thorough way in Fig. 8 B and Figure 11 A This is perpendicular to plane or the X/Y plane extension of Fig. 8 B for circular mode, and is positioned at YZ plane or is parallel to the plane of YZ plane (P1), on, this hole itself is perpendicular to the upper surface of plate 273,273a.

At Fig. 8 A and Fig. 8 B or Figure 11 A in embodiment illustrated in fig. 13, safeguard element 275,275a have cross bar or Crossbeam (Fig. 8 A and Fig. 8 B) or the shape of angle bracket (or dihedral plate) (Figure 11 A to Figure 13), and relative to described surface 273,273a protuberance or projection.This maintenance element is provided with entrance and exit hole 271₁-271₄.Fig. 8 A and Figure 11 A shows that these enter Mouth and outlet, this entrance and exit makes it possible to two pumping elements collected in module together are connected to ink loop Remainder:

-entrance 271₁For inflow pump 24；

-outlet 271₂For flowing out from pump 24；

-entrance 271₃For fluid inflow pump 64；

-outlet 271₄Flow out from pump 64 on the direction of liquid reservoir 11 for fluid.

The fluid entering via each in these entrances or outlet or leaving through described entrance or exports with substantially The mode being parallel to plate 273 or 273a circulates.In Fig. 8 B and Figure 12 D, in hole 271₁The side that is circulated of porch fluid Illustrate to by arrow.Here this circulation is that fluid flows upwardly in the side of pump 24.

Finally, stream control is also comprised at it between each in the element (compression pump 24 and recovery pump 26) that module comprises even Connection device and the entrance and exit 271 being associated with this element₁-271₄.These stream control attachment means are corresponding to Fig. 3 A to Fig. 4 A Pipeline 23,25,60,61.

Element 275,275a are provided with pipeline 272₁-272₄, this pipeline 272₁-272₄By pipeline 23,25,60,61 warp possibly By connector 261₁-261₄It is connected to entrance and exit 271₁-271₄.These pipelines can be bending, in order to by correspondence Pipeline (see the pipeline 23 of Fig. 8 B) is joined together with entrance or the outlet being arranged in mode explained above and orienting.As Example, shows pipeline 272 in Fig. 8 B and Figure 12 D₁, pipeline 23 is connected to ingate 271 by this pipeline₁.At Fig. 8 A to Fig. 9 In the embodiment illustrated, these pipelines pass element 275；In the embodiment shown in Figure 11 A to Figure 13, these pipelines relative to Angle bracket is projection.

In the embodiment shown in Fig. 8 A to Fig. 9 and Figure 11 A to Figure 13, on substantially longitudinal direction OY, element 275,275a self is the most vertical with the orientation OX of two pumps 24,64.Entrance and exit 271₁-271₄Be along surface 275', 275b' alignment, this surface self is basically perpendicular to the surface of plate 273,273a or this plate.Therefore, via these entrances Each in outlet enters or the fluid that leaves through described entrance or outlet to be basically parallel to this plate 273,273a Mode or to be basically perpendicular to described surface 275', 275'_aMode circulate.

In the case of Fig. 8 A to Fig. 9, element 275 can include longitudinal groove 279, will arrange whole module in the cell Entrance with outlet 271₁-271₄, it being thus advantageous to installation and the dismounting of this module, this entrance and outlet have referred to above bright Direction and towards, but also (the double arrows according to Fig. 9 are moved in the translation that can carry out being basically parallel on the direction of plate 273 Head).

In this embodiment of Fig. 8 A to Fig. 9, in mode more accurately, in the cross section in the direction being perpendicular to this longitudinal extension On, this element can include the female of " u "-shaped, entrance and exit hole 271₁-271₄Arrange along surface 275', this surface 275' Define the bottom of " u "-shaped and this surface in both sides by lateral surface 279₁-279₂Defined.Relative with surface 275' Between the end of the two lateral surface, opening 280 (is used for making it possible to the receiving connecting element 285 with element 275 complementation It is connected with other element in ink loop).Two lateral surface 279₁-279₂To make it possible to relative to each other with the side translated Formula induction element 275 and connecting element 285.This opening is located parallel in the plane (P2) of YZ plane.

