EP2496422A1 - System having an output device operating according to the ink particle printing method - Google Patents

Abstract

The invention relates to a fine dust extraction unit (1) for an output device (2) operating according to an ink particle printing method, such as a printer, copier or fax machine. The fine dust extraction unit (1) comprises an exhaust hood (11), which can be disposed above the output device (2) and is designed with a fine dust filter (111f) in order to extract the ink particles and optionally also other fine dust.

Description

 Device device with one after the pressure medium particles

Printing method working output device

The invention relates to a device device with a after

 Print medium particle printing process, for example toner particle printing process, working output device.

After the toner particle printing process output devices, such as

Printers, copiers or fax machines are widely used. The toner particles have dimensions in the range of about 5 to 30 pm. They are composed of synthetic resin, pigments, magnetisable metal oxides and auxiliaries. The fine toner particles can partially pass unhindered the filter and protective function of the lung and get into the body. The toner particles can enter the ambient air and be inhaled when using the dispenser.

The object of the present invention is to provide a device which significantly reduces the risk of inhaling pressure medium particles when using output devices operating according to a pressure medium particle method.

According to the invention, this object is achieved with the subject matter of claim 1. It is a device device with a after the Druckmittelpartikel-

CONFIRMATION COPY Printing method working output device, such as printers, copiers or

Fax machine, and one above the output device arranged

Fine dust extraction device, proposed, wherein is provided

 - That the Feinstaubabsaugeinrichtung one above the output device

 can be arranged, equipped with a fine dust filter exhaust hood,

- That the exhaust hood has a fan having a fan and an electric fan motor and in a fan housing

 trained section of the exhaust hood is arranged, and

 - That in the exhaust hood an ionizer is arranged.

The device device according to the invention is characterized by the fact that it has a Feinstaubabsaugeinrichtung that at various after

Pressure medium particle printing method working output devices can be used, if necessary, can also be retrofitted. The Feinstaubabsaugeinrichtung may be designed so that it does not require intervention in the output device. It can be provided that the Feinstaubabsaugeinrichtung is used regardless of the type of ventilation of the output device. It may be provided for use on output devices without ventilation or on output devices that suck in room air via a fan opening and dispense over the device distributed openings and / or random column of pressure medium particles contaminated cooling air. Also on output devices that have pressure fan and defined outlet openings for the standing under pressure cooling air, the Feinstaubabsaugeinrichtung invention is used. It can, in contrast to conventional filters, only the

Cover outlets of the output device, be designed so that it requires no changes to the output device and further does not hinder the cooling of the output device. The fine dust filter can be considered mechanical Filter be formed of porous filter material. It can be designed as a combination filter with a coarse dust filter.

Furthermore, it can be provided that the fine dust extraction device of the device device also reduces other fine dust components. In addition to output devices after a pressure medium particle printing process, such as

Laser printers and copiers include cigarette smoke, candles, cooking activities and vacuum cleaners without filters to the fine dust sources indoors. The 22nd Federal Immission Control Ordinance (BImSchV) of 11 September 2002 sets limit values for particulate matter, which are specified in parameter PM10 (P for Particulate Matter). The parameter ΡΜ ^ is a weighted parameter that determines the deposition behavior of the upper

Respiratory tract and in which particles with a diameter of 10 pm enter 50%. Since 2005, the annual mean value for PM1040 is pg / m ³ . The exhaust hood can be equipped with a fan. The fan can be arranged in a housing of the exhaust hood. But it can also be connected via a pipe or the like to the exhaust hood. The fan can be a fan with electric

Drive motor act.

Essential in the case of the device device according to the invention

provided Feinstaubabsaugeinrichtung is that they have an over the

Dispensing device arranged exhaust air hood, are arranged in the components of Feinstaubabsaugeinrichtung. The term exhaust hood is generally understood. It is essential that the exhaust hood a

Entrance portion having an opening to receive the exhaust air. It can be provided that the exhaust hood has an input section, downstream of which the fan housing is connected downstream. The fan housing may upstream of a covered by the particulate filter suction and downstream at least one outlet opening. The fan can be arranged in the ventilation housing between the fine dust filter and the outlet opening. The direction of flow of the sucked from the exhaust air is determined by the fan, which sucks the air to be cleaned, so that the flow direction from the suction opening of the fan to the

Outlet opening runs.

The inlet section may be located upstream of the particulate filter.

The fan housing may be upstream of one of the particulate matter filters

Covered intake and downstream have at least one outlet opening.

The exhaust hood may have an input portion which the

Output device is formed completely coverable. The opening cross-section of the exhaust hood may have substantially the same area and / or substantially the same surface contour compared to the layout of the output device. In order to allow a particularly practical access to the output device, it may be advantageously provided that the exhaust hood is mounted so that in the output mode of

Output device is lowered to the output device and has raised so far in the idle mode of the output device that the exhaust hood the

Output device is accessible.

Furthermore, it can be provided that an upstream of the fine dust filter arranged input section of the exhaust hood is funnel-shaped. The input portion may also be formed non-funnel-shaped, that is straight-walled, for example, as a parallelepiped or pipe socket with a round cross-sectional area without diverging to the opening section. As for the funnel-shaped training, this is also not on one

limited circular cross section of the input section or to a cross section with a constant geometric shape. It can also be one

For example, be provided rectangular in cross-section, in his

Dimensions towards the fan decreases. It can also be provided that the geometric shape of the cross section, for example, passes from a rectangle into a circle, in particular if the fan housing is a circular-cylindrical body. The rectangular cross-section may be preferred because of the predominantly rectangular cross-section

Output devices is optimally adapted. It can further be provided that the ionizer downstream behind the

Fan is arranged. The ionizer is a preferably high voltage device for ionizing the of the

Exhaust air duct cleaned room air. Through the ionizer can

Residual dust particles, which are still contained in the purified room air, are bound by liberated ions and deposited on the inner wall of the exhaust hood. Thus, the degree of purity of the filtered room air can be further improved. Further, the ionizer may be provided to neutralize odors. The ionizer generates negatively charged ions (anions), whereas stale ambient air mainly contains positively charged ions (cations). Because pollutants, bacteria and allergens are positively charged, they can combine with the anions and precipitate out of the room air. The anions can continue to trigger chemical reactions that lead to the degradation of odoriferous gases and / or aerosols. The Particulate matter suction can also be used as a room air purifier, preferably in the operating pauses of the output device. Particularly advantageous embodiments are obtained when the Feinstaubabsaugeinrichtung is designed as a piece of furniture, as described below.

In an advantageous embodiment it can be provided that the

Feinstaubabsaugeinrichtung a preferably tubular guide having an inlet opening and an outlet opening, wherein the

Inlet opening in the region of a ventilation outlet of the output device can be arranged and wherein the outlet opening above the top of the

 Output device opens, preferably in the coverage area of the exhaust hood. In preferred embodiments, the guide for

Output devices with lateral ventilation outlet be provided. For

Output devices with more than one lateral ventilation outlet may be provided with a guide for each ventilation outlet or a

 Guide with one of the number of ventilation outlets corresponding number of inlet openings.

It can be provided that the guide telescopically

is formed adjustable in length.

In a further advantageous embodiment it can be provided that the Feinstaubabsaugeinrichtung has a preferably L- or T-shaped base, wherein on the vertical leg of the L- or T-shaped

Stand the guide is arranged.

It can further be provided that the Feinstaubabsaugeinrichtung has a preferably L- or T-shaped base, wherein the vertical Leg of the base the exhaust hood is arranged. The above-mentioned advantages of the simplified assembly without tools also characterize this training of Feinstaubabsaugeinrichtung. In an advantageous embodiment, it can be provided that the vertical leg is formed telescopically adjustable in length. Thus, by the user in a simple way a height adjustment of

Fine dust extraction device to the height of the output device

be made. So even after an exchange of the output device against an output device with a different height dimension, the adjustment of

 Fine dust extraction device to the new output device very easily and with the least expenditure of time possible. In preferred embodiments, the exhaust hood can preferably be automatically controlled by a motor height adjustable.

It can further be provided that the fine dust extraction device has an L-shaped or T-shaped base whose horizontal leg forms a support surface for the output device. The horizontal leg may preferably be plate-shaped and forms a bearing surface for the output device. This advantageous embodiment is characterized in that the Feinstaubabsaugeinrichtung without assembly aids and without

Tool is mountable.

It can be provided that the exhaust hood is pivotally mounted on a fastener. The fastening element can preferably be mounted on the wall or on the ceiling or on a piece of furniture. Due to the pivotable arrangement, it is possible, for example, to optimally adapt the intake behavior to the local conditions. To visualize the Air flow can be used, for example, cigarette smoke.