In this embodiment of Fig. 8 A to Figure 10, therefore the cross section of the element 275 in XZ plane has the shape of lower limb or pawl Formula, the stream control making it possible to ensure that module 270 is connected and is mechanically connected by this.

In the case of Figure 11 A to Figure 13, the element 275a of the form of angle bracket includes first surface the most in 90 ° 275b and second surface 275a₁, the connection surface on the two surface is provided with entrance and exit hole 271₁-271₄, and second surface 275a₁For pressure plates 273a.

The embodiment of the connecting element 285 being suitable to the embodiment of Fig. 8 A to Fig. 8 B figure 10 illustrates.This interface is advantageously The element of form or the form of parts with such as cross bar or crossbeam realize, and this element or parts extend along Y-direction and relative In surface 283 (this surface 283 is along YZ plane) protuberance or projection.There is provided this connecting element 285 to insert by " U " of element 275 In the volume that shape is defined.The upper surface of this element 285 arranges hole 281₁-281₄, each in this hole is used for and hole 271₁-271₄In one alignment and connect.Pipeline 282₁-282₄Traverse element 285, and pipeline 282₁-282₄Make hole 281₁-281₄And hence in so that pipeline 23,25,60,61 is connected with the remainder shunting control in loop.

In the embodiment shown in Figure 11 A to Figure 13, corresponding to element 271₁-271₄With 277₁-277₂Connecting element 281₁-281₄With 287₁-287₂Being arranged on surface 283, each in this connecting element is used for and hole 271₁-271₄、277₁- 277₂In one alignment and connect.

The such as remainder in the loop of Fig. 3 C, the element that is not included in casing 270 mainly include antivibration equipment 26, With liquid reservoir 11,12 and device 21,26,30,42,44 (having been described above), the most visible；In the figure, dress Put 12 and 22 to be covered by device 11,21.

Can provide for against the element 285 (Fig. 9, Figure 10) of plate 283 or fastening element 275,275a against plate 283 Device, fasten this assembly for (such as passing through screw) in a straightforward manner；To this end, plate 275,275a can be provided with hole 277₁- 277₂, screw or pin or rivet can be inserted to be such as incorporated in hole by corresponding component afterwards in this hole, this hole is permissible It is in the remainder of equipment, especially in the hole 287 of element 285 or 283₁-287₂In (Figure 13), formation threaded Or it is female.Other device can be used to fasten, such as, by the pawl of side, element 275,275a then can be provided with example Being used for location or being placed in the element of central authorities, this element 275,275a to be assembled with element 285 or 283 such as lower limb.

Can in order to supply the electrical cable (not shown in FIG.) of the supply voltage of pump 24,64 (compression pump, recovery pump) Draw from casing 270,270a, in order to be connected to device when the module is mounted for supplying printer.These lines can such as connect Receive the adapter (not shown in FIG.) of printer.

After device (screw or other device) dismounting that will be used for being maintained against the fastening of element 283 and/or 285, Module in above-described such as module etc can be replaced by simple and quick mode.Shown in Fig. 9 with Figure 13 In configuration, afterwards module is mentioned, can by utilizing the connecting element 275 of this module, 275a rest element 285 or surface 283, By two elements are tightened together, new module is disposed afterwards.

As here it will be appreciated that, therefore, it is possible to do not use costliness between other element in maintenance module and ink loop Seal or self sealss connect.

Inlet/outlet 271₁-271₄With 281₁-281₄In the end of each included pipeline, in this inlet/outlet Each self be provided with leakproof seal.Such as in inlet/outlet each is disposed with seal with O ring, and this seal with O ring exists The corresponding inlet/outlet 281 of standing part 283-285 is braced against on run location₁-281₄Concentric sealing supporting table Face.A 311a in these supporting surfaces illustrates in fig. 12d.The entrance and exit of standing part 283-285 has and tool Having the configuration of the entrance and exit same type of the module of the end of pipeline, each in this entrance and exit of module has Concentric sealing supporting surface.

The present invention can implement with such as form at the printer described above with reference to Fig. 1.Described printer is especially Including printhead 1, this printhead 1 is relative to printer main body substantially off-center, and passes through the shape of such as flexible umbilical 2 The device of formula is connected to this printer, together with fluid power is collected by this umbilical with electrical connection so that printhead can run.