In a further advantageous embodiment it can be provided that a sensor is arranged on the fine dust filter, which determines the degree of filling of the fine dust filter. The sensor may be a physical sensor or a measuring device. But it is also possible to provide a virtual sensor. The virtual sensor can be realized for example by the measurement and software evaluation of the motor current of the fan. The higher the degree of filling of the fine dust filter, the more work must be done

Promotion of flowing through the fine dust filter air are expended, d. H. the more the motor of the fan is loaded and the higher the motor current. The motor current rising over the period of use can thus be set in relation to the degree of filling of the fine dust filter. It can further be provided that the fine dust extraction device a

Having control device that provides a controlled by the sensor electrical power connector for the output device. This training of

Feinstaubabsaugeinrichtung is characterized in that the

Output device can be switched off automatically if the fine dust filter is added.

It can further be provided that the control device a

Network connection for a computer network has. In medium to larger offices, it is common for workstation computers and output devices to be connected to and form a computer network with a server. With the proposed solution, it is possible, for example, the

Fine dust extraction device to be integrated into the network and software means for signaling the proper functioning of the Fine dust extraction device, to issue the state of the particulate matter filter, etc. at each workstation and possibly to prevent the printout if there is a malfunction of Feinstaubabsaugeinrichtung. It can be provided that the control device in or on the

Exhaust hood is arranged.

In a further advantageous embodiment it can be provided that the fine dust filter is designed as a partial filter of a combination filter.

The combination filter may have a layered construction.

It can be provided that in the combination filter a coarse dust filter, the fine dust filter and an activated carbon filter are arranged one behind the other, wherein the activated carbon filter faces the fan.

It can further be provided that the fine dust filter or the

Combination filter is arranged interchangeable in the exhaust hood. It may further be provided that the exhaust hood can only be put into operation if a fine dust filter, in particular a functional fine dust filter used. In the simplest case, a micro-switch may be provided which is actuated by the fine dust filter or combination filter used and which closes the circuit of the fan motor. It can further be provided that the fine dust filter or the

Combination filter has a sealing lip. The sealing lip may preferably be provided as a circumferential sealing lip. In a further advantageous embodiment it can be provided that the fine dust filter or the combination filter has a first mold element which cooperates in a preferred position of the fine dust filter or the combination filter with a second mold element which is arranged on the exhaust hood. For example, the first form element may be larger

 External dimensions than the inner dimensions of the second set of formulas, for example, a receiving space for the particulate matter filter or combination filter, and be arranged on an end face of the particulate matter filter or combination filter as a circumferential collar. The first mold element and the second mold element act as control elements which correspond to each other in the correct installation position, preferably engage one another in a form-fitting complementary manner. In preferred embodiments, the first mold element as a recess and the second mold element as

complementary survey or vice versa trained.

Preferably, it can be provided that the mold element is the sealing lip.

It can also be provided that the shaped element is a groove,

preferably a circumferential groove.

The fine dust extraction device according to the invention can also advantageously be used for general air filtering. Thus, by using the

Fine dust extraction, for example, pollen be removed from the room air.

In preferred embodiments, it may be provided that the position of the exhaust hood relative to the output device is adjustable by motor or manually is trained.

It can be provided that the motor for adjusting the position is sensor-controlled.

In a further advantageous embodiment it can be provided that the Feinstaubabsaugeinrichtung is designed as a piece of furniture in which the output device and on or in which the fan is arranged. In this embodiment, the piece of furniture forms an exhaust fan at least partially enclosing the output device.

The piece of furniture may have a box-shaped housing in which the output device is arranged. It can be provided that the fan is arranged in a separate compartment of the piece of furniture or in a separate housing.

The piece of furniture can be designed as a cabinet wall or element of a cabinet wall.

Next, a Feinstaubabsaugeinrichtung for after a

A printing medium particle printing method operating output device, such as a printer, copier or fax machine, be provided, which is as described in the device described above, formed.

The invention will now be explained in more detail with reference to exemplary embodiments. Show it 1 shows a first embodiment of the device device in a schematic side view.

 Fig. 2 shows the device device in Fig. 1 in a schematic

 Sectional view along the section line II-II;

Fig. 3 shows a second embodiment of the bone device in one

 schematic sectional view;

 Fig. 4 shows a third embodiment of the device device in one

 schematic sectional view;

 Fig. 5 shows a fourth embodiment of the device device in one

 schematic side view;

 6 shows a fifth embodiment of the device device with integration into a computer network.

 Fig. 7 shows a sixth embodiment of the device device in a

 schematic side view;

Fig. 8a, 8b, a seventh embodiment of the device device in a

 schematic side view;

 Fig. 9 shows an eighth embodiment of the device device in one

 schematic sectional view;

 Fig. 10a is a detail of a combination filter in Fig. 9;

10b shows a second embodiment of the combination filter in FIG

 Fig. 10a;

 11a shows a ninth embodiment of the device device in one

 schematic sectional view;

FIG. 11 b shows the device device in FIG. 1 a in a side view; FIG. 12a shows a tenth embodiment of the device device in one

 schematic sectional view;

FIG. 12b shows the device device in FIG. 12a in a side view; FIG.

13 shows the device device in Fig. 11b in a modified

 Execution.

Figs. 1 and 2 show a device device having a

Feinstaubabsaugeinrichtung 1 and one operating on the toner particle printing method output device 2 comprises. Toner consists of 5 to 30 m particles. It is composed of synthetic resin, pigments, magnetisable metal oxides and auxiliaries. The fine particles that make up the toner are so small that they can pass unhindered the function of filtering and protecting the lungs and thus enter the body. The output device 2 may be, for example, a laser printer which is connected directly or via a computer network to a

Workstation computer is connected (not shown in Fig. 1). The very fine particles of the toner can partly reach the exhaust air of the output device 2 and thereby contaminate the room air.

The fine dust extraction device 1 has an exhaust hood 11, which is arranged above the output device 2. In that shown in Figs. 1 and 2

Embodiment, the exhaust hood 11 is pivotally attached to a ceiling 3 of a working space. Between a rigidly connected to the ceiling 3 mounting plate and the exhaust hood 11 is formed with a locking device arranged ball joint, so that the exhaust hood 11 is pivotally mounted about two spatial axes. The exhaust hood 11 has a fan 1 11 with a fan housing 11 1g, the upstream one of a fine dust filter 1 11f covered

Suction and downstream slot-shaped outlet openings 1 11a has. The fan 111 has a driven by an electric fan motor 11 1 m fan 1 111, which promotes an air flow, which is directed from the suction port to the outlet openings 111a and further generates a negative pressure in front of the suction port of the exhaust hood 1 1. Instead of the slot-shaped outlet openings can also be one or more

preferably nozzle-shaped outlet openings can be provided, which make it possible to collect the exiting the exhaust hood cleaned exhaust air and selectively divert at a suitable location. It may, for example, a coaxially arranged outlet opening in the upper end portion of

Exhaust hood act, which merges into an exhaust pipe. The exhaust pipe can be formed, for example, at the same time as a suspension for the exhaust hood.

The fine dust filter 111f may preferably be designed for depositing particles in the size range from 1 to 10 μm. The fine dust filter 111f may further comprise a circumferential sealing lip, which on the one hand prevents particles to be filtered pass the fine dust filter into the exhaust hood 11 and then be released back to the room air, and on the other hand acts as a twist protection, so that the fine dust filter 111f only in one Preferred position can be used in the exhaust hood.

The output device 2 has in that shown in Figs. 1 and 2

Embodiment a side vent outlet 21 (see Fig. 2), from the inside of the output device 2 heated cooling air exits, with Toner particles may be loaded. For effective deflection of the discharged cooling air, a tubular guide 12 is provided which a

Inlet opening 12 e and an outlet opening 12 a, wherein the

Inlet opening 12 e is disposed in front of the vent outlet 21 of the dispenser 2 and wherein the outlet opening 12 a opens above the top of the dispenser 2.

The guide 12 is disposed on the vertical leg of an L-shaped stand 13, wherein the horizontal leg a

Support surface for the output device 2 forms. The base 13 rests on a footprint 4, which may be, for example, the surface of a table. The base 13 is thus clamped between the bottom or feet of the output device 2 and the footprint 4. The loaded with toner particles and under pressure cooling air of the output device 2 exits from the vent outlet 21 and in the

Inlet 12e of the guide 12, is deflected in the guide and exits from the outlet opening 12a of the guide 12 on the top of the output device again and then enters the

Intake area of the exhaust hood 11. The funnel-shaped inlet section 11e of the exhaust hood 11 covers an area which is larger than the base area of the dispenser 2. In that shown in Figures 1 and 2

Embodiment is the funnel-shaped input portion 11 e of

Exhaust hood 11 is formed as a truncated cone. But it is also possible to train him, for example, as a truncated pyramid. The toner particles contained in the cooling air emitted by the output device 2 are deposited in the fine dust filter 111f, in addition to other dust-like admixtures of the air sucked into the exhaust hood 11. The cleaned air leaves the exhaust hood 11 through the outlet openings 111a in the fan housing 111g. Beforehand, the cleaned air is loaded with the waste heat of the fan motor 111m.