The device forming controller or control device the most hereinbefore refer to.

These devices include such as being preferably programmable pico computer or microprocessor and/or electronics or power supply electricity Road, it will be sent to printhead print command, but also can drive pump 24,64 or the valve 21 of motor and/or system, 22,52,54, to manage supply loop carried out with ink and/or solvent and from printhead to ink and the mixing of solvent The recovery that thing is carried out.

This device also can gather liquid reservoir 11,12, in 12a for measure the device 13 of liquid level, 15,15a supplied Liquid level information, and trigger corresponding alarm possibly.This device also can gather the pressure information provided by sensor 36 and Be suitable to possibly carry solvent, such as according to amount as described above and frequency that is predetermined or that calculate, so that The viscosity obtaining the ink in loop is suitable for.

According to the function must being managed in printer, therefore device 3 is programmable.Constitute controller these Device or these control devices are disposed in the 5' part of system or control station.

Claims (12)

1. the dismantled and assembled assembly of single-piece for the ink loop of continuous inkjet printers, it is characterised in that described single-piece can Removable component includes:

-at least one piece of plate (273,273a), the first pump (24) and the second pump (64), described at least one block of plate is substantially flat Shape and extension in plane (XY), described first pump is appointed as compression pump, and described second pump is appointed as recovery pump；

-stream control attachment means (23,25,60,61), with on the one hand at first fluid entrance (271₁), the first pump (24) and first-class Body outlet (271₂Between), and on the other hand at second fluid entrance (271₃), the second pump (64) and second fluid outlet (271₄Stream flow control is realized between)；

-at least one connecting element (275,275a), at least one connecting element described is fastened to described plate (273,273a), and And include surface and a plurality of pipeline (272 being designated as connection surface₁-272₄), described entrance and exit (271₁-271₄) go out On presently described surface, this connection surface is basically perpendicular to described plate (273,273a), and through described entrance and exit The axis of fluid stream is parallel to described plane (XY), described a plurality of pipeline (272₁-272₄) pass described plate to connect described entrance And outlet.

Assembly the most according to claim 1, it is characterised in that at least in described first pump (24) and the second pump (64) Individual is membrane pump.

Assembly the most according to claim 1 and 2, it is characterised in that described connecting element (275) includes at described group Part is installed on ink loop the device (279 of period guiding described assembly translation₁-279₂)。

Assembly the most according to claim 1 and 2, it is characterised in that described connecting element (275) includes having " u "-shaped wheel Wide groove (279), described entrance and exit occurs on the surface (275') of the bottom defining described " u "-shaped.

Assembly the most according to claim 1 and 2, it is characterised in that described connecting element (275a) constitutes by the first table The cantilever that face (275b) is defined, described entrance and exit (271₁-271₄) and carry the second of described plate (273,273a) Surface (275a₁) occur on the first surface.

Assembly the most according to claim 1 and 2, it is characterised in that described plate (273,273a) constituting portion branch mailbox body (270,270a) or shell, the first pump (24), the second pump (64) and stream control attachment means described in described casing or away (23,25,60,61).

Assembly the most according to claim 6, it is characterised in that described plate (273,273a) relative to described casing (270, 270a) dismantled and assembled.

Assembly the most according to claim 7, it is characterised in that described plate (273,273a) and casing (270,270a) include Connecting elements (301₁, 301₂, 302₁, 302₂), so that described casing can be opened and closed by described plate (273,273a) (270,270a).

Assembly the most according to claim 1 and 2, it is characterised in that described fluid intake and outlet (271₁-271₄) every One end including being provided with the pipeline (311a) of anti-leak seal.

Assembly the most according to claim 1 and 2, it is characterised in that described assembly includes that at least one is for by described group The first element (277 that part is fastened on ink loop₁, 277₂, 287₁, 287₂)。

11. assemblies according to claim 1 and 2, it is characterised in that described connecting element (275,275a) is relative to described Plate (273,273a) is dismantled and assembled.

12. assemblies according to claim 11, it is characterised in that described connecting element (275,275a) include for against The second element (291 that described plate (273,273a) fastens₁-291₃)。