The air movements are schematically highlighted in Figs. 1 and 2 by arrows.

Fig. 3 shows a second embodiment of the device device, which differs from the embodiment shown in FIGS. 1 and 2 essentially in that the exhaust hood 11 is not arranged on the ceiling of a working space, but on the base 13. The vertical leg of the base 13 is formed telescopically adjustable in length and is in its upper end portion with a pivotable

Bracket 13s articulated. The arranged between the base 13 and the pivot arm 13s pivot is formed by a clamping device, not shown in FIG. 3 clamped. At the free

 End portion of the mounting arm 13 s, the exhaust hood 11 is arranged. Between the mounting arm 13 s and the exhaust hood 11, a ball joint formed with a locking device is arranged, so that the

Exhaust hood 11 is pivotally mounted on the pivot arm 13s about two spatial axes. Instead of the pivotable mounting arm 13s may also be provided a rigidly connected to the base 13 mounting arm, wherein the pivotability of the exhaust hood is obtained by the arranged between the mounting arm and the exhaust hood 11 ball joint. In contrast to the embodiment described in FIGS. 1 and 2, the guide 12 is formed height adjustable. On the one hand is by a rigidly connected to the guide 12 vertically adjustable

Clamping device 12k the inlet opening 12e of the guide 12 to the Ventilation outlet 21 of the dispenser 2 opposite positioned, and on the other hand is by a telescopic formation of the upper portion of the guide 12, the height position of the outlet opening 12 a of

Guide 12 adjustable. The clamping device 12 k surrounds the telescopic vertical leg of the base 13, wherein the

Operation of the clamping device 12k a clamping screw is provided.

Fig. 4 shows a third embodiment of the device device. The apparatus shown in FIG. 4 is like the one shown in FIG. 3

Device device described with the difference that no guide is provided because the output device 2 has no laterally disposed outlet opening for cooling air. Rather, the cooling air is discharged at the top of the output device 2 and therefore enters directly into the arranged above the output device 2 exhaust hood 11 and is freed from toner particles and other dust particles.

5 shows a fourth exemplary embodiment of the device device, in which the exhaust hood 11 is arranged on a fastening arm 11b rigidly fastened to a room or furniture wall 5. The exhaust hood 11 engages with the fan 111 an annular clamping device 11k, which is connected via a lockable ball joint with the free end portion of the mounting arm 11b. But it can also be provided that is dispensed to the clamping device 11k and the exhaust hood 11 is connected directly to the ball joint. The output device 2 is arranged on a footprint, which may be a table surface, a shelf or a room floor.

Fig. 6 shows a fifth embodiment of the Feinstaubabsaugeinrichtung. The fine dust extraction device 1 is designed like the fine dust extraction device described above in FIG. 4, with the difference that a sensor 111s, which determines the loading state of the fine dust filter 111f, is arranged on the fine dust filter 111f. The sensor 111s may, for example, be a flow sensor or a measuring device for determining the flow or the flow resistance through the fine dust filter 111f. The sensor 111s is electrically connected to a signal input of a control device 14. The control device 14 has hardware-side and / or software-side means for evaluating the sensor signal. In the embodiment shown in FIG. 6, the control device 14 is furthermore connected to a server 15 of a computer network to which the workstation computer 16 is connected. The

Output device 2 is also integrated in the computer network.

The control device 14 prepares the sensor signal of the sensor 111s such that it outputs an error message on the workstation computers with the aid of monitoring software if the fine dust filter 11f is added and / or the fan 111 is not in operation. It may further be provided that a warning message is already issued before, for example, if the absorption capacity of the particulate matter filter 111f is only 10% of the desired value. Furthermore, the control device 14 may have a switchable socket for the output device 2, so that the output device 2 is put out of operation as soon as a set limit for the degree of filling of the

Fine dust filter 111f is exceeded. It can also be provided that

Output device 2 software to put out of service, as soon as a set limit for the degree of filling of the particulate matter filter 111f is exceeded or no longer accept print jobs for the output device 2, for example the fine dust filter 111f is replaced.

The control device 14 may be an independent display device

have, which outputs optical and / or acoustic signals that provides information about the loading state of the particulate matter filter 111f.

Furthermore, the control device 14 may be designed for a time-dependent programming, for example for determining operating times or for measuring and / or displaying the operating time of the fine dust filter 111f, possibly also the cumulative operating time.

It may further be provided that the exhaust hood 1 as well

Room air filter is operated, regardless of whether the output device is in operation, so that in addition to toner particles and other particulate matter from the room air are removed, such as pollen.

Fig. 7 shows a further embodiment, wherein the

Feinstaubabsaugeinrichtung 1 is constructed as the Feinstaubabsaugeinrichtung described above in Fig. 4, with the difference that instead of the base 13, a console device 13k is provided which is rigidly connected to the output device 2. The console device 13k may be, for example, an accessory of the output device 2. The console device 3k may be connected, for example, by means of screw connections to the output device 2 or inserted into groove recesses in the housing of the output device 2 and secured, for example, by a so-called snap-in connection.

FIGS. 8a and 8b show a fine dust extraction device 1 with a Exhaust hood 1 1, which has a frusto-conical or truncated pyramidal upper portion, which merges into a cylindrical or cuboidal section whose internal clearances are selected so that the

Output device 2 of the exhaust hood 1 1 can be covered. The exhaust hood 11 is mounted vertically adjustable via a telescopic device 13t on a ceiling 3 of a working space.

The exhaust hood 11 may preferably be integrated in a computer network, as described above in FIG. 6 and be controllable on the software side. In particular, the length of the telescope device 13t can be controlled by the software. In the in Fig. 8a and 8b schematically shown

Telescope device may be, for example, a by a

Electric motor driven mechanical transmission act, for example, a rack and pinion gear, or a hydraulic or

pneumatic actuating cylinder.

Fig. 8a shows the exhaust hood 11 in the shut down position, in which the output device 2 is covered by the exhaust hood 11, the exhaust hood is in operation and the output device 2 is in the output mode. The output device 2 is completely shielded from the ambient air, so that no toner particles can get into the ambient air.

Fig. 8b shows the exhaust hood in the raised position, in which the

Output device 2 is not covered by the exhaust hood 11 and therefore is freely accessible and the output device 2 is not in the output mode. It can be provided that the exhaust hood despite the idle operation of the

Output device 2 is still in operation, so room air continues to suck and filter. This makes it possible to clean the room air when the output device 2 is not in the output mode, it being possible, for example, to purify the air from other admixtures, such as bee pollen and other fine dusts that can trigger allergies. FIGS. 9 and 10 show another embodiment of the invention

 Appliance device, which differs from the exemplary embodiment described above in FIG. 3 in that, instead of the fine dust filter 111f, a combination filter 111k is arranged in the exhaust hood 11 and that an ionizer 111i is furthermore arranged downstream of the fan wheel 1111. The ionizer is a device for ionizing the cleaned of the exhaust hood 11 room air. By means of the ionizer 111i, residual dust particles which are still contained in the purified room air can be bound by liberated ions and precipitated on the inner wall of the exhaust hood 11. Thus, the intended ionizer 111i the

Further improve the purity of the filtered room air. Further, the ionizer 111i can neutralize odors.

The ionizer 111 i generates negatively charged ions (anions), whereas stale ambient air mainly contains positively charged ions (cations). Because pollutants, bacteria and allergens are positively charged, they can combine with the anions and precipitate out of the room air. The anions can continue to trigger chemical reactions that lead to the degradation of odoriferous gases and / or aerosols. 10a shows the structure of the combination filter 111k in a schematic sectional representation. The combination filter 111k has a multilayer structure. In the direction of flow, a fine dust filter 111kg is followed by the fine dust filter 111f and an activated carbon filter 111 ka. The activated carbon filter is 111 ka facing the fan 1111, ie downstream of the fine dust filter 11 1f arranged. The coarse dust filter 111 kg is upstream of the

Fine dust filter 111f arranged. The coarse dust filter 11 1 kg filters out coarse dust particles which could cause fine dust filter 1 11f. The activated carbon filter 111 ka is provided to bind odor-forming gases and / or aerosols.

The combination filter 11 1 k has a filter housing with a

Control recess 111 ku and a front-side circumferential sealing lip 111 kl on. The control recess 11 1 ku acts together with a mounted in the exhaust hood 11 combination filter 1 11 k with a control survey of the exhaust hood 11 together. The control recess 111ku and the control elevation form a first and a second mold element which cooperate in a preferred position of the combination filter 111k forming the correct mounting position and prevent the combination filter 111k from being mounted incorrectly.

Fig. 10b shows a modified embodiment of the above-described combination filter 111 k, in which a circumferential groove 1111 kn is provided to ensure the correct installation position of the combination filter 11 1 k and / or to avoid confusion with other filter designs.

The embodiments shown in FIGS. 1 to 8 have no ionizers. They are therefore not covered by the claims of the present application. It should be noted, however, that modified

Embodiments of FIGS. 1 to 8 are provided which are equipped according to the patent with an ionizer 111 i. The ionizer can be designed and arranged in these embodiments comparable to the embodiment in FIG. 9. It should also be noted that in the embodiments of Figs. 1 to 8 and Similarly, in the modified embodiments having an ionizer 111 i, the filter 111 f may also be formed as a combination filter 111 k with a configuration and arrangement as described for the embodiments of Fig. 9 and Figs. 10a and 10b.

Figs. 11 to 13 show embodiments in which the

Fine dust extraction device is integrated in a piece of furniture.

11a and 11b show an office furniture, which is designed as a cuboid housing. The housing is open at its front. By doing

Interior of the box-shaped housing 6 is the output device. 2

arranged. The output device 2 may, in order to facilitate the operation of the output device, be arranged on a bottom, horizontally extendable Ausschub. The extract is not shown in Fig. 11a and 11b. The box-shaped housing 6 has in its cover plate on a passage opening through which the above, z. B. in connection with Fig. 9, fan 111 is arranged with its suction port. The fan device 111 has, as can be seen in FIGS. 11 a and 11 b, a fan housing in which a

Fan 1111 and a fan motor 111m are arranged. The fan is preceded by a combination filter 111k. The fan or the

Fan motor downstream is an ionizer 111i. The fan device 111 forms the suction hood of Feinstaubabsaugeinrichtung in this embodiment. As can be seen from FIGS. 11a and 11b, this is a cuboid body whose bottom-side inlet section is designed as an opening in the cover plate. The fan device 111 is arranged in the illustrated embodiment in the rear portion of the cover plate of the office furniture 6, so that the front portion of the cover plate usable as a shelf is. In the operating pauses of the output device 2, the fan 111 can be used as a room air purifier.

Figs. 12a and 12b show an office furniture 6 which, like the office furniture described above in Figs. 11a and 11b, is formed with a box-shaped housing. The difference with respect to FIGS. 11 a, 11 b is that the fan device 111 is arranged in a compartment 6 a arranged above the box-shaped housing of the dispenser 2. The compartment 6a is also formed as a cuboid box. The compartment 6a is formed in the floor plan in alignment with the box housing 6 arranged underneath. At the front, the compartment 6a may have an open or, as shown in Fig. 12a, a door, which is formed in the illustrated case as a flap 6k. In the illustrated case in FIG. 12a, a passage opening for the cleaned exhaust air is provided on the rear side.

Fig. 13 shows an office furniture 6, which is constructed like the office furniture described above in Figs. 11a and 11b, with the difference that a

Side wall of the box-shaped housing 6a is formed hinged, so that an improved access to the output device 2 is provided.

LIST OF REFERENCE NUMBERS

1 fine dust extraction device

2 output device

 3 room ceiling

 4 footprint

 5 room or furniture wall

6 office furniture

 11 exhaust hood

 11b mounting arm

 11e entrance section

 11k clamping device

 111 fans

 12 guide device

 12a outlet opening

 12e inlet

 12k clamping device

 13 base

 13k console device

 13s swiveling mounting arm

13t telescope device

 14 control device

 15 servers

 16 workstation computers

 21 air outlet

 111a outlet opening

 111f fine dust filter

111 i Ionizer 111k combination filter 111ka activated carbon filter 111kl sealing lip

111 kg Coarse dust filter 111 kn. Circumferential groove 111 ku Control recess 1111 Fan wheel

111m fan motor

111g fan housing 111s sensor

Claims

claims

Device device with a printing device (2) operating according to the printing-agent particle printing method, such as a printer, copier or fax machine, and a fine dust extraction device (1) arranged above the output device (2),

 being provided

 - That the Feinstaubabsaugeinrichtung (1) over the output device (2) can be arranged, equipped with a fine dust filter (111f) exhaust hood (11),

 - That the exhaust hood (11) has a fan (111) which is arranged in a fan housing (11g) formed portion of the exhaust hood (11), and

 - That in the exhaust hood (11), an ionizer (111 i) is arranged.

Device device according to claim 1,

 characterized,

 the exhaust air hood (11) has an inlet section downstream of which the fan housing (111g) is connected downstream.

Device device according to claim 2,

characterized, the inlet section is arranged upstream of the fine dust filter (111f).

Device device according to one of the preceding claims, characterized

that the fan housing (111g) upstream of one of the

Fine dust filter (1 11f) covered intake and downstream has at least one outlet opening.

Device device according to one of the preceding claims, characterized

the exhaust air hood (11) has an inlet section, to which the output device (2) is designed to be completely coverable.

Device device according to one of the preceding claims, characterized

that the ionizer (111 i) downstream behind the fan (111)

is arranged.

Device device according to one of the preceding claims, characterized

that the Feinstaubabsaugeinnchtung (1) a preferably tubular guide (12) having an inlet opening (12e) and a

The outlet opening (12a), wherein the inlet opening (12e) in the region of a ventilation outlet (21) of the output device (2) can be arranged and wherein the outlet opening above the top of the output device (2) opens. Device device according to claim 7,

characterized,

the guide device (12) is telescopically adjustable in length.

Device device according to one of claims 7 or 8,

characterized,

in that the fine dust extraction device (1) has a preferably L- or T-shaped base (13), wherein the guide device (12) is arranged on the vertical leg of the base.

Device device according to one of the preceding claims, characterized

in that the fine dust extraction device (1) has a preferably L- or T-shaped pedestal (13), wherein the exhaust air hood (11) is arranged on the vertical leg of the pedestal (13).

Fine dust extraction device according to claim 9 or 10,

characterized,

that the vertical leg is formed telescopically adjustable in length.

Device device according to one of the preceding claims, characterized

that the Feinstaubabsaugeinrichtung (1) has an L-shaped or T-shaped base (13), the horizontal leg of a

Support surface for the output device (2) forms.

13. Device device according to one of the preceding claims, characterized

 the exhaust air hood (11) is pivotably arranged on a fastening element.

14. Device device according to one of the preceding claims,

 characterized,

 in that a sensor (111s) which determines the degree of filling of the fine dust filter (111f) is arranged on the fine dust filter (111f).

15. Device device according to claim 14,

 characterized,

 the fine dust extraction device (1) has a control device (14) which provides an electrical power connection for the output device (2) controlled by the sensor (111s).

16. Device device according to claim 15,

 characterized,

 the control device (14) has a network connection for

 Computer network has.

17. fine dust extraction device according to claim 15 or 16,

 characterized,

 the control device (14) is arranged in or on the exhaust hood (11).

18. Device device according to one of the preceding claims,

characterized, in that the fine dust filter (111f) is designed as a partial filter of a combination filter (111k).

Device device according to claim 18,

characterized,

the combination filter (111k) has a layered construction.

Device device according to claim 19,

characterized,

in that in the combination filter (111k) a coarse dust filter (111kg), the fine dust filter (111f) and an activated carbon filter (111ka) are arranged one behind the other, wherein the activated carbon filter (111 ka) facing the fan (111).

Device device according to one of the preceding claims, characterized

in that the fine dust filter (111f) or the combination filter (111k) is arranged exchangeably in the exhaust hood (11).

Device device according to claim 21,

characterized,

in that the fine dust filter (111f) or the combination filter (111k) has a sealing lip.

Device device according to claim 21 or 22,

characterized,

in that the fine dust filter (111f) or the combination filter (111k) has a first shaping element which, in a preferred position of the Fine dust filter (111f) or the combination filter (111k) cooperates with a second mold element which is arranged on the exhaust hood (11).

Device device according to claim 22 and 23,

characterized,

that the shaped element is the sealing lip.

Device device according to claim 23 or 24,

characterized,

that the mold element is a circumferential groove (111ks).

Device device according to one of the preceding

Claims,

characterized,

the position of the exhaust hood (11) relative to the output device (2) is designed to be adjustable by motor or manually.

Device device according to claim 26,

characterized,

that the motor for setting the position is sensor-controlled.

Device device according to one of the preceding claims, characterized

in that the device device is designed as a piece of furniture (6) in which the output device (2) and on or in which the fan (111) is arranged.

29. Device device according to claim 28,

 characterized,

 in that the piece of furniture has a box-shaped housing (6) in which the output device is arranged.

30. Device device according to claim 28 or 29,

 characterized,

 that the fan (11) is arranged in a separate compartment of the piece of furniture or in a separate housing.

31. Device device according to one of claims 28 to 30,

 characterized,

 that the piece of furniture (6) is designed as a cabinet wall or element of a wall unit.

32. fine dust extraction device for a pressure medium particle printing method using output device (2), such as a printer, copier or fax machine,

 characterized,

 that the Feinstaubabsaugeinrichtung is formed as in the

Device device according to one of the preceding claims is provided.